Information on EC 2.4.1.207 -

Information on EC 2.4.1.207 - xyloglucan:xyloglucosyl transferase:

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EC NUMBER	COMMENTARY
2.4.1.207	-

RECOMMENDED NAME	GeneOntology No.
xyloglucan:xyloglucosyl transferase	GO:0080039

REACTION	REACTION DIAGRAM	COMMENTARY	ORGANISM	UNIPROT ACCESSION NO.	LITERATURE
breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan		-	-	-	-
breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan		transglycosylic mechanism, i.e. random splitting of the beta-1,4-linked polyglucose backbone of xyloglucan molecules and rejoining the newly created reducing ends by beta-1,4 glycosidic bonds to nonreducing ends of other xyloglucan molecules or xyloglucan subunit oligosaccharides	Lens culinaris, Phaseolus vulgaris, Pisum sativum, Tamarindus indica, Tropaeolum majus	-	636823
breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan		sequential mechanism	Populus alba	-	636825
breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan		ping-pong bi bi reaction mechanism; transglycosylic mechanism, i.e. random splitting of the beta-1,4-linked polyglucose backbone of xyloglucan molecules and rejoining the newly created reducing ends by beta-1,4 glycosidic bonds to nonreducing ends of other xyloglucan molecules or xyloglucan subunit oligosaccharides	Tropaeolum majus	-	636829
breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan		reaction mechanism	Pisum sativum, Tropaeolum majus	-	636831
breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan		double-displacement reaction mechanism	Tropaeolum majus	-	636837
breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan		enzyme possesss the catalytic sequence motif EIDFE conserved in the glycosyl hydrolase family 16	Brassica oleracea var. botrytis	Q6YDN9	657834
breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan		the enzyme contains a catalytic sequence motif conserved in the glycosyl hydrolase family 16	Populus tremula x Populus tremuloides	-	657870
breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan		substrate binding and catalytic mechanism, active site structure, structure-function study	Populus tremula x Populus tremuloides	-	660130
breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan		determination of cleavage sites within the donor substrate of isozymes	Tropaeolum majus	-	660266

REACTION TYPE	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE
transglycosylation	Selaginella kraussiana	Q1XD17	-	677562
transglycosylation	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	; ; ; ; ; ; ; ; ; ; ;	680320
transglycosylation	Zea mays	Q5JZX2	-	681144
transglycosylation	Arabidopsis thaliana	Q9ZV40	-	682473
transglycosylation	Dianthus caryophyllus	-	-	692626
transglycosylation	Populus tremula x Populus tremuloides	-	-	693104, 693105, 694512
transglycosylation	Coleochaete scutata, Equisetum arvense, Equisetum fluviatile, Equisetum hyemale, Equisetum scirpoides, Equisetum telmateia, Equisetum variegatum	-	-	694679
transglycosylation	Dimocarpus longan	-	-	694757
transglycosylation	Phaseolus vulgaris	-	-	694769
transglycosylation	-	-	endotransglycosylation, a xyloglucan chain is cleaved and transferred to another acceptor chain; idling reaction	-

PATHWAY	KEGG Link	MetaCyc Link
No entries in this field

SYSTEMATIC NAME	IUBMB Comments
xyloglucan:xyloglucan xyloglucanotransferase	Does not use cello-oligosaccharides as either donor or acceptor.

SYNONYMS	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE
AtXTH21	Arabidopsis thaliana	Q9ZV40	-	682473
AtXTH24	Arabidopsis thaliana	P24806	-	694774
BR1	Solanum lycopersicum	Q40144, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	isozyme	699806
BXET	Betula pendula	-	-	674988
DcXET1	Dianthus caryophyllus	-	-	692626
DcXET2	Dianthus caryophyllus	-	-	692626
DlXET1	Dimocarpus longan	-	-	694757
DlXET2	Dimocarpus longan	-	-	694757
DlXET3	Dimocarpus longan	-	-	694757
endo-transglycosylase	Populus tremula x Populus tremuloides	-	-	676433
endo-xyloglucan transferase	-	-	-	-
endo-xyloglucanase	Tropaeolum majus	-	-	701134
endoxyloglucan transferase	-	-	-	-
endoxyloglucan transferase	Actinidia chinensis	C0IRH0, C0IRH3	;	706468
endoxyloglucan transferase	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	-	706468
endoxyloglucan transferase	Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	-	706468
endoxyloglucan transferase	Actinidia hemsleyana	C0IRG8	-	706468
endoxyloglucan transferase	Actinidia setosa	C0IRG1	-	706468
endoxyloglucan transferase	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	-	706468
EXGT	-	-	-	-
EXGT	Actinidia chinensis	C0IRH0, C0IRH3	;	706468
EXGT	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	-	706468
EXGT	Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	-	706468
EXGT	Actinidia hemsleyana	C0IRG8	-	706468
EXGT	Actinidia setosa	C0IRG1	-	706468
EXGT	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	-	706468
EXT	-	-	-	-
GenBank L46792-derived protein GI 950299	-	-	-	-
GenBank X93173-derived protein GI 1890573	-	-	-	-
GenBank X93174-derived protein GI 1890575	-	-	-	-
Genbank X93175-derived protein GI 1890577	-	-	-	-
GenBank Z97335-derived protein GI	-	-	-	-
group 3 XTH	Solanum lycopersicum	-	-	670560
GXET	Gerbera hybrid cultivar	-	-	674988
mixed-linkage beta-glucan:xyloglucan endotransglucosylase	Coleochaete scutata, Equisetum arvense, Equisetum fluviatile, Equisetum hyemale, Equisetum scirpoides, Equisetum telmateia, Equisetum variegatum	-	-	694679
MXE	Coleochaete scutata, Equisetum arvense, Equisetum fluviatile, Equisetum hyemale, Equisetum scirpoides, Equisetum telmateia, Equisetum variegatum	-	-	694679
NXET	-	-	-	-
NXG1	Tropaeolum majus	-	-	701134
PttXET	Populus tremula x Populus tremuloides	-	-	694512
PttXET16-34	Populus tremula x Populus tremuloides	-	-	694512
PttXET16A	Populus tremula x Populus tremuloides	-	-	671858, 694512
SkXTH1	Selaginella kraussiana	Q1XD17	-	677562
SlXTH1	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	-	680320
SlXTH10	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	-	680320
SlXTH11	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	-	680320
SlXTH12	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	-	680320
SlXTH2	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	-	680320
SlXTH3	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	-	680320
SlXTH4	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	-	680320
SlXTH5	Solanum lycopersicum	-	-	670560, 680320
SlXTH6	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	-	680320
SlXTH7	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	-	680320
SlXTH8	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	-	680320
SlXTH9	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	-	680320
XET	-	-	-	-
XET	Brassica oleracea var. botrytis	Q6YDN9	-	657834
XET	Tropaeolum majus	-	-	660266, 701134
XET	Brassica oleracea	-	-	660311
XET	Populus tremula x Populus tremuloides	-	-	671392, 671858, 693104, 693105
XET	Oryza sativa	-	-	675122
XET	Selaginella kraussiana	Q1XD17	-	677562
XET	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	-	680320
XET	Arabidopsis thaliana	-	-	682473, 694774, 704884
XET	Dianthus caryophyllus	-	-	692626
XET	Dimocarpus longan	-	-	694757
XET	Phaseolus vulgaris	-	-	694769
XET	Gossypium arboreum	-	-	699805
XET	Gossypium hirsutum	Q7Y252	-	699805
XET	Gossypium raimondii	-	-	699805
XET	Solanum lycopersicum	Q40144, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	-	699806
XET	Hordeum vulgare	B1P1S7, P93668	-	703656
XET	Actinidia chinensis	C0IRH0, C0IRH3	;	706468
XET	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	-	706468
XET	Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	-	706468
XET	Actinidia hemsleyana	C0IRG8	-	706468
XET	Actinidia setosa	C0IRG1	-	706468
XET	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	-	706468
XET(6.3)	Tropaeolum majus	-	major enzyme form, XET(6.3) is classified into group II of the XTH phylogeny of glycoside hydrolase family GH16	706280
XET/XTH	Populus tremula x Populus tremuloides	-	-	676473
XET16-34	Populus tremula x Populus tremuloides	-	-	676433
XET16A	Populus tremula x Populus tremuloides	-	-	657870, 660130, 672509
XET3	Hordeum vulgare	B1P1S7, P93671, P93672	isozyme	701937
XET4	Hordeum vulgare	B1P1S7, P93671, P93672	isozyme	701937
XET5	Hordeum vulgare	-	-	674794
XET5	Hordeum vulgare	B1P1S7, P93668	isozyme	703656
XET6	Hordeum vulgare	-	isozyme	701937, 703656
XTH	-	-	-	636837
XTH	Vigna angularis	-	-	660149
XTH	Oryza sativa	Q5Z6G7, Q5Z6H1, Q5Z6H3, Q6ZAN9, Q763W5, Q76BW5, Q8VWG5	-	660231
XTH	Cicer arietinum	O65734	-	670606
XTH	Sagittaria pygmaea	-	-	671337
XTH	Selaginella kraussiana	-	-	676397, 677562
XTH	Arabidopsis thaliana	-	-	676459, 682473, 704884
XTH	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	-	680320
XTH	Hordeum vulgare	B1P1S7, P93671, P93672	-	701937
XTH	Tropaeolum majus	-	-	706280
XTH/XET	Tropaeolum majus	-	-	660274, 672932
XTH/XET	Allium ampeloprasum, Cucumis sativus, Daucus carota, Lactuca sativa ssp. capitata, Piper sp., Pisum sativum	-	-	660274
XTH/XET	Lotus japonicus	-	-	674963
XTH1	Medicago truncatula	-	-	668722
XTH1	Cicer arietinum	-	-	675146
XTH1	Vigna radiata	Q5MB21	-	676341
XTH1	Apium graveolens	-	-	676443
XTH1	Brassica rapa subsp. campestris	Q5MD55	-	676712
XTH1	Gossypium arboreum	-	isozyme	699805
XTH1	Gossypium hirsutum	Q7Y252	isozyme	699805
XTH1	Gossypium raimondii	-	isozyme	699805
XTH1	Solanum lycopersicum	Q40144, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	isozyme	699806
XTH1	Tropaeolum majus	-	shows both transglycosylase and hydrolase activities when assayed in vitro (depending on the substrates), however, in planta the enzyme acts only as a hydrolase to degrade storage xyloglucan	701702
XTH1	Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	isozyme	706468
XTH1	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	isozyme	706468
XTH10	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	isozyme	706468
XTH10	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	isozyme	706468
XTH11	Actinidia chinensis	C0IRH0, C0IRH3	isozyme	706468
XTH11	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	isozyme	706468
XTH12	Solanum lycopersicum	Q40144, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	isozyme	699806
XTH12	Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	isozyme	706468
XTH13	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	isozyme	706468
XTH14	Arabidopsis thaliana	-	isozyme	704884
XTH14	Actinidia chinensis	C0IRH0, C0IRH3	isozyme	706468
XTH2	Solanum lycopersicum	Q40144, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	isozyme	699806
XTH2	Actinidia setosa	C0IRG1	isozyme	706468
XTH2	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	isozyme	706468
XTH24	Arabidopsis thaliana	P24806	-	694774
XTH26	Arabidopsis thaliana	-	isozyme	704884
XTH28	Arabidopsis thaliana	Q38909	-	700720
XTH3	Capsicum annuum	-	-	673649
XTH3	Solanum lycopersicum	Q40144, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	isozyme	699806
XTH3	Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	isozyme	706468
XTH3	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	isozyme	706468
XTH33	Arabidopsis thaliana	-	-	676443
XTH4	Solanum lycopersicum	Q40144, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	isozyme	699806
XTH4	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	isozyme	706468
XTH4	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	isozyme	706468
XTH5	Solanum lycopersicum	Q40144, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	isozyme	699806
XTH5	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	isozyme	706468
XTH5	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	isozyme	706468
XTH6	Solanum lycopersicum	Q40144, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	isozyme	699806
XTH6	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	isozyme	706468
XTH6	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	isozyme	706468
XTH7	Solanum lycopersicum	Q40144, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	isozyme	699806
XTH7	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	isozyme	706468
XTH7	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	isozyme	706468
XTH8	Solanum lycopersicum	Q40144, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	isozyme	699806
XTH8	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	isozyme	706468
XTH8	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	isozyme	706468
XTH9	Solanum lycopersicum	Q40144, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	isozyme	699806
XTH9	Actinidia hemsleyana	C0IRG8	isozyme	706468
XTH9	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	isozyme	706468
xyloglucan endo-transglucosylase	Hordeum vulgare	-	-	674794
xyloglucan endo-transglycosylase	Tropaeolum majus	-	-	660266, 701134
xyloglucan endo-transglycosylase	Populus tremula x Populus tremuloides	-	-	693104, 693105, 694512
xyloglucan endo-transglycosylase/xyloglucan endo-transglycosylase/hydrolase	Populus tremula x Populus tremuloides	-	-	676473
xyloglucan endotransglucosylase	Vigna angularis	-	-	660149
xyloglucan endotransglucosylase	Brassica oleracea	-	-	660311
xyloglucan endotransglucosylase	Selaginella kraussiana	Q1XD17	-	677562
xyloglucan endotransglucosylase	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	-	680320
xyloglucan endotransglucosylase	Dianthus caryophyllus	-	-	692626
xyloglucan endotransglucosylase	Phaseolus vulgaris	-	-	694769
xyloglucan endotransglucosylase	Arabidopsis thaliana	P24806	-	694774
xyloglucan endotransglucosylase	Solanum lycopersicum	Q40144, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	-	699806
xyloglucan endotransglucosylase 16A	Populus tremula x Populus tremuloides	-	-	660130
xyloglucan endotransglucosylase/endohydrolase	Selaginella kraussiana	Q1XD17	-	677562
xyloglucan endotransglucosylase/hydrolase	Oryza sativa	Q5Z6G7, Q5Z6H1, Q5Z6H3, Q6ZAN9, Q763W5, Q76BW5, Q8VWG5	-	660231
xyloglucan endotransglucosylase/hydrolase	Medicago truncatula	-	-	668722
xyloglucan endotransglucosylase/hydrolase	Solanum lycopersicum	-	-	670560
xyloglucan endotransglucosylase/hydrolase	Cicer arietinum	-	-	670606, 675146
xyloglucan endotransglucosylase/hydrolase	Sagittaria pygmaea	-	-	671337
xyloglucan endotransglucosylase/hydrolase	Capsicum annuum	-	-	673649
xyloglucan endotransglucosylase/hydrolase	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	-	680320
xyloglucan endotransglucosylase/hydrolase	Zea mays	Q5JZX2	-	681144
xyloglucan endotransglucosylase/hydrolase	Arabidopsis thaliana	-	-	682473, 700720, 704884
xyloglucan endotransglucosylase/hydrolase	Solanum lycopersicum	Q40144, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	-	699806
xyloglucan endotransglucosylase/hydrolase	Tropaeolum majus	-	-	701702
xyloglucan endotransglucosylase/hydrolase	Actinidia chinensis	C0IRH0, C0IRH3	;	706468
xyloglucan endotransglucosylase/hydrolase	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	-	706468
xyloglucan endotransglucosylase/hydrolase	Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	-	706468
xyloglucan endotransglucosylase/hydrolase	Actinidia hemsleyana	C0IRG8	-	706468
xyloglucan endotransglucosylase/hydrolase	Actinidia setosa	C0IRG1	-	706468
xyloglucan endotransglucosylase/hydrolase	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	-	706468
xyloglucan endotransglycosylase	-	-	-	-
xyloglucan endotransglycosylase	Populus tremula x Populus tremuloides	-	-	671392, 671858
xyloglucan endotransglycosylase	Betula pendula, Gerbera hybrid cultivar	-	-	674988
xyloglucan endotransglycosylase	Dimocarpus longan	-	-	694757
xyloglucan endotransglycosylase	Gossypium arboreum	-	-	699805
xyloglucan endotransglycosylase	Gossypium hirsutum	Q7Y252	-	699805
xyloglucan endotransglycosylase	Gossypium raimondii	-	-	699805
xyloglucan endotransglycosylase	Hordeum vulgare	B1P1S7, P93671, P93672	-	701937
xyloglucan endotransglycosylase	Hordeum vulgare	B1P1S7, P93668	;	703656
xyloglucan endotransglycosylase	Tropaeolum majus	-	-	706280
xyloglucan endotransglycosylase	Actinidia chinensis	C0IRH0, C0IRH3	;	706468
xyloglucan endotransglycosylase	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	-	706468
xyloglucan endotransglycosylase	Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	-	706468
xyloglucan endotransglycosylase	Actinidia hemsleyana	C0IRG8	-	706468
xyloglucan endotransglycosylase	Actinidia setosa	C0IRG1	-	706468
xyloglucan endotransglycosylase	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	-	706468
xyloglucan endotransglycosylase (Actinia deliciosa strain Hayward pericarp clone AdXET-5 gene XET precursor)	-	-	-	-
xyloglucan endotransglycosylase (Arabidopsis thaliana gene TCH4 precursor reduced)	-	-	-	-
xyloglucan endotransglycosylase (barley clone PM5 gene HVPM5)	-	-	-	-
xyloglucan endotransglycosylase (barley clone XEA gene HVXEA)	-	-	-	-
xyloglucan endotransglycosylase (barley clone XEB gene HVXEB)	-	-	-	-
xyloglucan endotransglycosylase 16A	Brassica oleracea var. botrytis	Q6YDN9	-	657834
xyloglucan endotransglycosylase 16A	Populus tremula x Populus tremuloides	-	-	657870, 672509
xyloglucan endotransglycosylase-related protein XTR-7 (Arabidopsis thaliana)	-	-	-	-
xyloglucan endotransglycosylase/hydrolase	Tropaeolum majus	-	-	660274, 672932, 706280
xyloglucan endotransglycosylase/hydrolase	Allium ampeloprasum, Cucumis sativus, Daucus carota, Lactuca sativa ssp. capitata, Piper sp., Pisum sativum	-	-	660274
xyloglucan endotransglycosylase/hydrolase	Selaginella kraussiana	-	-	676397
xyloglucan endotransglycosylase/hydrolase	Apium graveolens, Arabidopsis thaliana	-	-	676443
xyloglucan endotransglycosylase/hydrolase	Hordeum vulgare	B1P1S7, P93671, P93672	-	701937
xyloglucan endotransglycosylase/hydrolase1	Vigna radiata	Q5MB21	-	676341
xyloglucan hydrolase	Vigna angularis	-	-	660149
xyloglucan recombinase	-	-	-	-
xyloglucan X93174-derived protein GI 1890575	-	-	-	-
xyloglucan xyloglucosyl transferase	Hordeum vulgare	-	-	674794
xyloglucan xyloglucosyl transferase	Hordeum vulgare	B1P1S7, P93668	;	703656
xyloglucan xyloglucosyl transferases	Hordeum vulgare	B1P1S7, P93671, P93672	-	701937
xyloglucan-specific endo-(1->4)-beta-D-glucanase	-	-	-	-
xyloglucan:xyloglucanotransferase	-	-	-	-
xyloglucanase 1	Tropaeolum majus	-	-	701134
xyloglucanotransferase, xyloglucan (xyloglucan donor)	-	-	-	-
xyloglucanotransferase, xyloglucan (xyloglucan donor) (Actinia chinensis clone AdXET-5 gene XET precursor)	-	-	-	-
xyloglucanotransferase, xyloglucan (xyloglucan donor) (Arabidopsis thaliana gene TCH4 precursor reduced)	-	-	-	-
xyloglucanotransferase, xyloglucan (xyloglucan donor) (barley clone PM5 gene HVPM5)	-	-	-	-
xyloglucanotransferase, xyloglucan (xyloglucan donor) (barley clone XEA gene HVXEA)	-	-	-	-
xyloglucanotransferase, xyloglucan (xyloglucan donor) (barley clone XEB gene HVXEB)	-	-	-	-
ZmXTH1	Zea mays	Q5JZX2	in addition to ZmXTH1 and Zm1005, six other XTH genes are identified in maize EST databases	681144
MLG:xyloglucan endotransglucosylase	Coleochaete scutata, Equisetum arvense, Equisetum fluviatile, Equisetum hyemale, Equisetum scirpoides, Equisetum telmateia, Equisetum variegatum	-	-	694679
additional information	Brassica oleracea var. botrytis	Q6YDN9	the enzyme belongs to the glycosyl hydrolase family 16, i.e. GH16	657834
additional information	Populus tremula x Populus tremuloides	-	the enzyme belongs to the glycosyl hydrolase family 16, i.e. GH16	657870, 660130
additional information	Oryza sativa	Q5Z6G7, Q5Z6H1, Q5Z6H3, Q6ZAN9, Q763W5, Q76BW5, Q8VWG5	the enzyme belongs to the 29-member xyloglucan endotransglucosylase/hydrolase XTH gene family; the enzyme belongs to the 29-member xyloglucan endotransglucosylase/hydrolase XTH gene family; the enzyme belongs to the 29-member xyloglucan endotransglucosylase/hydrolase XTH gene family; the enzyme belongs to the 29-member xyloglucan endotransglucosylase/hydrolase XTH gene family; the enzyme belongs to the 29-member xyloglucan endotransglucosylase/hydrolase XTH gene family; the enzyme belongs to the 29-member xyloglucan endotransglucosylase/hydrolase XTH gene family; the enzyme belongs to the 29-member xyloglucan endotransglucosylase/hydrolase XTH gene family; the enzyme belongs to the 29-member xyloglucan endotransglucosylase/hydrolase XTH gene family	660231

CAS REGISTRY NUMBER	COMMENTARY
141588-40-1	-
172279-31-1	xyloglucanotransferase, xyloglucan (xyloglucan donor) (Arabidopsis thaliana gene TCH4 precursor reduced) /xyloglucan endotransglycosylase (Arabidopsis thaliana gene TCH4 precursor reduced)
202012-34-8	xyloglucan endotransglycosylase-related protein XTR-7 (Arabidopsis thaliana) /genBank Z97335-derived protein GI 2244769
203402-40-8	xyloglucanotransferase, xyloglucan (xyloglucan donor) (barley clone PM5 gene HVPM5) /genBank X93173-derived protein GI 1890573 /xyloglucan endotransglycosylase (barley clone PM5 gene HVPM5)
203402-41-9	xyloglucanotransferase, xyloglucan (xyloglucan donor) (barley clone XEA gene HVXEA) /genBank X93174-derived protein GI 1890575 /xyloglucan X93174-derived protein GI 1890575 /xyloglucan endotransglycosylase (barley clone XEA gene HVXEA)
203402-42-0	xyloglucanotransferase, xyloglucan (xyloglucan donor) (barley clone XEB gene HVXEB) /genbank X93175-derived protein GI 1890577 /xyloglucan endotransglycosylase (barley clone XEB gene HVXEB)
205513-08-2	xyloglucanotransferase, xyloglucan (xyloglucan donor) (Actinia chinensis clone AdXET-5 gene XET precursor) /genBank L46792-derived protein GI 950299 /Xyloglucan endotransglycosylase (Actinia deliciosa strain Hayward pericarp clone AdXET-5 gene XET precursor)

ORGANISM	COMMENTARY	LITERATURE	SEQUENCE CODE	SEQUENCE DB	SOURCE
Acer pseudoplatanus	-	636810	-	-
Actinidia chinensis	-	706468	C0IRH0, C0IRH3	UniProt
Actinidia deliciosa	-	706468	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	UniProt
Actinidia deliciosa	ripe kiwifruit, [A. Chev.] C.F. Liang et A.R. Ferguson var. deliciosa cv. Hayward, 6 isoenzymes: AdXET1-6 gene family	636817	-	-
Actinidia eriantha	-	706468	C0IRG0, C0IRG2, C0IRH1	UniProt
Actinidia hemsleyana	-	706468	C0IRG8	UniProt
Actinidia setosa	fragment	706468	C0IRG1	UniProt
Adiantum capillus-veneri	-	636838	-	-
Allium ampeloprasum	leek, at least 4 isozymes	660274	-	-
Allium schoenoprasum	-	636810	-	-
Aloe sp.	-	636838	-	-
Anthriscus sylvestris	-	636810	-	-
Anthurium upalaense	-	636838	-	-
Anthurium willdenowii	-	636838	-	-
Apium graveolens	celery	676443	-	-
Apium sp.	-	636837	-	-
Apium sp.	celery	636814	-	-
Arabidopsis sp.	-	636814	-	-
Arabidopsis thaliana	-	636838, 676443, 704884	-	-
Arabidopsis thaliana	-	682473	Q9ZV40	UniProt
Arabidopsis thaliana	-	694774	P24806	UniProt
Arabidopsis thaliana	-	700720	Q38909	UniProt
Arabidopsis thaliana	3 insect-cell-produced XETs: EXGT, TCH4 and MERI-5, EXGT belongs to XET class I, TCH4 and MERI-5 to XET class II	636833	-	-
Arabidopsis thaliana	ecotype Columbia	676459	-	-
Arabidopsis thaliana	ecotype Columbia; systematic nomenclature of the XTH gene family with 3 subfamilies	636837	-	-
Arabidopsis thaliana	ecotype Columbia; TCH4, member of the XET-related gene family	636819	-	-
Arabidopsis thaliana	TCH4, member of the XET-related gene family	636818	-	-
Arabidopsis thaliana	XETs are encoded by a gene family, 4 isoenzymes: TCH4, Meri-5, EXGT and XTR9	636835	-	-
Arabidopsis thaliana	XTR9, one of 4 isoenzymes: TCH4, Meri-5, EXGT and XTR9	636835	Q9ZSU4	SwissProt
Asphodelus fistulosus	-	636838	-	-
Azolla sp.	-	636838	-	-
Beckmannia syzigachne	Fernald	636838	-	-
Beckmannia syzigachne Fernald	Fernald	636838	-	-
Betula pendula	-	674988	-	-
Blumenbachia hieronymi	-	636838	-	-
Brassica oleracea	cauliflower	636814, 660311	-	-
Brassica oleracea	cauliflower; distinct isoforms	636832	-	-
Brassica oleracea	cauliflower; isoenzyme C45a	636833	-	-
Brassica oleracea	cauliflower; var. botrytis, 2 isoenzymes: C30, C45	636827	-	-
Brassica oleracea var. botrytis	-	657834	Q6YDN9	SwissProt
Brassica rapa subsp. campestris	-	676712	Q5MD55	TrEMBL
Briza maxima	-	636838	-	-
Bromus erectus	-	636810	-	-
Calandrinia grandiflora	-	636838	-	-
Callistephus chinensis	Nees	636838	-	-
Canna indica	-	636838	-	-
Capsicum annuum	-	673649	-	-
Carex flacca	subsp. Flacca	636838	-	-
Cedrus atlantica	Carr.	636838	-	-
Cedrus atlantica Carr.	Carr.	636838	-	-
Cenchrus ciliaris	-	636838	-	-
Centaurea benedicta	-	636838	-	-
Chaenorhinum minus	-	636838	-	-
Chamaecyparis sp.	Snow White	636838	-	-
Chamaecyparis thyoides	Top Point	636838	-	-
Chamaedorea elegans	-	636838	-	-
Cicer arietinum	-	670606	O65734	TrEMBL
Cicer arietinum	chickpea	675146	-	-
Cochlearia officinalis	-	636838	-	-
Coleochaete scutata	-	694679	-	-
Colysis pteropus	-	636838	-	-
Commelina nilagirica	-	636838	-	-
Convallaria majalis	-	636838	-	-
Crocus vernus	Hill	636838	-	-
Crocus vernus Hill	Hill	636838	-	-
Cucumis sativus	at least 4 isozymes	660274	-	-
Cyperus prolifer	-	636838	-	-
Daucus carota	no isozymes, single enzyme	660274	-	-
Dianthus caryophyllus	Dianthus caryophyllus L.	692626	-	-
Dimocarpus longan	-	694757	-	-
Dracaena draco	-	636838	-	-
Elsholtzia ciliata	-	636838	-	-
Equisetum arvense	-	694679	-	-
Equisetum fluviatile	-	694679	-	-
Equisetum hyemale	-	694679	-	-
Equisetum scirpoides	-	694679	-	-
Equisetum telmateia	-	694679	-	-
Equisetum variegatum	-	694679	-	-
Euphorbia helioscopia	-	636838	-	-
Gerbera hybrid cultivar	-	674988	-	-
Gossypium arboreum	variant 79/BH47	699805	-	-
Gossypium hirsutum	cultivars Acala SJ2, Palmeri, 138F, and PI529989	699805	Q7Y252	UniProt
Gossypium raimondii	variant Ulbrich	699805	-	-
Helianthus annuus	-	636838	-	-
Holcus lanatus	-	636810	-	-
Hordeum vulgare	-	701937	B1P1S7	SwissProt
Hordeum vulgare	-	701937	P93671, P93672	UniProt
Hordeum vulgare	-	703656	P93668	UniProt
Hordeum vulgare	cultivar Clipper	674794	-	-
Hordeum vulgare	isozyme XET6	703656	B1P1S7	SwissProt
Iris pseudacorus	-	636838	-	-
Juncus effusus	-	636838	-	-
Lactuca perennis	-	636838	-	-
Lactuca sativa ssp. capitata	cabbage, no isozymes, single enzyme	660274	-	-
Lemna minor	-	636838	-	-
Lens culinaris	-	636823, 636833	-	-
Lentinula edodes SR-1	SR-1	636838	-	-
Linum usitatissimum	-	636838	-	-
Lotus japonicus	-	674963	-	-
Lupinus polyphyllus	-	636810	-	-
Luzula luzuloides	-	636838	-	-
Malus x domestica	cultivar Royal Gala	706468	C0IRH4	UniProt
Malus x domestica	isozyme XTH10; cultivar Royal Gala	706468	C0IRI3	UniProt
Malus x domestica	isozyme XTH11; cultivar Royal Gala	706468	C0IRI4	UniProt
Malus x domestica	isozyme XTH2; cultivar Braeburn	706468	Q8GTJ0	UniProt
Malus x domestica	isozyme XTH3; cultivar Royal Gala	706468	C0IRH6	UniProt
Malus x domestica	isozyme XTH4; cultivar Royal Gala	706468	C0IRH7	UniProt
Malus x domestica	isozyme XTH5; cultivar Royal Gala	706468	C0IRH8	UniProt
Malus x domestica	isozyme XTH6; cultivar Braeburn	706468	C0IRH9	UniProt
Malus x domestica	isozyme XTH7; cultivar Royal Gala	706468	C0IRI0	UniProt
Malus x domestica	isozyme XTH8; cultivar M.9	706468	C0IRI1	UniProt
Malus x domestica	isozyme XTH9; cultivar Royal Gala	706468	C0IRI2	UniProt
Marchantia polymorpha	-	636810	-	-
Medicago truncatula	-	668722	-	-
Mnium hornum	-	636810	-	-
Musa x paradisiaca	-	636838	-	-
Nicotiana tabacum	-	636837	-	-
Nicotiana tabacum	cv. Samsun NN, NtXET-1, belongs to group I of XET-related subfamilies	636834	P93349	SwissProt
Nicotiana tabacum	SR-1	636838	-	-
Nicotiana tabacum	tobacco bright yellow-2	636828	-	-
Oryza sativa	-	675122	-	-
Oryza sativa	isozyme XTH1 and XTH21; isozymes XTH1 and XTH21	660231	Q76BW5	SwissProt
Oryza sativa	isozyme XTH25; isozyme XTH25	660231	Q8VWG5	SwissProt
Oryza sativa	isozyme XTH5; isozyme XTH5	660231	Q6ZAN9	SwissProt
Oryza sativa	isozymes XTH10, XTH11, XTH12, and XTH18; isozymes XTH10, XTH11, XTH12, and XTH18	660231	Q5Z6G7, Q5Z6H1, Q5Z6H3	SwissProt
Oryza sativa	isozymes XTH2-XTH4, XTH6, XTH7, XTH9, XTH13-XTH16, XTH19, XTH20, and XTH22-XTH29	660231	-	-
Oryza sativa	isozymes XTH8 and XTH17; isozymes XTH8 and XTH17	660231	Q763W5	SwissProt
Peperomia rotundifolia	-	636838	-	-
Pharbitis purpurea	Bojer	636838	-	-
Pharbitis purpurea Bojer	Bojer	636838	-	-
Phaseolus vulgaris	-	636823	-	-
Phaseolus vulgaris	cv. Canadian Wonder	636812	-	-
Phaseolus vulgaris	Phaseolus vulgaris L.	694769	-	-
Picea abies	-	636838	-	-
Pinus parviflora	Glauca	636838	-	-
Pinus parviflora Glauca	Glauca	636838	-	-
Pinus radiata	-	636838	-	-
Piper sp.	green pepper, no isozymes, single enzyme	660274	-	-
Pisum sativum	-	636810, 636823, 636837	-	-
Pisum sativum	cv. Alaska	636812	-	-
Pisum sativum	cv. Tyrkys	636831	-	-
Pisum sativum	var. Feltham First and Pilot	636821	-	-
Pisum sativum	var. Tyrkys, no isozymes, single enzyme	660274	-	-
Pitcairnia imbricata	Regel	636838	-	-
Populus alba	-	636825	-	-
Populus tremula	tremuloides	636826	-	-
Populus tremula x Populus tremuloides	-	657870, 660130, 676433, 676473, 693105, 694512	Q8GZD5	SwissProt
Populus tremula x Populus tremuloides	-	671392, 671858, 672509, 693104	-	-
Populus tremula x Populus tremuloides	hybrid aspen, poplar, major isoenzyme PttXET16A, a member of XET subfamily I	636836	Q8GZD5	SwissProt
Pothomorphe petalta	-	636838	-	-
Pteris cretica	-	636838	-	-
Sagittaria pygmaea	arrowhead	671337	-	-
Scabiosa atropurpurea	-	636838	-	-
Selaginella kraussiana	-	676397	-	-
Selaginella kraussiana	-	677562	Q1XD17	UniProt
Selaginella sp.	-	636838	-	-
Sinapis sp.	mustard	636814	-	-
Solanum lycopersicum	-	636837	-	-
Solanum lycopersicum	cultivar Ailsa Craig, formerly Lycopersicon esculentum	670560	-	-
Solanum lycopersicum	cultivar Money Maker	699806	Q40144	SwissProt
Solanum lycopersicum	cultivar Money Maker	699806	Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SLN9	UniProt
Solanum lycopersicum	cultivar Money Maker; isozyme BR1; cultivar Money Maker	699806	Q9SDX0	UniProt
Solanum lycopersicum	cultivar Money Maker; isozyme XTH9; cultivar Money Maker	699806	Q6RHX7	UniProt
Solanum lycopersicum	cv. Ailsa Craig	636810	-	-
Solanum lycopersicum	cv. Murrieta	636822	-	-
Solanum lycopersicum	cv. T5	636815	Q40144	SwissProt
Solanum lycopersicum	isozyme XTH7; cultivar Money Maker	699806	Q6RHX8	UniProt
Solanum lycopersicum	SlXTH1, XTH1; Solanum lycopersicum L. cv. Money Maker, Solanum lycopersicum cv. Canario	680320	Q40144	SwissProt
Solanum lycopersicum	SlXTH10, tXET-B2, LetXET-B2; Solanum lycopersicum L. cv. Money Maker, Solanum lycopersicum cv. Canario	680320	Q43528	UniProt
Solanum lycopersicum	SlXTH11, tXET-B1, LetXET-B1; Solanum lycopersicum L. cv. Money Maker, Solanum lycopersicum cv. Canario	680320	Q43527	UniProt
Solanum lycopersicum	SlXTH12, BR1 fragment, LeBR1; Solanum lycopersicum L. cv. Money Maker, Solanum lycopersicum cv. Canario	680320	Q9SDX0	UniProt
Solanum lycopersicum	SlXTH2, LeXET2; Solanum lycopersicum L. cv. Money Maker, Solanum lycopersicum cv. Canario	680320	Q9FZ05	UniProt
Solanum lycopersicum	SlXTH3, XTH3; Solanum lycopersicum L. cv. Money Maker, Solanum lycopersicum cv. Canario	680320	Q6RHY0	UniProt
Solanum lycopersicum	SlXTH4, XET4; Solanum lycopersicum L. cv. Money Maker, Solanum lycopersicum cv. Canario	680320	Q9FR51	UniProt
Solanum lycopersicum	SlXTH5, XTH5; Solanum lycopersicum L. cv. Money Maker, Solanum lycopersicum cv. Canario	680320	Q6RHY1	UniProt
Solanum lycopersicum	SlXTH6, XTH6; Solanum lycopersicum L. cv. Money Maker, Solanum lycopersicum cv. Canario	680320	Q6RHX9	UniProt
Solanum lycopersicum	SlXTH7, XTH7; Solanum lycopersicum L. cv. Money Maker, Solanum lycopersicum cv. Canario	680320	Q6RHX8	UniProt
Solanum lycopersicum	SlXTH8, ETAG-A3 fragment; Solanum lycopersicum L. cv. Money Maker, Solanum lycopersicum cv. Canario	680320	Q9SLN9	UniProt
Solanum lycopersicum	SlXTH9, XTH9; Solanum lycopersicum L. cv. Money Maker, Solanum lycopersicum cv. Canario	680320	Q6RHX7	UniProt
Spinacia oleracea	spinach	636837	-	-
Tamarindus indica	-	636823	-	-
Taraxacum officinale	-	636810	-	-
Taxus baccata	-	636838	-	-
Tradescantia zebrina	-	636838	-	-
Tragopodon pratensis	subs. Pratensis	636838	-	-
Trigonella caerulea	Ser.	636838	-	-
Trigonella caerulea Ser.	Ser.	636838	-	-
Triticum turgidum subsp. dicoccon	-	636838	-	-
Tropaeolum majus	-	636813, 636816, 636823, 636824, 636829, 636837, 672932, 701134, 701702, 706280	-	-
Tropaeolum majus	2 isoenzymes, one of which is seed specific	660266	-	-
Tropaeolum majus	2 isoenzymes: sXET and eXET	636830	-	-
Tropaeolum majus	cv. Goldshine orange	636831	-	-
Tropaeolum majus	NXG1 is a member of XET class III	636833	-	-
Tropaeolum majus	var. Fiery Festival, 2 enzyme forms encoded by the genes XET1 and NXG1	636820	-	-
Tropaeolum majus	var. Goldshine orange, at least 5 isozymes	660274	-	-
Typha angustifolia	-	636838	-	-
Typha latifolia	-	636838	-	-
Vigna angularis	azuki bean	636837, 660149	-	-
Vigna angularis	Ohwi and Ohashi, cv. Takara	636811	-	-
Vigna radiata	mungbean	676341	Q5MB21	SwissProt
Vigna radiata var. radiata	4 isoenzymes: M35, M45, M55a, M55b	636833	-	-
Vigna radiata var. radiata	4 isoenzymes: M35, M45, M55a, M55b; mung bean; Vigna radiata	636827	-	-
Vigna radiata var. radiata	distinct isoforms; mung bean	636832	-	-
Vigna radiata var. radiata	mung bean	636814	-	-
Vulpia myuros	C.C. Gmel	636838	-	-
Zea mays	-	636810, 636838	-	-
Zea mays	-	681144	Q5JZX2	SwissProt

GENERAL INFORMATION	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE
physiological function	Hordeum vulgare	-	xyloglucan endo-transglucosylase can link different polysaccharides in vivo and hence influence cell wall strength, flexibility, and porosity	674794
physiological function	Arabidopsis thaliana	Q38909	XTH28 is specifically involved in the growth of stamen fi laments, and is required for successful automatic self-pollination in certain flowers in Arabidopsis thaliana	700720

SUBSTRATE	PRODUCT	REACTION DIAGRAM	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY/ Substrate	LITERATURE/ Substrate	COMMENTARY/ Product	LITERATURE/ Product	Reversibility r=reversible ir=irreversible ?=not specified
donor barley (1,3,1,4)-beta-D-glucan + acceptor cellooligosaccharide	?		Hordeum vulgare	-	0.1% relative activity compared to the reaction with donor tamarind xyloglucan and acceptor xyloglucan oligosaccharide	674794	-	-	?
donor barley (1,3,1,4)-beta-D-glucan + acceptor xyloglucan oligosaccharide	?		Hordeum vulgare	-	0.2% relative activity compared to the reaction with donor tamarind xyloglucan and acceptor xyloglucan oligosaccharide	674794	-	-	?
donor carboxymethylcellulose + acceptor xyloglucan oligosaccharide	?		Hordeum vulgare	-	0.4% relative activity compared to the reaction with donor tamarind xyloglucan and acceptor xyloglucan oligosaccharide	674794	-	-	?
donor hydroxyethyl cellulose + acceptor xyloglucan	?		Tropaeolum majus	-	-	672932	-	-	?
donor hydroxyethylcellulose + acceptor cellooligosaccharide	?		Hordeum vulgare	-	0.2% relative activity compared to the reaction with donor tamarind xyloglucan and acceptor xyloglucan oligosaccharide	674794	-	-	?
donor hydroxyethylcellulose + acceptor xyloglucan oligosaccharide	?		Hordeum vulgare	-	44.2% relative activity compared to the reaction with donor tamarind xyloglucan and acceptor xyloglucan oligosaccharide	674794	-	-	?
donor locust bean gum + acceptor xyloglucan oligosaccharide	?		Hordeum vulgare	-	0.1% relative activity compared to the reaction with donor tamarind xyloglucan and acceptor xyloglucan oligosaccharide	674794	-	-	?
donor sodium carboxymethyl cellulose + acceptor xyloglucan	?		Tropaeolum majus	-	-	672932	-	-	?
donor sulfuric acid-swollen cellulose + acceptor xyloglucan oligosaccharide	?		Hordeum vulgare	-	5% relative activity compared to the reaction with donor tamarind xyloglucan and acceptor xyloglucan oligosaccharide	674794	-	-	?
donor tamarind xyloglucan + acceptor cellooligosaccharide	?		Hordeum vulgare	-	0.1% relative activity compared to the reaction with donor tamarind xyloglucan and acceptor xyloglucan oligosaccharide	674794	-	-	?
donor tamarind xyloglucan + acceptor xyloglucan	?		Arabidopsis thaliana	-	isozymes XTH14 and XTH26 show very high preference for xyloglucan as donor substrate, yet do not work exclusively on xyloglucan, there is a clear preference for the octasaccharide XXLGol, whereas XLLGol is the second best (tested) substrate for isozyme XTH14, it seems a rather poor substrate for isozyme XTH26, which prefers XXFGol	704884	-	-	?
donor tamarind xyloglucan + acceptor xyloglucan oligosaccharide	?		Hordeum vulgare	-	-	674794	-	-	?
donor xyloglucan + acceptor beta-(1,4)-xylooligosaccharide	?		Tropaeolum majus	-	the transglycosylating activity is 0.31% of that determined with xyloglucan oligosaccharide as acceptor	706280	-	-	?
donor xyloglucan + acceptor beta-(1,6)-D-gluco-oligosaccharide	?		Tropaeolum majus	-	the transglycosylating activity is 0.69% of that determined with xyloglucan oligosaccharide as acceptor	706280	-	-	?
donor xyloglucan + acceptor cellooligosaccharide	?		Tropaeolum majus	-	-	672932	-	-	?
donor xyloglucan + acceptor cellooligosaccharide	?		Tropaeolum majus	-	the transglycosylating activity is 4.6% of that determined with xyloglucan oligosaccharide as acceptor	706280	-	-	?
donor xyloglucan + acceptor laminarioligosaccharide	?		Tropaeolum majus	-	-	672932	-	-	?
donor xyloglucan + acceptor laminarioligosaccharide	?		Tropaeolum majus	-	the transglycosylating activity is 0.23% of that determined with xyloglucan oligosaccharide as acceptor	706280	-	-	?
donor xyloglucan + acceptor mixed-linkage beta-(1,3 1,4)-gluco-oligosaccharide	?		Tropaeolum majus	-	the transglycosylating activity is 2.06% of that determined with xyloglucan oligosaccharide as acceptor	706280	-	-	?
donor xyloglucan + acceptor pustulooligosaccharide	?		Tropaeolum majus	-	-	706280	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Spinacia oleracea	-	-	636837	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Zea mays	-	-	636810	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Nicotiana tabacum	-	-	636828, 636837	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Arabidopsis thaliana	-	-	636819, 676443, 676459	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Cicer arietinum	-	-	675146	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Solanum lycopersicum	-	-	636810, 670560	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Acer pseudoplatanus	-	-	636810	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Apium graveolens	-	-	676443	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Oryza sativa	-	-	675122	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Taraxacum officinale	-	-	636810	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Tropaeolum majus	-	-	672932, 701134, 701702, 706280	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Lupinus polyphyllus, Marchantia polymorpha	-	-	636810	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Betula pendula	-	-	674988	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Mnium hornum, Allium schoenoprasum, Holcus lanatus, Bromus erectus, Anthriscus sylvestris	-	-	636810	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Solanum lycopersicum	Q40144	-	636815	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Populus tremula x Populus tremuloides	-	-	676473	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Gossypium arboreum	-	-	699805	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Populus tremula x Populus tremuloides	-	-	671392, 671858, 672509, 676433	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Sagittaria pygmaea	-	-	671337	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Gossypium hirsutum	Q7Y252	-	699805	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Arabidopsis thaliana	Q38909	-	700720	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Gossypium raimondii	-	-	699805	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Vigna radiata var. radiata	-	acceptor specificity	636827	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Pisum sativum	-	acceptor specificity	636810	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Brassica oleracea	-	acceptor specificity	636827	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Vigna angularis	-	acceptor specificity	636811	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Actinidia deliciosa	-	kiwifruit xyloglucan donor, acceptor: XXXG-ol, a reduced heptasaccharide derived from kiwifruit xyloglucan	636817	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Phaseolus vulgaris	-	acceptors: polymer xyloglucan or its derived oligosaccharides	636823	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Vigna radiata var. radiata	-	acceptors: polymer xyloglucan or its derived oligosaccharides	636814, 636827, 636832, 636833	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Pisum sativum	-	acceptors: polymer xyloglucan or its derived oligosaccharides	636821, 636823, 636831, 636837	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Arabidopsis thaliana	-	acceptors: polymer xyloglucan or its derived oligosaccharides	636833, 636837	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Arabidopsis sp.	-	acceptors: polymer xyloglucan or its derived oligosaccharides	636814	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Solanum lycopersicum	-	acceptors: polymer xyloglucan or its derived oligosaccharides	636822, 636837	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Lens culinaris	-	acceptors: polymer xyloglucan or its derived oligosaccharides	636823, 636833	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Tamarindus indica	-	acceptors: polymer xyloglucan or its derived oligosaccharides	636823	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Populus alba	-	acceptors: polymer xyloglucan or its derived oligosaccharides	636825	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Brassica oleracea	-	acceptors: polymer xyloglucan or its derived oligosaccharides	636814, 636827, 636832, 636833	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Tropaeolum majus	-	acceptors: polymer xyloglucan or its derived oligosaccharides	636816, 636823, 636824, 636829, 636831, 636833, 636837	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Sinapis sp.	-	acceptors: polymer xyloglucan or its derived oligosaccharides	636814	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Vigna angularis	-	acceptors: polymer xyloglucan or its derived oligosaccharides	636837	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Apium sp.	-	acceptors: polymer xyloglucan or its derived oligosaccharides	636814, 636837	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Arabidopsis thaliana	Q9ZSU4	acceptor and donor substrate specificities of the isoenzymes TCH4, Meri-5, EXGT and XTR9	636835	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Nicotiana tabacum	P93349	NtXET-1 has a prefence for smaller xyloglucan molecules as acceptors	636834	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Populus alba	-	acceptors: XXXG-ol, a reduced xyloglucan heptasaccharide, its dimer XXXGXXXG-ol, and other xyloglucan oligosaccharides, reaction probably involves an enzyme-donor-acceptor complex, in which the enzyme has two binding sites separately for donor and acceptor, mechanism	636825	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Vigna angularis	-	enzyme requires a basic xyloglucan structure, i.e. a beta-1,4-glucosyl backbone with xylosyl side chains, for both acceptor and donor activity, higher activity when xyloglucans with higher MW are used as donor substrates, xyloglucans smaller than 10 kDa are no donor substrates, pyridylamino heptasaccharide, xyloglucan oligomers or polymers are good acceptors	636811	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Pisum sativum	-	highly specific for xyloglucan as the glycosyl donor	636810	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Populus alba	-	highly specific for xyloglucan as the glycosyl donor	636825	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Vigna angularis	-	highly specific for xyloglucan as the glycosyl donor	636811	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Tropaeolum majus	-	acceptor: fucosylated xyloglucan nonasaccharide	636823	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Vigna radiata var. radiata, Brassica oleracea	-	pronounced preference for xyloglucan oligosaccharides with backbones of 4 over 3 over 2 Glc residues as acceptors	636827	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Phaseolus vulgaris	-	xyloglucan from Tamarindus indica	636823	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Vigna radiata var. radiata	-	xyloglucan from Tamarindus indica	636827, 636832, 636833	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Pisum sativum	-	xyloglucan from Tamarindus indica	636821, 636823	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Arabidopsis thaliana	-	xyloglucan from Tamarindus indica	636818, 636833	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Lens culinaris	-	xyloglucan from Tamarindus indica	636823, 636833	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Tamarindus indica	-	xyloglucan from Tamarindus indica	636823	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Brassica oleracea	-	xyloglucan from Tamarindus indica	636827, 636832, 636833	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Tropaeolum majus	-	xyloglucan from Tamarindus indica	636816, 636823, 636824, 636833	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Vigna angularis	-	xyloglucan from Tamarindus indica, xyloglucan from Vigna angularis	636811	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Arabidopsis thaliana	-	donors: TCH4 protein is more active against tamarind xyloglucan than nasturtium xyloglucan as donor, pea stem xyloglucan, acceptors: XLLG-ol, XXFG-ol	636818	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Pisum sativum, Tropaeolum majus	-	XET is present in cell walls in form of a competent glycosyl-enzyme complex which decomposes by transglycosylation of its glycan moiety to added xyloglucan-oligosaccharide acceptors	636831	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Vigna radiata var. radiata, Brassica oleracea	-	XET forms a stable donor xyloglucan-XET complex	636832	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Solanum lycopersicum	-	preference for solanaceous xyloglucan without Fuc over xyloglucan from other sources as donor	636837	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Phaseolus vulgaris	-	minimum acceptor structure is Xyl2Glc3	636812	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Pisum sativum	-	minimum acceptor structure is Xyl2Glc3	636810, 636812	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Tropaeolum majus	-	2 isoenzymes: sXET from seeds acts on xyloglucan molecules stochastically along the length of their polyglucose main chain and prefers low-MW xyloglucan-derived oligosaccharides as acceptors, eXET from epicotyls attacks the substrate predominantly near the reducing end and shows no preference for a size of xyloglucan oligosaccharide acceptors	636830	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Arabidopsis thaliana	Q9ZSU4	isoenzyme XTR9 has a clear preference for non-fucosylated xyloglucan polymers as donor, but not isoenzymes TCH4, Meri-5 and EXGT	636835	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Vigna radiata var. radiata, Arabidopsis thaliana, Lens culinaris, Brassica oleracea, Tropaeolum majus	-	enzyme chooses its donor substrate independently of size and attacks it, once only, at a randomly selected cleavage site	636833	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Pisum sativum	-	xyloglucan from Rosa cultures	636810	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Phaseolus vulgaris	-	xyloglucan from Tropaeolum majus seed	636812	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Pisum sativum	-	xyloglucan from Tropaeolum majus seed	636810, 636812	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Arabidopsis thaliana	-	xyloglucan from Tropaeolum majus seed	636818	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Arabidopsis sp.	-	xyloglucan from Tropaeolum majus seed	636814	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Tropaeolum majus	-	xyloglucan from Tropaeolum majus seed	636824	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Vigna angularis	-	xyloglucan from Tropaeolum majus seed	636811	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Pisum sativum	-	donor specificity	636810	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Arabidopsis thaliana	-	donor specificity	636818	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Vigna angularis	-	donor specificity	636811	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Vigna angularis	-	donor xyloglucan cleavage sites of XTHs from stems and epicotyls	636837	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Tropaeolum majus	-	donor: Glc8-based XXXGXXXG	636837	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Phaseolus vulgaris	-	enzyme transfers a large segment of a xyloglucan molecule to another one generating chimeric polymers	636812	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Pisum sativum	-	enzyme transfers a large segment of a xyloglucan molecule to another one generating chimeric polymers	636810, 636812	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Vigna angularis	-	enzyme transfers a large segment of a xyloglucan molecule to another one generating chimeric polymers	636811	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Phaseolus vulgaris, Pisum sativum	-	galactosyl or fucosyl side chains are not required for acceptor activity	636812	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Vigna angularis	-	galactosyl or fucosyl side chains are not required for acceptor activity	636811	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Populus alba	-	xyloglucan from pea	636825	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Convallaria majalis, Pinus radiata, Zea mays, Nicotiana tabacum, Arabidopsis thaliana, Picea abies, Helianthus annuus, Selaginella sp., Lemna minor, Linum usitatissimum, Typha latifolia, Musa x paradisiaca, Pteris cretica, Taxus baccata, Callistephus chinensis, Adiantum capillus-veneri, Colysis pteropus, Azolla sp., Pinus parviflora, Cedrus atlantica, Chamaecyparis thyoides, Chamaecyparis sp., Pothomorphe petalta, Peperomia rotundifolia, Calandrinia grandiflora, Euphorbia helioscopia, Cochlearia officinalis, Blumenbachia hieronymi, Elsholtzia ciliata, Chaenorhinum minus, Pharbitis purpurea, Centaurea benedicta, Trigonella caerulea, Tragopodon pratensis, Lactuca perennis, Scabiosa atropurpurea, Anthurium upalaense, Anthurium willdenowii, Crocus vernus, Iris pseudacorus, Dracaena draco, Aloe sp., Asphodelus fistulosus, Chamaedorea elegans, Triticum turgidum subsp. dicoccon, Briza maxima, Cenchrus ciliaris, Vulpia myuros, Beckmannia syzigachne, Juncus effusus, Luzula luzuloides, Typha angustifolia, Cyperus prolifer, Carex flacca, Tradescantia zebrina, Commelina nilagirica, Pitcairnia imbricata, Canna indica	-	acceptors: xyloglucan oligosaccharide-SR mixture	636838	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Pisum sativum	-	tamarind seed xyloglucan as donor substrate, oligosaccharidyl-alditol as acceptor	636821	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Arabidopsis thaliana	-	specific for xyloglucan	636818	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Tropaeolum majus	-	specific for xyloglucan	636813, 636816	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Pisum sativum	-	acceptors: xyloglucan-derived nonasaccharide Glc4Xyl3GalFuc and certain other xyloglucan oligosaccharides, non-reducing terminal Xyl-Glc group is essential	636810	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Arabidopsis thaliana	-	TCH4 protein specifically transglycosylates only xyloglucan, cleavage of both fucosylated and nonfucosylated xyloglucans as donor substrates, but fucosyl content of the substrates lowers reaction rate, preferred acceptor substrate is the nonreducing terminus of high-MW xyloglucan, xyloglucan derived oligosaccharides are also utilized	636818	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Phaseolus vulgaris, Pisum sativum	-	acceptors: high MW xyloglucan, xyloglucan-derived oligosaccharides with at least two alpha-D-xylose residues, reducing group is not required for acceptor activity	636812	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Nicotiana tabacum	P93349	donor: pine or tobacco xyloglucan	636834	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Tropaeolum majus	-	investigation of substrate subsite recognition requirements, xylose substitution at Glc +2 and -3 of the NXET cleavage site at the backbone of the xyloglucan substrate is a requirement, Gal substitution of a Xyl at +1 prevents, and at -2 modifies, chain-cleavage	636824	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Tropaeolum majus	-	2 distinct XETs with different substrate prefences, XET from epicotyl, XET1, uses nonfucosylated seed amyloid xyloglucan or fucosylated stem xyloglucan as substrate with equal facility, XET from cotyledon, NXG1, has a significantly higher activity against nonfucosylated xyloglucan	636820	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Populus tremula	-	enzyme cleaves and religates xyloglucan polymers	636826	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Populus tremula x Populus tremuloides	Q8GZD5	acceptors: sulforhodamine-labeled xyloglucan-oligosaccharides	636836	-	-	?
donor xyloglucan + acceptor xyloglucan	?		Solanum lycopersicum	Q40144, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	donor is apple xyloglycan, acceptor is XXXGol	699806	-	-	?
donor xyloglucan + acceptor xyloglucan-derived oligosaccharide	?		Tropaeolum majus	-	-	672932	-	-	?
donor xyloglucan + Xyl(1-6)Glc(1-4)(Gal-Xyl(1-6))Glc(1-4)(Gal-Xyl(1-6))Glc(1-4)Glc-ol-sulphorhodamine conjugate	?		Vigna radiata var. radiata	-	XLLGol-SR	636814	-	-	-
donor xyloglucan + Xyl(1-6)Glc(1-4)(Gal-Xyl(1-6))Glc(1-4)(Gal-Xyl(1-6))Glc(1-4)Glc-ol-sulphorhodamine conjugate	?		Arabidopsis sp.	-	XLLGol-SR	636814	-	-	?
donor xyloglucan + Xyl(1-6)Glc(1-4)(Gal-Xyl(1-6))Glc(1-4)(Gal-Xyl(1-6))Glc(1-4)Glc-ol-sulphorhodamine conjugate	?		Brassica oleracea, Sinapis sp., Apium sp.	-	XLLGol-SR	636814	-	-	-
donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)(Fuc-Gal-Xyl(1-6))Glc(1-4)Glc	?		Arabidopsis thaliana	-	-	636818, 636837	-	-	?
donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)(Fuc-Gal-Xyl(1-6))Glc(1-4)Glc	?		Pisum sativum	-	preference of XLLG over XXXG over XXFG over XXG	636837	-	-	?
donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)(Fuc-Gal-Xyl(1-6))Glc(1-4)Glc	?		Pisum sativum	-	acceptor: xyloglucan-derived nonasaccharide XG9, Glc4Xyl3GalFuc, highly specific for xyloglucan as the glycosyl donor, xyloglucan from Tropaeolum seed is somewhat better than from Rosa cultures, enzyme transfers part of a large xyloglucan molecule to the nonasaccharide forming a polymer with a beta-1,4-linkage to the product and the acceptor group of the nonasaccharide is O-4 of the Glc residue furthest from the reducing terminus	636810	-	-	?
donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)(Fuc-Gal-Xyl(1-6))Glc(1-4)Glc	?		Spinacia oleracea, Pisum sativum	-	XXFG	636837	-	-	?
donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)(Fuc-Gal-Xyl(1-6))Glc(1-4)Glc-ol	?		Arabidopsis thaliana	-	XXFG-ol	636818, 636835	-	-	?
donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)(Fuc-Gal-Xyl(1-6))Glc(1-4)Glc-ol	?		Arabidopsis thaliana	Q9ZSU4	XXFG-ol	636835	-	-	?
donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)(Fuc-Gal-Xyl(1-6))Glc(1-4)Glc-ol	?		Arabidopsis thaliana	-	TCH4 protein, 50% as effective as XLLG-ol	636818	-	-	?
donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)(Fuc-Gal-Xyl(1-6))Glc(1-4)Glc-ol	?		Arabidopsis thaliana	Q9ZSU4	TCH4, Meri-5, EXGT and XTR9 show a marked preference for XLLG-ol over XXFG-ol or XXXG-ol as acceptor oligosaccharide, TCH4, Meri-5 and EXGT: 25-30% as effective as XLLG-ol, less effective than XXXG-ol, XTR9: more effective than XXXG-ol, donor: tamarind or pea xyloglucan polymer	636835	-	-	?
donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)Glc	?		Phaseolus vulgaris, Pisum sativum	-	-	636823	-	-	?
donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)Glc	?		Tropaeolum majus	-	-	636837	-	-	?
donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)Glc	?		Tropaeolum majus	-	Glc3Xyl2	636823	-	-	?
donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)Glc	?		Pisum sativum	-	XXG, preference of XLLG over XXXG over XXFG over XXG	636837	-	-	?
donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)Glc	?		Phaseolus vulgaris, Pisum sativum	-	Xyl2Glc3 is less effective than heptasaccharide XG7: Xyl3Glc4, minimal structure required for acceptor activity	636812	-	-	?
donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)Glc-ol	?		Vigna radiata var. radiata, Brassica oleracea	-	pentamer XXG-ol, all isoenzymes have low but significant activity, tamarind xyloglucan as donor	636827	-	-	?
donor xyloglucan + Xyl(1-6)Glc(1-4)Glc	?		Vigna radiata var. radiata	-	trimer XG-ol, only isomer M55a shows a slight activity, tamarind xyloglucan as donor	636827	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Vigna radiata var. radiata, Brassica oleracea	-	1.7-3.6fold preference of XLLG-ol over XXXG-ol, mung bean isoenzymes have higher affinities for XLLG-ol than cauliflower isoenzymes	636827	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Vigna radiata var. radiata, Arabidopsis thaliana, Lens culinaris, Brassica oleracea, Tropaeolum majus	-	comparison of the size distributions of the different isoenzymes� transglycosylation products	636833	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Brassica oleracea	-	isoenzyme C45a dissociates from the reaction products after each polysaccharide-to-oligosaccharide transglycosylation event	636833	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Vigna radiata var. radiata	-	donor: tamarind xyloglucan	636827, 636832, 636833	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Arabidopsis thaliana, Lens culinaris	-	donor: tamarind xyloglucan	636833	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Brassica oleracea	-	donor: tamarind xyloglucan	636827, 636832, 636833	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Tropaeolum majus	-	donor: tamarind xyloglucan	636833	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Arabidopsis thaliana	Q9ZSU4	TCH4, Meri-5, EXGT and XTR9 show a marked preference for XLLG-ol over XXFG-ol or XXXG-ol as acceptor oligosaccharide	636835	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Arabidopsis thaliana	Q9ZSU4	donor: tamarind or pea xyloglucan polymer	636835	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Vigna radiata var. radiata	-	Gal2Xyl3Glc3glucitol prepared from tamarind flour/seed xyloglucan	636827, 636832	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Pisum sativum	-	Gal2Xyl3Glc3glucitol prepared from tamarind flour/seed xyloglucan	636831	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Brassica oleracea	-	Gal2Xyl3Glc3glucitol prepared from tamarind flour/seed xyloglucan	636827, 636832	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Tropaeolum majus	-	Gal2Xyl3Glc3glucitol prepared from tamarind flour/seed xyloglucan	636831	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Arabidopsis thaliana	-	TCH4 protein, better substrate than XXFG-ol, lower affinity than for polymer xyloglucan	636818	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Arabidopsis thaliana	-	reaction results in a hybrid product and a leaving group	636837	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Vigna radiata var. radiata	-	XLLG-ol	636827, 636832, 636833	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Pisum sativum	-	XLLG-ol	636831, 636837	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Arabidopsis thaliana	-	XLLG-ol	636818, 636833, 636835	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Arabidopsis thaliana	Q9ZSU4	XLLG-ol	636835	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Arabidopsis thaliana	-	XLLG-ol	636837	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Lens culinaris	-	XLLG-ol	636833	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Brassica oleracea	-	XLLG-ol	636827, 636832, 636833	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)-Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Tropaeolum majus	-	XLLG-ol	636831, 636833, 636837	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc	?		Pisum sativum	-	-	636823	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc	?		Pisum sativum	-	preference of XLLG over XXXG over XXFG over XXG	636837	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc	?		Pisum sativum	-	XG9n, better substrate than Glc4Xyl3GalFuc	636810	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc	?		Pisum sativum	-	XLLG	636837	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc	?		Arabidopsis sp.	-	XLLG	636814	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc	?		Tropaeolum majus	-	XLLG	636820, 636824, 636837	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc	?		Tropaeolum majus	-	XLLG from Tropaeolum majus seed, donor xyloglucan from tamarind cotyledons or pea stems, XET1 uses nonfucosylated tamarind seed amyloid xyloglucan or fucosylated pea stem xyloglucan as substrate with equal facility, NXG1 has a significantly higher activity against nonfucosylated tamarind xyloglucan	636820	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc	?		Tropaeolum majus	-	Glc4Xyl3Gal2	636823	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc	?		Tropaeolum majus	-	XLXG	636824	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc	?		Tropaeolum majus	-	XXLG	636824	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc	?		Pisum sativum	-	preference of XLLG over XXXG over XXFG over XXG	636837	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc	?		Phaseolus vulgaris, Pisum sativum	-	heptasaccharide XG7, Xyl3Glc4, is more effective than Xyl2Glc3	636812	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc	?		Pisum sativum	-	XG7, better substrate than Glc4Xyl3GalFuc	636810	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc	?		Pisum sativum	-	XXXG	636837	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc	?		Tropaeolum majus	-	XXXG	636824, 636837	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Pisum sativum	-	-	636812	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Populus alba	-	pea xyloglucan as donor, specific for xyloglucan as donor	636825	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Arabidopsis thaliana	Q9ZSU4	TCH4, Meri-5, EXGT and XTR9 show a marked preference for XLLG-ol over XXFG-ol or XXXG-ol as acceptor oligosaccharide, TCH4, Meri-5 and EXGT: more effective than XXFG-ol, XTR9: less effective than XXFG-ol, donor: tamarind or pea xyloglucan polymer	636835	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Nicotiana tabacum	P93349	pine or tobacco xyloglucan as donor	636834	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Vigna radiata var. radiata, Brassica oleracea	-	isoenzymes have 9-19times greater activities than on XXG-ol, reduced activity with XLLG-ol	636827	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Vigna radiata var. radiata	-	tamarind seed xyloglucan as donor	636827	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Pisum sativum	-	tamarind seed xyloglucan as donor	636821	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Brassica oleracea	-	tamarind seed xyloglucan as donor	636827	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Vigna radiata var. radiata	-	XXXG-ol	636827	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Pisum sativum	-	XXXG-ol	636821	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Arabidopsis thaliana	Q9ZSU4	XXXG-ol	636835	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Populus alba	-	XXXG-ol	636825	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Brassica oleracea	-	XXXG-ol	636827	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Actinidia deliciosa	-	XXXG-ol	636817	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Nicotiana tabacum	P93349	XXXG-ol	636834	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Phaseolus vulgaris	-	XG7-ol is approximately as effective as heptasaccharide XG7, efficient substrate, reducing group is not required for acceptor activity	636812	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Populus alba	-	transfers a part of xyloglucan to the reduced xyloglucan heptasaccharide XXXG-ol, the acceptor acts by combining with the enzyme independently of the donor, the velocity of the reaction decreases gradually as the heptasaccharide unit is increased from two to four, the affinity for XXXG-ol is increased at a higher concentration of donor xyloglucan	636825	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	?		Populus alba	-	XXXGXXXG-ol, dimer of XXXG-ol, most effective acceptor, pea xyloglucan as donor	636825	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glcbeta1-PA	?		Vigna angularis	-	pyridylamino XXXG	636837	-	-	?
donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glcbeta1-PA	?		Vigna angularis	-	pyridylamino heptasaccharide is a good substrate	636811	-	-	?
donor xyloglucan + xyloglucan	?		Hordeum vulgare	B1P1S7, P93671, P93672	-	701937	-	-	?
donor xyloglucan + xyloglucan acceptor	?		Pisum sativum	-	-	636837	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Zea mays	-	-	636810	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Nicotiana tabacum	-	-	636837	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Solanum lycopersicum	-	-	636810, 636837	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Vigna angularis	-	-	636837	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Arabidopsis thaliana, Brassica oleracea	-	Arabidopsis MERI-5 and TCH4 and cauliflower isoenzymes expression occur in dense cytoplasmic tissues predominantly involved in the assembly of new cell walls and thus in the integration of newly secreted xyloglucan into the cell wall	636833	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Arabidopsis thaliana	-	the xyloglucan:xyloglucosyl transferase gene TCH4 is strongly upregulated by environmental stimuli, enzyme may function in modifying cell walls to allow growth, airspace formation, the development of vasculature, and reinforcement of regions under mechanical strain, TCH4 protein may contribute to the adaptive changes in morphogenesis that occurs in the organism following exposure to mechanical stimuli	636819	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Tropaeolum majus	-	2 isoenzymes: sXET from seeds plays a role in degrading xyloglucan reserves in seeds during germination, eXET from epicotyls is engaged in cell wall rearrangement and integration of new xyloglucan molecules into the preexisting cell wall structure during growth	636830	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Populus tremula x Populus tremuloides	Q8GZD5	multifunctional role in cell wall construction, role in restructuring primary cell walls at the time when secondary wall layers are deposited, probably creating and reinforcing the connections between the primary and secondary wall layers	636836	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Arabidopsis thaliana	Q9ZSU4	XETs encoded by a gene family may influence plant growth and development, low pH would limit XET function in vivo	636835	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Tropaeolum majus	-	role in elongation-growth and other processes involving xyloglucan metabolism	636816	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Arabidopsis thaliana	-	enzyme is unlikely to play a role in acid-induced wall loosening but may function in cold acclimation or cold-tolerant growth, TCH4 expression is rapidly regulated by mechanical stimuli, temperature shifts, light and hormones, it may be involved in assembling nascent cell walls or reinforcing existing and expanding walls	636818	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Nicotiana tabacum	P93349	NtXET-1 is involved in the incorporation of small xyloglucan molecules into the cell wall by transglycosylation, role during differentation and growth of the vascular tissue, reduced NtXET-1 expression and increase in the MW of xyloglucans in older leaves might be associated with strengthening of cell walls by reduced turnover and hydrolysis of xyloglucan, control of NtXET-1 expression in leaves	636834	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Convallaria majalis, Pinus radiata, Zea mays, Nicotiana tabacum, Arabidopsis thaliana, Picea abies, Helianthus annuus, Selaginella sp., Lemna minor, Linum usitatissimum, Typha latifolia, Musa x paradisiaca, Pteris cretica, Taxus baccata, Callistephus chinensis, Adiantum capillus-veneri, Colysis pteropus, Azolla sp., Pinus parviflora, Cedrus atlantica, Chamaecyparis thyoides, Chamaecyparis sp., Pothomorphe petalta, Peperomia rotundifolia, Calandrinia grandiflora, Euphorbia helioscopia, Cochlearia officinalis, Blumenbachia hieronymi, Elsholtzia ciliata, Chaenorhinum minus, Pharbitis purpurea, Centaurea benedicta, Trigonella caerulea, Tragopodon pratensis, Lactuca perennis, Scabiosa atropurpurea, Anthurium upalaense, Anthurium willdenowii, Crocus vernus, Iris pseudacorus, Dracaena draco, Aloe sp., Asphodelus fistulosus, Chamaedorea elegans, Triticum turgidum subsp. dicoccon, Briza maxima, Cenchrus ciliaris, Vulpia myuros, Beckmannia syzigachne, Juncus effusus, Luzula luzuloides, Typha angustifolia, Cyperus prolifer, Carex flacca, Tradescantia zebrina, Commelina nilagirica, Pitcairnia imbricata, Canna indica	-	acts in root development, necessary for root hair growth	636838	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Populus alba	-	activity increases markedly at the exponential growth and decreases immediately at the stationary phase of cells in presence of 2,4-dichlorophenoxyacetic acid, the activity is developmentally regulated during growth but is not directly induced by plant hormones	636825	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Solanum lycopersicum	-	important component of cell wall metabolism, particularly expanding tissue and ripening fruits, study on the role in tomato fruit ripening and vegetative growth, tXET-B1 may incorporate new xyloglucan into the existing network	636822	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Pisum sativum, Tropaeolum majus	-	regulation of XET activity: enzyme exists in plant cell walls in a transiently latent state as covalent glycosyl-enzyme complex and is active only when suitable glycosyl acceptors become available	636831	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Vigna radiata var. radiata	-	existence of different classes of XET with differing roles in vivo	636827	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Arabidopsis thaliana	-	existence of different classes of XET with differing roles in vivo	636818, 636837	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Brassica oleracea	-	existence of different classes of XET with differing roles in vivo	636827	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Tropaeolum majus	-	existence of different classes of XET with differing roles in vivo	636820, 636837	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Actinidia deliciosa	-	XET and xyloglucan may play a role in the cell wall changes that accompany fruit softening during ripening, substrates for XET action are located in the cell wall	636817	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Arabidopsis thaliana	-	role in cell elongation	636838	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Arabidopsis thaliana	-	enzyme is capable of splitting and reconnecting xyloglucan molecules in rapidly growing plant tissues, expression and presumed physiological roles of At-XTH22 and 24	636837	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Solanum lycopersicum	Q40144	enzyme mediates cell wall disassembly associated with expansive growth	636815	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Nicotiana tabacum	-	key enzyme responsible for forming and rearranging the cellulose/xyloglucan network of the cell wall, commitment to the construction of both cell plate and cell wall	636828	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Phaseolus vulgaris, Pisum sativum	-	enzyme depolymerises xyloglucan	636812	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Zea mays	-	role in wall assembly as well as loosening	636838	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Tropaeolum majus	-	enzyme is involved in the post-germinative mobilization of xyloglucan storage reserves, involved in cell wall loosening, activity is primarily regulated at the level of gene expression	636813	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Pisum sativum	-	enzyme is responsible for cutting and rejoining intermicrofibrillar xyloglucan chains and thus causes the wall-loosening required for plant cell expansion and plant growth, in vivo the usual acceptor is polymeric wall-bound xyloglucan	636810	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Vigna angularis	-	reconnecting enzyme for xyloglucans, involved in the interweaving or reconstruction of cell wall matrix, which is responsible for chemical creepage that leads to morphological changes in the cell wall, responsible for cell wall loosening and integration of cell wall architecture	636811	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Vigna radiata var. radiata, Arabidopsis thaliana	-	Arabidopsis EXGT and mung bean isoenzymes expression in tissues involved in the loosening of existing cell wall material necessary for rapid cell expansion, e.g. vacuolation	636833	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Lens culinaris, Tropaeolum majus	-	lentil and nasturtium, NXG1, seed enzymes are involved in the mobilization of cotyledonary xyloglucan reserves after germination	636833	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Pisum sativum	-	involved in xyloglucan metabolism	636821	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Tropaeolum majus	-	one of four enzymes, which act in concert to catalyze the mobilisation of storage xyloglucan from the cell wall	636824	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Tropaeolum majus	-	XET1 may play a role in cell-wall xyloglucan metabolism, such as the incorporation of newly synthesized xyloglucan into the expanding primary cell wall or the modification of xyloglucan polymers forming cross-links between cellulose microfibrils, NXG1 in vivo predominantly exhibits xyloglucanase activity and mobilizes nonfucosylated xyloglucan seed storage reserves	636820	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Brassica oleracea	-	major role is the integration of new xyloglucan into the cell walls of the densely cytoplasmic florets	636827	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Vigna radiata var. radiata	-	associated with primary cell wall metabolism, rather than mobilisation of any seed storage xyloglucan, major role is the re-structuring of existing wall material in the rapidly vacuolating shoots	636827	-	-	-
donor xyloglucan + xyloglucan acceptor	?		Phaseolus vulgaris, Pisum sativum, Lens culinaris, Tamarindus indica, Tropaeolum majus	-	one of the key enzymes involved in the breakdown of reserve xyloglucan in seeds of some dicotyledonous plants during germination	636823	-	-	-
donor xyloglucan + [Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	?		Hordeum vulgare	B1P1S7, P93671, P93672	-	701937	-	-	?
donor xyloglucan + [Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp/[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	?		Hordeum vulgare	B1P1S7, P93671, P93672	-	701937	-	-	?
donor xyloglucan + [Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	?		Hordeum vulgare	B1P1S7, P93671, P93672	-	701937	-	-	?
Gal(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + Gal(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693105, 693104	-	-	?
Gal(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)Glc + Gal(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693105, 693104	-	-	?
Gal(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	Glc(beta1-4)Glc + Gal(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693105	-	-	?
Gal(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + Gal(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693105, 693104	-	-	?
Gal(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + Gal(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
Gal(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + Gal(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693105	-	-	?
Gal(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	Gal(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
Glc8-based xyloglucan oligosaccharide + ?	?		Hordeum vulgare	B1P1S7, P93668	-	703656	-	-	-
hydroxyethyl cellulose + reduced xyloglucan-derived heptasaccharide	?		Hordeum vulgare	B1P1S7, P93668	3.4% activity compared to tamarind xyloglycan	703656	-	-	?
kiwifruit xyloglucan + XXXG-ol	?		Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	-	706468	-	-	?
kiwifruit xyloglucan + XXXG-ol	?		Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	-	706468	-	-	?
kiwifruit xyloglucan + XXXG-ol	?		Actinidia setosa	C0IRG1	-	706468	-	-	?
kiwifruit xyloglucan + XXXG-ol	?		Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	-	706468	-	-	?
kiwifruit xyloglucan + XXXG-ol	?		Actinidia hemsleyana	C0IRG8	-	706468	-	-	?
kiwifruit xyloglucan + XXXG-ol	?		Actinidia chinensis	C0IRH0, C0IRH3	-	706468	-	-	?
pea xyloglucan + reduced xyloglucan-derived heptasaccharide	?		Hordeum vulgare	B1P1S7, P93668	-	703656	-	-	?
rhodamin-conjugated Glc3-Xyl3-Gal2-glucitol + xyloglucan	?		Tropaeolum majus	-	acceptor substrate: rhodamin-conjugated reduced xyloglucan-derived nonasaccharide, donor substrate: tamarind-seed xyloglucan, fluorescence assay	660266	-	-	?
tamarind xyloglucan + reduced xyloglucan-derived heptasaccharide	?		Hordeum vulgare	B1P1S7, P93668	100% activity	703656	-	-	?
tamarind xyloglucan + XLLG-9-aminopyrene-1,4,6-trisulfonate	?		Arabidopsis thaliana	Q9ZV40	XET activity assay	682473	-	-	?
tamarind xyloglucan + XXXG-ol	?		Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	-	706468	-	-	?
tamarind xyloglucan + XXXG-ol	?		Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	-	706468	-	-	?
tamarind xyloglucan + XXXG-ol	?		Actinidia setosa	C0IRG1	-	706468	-	-	?
tamarind xyloglucan + XXXG-ol	?		Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	-	706468	-	-	?
tamarind xyloglucan + XXXG-ol	?		Actinidia hemsleyana	C0IRG8	-	706468	-	-	?
tamarind xyloglucan + XXXG-ol	?		Actinidia chinensis	C0IRH0, C0IRH3	-	706468	-	-	?
Xylalpha(1,6)Glcbeta(1,4)Xylalpha(1,6)Glcbeta(1,4)Xylalpha(1,6)Glcbeta(1,4)Glcbeta(1,4)Xylalpha(1,6)Glcbeta(1,4)Xylalpha(1,6)Glcbeta(1,4)Xylalpha(1,6)Glcbeta(1,4)Glcbeta(1,4) + Xylalpha(1,6)Glcbeta(1,4)Xylalpha(1,6)Glcbeta(1,4)Xylalpha(1,6)Glcbeta(1,4)Glcbeta(1,4) 8-aminonaphthalene-1,3,6-trisulfonic acid	Xylalpha(1,6)Glcbeta(1,4)Xylalpha(1,6)Glcbeta(1,4)Xylalpha(1,6)Glcbeta(1,4)Glcbeta(1,4)Xylalpha(1,6)Glcbeta(1,4)Xylalpha(1,6)Glcbeta(1,4)Xylalpha(1,6)Glcbeta(1,4)Glcbeta(1,4) 8-aminonaphthalene-1,3,6-trisulfonic acid + Xylalpha(1,6)Glcbeta(1,4)Xylalpha(1,6)Glcbeta(1,4)Xylalpha(1,6)Glcbeta(1,4)Glcbeta(1,4)		Populus tremula x Populus tremuloides	-	-	671858	-	-	?
Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc	Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc		Tropaeolum majus	-	acceptor and donor: Glc8-based XXXGXXXG	636837	products: XXXGXXXGXXXG + XXXG	636837	?
xyloglucan + 4-mercaptobutanoyl-Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Glc	?		Populus tremula x Populus tremuloides	-	4-mercaptobutanoyl-Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Glc is a worse acceptor than Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Glc	672509	-	-	?
xyloglucan + barley (1,3 1,4)-beta-D-glucan	?		Hordeum vulgare	-	the rate of covalent bond formation with barley (1,3 1,4)-beta-D-glucan is significant but slower compared with that on tamarind xyloglucan	674794	-	-	?
xyloglucan + heptaitol	?		Hordeum vulgare	-	-	674794	-	-	?
xyloglucan + hydroxyethylcellulose	?		Hordeum vulgare	-	the rate of covalent bond formation with hyrdoxyethylcellulose is comparable with that on tamarind xyloglucan	674794	-	-	?
xyloglucan + monostearyl-Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Glc	?		Populus tremula x Populus tremuloides	-	monostearyl-Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Glc is a worse acceptor than Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Glc	672509	-	-	?
xyloglucan + sulfuric acid-swollen cellulose	?		Hordeum vulgare	-	-	674794	-	-	?
xyloglucan + tamarind xyloglucan	?		Hordeum vulgare	-	-	674794	-	-	?
xyloglucan + Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Glc	?		Hordeum vulgare	-	-	674794	-	-	?
xyloglucan + Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Glc	?		Populus tremula x Populus tremuloides	-	-	672509	-	-	?
xyloglucan + Xylalpha(1,6)Glc-Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Glc	?		Hordeum vulgare	-	-	674794	-	-	?
xyloglucan nonasaccharide + xyloglucan	?		Populus tremula x Populus tremuloides	Q8GZD5	acceptor: nonasaccharide XLLGol, donor: tamarind xyloglucan	657870	-	-	?
xyloglucan nonasaccharide + xyloglucan	?		Populus tremula x Populus tremuloides	-	nonasaccharide XLLG, a 2-chloro-4-nitrophenyl-nonasaccharide is no substrate, tamarind xyloglucan	660130	-	-	?
xyloglucan oligosaccharides + xyloglucan	?		Brassica oleracea	-	-	660311	-	-	?
xyloglucan oligosaccharides + xyloglucan	?		Oryza sativa	Q5Z6G7, Q5Z6H1, Q5Z6H3, Q6ZAN9, Q763W5, Q76BW5, Q8VWG5	-	660231	-	-	?
xyloglucan oligosaccharides + xyloglucan	?		Vigna angularis	-	-	660149	-	-	?
xyloglucan oligosaccharides + xyloglucan	?		Brassica oleracea var. botrytis	Q6YDN9	-	657834	-	-	?
xyloglucan oligosaccharides + xyloglucan	?		Pisum sativum, Allium ampeloprasum, Daucus carota, Cucumis sativus, Tropaeolum majus, Piper sp., Lactuca sativa ssp. capitata	-	sulforhodamine-labeled xyloglucan-derived oligosaccharides, and tamarind-seed xyloglucan	660274	-	-	?
xyloglucan oligosaccharides + xyloglucan	? + xyloglucan		Vigna angularis	-	xyloglucans with MW of about 600-1000 kDa	660149	MW about 50 kDa	-	?
[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	Xyl(alpha1-6)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693105	-	-	?
[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	Glc(beta1-4)Glc(beta1-4)Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693105, 693104	-	-	?
[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc + [Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc-8-aminonaphthalene-1,3,6-trisulfonic acid		Populus tremula x Populus tremuloides	-	-	693104	-	-	?
mixed-linkage (1->3,1->4)-beta-D-glucan	xyloglucan oligosaccharide		Equisetum arvense, Equisetum fluviatile, Equisetum hyemale, Equisetum scirpoides, Equisetum telmateia, Equisetum variegatum, Coleochaete scutata	-	-	694679	-	-	?
additional information	?	-	Zea mays, Solanum lycopersicum	-	-	636810	-	-	-
additional information	?	-	Phaseolus vulgaris, Pisum sativum	-	not: Xyl1Glc3, XylGlc2	636812	-	-	-
additional information	?	-	Convallaria majalis, Pinus radiata, Zea mays, Nicotiana tabacum, Arabidopsis thaliana, Picea abies, Helianthus annuus, Selaginella sp., Lemna minor, Linum usitatissimum, Typha latifolia, Musa x paradisiaca, Pteris cretica, Taxus baccata, Callistephus chinensis, Adiantum capillus-veneri, Colysis pteropus, Azolla sp., Pinus parviflora, Cedrus atlantica, Chamaecyparis thyoides, Chamaecyparis sp., Pothomorphe petalta, Peperomia rotundifolia, Calandrinia grandiflora, Euphorbia helioscopia, Cochlearia officinalis, Blumenbachia hieronymi, Elsholtzia ciliata, Chaenorhinum minus, Pharbitis purpurea, Centaurea benedicta, Trigonella caerulea, Tragopodon pratensis, Lactuca perennis, Scabiosa atropurpurea, Anthurium upalaense, Anthurium willdenowii, Crocus vernus, Iris pseudacorus, Dracaena draco, Aloe sp., Asphodelus fistulosus, Chamaedorea elegans, Triticum turgidum subsp. dicoccon, Briza maxima, Cenchrus ciliaris, Vulpia myuros, Beckmannia syzigachne, Juncus effusus, Luzula luzuloides, Typha angustifolia, Cyperus prolifer, Carex flacca, Tradescantia zebrina, Commelina nilagirica, Pitcairnia imbricata, Canna indica	-	not: cellobiose-SR	636838	-	-	-
additional information	?	-	Tropaeolum majus	-	NXET has also a xyloglucan-specific hydrolase activity, cleavage sites for hydrolysis and endotransglycosylation are identical, hydrolase action is significantly only under conditions, where suitable acceptor chain-end concentrations are limiting	636824	-	-	-
additional information	?	-	Arabidopsis thaliana	-	not: carboxymethylcellulose, barley glucan	636818	-	-	-
additional information	?	-	Solanum lycopersicum	-	tXET-B2 has no hydrolytic activity	636822	-	-	-
additional information	?	-	Tropaeolum majus	-	no action on other poly- and oligosaccharides than xyloglucan, such as cellulose, its soluble derivatives, mixed linkage beta-glucans, cello-oligosaccharides, enzyme catalyzes, additional to the powerful and specific xyloglucan endo-transglycosylase action, the hydrolysis of tamarind xyloglucan to a mixture of oligosaccharides of different sizes, hydrolysis increases at low substrate concentrations	636816	-	-	-
additional information	?	-	Arabidopsis thaliana	Q9ZSU4	contains strongly conserved sequence motif of XETs: DEIDFEFLG	636835	-	-	-
additional information	?	-	Populus tremula x Populus tremuloides	Q8GZD5	contains strongly conserved sequence motif of XETs: DEIDFEFLG	636836	-	-	-
additional information	?	-	Arabidopsis thaliana	Q9ZSU4	no endoglucanase activity	636835	-	-	-
additional information	?	-	Pisum sativum, Tropaeolum majus	-	oligosaccharides of cello-, chito- and/or oligoglucurono-series are much less effective than xyloglucan-derived oligosaccharides	636831	-	-	-
additional information	?	-	Populus tremula x Populus tremuloides	Q8GZD5	PttXET16A has 4 conserved Cys residues	636836	-	-	-
additional information	?	-	Actinidia deliciosa	-	in absence of reduced xyloglucan-derived heptasaccharide XXXG-ol enzyme depolymerizes xyloglucan by hydrolysis and in the presence of it by both hydrolysis and endotransglycosylation	636817	-	-	-
additional information	?	-	Vigna angularis	-	no glycosidase or glycanase activity, no donors: xyloglucans smaller than 10 kDa, carboxymethylcellulose, Avena glucan, maize xylan, Rhodymenia xylan, no acceptors: pyridylamino cellohexaose, pyridylamino laminarihexaose	636811	-	-	-
additional information	?	-	Pisum sativum	-	no acceptors: alpha-D-Xylp(1-6)D-Glc and isoprimeverose	636810	-	-	-
additional information	?	-	Phaseolus vulgaris, Pisum sativum	-	not: cellotetraose	636812	-	-	-
additional information	?	-	Tropaeolum majus	-	not: cellotetraose	636824	-	-	-
additional information	?	-	Vigna radiata var. radiata, Arabidopsis thaliana, Lens culinaris, Brassica oleracea, Tropaeolum majus	-	free oligosaccharides are probably not the usual acceptor substrates in vivo	636833	-	-	-
additional information	?	-	Brassica oleracea	-	acidic polymers, probably acidic arabinogalactan proteins, and/or other apoplastic ions are naturally occurring regulators of the enzyme activity in vivo, and may thus control cell wall assembly, loosening, and growth	660311	-	-	-
additional information	?	-	Populus tremula x Populus tremuloides	-	key enzyme in all plant processes that require cell wall remodeling	660130	-	-	-
additional information	?	-	Vigna angularis	-	xyloglucan oligosaccharides cause cell wall loosening by enhancing xyloglucan oligosaccharide degrading enzyme activity	660149	-	-	-
additional information	?	-	Brassica oleracea var. botrytis	Q6YDN9	different assay methods, overview	657834	-	-	-
additional information	?	-	Tropaeolum majus	-	isozymes sXET and eXET show different specificities for xyloglucan-derived oligosaccharide acceptor substrates, and distinct preferences in selecting the site of attack on xyloglucan molecules	660266	-	-	-
additional information	?	-	Populus tremula x Populus tremuloides	Q8GZD5	no hydrolytic activity of the wild-type or N93S mutant enzyme	657870	-	-	-
additional information	?	-	Pisum sativum, Allium ampeloprasum, Daucus carota, Cucumis sativus	-	the enzyme shows both xyloglucan endotransglucosylase and xyloglucan hydrolase activity	660274	-	-	-
additional information	?	-	Oryza sativa	Q5Z6G7, Q5Z6H1, Q5Z6H3, Q6ZAN9, Q763W5, Q76BW5, Q8VWG5	the enzyme shows both xyloglucan endotransglucosylase and xyloglucan hydrolase activity	660231	-	-	-
additional information	?	-	Tropaeolum majus	-	the enzyme shows both xyloglucan endotransglucosylase and xyloglucan hydrolase activity	660274	-	-	-
additional information	?	-	Vigna angularis	-	the enzyme shows both xyloglucan endotransglucosylase and xyloglucan hydrolase activity	660149	-	-	-
additional information	?	-	Piper sp., Lactuca sativa ssp. capitata	-	the enzyme shows both xyloglucan endotransglucosylase and xyloglucan hydrolase activity	660274	-	-	-
additional information	?	-	Populus tremula x Populus tremuloides	-	transglycosylation acceptor binding mechanism, structure-function study	660130	-	-	-
additional information	?	-	Populus tremula x Populus tremuloides	-	does not produce any hetero-transglycosylation products with cello-oligosaccharides or lactose	676433	-	-	-
additional information	?	-	Hordeum vulgare	-	no transferase activities are detected with laminarin, lichenin, pustulan, barley arabinoxylan, Konjac glucomannan, citrus fruit pectin, and esterified pectin (potassium salt), orange polygalactouronic acid (sodium salt), soybean pectic fiber rhamnogalactouronan, beta-D-galactans, and arabinogalactan protein with xyloglucan oligosaccharide and cellooligosaccharide, no transferase activity is detected laminari-oligosaccharides as acceptor substrates	674794	-	-	-
additional information	?	-	Phaseolus vulgaris	-	breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan	694769	-	-	-
additional information	?	-	Zea mays	Q5JZX2	breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan	681144	-	-	-
additional information	?	-	Dianthus caryophyllus	-	breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan	692626	-	-	-
additional information	?	-	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan	680320	-	-	-
additional information	?	-	Populus tremula x Populus tremuloides	-	breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan	693105, 694512	-	-	-
additional information	?	-	Arabidopsis thaliana	Q9ZV40	breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan	682473	-	-	-
additional information	?	-	Dimocarpus longan	-	breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan	694757	-	-	-
additional information	?	-	Selaginella kraussiana	Q1XD17	breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan	677562	-	-	-
additional information	?	-	Populus tremula x Populus tremuloides	-	breaks a beta-(1-4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan	693104	-	-	-
additional information	?	-	Arabidopsis thaliana	P24806	anionic, oxidised derivatives of xyloglucan are used as substrates for AtXTH24	694774	-	-	-
additional information	?	-	Arabidopsis thaliana	-	isozyme XTH14 uses donor substrates in order of preference xyloglucan >> watersoluble cellulose acetate > hydroxyethylcellulose > mixed-linkage beta-glucan > carboxymethylcellulose > methylcellulose, thus, all nonxyloglucan substrates show very low activity rates in comparison to xyloglucan. Isozyme XTH26 is able to use watersoluble cellulose acetate at a low rate but shows no activity with any of the other non-xyloglucan substrates tested	704884	-	-	-
additional information	?	-	Hordeum vulgare	B1P1S7, P93668	no activity towards barley 1,3-1,4-beta-D-glucan (high viscosity), and locust bean gum galactomannan, no transferase activities are detected with laminarin, lichenin, pustulan, barley arabinoxylan, Konjac glucomannan, citrus fruit pectin and esterified pectin (potassium salt), orange polygalacturonic acid (sodium salt), soybean pectic fibre rhamnogalactouronan, beta-D-galactans (from lupin and potato) and arabinogalactan protein (from gum arabic)	703656	-	-	-
additional information	?	-	Hordeum vulgare	B1P1S7, P93668	no hydrolytic activity can be detected with either isoenzyme	703656	-	-	-
additional information	?	-	Hordeum vulgare	-	no transferase activity is detected with laminarin, lichenin, pustulan, barley arabinoxylan, glucomannan, citrus fruit pectin or esterified pectin (potassium salt), orange polygalacturonic acid (sodium salt), soybean pectic fiber rhamnogalactouronan, lupin or potato beta-D-galactans, or gum arabic	674794	-	-	-
additional information	?	-	Tropaeolum majus	-	the enzyme exhibits broad substrate specificity by transferring xyloglucan or hydroxyethylcellulose fragments not only to oligoxyloglucosides and cellooligosaccharides but also to oligosaccharides derived from beta-(1,4)-D-glucuronoxylan, beta-(1,6)-D-glucan, mixed-linkage beta-(1,3 1,4)-D-glucan and at a relatively low rate also to beta-(1,3)-gluco-oligosaccharides	706280	-	-	-
additional information	?	-	Hordeum vulgare	-	XET5 catalyzes the in vitro formation of covalent linkages between xyloglucans and cellulosic substrates and between xyloglucans and (1,3 1,4)-beta-D-glucans	674794	-	-	-

NATURAL SUBSTRATES	NATURAL PRODUCTS	REACTION DIAGRAM	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY SUBSTRATE	LITERATURE (Substrate)	COMMENTARY PRODUCT	LITERATURE (Product)
donor xyloglucan + acceptor xyloglucan	?		Arabidopsis thaliana	Q38909	-	700720	-	-
donor xyloglucan + xyloglucan acceptor	?		Pisum sativum	-	-	636837	-	-
donor xyloglucan + xyloglucan acceptor	?		Zea mays	-	-	636810	-	-
donor xyloglucan + xyloglucan acceptor	?		Nicotiana tabacum	-	-	636837	-	-
donor xyloglucan + xyloglucan acceptor	?		Solanum lycopersicum	-	-	636810, 636837	-	-
donor xyloglucan + xyloglucan acceptor	?		Vigna angularis	-	-	636837	-	-
donor xyloglucan + xyloglucan acceptor	?		Arabidopsis thaliana, Brassica oleracea	-	Arabidopsis MERI-5 and TCH4 and cauliflower isoenzymes expression occur in dense cytoplasmic tissues predominantly involved in the assembly of new cell walls and thus in the integration of newly secreted xyloglucan into the cell wall	636833	-	-
donor xyloglucan + xyloglucan acceptor	?		Arabidopsis thaliana	-	the xyloglucan:xyloglucosyl transferase gene TCH4 is strongly upregulated by environmental stimuli, enzyme may function in modifying cell walls to allow growth, airspace formation, the development of vasculature, and reinforcement of regions under mechanical strain, TCH4 protein may contribute to the adaptive changes in morphogenesis that occurs in the organism following exposure to mechanical stimuli	636819	-	-
donor xyloglucan + xyloglucan acceptor	?		Tropaeolum majus	-	2 isoenzymes: sXET from seeds plays a role in degrading xyloglucan reserves in seeds during germination, eXET from epicotyls is engaged in cell wall rearrangement and integration of new xyloglucan molecules into the preexisting cell wall structure during growth	636830	-	-
donor xyloglucan + xyloglucan acceptor	?		Populus tremula x Populus tremuloides	Q8GZD5	multifunctional role in cell wall construction, role in restructuring primary cell walls at the time when secondary wall layers are deposited, probably creating and reinforcing the connections between the primary and secondary wall layers	636836	-	-
donor xyloglucan + xyloglucan acceptor	?		Arabidopsis thaliana	Q9ZSU4	XETs encoded by a gene family may influence plant growth and development, low pH would limit XET function in vivo	636835	-	-
donor xyloglucan + xyloglucan acceptor	?		Tropaeolum majus	-	role in elongation-growth and other processes involving xyloglucan metabolism	636816	-	-
donor xyloglucan + xyloglucan acceptor	?		Arabidopsis thaliana	-	enzyme is unlikely to play a role in acid-induced wall loosening but may function in cold acclimation or cold-tolerant growth, TCH4 expression is rapidly regulated by mechanical stimuli, temperature shifts, light and hormones, it may be involved in assembling nascent cell walls or reinforcing existing and expanding walls	636818	-	-
donor xyloglucan + xyloglucan acceptor	?		Nicotiana tabacum	P93349	NtXET-1 is involved in the incorporation of small xyloglucan molecules into the cell wall by transglycosylation, role during differentation and growth of the vascular tissue, reduced NtXET-1 expression and increase in the MW of xyloglucans in older leaves might be associated with strengthening of cell walls by reduced turnover and hydrolysis of xyloglucan, control of NtXET-1 expression in leaves	636834	-	-
donor xyloglucan + xyloglucan acceptor	?		Convallaria majalis, Pinus radiata, Zea mays, Nicotiana tabacum, Arabidopsis thaliana, Picea abies, Helianthus annuus, Selaginella sp., Lemna minor, Linum usitatissimum, Typha latifolia, Musa x paradisiaca, Pteris cretica, Taxus baccata, Callistephus chinensis, Adiantum capillus-veneri, Colysis pteropus, Azolla sp., Pinus parviflora, Cedrus atlantica, Chamaecyparis thyoides, Chamaecyparis sp., Pothomorphe petalta, Peperomia rotundifolia, Calandrinia grandiflora, Euphorbia helioscopia, Cochlearia officinalis, Blumenbachia hieronymi, Elsholtzia ciliata, Chaenorhinum minus, Pharbitis purpurea, Centaurea benedicta, Trigonella caerulea, Tragopodon pratensis, Lactuca perennis, Scabiosa atropurpurea, Anthurium upalaense, Anthurium willdenowii, Crocus vernus, Iris pseudacorus, Dracaena draco, Aloe sp., Asphodelus fistulosus, Chamaedorea elegans, Triticum turgidum subsp. dicoccon, Briza maxima, Cenchrus ciliaris, Vulpia myuros, Beckmannia syzigachne, Juncus effusus, Luzula luzuloides, Typha angustifolia, Cyperus prolifer, Carex flacca, Tradescantia zebrina, Commelina nilagirica, Pitcairnia imbricata, Canna indica	-	acts in root development, necessary for root hair growth	636838	-	-
donor xyloglucan + xyloglucan acceptor	?		Populus alba	-	activity increases markedly at the exponential growth and decreases immediately at the stationary phase of cells in presence of 2,4-dichlorophenoxyacetic acid, the activity is developmentally regulated during growth but is not directly induced by plant hormones	636825	-	-
donor xyloglucan + xyloglucan acceptor	?		Solanum lycopersicum	-	important component of cell wall metabolism, particularly expanding tissue and ripening fruits, study on the role in tomato fruit ripening and vegetative growth, tXET-B1 may incorporate new xyloglucan into the existing network	636822	-	-
donor xyloglucan + xyloglucan acceptor	?		Pisum sativum, Tropaeolum majus	-	regulation of XET activity: enzyme exists in plant cell walls in a transiently latent state as covalent glycosyl-enzyme complex and is active only when suitable glycosyl acceptors become available	636831	-	-
donor xyloglucan + xyloglucan acceptor	?		Vigna radiata var. radiata	-	existence of different classes of XET with differing roles in vivo	636827	-	-
donor xyloglucan + xyloglucan acceptor	?		Arabidopsis thaliana	-	existence of different classes of XET with differing roles in vivo	636818, 636837	-	-
donor xyloglucan + xyloglucan acceptor	?		Brassica oleracea	-	existence of different classes of XET with differing roles in vivo	636827	-	-
donor xyloglucan + xyloglucan acceptor	?		Tropaeolum majus	-	existence of different classes of XET with differing roles in vivo	636820, 636837	-	-
donor xyloglucan + xyloglucan acceptor	?		Actinidia deliciosa	-	XET and xyloglucan may play a role in the cell wall changes that accompany fruit softening during ripening, substrates for XET action are located in the cell wall	636817	-	-
donor xyloglucan + xyloglucan acceptor	?		Arabidopsis thaliana	-	role in cell elongation	636838	-	-
donor xyloglucan + xyloglucan acceptor	?		Arabidopsis thaliana	-	enzyme is capable of splitting and reconnecting xyloglucan molecules in rapidly growing plant tissues, expression and presumed physiological roles of At-XTH22 and 24	636837	-	-
donor xyloglucan + xyloglucan acceptor	?		Solanum lycopersicum	Q40144	enzyme mediates cell wall disassembly associated with expansive growth	636815	-	-
donor xyloglucan + xyloglucan acceptor	?		Nicotiana tabacum	-	key enzyme responsible for forming and rearranging the cellulose/xyloglucan network of the cell wall, commitment to the construction of both cell plate and cell wall	636828	-	-
donor xyloglucan + xyloglucan acceptor	?		Phaseolus vulgaris, Pisum sativum	-	enzyme depolymerises xyloglucan	636812	-	-
donor xyloglucan + xyloglucan acceptor	?		Zea mays	-	role in wall assembly as well as loosening	636838	-	-
donor xyloglucan + xyloglucan acceptor	?		Tropaeolum majus	-	enzyme is involved in the post-germinative mobilization of xyloglucan storage reserves, involved in cell wall loosening, activity is primarily regulated at the level of gene expression	636813	-	-
donor xyloglucan + xyloglucan acceptor	?		Pisum sativum	-	enzyme is responsible for cutting and rejoining intermicrofibrillar xyloglucan chains and thus causes the wall-loosening required for plant cell expansion and plant growth, in vivo the usual acceptor is polymeric wall-bound xyloglucan	636810	-	-
donor xyloglucan + xyloglucan acceptor	?		Vigna angularis	-	reconnecting enzyme for xyloglucans, involved in the interweaving or reconstruction of cell wall matrix, which is responsible for chemical creepage that leads to morphological changes in the cell wall, responsible for cell wall loosening and integration of cell wall architecture	636811	-	-
donor xyloglucan + xyloglucan acceptor	?		Vigna radiata var. radiata, Arabidopsis thaliana	-	Arabidopsis EXGT and mung bean isoenzymes expression in tissues involved in the loosening of existing cell wall material necessary for rapid cell expansion, e.g. vacuolation	636833	-	-
donor xyloglucan + xyloglucan acceptor	?		Lens culinaris, Tropaeolum majus	-	lentil and nasturtium, NXG1, seed enzymes are involved in the mobilization of cotyledonary xyloglucan reserves after germination	636833	-	-
donor xyloglucan + xyloglucan acceptor	?		Pisum sativum	-	involved in xyloglucan metabolism	636821	-	-
donor xyloglucan + xyloglucan acceptor	?		Tropaeolum majus	-	one of four enzymes, which act in concert to catalyze the mobilisation of storage xyloglucan from the cell wall	636824	-	-
donor xyloglucan + xyloglucan acceptor	?		Tropaeolum majus	-	XET1 may play a role in cell-wall xyloglucan metabolism, such as the incorporation of newly synthesized xyloglucan into the expanding primary cell wall or the modification of xyloglucan polymers forming cross-links between cellulose microfibrils, NXG1 in vivo predominantly exhibits xyloglucanase activity and mobilizes nonfucosylated xyloglucan seed storage reserves	636820	-	-
donor xyloglucan + xyloglucan acceptor	?		Brassica oleracea	-	major role is the integration of new xyloglucan into the cell walls of the densely cytoplasmic florets	636827	-	-
donor xyloglucan + xyloglucan acceptor	?		Vigna radiata var. radiata	-	associated with primary cell wall metabolism, rather than mobilisation of any seed storage xyloglucan, major role is the re-structuring of existing wall material in the rapidly vacuolating shoots	636827	-	-
donor xyloglucan + xyloglucan acceptor	?		Phaseolus vulgaris, Pisum sativum, Lens culinaris, Tamarindus indica, Tropaeolum majus	-	one of the key enzymes involved in the breakdown of reserve xyloglucan in seeds of some dicotyledonous plants during germination	636823	-	-
xyloglucan oligosaccharides + xyloglucan	?		Brassica oleracea	-	-	660311	-	-
xyloglucan oligosaccharides + xyloglucan	? + xyloglucan		Vigna angularis	-	xyloglucans with MW of about 600-1000 kDa	660149	MW about 50 kDa	-
mixed-linkage (1->3,1->4)-beta-D-glucan	xyloglucan oligosaccharide		Equisetum arvense, Equisetum fluviatile, Equisetum hyemale, Equisetum scirpoides, Equisetum telmateia, Equisetum variegatum, Coleochaete scutata	-	-	694679	-	-
additional information	?	-	Vigna radiata var. radiata, Arabidopsis thaliana, Lens culinaris, Brassica oleracea, Tropaeolum majus	-	free oligosaccharides are probably not the usual acceptor substrates in vivo	636833	-	-
additional information	?	-	Brassica oleracea	-	acidic polymers, probably acidic arabinogalactan proteins, and/or other apoplastic ions are naturally occurring regulators of the enzyme activity in vivo, and may thus control cell wall assembly, loosening, and growth	660311	-	-
additional information	?	-	Populus tremula x Populus tremuloides	-	key enzyme in all plant processes that require cell wall remodeling	660130	-	-
additional information	?	-	Vigna angularis	-	xyloglucan oligosaccharides cause cell wall loosening by enhancing xyloglucan oligosaccharide degrading enzyme activity	660149	-	-
additional information	?	-	Phaseolus vulgaris	-	breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan	694769	-	-
additional information	?	-	Zea mays	Q5JZX2	breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan	681144	-	-
additional information	?	-	Dianthus caryophyllus	-	breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan	692626	-	-
additional information	?	-	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan	680320	-	-
additional information	?	-	Populus tremula x Populus tremuloides	-	breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan	693105, 694512	-	-
additional information	?	-	Arabidopsis thaliana	Q9ZV40	breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan	682473	-	-
additional information	?	-	Dimocarpus longan	-	breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan	694757	-	-
additional information	?	-	Selaginella kraussiana	Q1XD17	breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan	677562	-	-
additional information	?	-	Populus tremula x Populus tremuloides	-	breaks a beta-(1-4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan	693104	-	-

COFACTOR	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE	IMAGE
No entries in this field

METALS and IONS	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE
Al3+	Brassica oleracea	-	best as chloride at lower concentrations around 0.1 mM, inhibitory at higher concentrations	660311
Ca2+	Pisum sativum	-	10 mM, slightly activates	636810
Ca2+	Brassica oleracea	-	best as chloride at lower concentrations around 0.1 mM, inhibitory at higher concentrations	660311
Ca2+	Hordeum vulgare	-	stimulates activity by 7-8% at 5-15 mM	674794
Ca2+	Betula pendula	-	55% reduced activity at 1 mM	674988
K+	Brassica oleracea	-	best at about 300 mM	660311
La3+	Brassica oleracea	-	best as chloride at lower concentrations around 0.1 mM, inhibitory at higher concentrations	660311
Mg2+	Pisum sativum	-	10 mM, slightly activates	636810
Mg2+	Brassica oleracea	-	best as chloride at lower concentrations around 0.1 mM, inhibitory at higher concentrations	660311
Na+	Brassica oleracea	-	best at about 300 mM	660311
NH4+	Brassica oleracea	-	best at about 300 mM	660311
Mn2+	Pisum sativum	-	10 mM, slightly activates	636810
additional information	Arabidopsis thaliana	-	TCH4 protein is not activated by Ca+ or other divalent cations	636818
additional information	Brassica oleracea	-	the enzyme is activated by a wide variety of inorganic and organic salts	660311
additional information	Betula pendula	-	NaCl has hardly any effect on the activity	674988

INHIBITORS	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE	IMAGE
(NH4)2SO4	Brassica oleracea	-	1 M, about 50% inhibition	636814	2D-image
4-O-methyl-glucuronoxylan	Brassica oleracea	-	-	660311	2D-image
Ag+	Pisum sativum	-	1 mM; partial inhibition	636810	2D-image
Ag+	Actinidia deliciosa	-	1 mM	636817	2D-image
AlCl3	Brassica oleracea	-	inhibitory at concentrations above 0.1 mM	660311	2D-image
alginate	Brassica oleracea	-	alpha-carrageenan from red algae Gigartina ssp.	660311	2D-image
ATP	Dianthus caryophyllus	-	-	692626	2D-image
CaCl2	Brassica oleracea	-	300 mM, about 50% inhibition	636814	2D-image
CaCl2	Brassica oleracea	-	inhibitory at concentrations above 0.1 mM	660311	2D-image
ethanol	Brassica oleracea	-	15%, about 3 M, about 50% inhibition of product formation	636814	2D-image
H2O2	Brassica oleracea	-	1 M, about 50% inhibition	636814	2D-image
Hg2+	Pisum sativum	-	1 mM, partial inhibition	636810	2D-image
Hg2+	Actinidia deliciosa	-	at least 10 mM	636817	2D-image
homogalacturonan	Brassica oleracea	-	-	660311	-
La3+	Pisum sativum	-	10 mM, partial inhibition	636810	2D-image
LaCl3	Brassica oleracea	-	inhibtory at 5 mM	660311	2D-image
Mg2+	Hordeum vulgare	-	inhibits activity by 3-4% at 5-15 mM	674794	2D-image
NaCl	Brassica oleracea	-	1 M, about 50% inhibition	636814	2D-image
NaN3	Brassica oleracea	-	1 M, about 50% inhibition	636814	2D-image
phosphate	Brassica oleracea	-	300 mM, about 50% inhibition	636814	2D-image
Pyridine	Brassica oleracea	-	300 mM, about 50% inhibition	636814	2D-image
Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	Arabidopsis thaliana	Q9ZSU4	significant substrate inhibition of isoenzyme XTR9 at high concentrations; slight substrate inhibition of isoenzymes Meri-5 and EXGT at high concentrations	636835	2D-image
xyloglucan-derived oligosaccharide	Tropaeolum majus	-	-	706280	2D-image
Zn2+	Pisum sativum	-	10 mM, partial inhibition	636810	2D-image
MgCl2	Brassica oleracea	-	inhibitory at concentrations above 0.1 mM	660311	2D-image
additional information	Pisum sativum	-	not inhibited by 10 mM D-gluconolactone, chelating agents, cello-oligosaccharides, cellopentaose	636810	-
additional information	Brassica oleracea	-	not inhibited by 1 M fluoride, 1 M urea, 1 M DMSO, 300 mM borate, 100 mM EDTA, 100 mM Triton X-100	636814	-
additional information	Brassica oleracea var. botrytis	Q6YDN9	glycosylation is required for activity, deglycosylation results in 40% loss of activity	657834	-
additional information	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	the expression of SIXTHs and the activity of xyloglucan endotransglucosylase can be modulated in tomatoes infected by Penicillium expansum; the expression of SIXTHs and the activity of xyloglucan endotransglucosylase can be modulated in tomatoes infected by Penicillium expansum; the expression of SIXTHs and the activity of xyloglucan endotransglucosylase can be modulated in tomatoes infected by Penicillium expansum; the expression of SIXTHs and the activity of xyloglucan endotransglucosylase can be modulated in tomatoes infected by Penicillium expansum; the expression of SIXTHs and the activity of xyloglucan endotransglucosylase can be modulated in tomatoes infected by Penicillium expansum; the expression of SIXTHs and the activity of xyloglucan endotransglucosylase can be modulated in tomatoes infected by Penicillium expansum; the expression of SIXTHs and the activity of xyloglucan endotransglucosylase can be modulated in tomatoes infected by Penicillium expansum; the expression of SIXTHs and the activity of xyloglucan endotransglucosylase can be modulated in tomatoes infected by Penicillium expansum; the expression of SIXTHs and the activity of xyloglucan endotransglucosylase can be modulated in tomatoes infected by Penicillium expansum; the expression of SIXTHs and the activity of xyloglucan endotransglucosylase can be modulated in tomatoes infected by Penicillium expansum; the expression of SIXTHs and the activity of xyloglucan endotransglucosylase can be modulated in tomatoes infected by Penicillium expansum; the expression of SIXTHs and the activity of xyloglucan endotransglucosylase can be modulated in tomatoes infected by Penicillium expansum	680320	-

ACTIVATING COMPOUND	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE	IMAGE
2-mercaptoethanol	Pisum sativum	-	slightly activates	636810	2D-image
acidic arabinogalactan protein	Brassica oleracea	-	MW about 5000 Da, acidic polymers and/or other apoplastic ions are naturally occurring regulators of the enzyme activity in vivo, and may thus control cell wall assembly, loosening, and growth, composition overview	660311	-
alpha-naphthalene acetic acid	Dimocarpus longan	-	-	694757	2D-image
ascorbate	Pisum sativum	-	10 mM, slightly activates	636810	2D-image
Bovine serum albumin	Arabidopsis thaliana	-	enhances activity by stabilizing TCH4 protein conformation	636818	-
dithiothreitol	Betula pendula	-	30% increase of activity at 1 mM	674988	2D-image
gibberellin	Zea mays	Q5JZX2	-	681144	2D-image
Gum arabic	Brassica oleracea	-	from Acacia sp., 0.02-0.4% w/v, activation of desalted enzyme, activation is increased in presence of suboptimal concentration of NaCl	660311	-
Pectin	Brassica oleracea	-	from Citrus sp., 0.02-0.4% w/v, activation of desalted enzyme, activation is increased in presence of suboptimal concentration of NaCl	660311	2D-image
spermidine	Pisum sativum	-	1 mM, slighly activates	636810	2D-image
thidiazuron	Dimocarpus longan	-	-	694757	2D-image
Urea	Arabidopsis thaliana	-	enhances activity of TCH4 protein	636818	2D-image
xyloglucan oligosaccharides	Vigna angularis	-	xyloglucan oligosaccharides enhance enzyme activity	660149	2D-image
xyloglucan-derived oligosaccharide	Tropaeolum majus	-	stimulates, highest stimulating effect with the nonasaccharide Glc4Xyl3Gal2, lowest one with the pentasaccharide Glc3Xyl2	636823	2D-image
hypochlorite-oxidized xyloglucan	Brassica oleracea	-	from tamarind, 0.02-0.4% w/v, activation of desalted enzyme, activation is increased in presence of suboptimal concentration of NaCl	660311	-
additional information	Solanum lycopersicum	Q40144	LeEXT gene encoding XET is induced by hormone treatments that elicites elongation of hypocotyl segments, e.g. treatment with auxin, brassinolide or 2,4-D	636815	-
additional information	Arabidopsis thaliana	-	TCH4 protein is not activated by reducing agents, spermidine, spermine, glycerol or carboxymethylcellulose	636818	-
additional information	Pisum sativum	-	strong positive correlation between gibberellic acid-enhanced length and extractable XET activity in internodes	636821	-
additional information	Arabidopsis thaliana	-	At-XTH22 is strongly induced in response to mechanical perturbations such as wind or touch	636837	-
additional information	Pisum sativum	-	-	636837	-
additional information	Brassica oleracea var. botrytis	Q6YDN9	glycosylation is required for activity, deglycosylation results in 40% loss of activity	657834	-
additional information	Brassica oleracea	-	no activation by carboxymethylcellulose, non-oxidized xyloglucan, homo-galacturonic acid, and starch, overview	660311	-

KM VALUE [mM]	KM VALUE [mM] Maximum	SUBSTRATE	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE	IMAGE
0.062	-	nonasaccharide XLLGol	Populus tremula x Populus tremuloides	-	pH 5.5, 25�C, recombinant N93S mutant enzyme	657870	-
0.075	-	nonasaccharide XLLGol	Populus tremula x Populus tremuloides	-	pH 5.5, 25�C, recombinant wild-type enzyme	657870	-
0.0085	-	reduced xyloglucan-derived heptasaccharide	Hordeum vulgare	B1P1S7, P93668	recombinant isozyme XET6, at 30�C in 100 mM sodium succinate buffer, pH 6.0, containing 5 mM CaCl2	703656	-
0.0399	-	reduced xyloglucan-derived heptasaccharide	Hordeum vulgare	B1P1S7, P93668	purified isozyme XET5, at 30�C in 100 mM sodium succinate buffer, pH 6.0, containing 5 mM CaCl2	703656	-
0.017	-	rhodamin-conjugated Glc3-Xyl3-Gal2-glucitol	Tropaeolum majus	-	isozyme eXET, pH 5.5, 30�C	660266	-
0.131	-	rhodamin-conjugated Glc3-Xyl3-Gal2-glucitol	Tropaeolum majus	-	isozyme sXET, pH 5.5, 30�C	660266	-
0.05	-	Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)(Fuc-Gal-Xyl(1-6))Glc(1-4)Glc	Pisum sativum	-	xyloglucan-derived nonasaccharide	636810	2D-image
0.05	-	Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)(Fuc-Gal-Xyl(1-6))Glc(1-4)Glc	Pisum sativum	-	-	636837	2D-image
0.2	-	Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)Glc	Pisum sativum	-	-	636837	2D-image
0.019	-	Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc	Pisum sativum	-	-	636837	2D-image
0.005	-	Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	Arabidopsis thaliana	Q9ZSU4	isoenzyme XTR9	636835	2D-image
0.016	-	Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	Vigna radiata var. radiata	-	isoenzyme M55a	636827	2D-image
0.017	-	Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	Arabidopsis thaliana	Q9ZSU4	isoenzyme TCH4	636835	2D-image
0.028	-	Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	Vigna radiata var. radiata	-	isoenzyme M45	636827	2D-image
0.03	-	Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	Arabidopsis thaliana	Q9ZSU4	isoenzyme EXGT	636835	2D-image
0.031	0.035	Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	Vigna radiata var. radiata	-	isoenzymes M35a and M35b	636827	2D-image
0.032	-	Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	Vigna radiata var. radiata	-	isoenzyme M55b	636827	2D-image
0.04	-	Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	Arabidopsis thaliana	Q9ZSU4	isoenzyme Meri-5	636835	2D-image
0.071	0.082	Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	Brassica oleracea	-	isoenzymes C45a and C45b	636827	2D-image
0.073	-	Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	Arabidopsis thaliana	-	acceptor XLLG-ol, recombinant TCH4 protein	636818	2D-image
0.073	-	Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	Arabidopsis thaliana	-	recombinant At-XTH22	636837	2D-image
0.13	-	Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc-ol	Brassica oleracea	-	isoenzyme C30	636827	2D-image
0.033	-	Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc	Pisum sativum	-	-	636837	2D-image
0.1	-	Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	Actinidia deliciosa	-	reduced xyloglucan-derived heptasaccharide XXXG-ol, derived from kiwifruit xyloglucan	636817	-
0.32	-	Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	Populus alba	-	XXXG-ol	636825	-
0.23	-	Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol	Populus alba	-	XXXGXXXG-ol	636825	2D-image
1.4	-	xyloglucan	Populus tremula x Populus tremuloides	-	pH 5.5, 25�C, recombinant N93S mutant enzyme	657870	2D-image
2.2	-	xyloglucan	Populus tremula x Populus tremuloides	-	pH 5.5, 25�C, recombinant wild-type enzyme	657870	2D-image
0.0003	-	xyloglucan acceptor	Arabidopsis thaliana	-	recombinant TCH4 protein	636818	2D-image
0.0003	-	xyloglucan acceptor	Arabidopsis thaliana	-	At-XTH22, high MW xyloglucan	636837	2D-image
0.0053	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET6, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	-
0.039	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET3, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	-
0.04	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET4, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	-
0.0086	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp/[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET6, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	-
0.0113	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp/[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET3, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	-
0.0242	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp/[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET4, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	-
0.005	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET4, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	-
0.0103	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET3, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	-
0.0106	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET6, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	-
1.6	-	Glc8-basedxyloglucan oligosaccharide	Hordeum vulgare	B1P1S7, P93668	recombinant isozyme XET6, at 30�C in 100 mM sodium succinate buffer, pH 6.0, containing 5 mM CaCl2	703656	-
additional information	-	additional information	Actinidia deliciosa	-	Km: 0.6 mg/ml for kiwifruit xyloglucan	636817	-
additional information	-	additional information	Arabidopsis thaliana	-	recombinant TCH4 protein, Km: 0.62 mg/ml for nonfucosylated tamarind xyloglucan as donor, 1.8 mg/ml for fucosylated pea xyloglucan	636818	-
additional information	-	additional information	Populus alba	-	-	636825	-
additional information	-	additional information	Arabidopsis thaliana	-	recombinant TCH4 protein, Km: 0.62 mg/ml for nonfucosylated tamarind xyloglucan as donor, 1.8 mg/ml for fucosylated pea xyloglucan	636837	-
additional information	-	additional information	Arabidopsis thaliana	Q9ZV40	purified AtXTH21 activity, Km: 0.6245 mg/ml	682473	-

TURNOVER NUMBER [1/s]	TURNOVER NUMBER MAXIMUM[1/s]	SUBSTRATE	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE	IMAGE
4.8	-	Gal(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc	Populus tremula x Populus tremuloides	-	-	693104	2D-image
0.139	-	Glc8-based xyloglucan oligosaccharide	Hordeum vulgare	B1P1S7, P93668	recombinant isozyme XET6, at 30�C in 100 mM sodium succinate buffer, pH 6.0, containing 5 mM CaCl2	703656	-
0.00031	-	pea xyloglucan	Arabidopsis thaliana	-	recombinant TCH4 protein, with XLLG-ol as acceptor	636818	-
0.0024	-	reduced xyloglucan-derived heptasaccharide	Hordeum vulgare	B1P1S7, P93668	purified isozyme XET5, at 30�C in 100 mM sodium succinate buffer, pH 6.0, containing 5 mM CaCl2	703656	-
0.0089	-	reduced xyloglucan-derived heptasaccharide	Hordeum vulgare	B1P1S7, P93668	recombinant isozyme XET6, at 30�C in 100 mM sodium succinate buffer, pH 6.0, containing 5 mM CaCl2	703656	-
0.00018	-	tamarind xyloglucan	Arabidopsis thaliana	-	recombinant TCH4 protein, with XLLG-ol as acceptor	636818	-
0.45	-	[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)[Xyl(alpha1-6)]Glc(beta1-4)Glc	Populus tremula x Populus tremuloides	-	-	693104	2D-image
0.007	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET3, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	-
0.021	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET4, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	-
0.17	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET6, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	-
0.005	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp/[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET3, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	-
0.017	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp/[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET4, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	-
0.12	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp/[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET6, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	-
0.005	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET3, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	-
0.006	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET4, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	-
0.058	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET6, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	-

kcat/KM VALUE [1/mMs^-1]	kcat/KM VALUE [1/mMs^-1] Maximum	SUBSTRATE	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE	IMAGE
0.0869	-	Glc8-based xyloglucan oligosaccharide	Hordeum vulgare	B1P1S7, P93668	recombinant isozyme XET6, at 30�C in 100 mM sodium succinate buffer, pH 6.0, containing 5 mM CaCl2	703656	0
0.2	-	reduced xyloglucan-derived heptasaccharide	Hordeum vulgare	B1P1S7, P93668	purified isozyme XET5, at 30�C in 100 mM sodium succinate buffer, pH 6.0, containing 5 mM CaCl2	703656	0
1.1	-	reduced xyloglucan-derived heptasaccharide	Hordeum vulgare	B1P1S7, P93668	recombinant isozyme XET6, at 30�C in 100 mM sodium succinate buffer, pH 6.0, containing 5 mM CaCl2	703656	0
0.2	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET3, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	0
0.5	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET4, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	0
30	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET6, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	0
0.4	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp/[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET3, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	0
1	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp/[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET4, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	0
13	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp/[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET6, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	0
0.5	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET3, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	0
1	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET4, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	0
5	-	[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp	Hordeum vulgare	B1P1S7, P93671, P93672	isoform XET6, using xyloglycan as donor substrate, at 30�C, in 50 mM ammonium acetate buffer pH 6.0	701937	0

Ki VALUE [mM]	Ki VALUE [mM] Maximum	INHIBITOR	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE	IMAGE
No entries in this field

IC50 VALUE [mM]	IC50 VALUE [mM] Maximum	INHIBITOR	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE	IMAGE
No entries in this field

SPECIFIC ACTIVITY [µmol/min/mg]	SPECIFIC ACTIVITY MAXIMUM	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE
7.2e-08	-	Hordeum vulgare	-	enzyme from crude homogenate, at 30�C	674794
0.0002178	-	Hordeum vulgare	-	after 3025fold purification, at 30�C	674794
0.02	-	Hordeum vulgare	-	crude cell extract, at 30�C in 100 mM succinate or ammonium acetate buffers, pH 6.0, containing 5 mM calcium chloride	674794
0.06	-	Populus tremula x Populus tremuloides	-	pH 5.5, 25�C, recombinant N93S mutant enzyme	657870
0.072	-	Hordeum vulgare	B1P1S7, P93668	enzyme from crude homogenate; enzyme from crude homogenate	703656
0.18	-	Populus tremula x Populus tremuloides	-	pH 5.5, 25�C, recombinant wild-type enzyme	657870
0.216	-	Vigna radiata var. radiata	-	-	636832
0.812	-	Brassica oleracea var. botrytis	Q6YDN9	purified enzyme, radioactive assay method	657834
31.07	-	Hordeum vulgare	B1P1S7, P93668	after 432fold purification; after 432fold purification	703656
60.51	-	Hordeum vulgare	-	after 3025fold purification, at 30�C in 100 mM succinate or ammonium acetate buffers, pH 6.0, containing 5 mM calcium chloride	674794
additional information	-	Vigna angularis	-	-	636811
additional information	-	Apium sp., Arabidopsis sp., Brassica oleracea, Sinapis sp., Vigna radiata var. radiata	-	a rapid, semiquantitative assay suitable for testing crude plant extracts directly on to the test paper	636814
additional information	-	Actinidia deliciosa	-	-	636817
additional information	-	Lens culinaris, Phaseolus vulgaris, Pisum sativum, Tamarindus indica	-	low cost, simple, high-speed colorimetric assay that allows to analyze multiple samples simultaneously	636823
additional information	-	Brassica oleracea var. botrytis	Q6YDN9	different assay methods, overview	657834
additional information	-	Brassica oleracea	-	-	660311
additional information	-	Populus tremula x Populus tremuloides	-	after purification the concentration of enzymatically active XET is about 29 mg/l with a specific activity of 11 U/mg	671392

pH OPTIMUM	pH MAXIMUM	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE
4.5	-	Selaginella kraussiana	Q1XD17	in vivo XET assay	677562
4.7	-	Zea mays	Q5JZX2	enzymatic assay	681144
5	5.5	Brassica oleracea	-	isoenzyme C30	636827
5	5.5	Vigna radiata var. radiata	-	isoenzymes M35a, M35b and M55b	636827
5	5.5	Populus tremula x Populus tremuloides	-	-	671858
5	6	Tropaeolum majus	-	isozyme eXET	660266
5	7	Vigna radiata var. radiata	-	isoenzymes M45 and M55a	636827
5	8.5	Tropaeolum majus	-	-	706280
5	-	Populus tremula x Populus tremuloides	-	-	671392
5.2	-	Arabidopsis thaliana	Q9ZV40	XET activity assay	682473
5.4	-	Populus tremula x Populus tremuloides	-	-	657870
5.5	5.8	Actinidia deliciosa	-	-	636817
5.5	8	Tropaeolum majus	-	isozyme sXET, broad optimum	660266
5.5	-	Pisum sativum	-	-	636810
5.5	-	Brassica oleracea var. botrytis	Q6YDN9	-	657834
5.5	-	Allium ampeloprasum, Cucumis sativus, Daucus carota, Lactuca sativa ssp. capitata, Piper sp., Pisum sativum, Tropaeolum majus	-	-	660274
5.5	-	Brassica oleracea	-	assay at	660311
5.5	-	Populus tremula x Populus tremuloides	-	enzyme kinetics assay	693104
5.5	-	Coleochaete scutata, Equisetum arvense, Equisetum fluviatile, Equisetum hyemale, Equisetum scirpoides, Equisetum telmateia, Equisetum variegatum	-	endotransglucosylase assay	694679
5.5	-	Arabidopsis thaliana	P24806	xyloglucan endotransglucosylase assay	694774
5.6	-	Populus tremula x Populus tremuloides	-	assay at	660130
5.8	-	Vigna angularis	-	-	636811
6	6.5	Arabidopsis thaliana	-	-	636818
6	6.5	Arabidopsis thaliana	Q9ZSU4	isoenzymes TCH4, Meri-5, EXGT and XTR9, EXGT shows very sharp pH-optimum at pH 6; isoenzymes TCH4, Meri-5, EXGT and XTR9, EXGT shows very sharp pH-optimum at pH 6	636835
6	-	Vigna angularis	-	-	660149
6	-	Hordeum vulgare	-	-	674794
6	-	Betula pendula	-	-	674988
6	-	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay	680320
6	-	Arabidopsis thaliana	-	isozyme XTH26	704884
6.5	-	Brassica oleracea	-	isoenzymes C45a and C45b	636827
6.5	-	Arabidopsis thaliana	-	isozyme XTH14	704884
additional information	-	Tropaeolum majus	-	pI: 5.0-5.14	636813

pH RANGE	pH RANGE MAXIMUM	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE
4	7	Pisum sativum	-	pH 4: 25-35% of maximal activity, pH 7: 30-40% of maximal activity	636810
4	8	Arabidopsis thaliana	-	both isoenzymes show a fast and symmetrical decrease in activity on both sides of their optima followed by an acidic shoulder between pH 4.0 and 5.0 for XTH14 and between pH 4.0 and 4.5 for XTH26. At pH 4.0 and 8.0, XTH14 retains about 30% and XTH26 40% of its maximal activity	704884
4.5	6.5	Populus tremula x Populus tremuloides	-	pH-profile, rapid loss of activity below pH 4.5 and above pH 6.5	657870
4.5	8	Arabidopsis thaliana	Q9ZSU4	TCH4 and Meri-5 retain approximately 10-15% of its maximal activity at pH 4.5 and 65% at pH 8; XTR9 retains approximately 35% of its maximal activity at pH 4.5 and 30% at pH 8	636835
5	7	Populus tremula x Populus tremuloides	-	-	671392
5	7	Arabidopsis thaliana	-	isozyme XTH26	704884
5	7.5	Arabidopsis thaliana	-	pH 5: about 30% of maximal activity, pH 7.5: about 40% of maximal activity	636818
5	8	Actinidia deliciosa	-	active between	636817
5.5	7	Arabidopsis thaliana	-	isozyme XTH14	704884
5.5	7.5	Solanum lycopersicum	-	-	670560
additional information	-	Brassica oleracea var. botrytis	Q6YDN9	pH-profile, sigmoidal decline in activity at high pH, at low pH occurs an abrupt drop in activity	657834
additional information	-	Tropaeolum majus	-	isozymes sXET and eXET show different pH-profiles	660266

TEMPERATURE OPTIMUM	TEMPERATURE OPTIMUM MAXIMUM	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE
12	18	Arabidopsis thaliana	-	recombinant TCH4 protein	636818
15	-	Populus tremula x Populus tremuloides	-	-	671392
18	-	Arabidopsis thaliana	Q9ZSU4	isoenzymes TCH4 and XTR9; isoenzymes TCH4 and XTR9	636835
20	-	Apium sp., Arabidopsis sp., Brassica oleracea, Sinapis sp., Vigna radiata var. radiata	-	assay at	636814
20	-	Brassica oleracea, Vigna radiata var. radiata	-	assay at	636827
20	-	Arabidopsis thaliana, Brassica oleracea, Lens culinaris, Tropaeolum majus, Vigna radiata var. radiata	-	assay at	636833
20	-	Coleochaete scutata, Equisetum arvense, Equisetum fluviatile, Equisetum hyemale, Equisetum scirpoides, Equisetum telmateia, Equisetum variegatum	-	endotransglucosylase assay	694679
22	-	Actinidia deliciosa	-	assay at	636817
22	-	Populus tremula x Populus tremuloides	-	assay at	660130
22	-	Allium ampeloprasum, Cucumis sativus, Daucus carota, Lactuca sativa ssp. capitata, Piper sp., Pisum sativum, Tropaeolum majus	-	room temperature, assay at	660274
22	-	Selaginella kraussiana	Q1XD17	in vivo XET assay	677562
22	-	Zea mays	Q5JZX2	enzymatic assay at room temperature	681144
24	34	Brassica oleracea, Vigna radiata var. radiata	-	broad optimum	636827
25	-	Acer pseudoplatanus, Allium schoenoprasum, Anthriscus sylvestris, Bromus erectus, Holcus lanatus, Lupinus polyphyllus, Marchantia polymorpha, Mnium hornum, Pisum sativum, Solanum lycopersicum, Taraxacum officinale, Zea mays	-	assay at	636810
25	-	Vigna angularis	-	assay at	636811
25	-	Phaseolus vulgaris, Pisum sativum	-	assay at	636812
25	-	Pisum sativum	-	assay at	636821
25	-	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay; xyloglucan endotransglucosylase assay	680320
25	-	Arabidopsis thaliana	Q9ZV40	XET activity assay	682473
27	-	Brassica oleracea	-	assay at	660311
27	-	Arabidopsis thaliana	P24806	xyloglucan endotransglucosylase assay	694774
28	30	Hordeum vulgare	-	-	674794
28	-	Arabidopsis thaliana	Q9ZSU4	isoenzyme Meri-5	636835
30	40	Populus tremula x Populus tremuloides	-	-	671858
30	-	Tropaeolum majus	-	assay at	660266
30	-	Betula pendula	-	-	674988
30	-	Populus tremula x Populus tremuloides	-	enzyme kinetics assay	693104
30	-	Phaseolus vulgaris	-	XET activity assay	694769
37	-	Lens culinaris, Phaseolus vulgaris, Pisum sativum, Tamarindus indica, Tropaeolum majus	-	assay at	636823
37	-	Arabidopsis thaliana	Q9ZSU4	isoenzyme EXGT	636835
37	-	Brassica oleracea var. botrytis	Q6YDN9	-	657834
37	-	Vigna angularis	-	assay at	660149
37	-	Arabidopsis thaliana	-	-	704884
40	-	Populus tremula x Populus tremuloides	-	-	657870
42	-	Tropaeolum majus	-	-	706280
additional information	-	Arabidopsis thaliana	Q9ZSU4	assay at room temperature	636835

TEMPERATURE RANGE	TEMPERATURE MAXIMUM	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE
0	-	Hordeum vulgare	-	the enzyme also operates efficiently at 0 �C, where it shows almost 40% of the activity observed at 30�C	674794
5	-	Arabidopsis thaliana	Q9ZSU4	all 4 isoenzymes are markedly cold-tolerant retaining activity at 5�C; all 4 isoenzymes are markedly cold-tolerant retaining activity at 5�C	636835
10	50	Brassica oleracea var. botrytis	Q6YDN9	about 20% of maximal activity at 10�C and 50�C, about 50% of maximal activity at 20�C and 48�C, temperature-profile	657834
15	55	Populus tremula x Populus tremuloides	-	temperature-profile, about 20% of maximal activity at 15�C and 55�C	657870
18	26	Arabidopsis thaliana	-	recombinant TCH4 protein, more active at lower temperatures, at or below 18�C, less active at higher temperatures, above 26�C	636818
45	-	Arabidopsis thaliana	Q9ZSU4	isoenzymes EXGT and Meri-5 retain approximately 80% of maximum activity; isoenzymes TCH4 and XTR9 activities are reduced by 55-60%; isoenzymes TCH4 and XTR9 activities are reduced by 55-60%	636835

pI VALUE	pI VALUE MAXIMUM	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE
4.4	9.6	Tropaeolum majus	-	at least 5 isozymes in cotyledons and leaves, development of a sensitive method for activity detection of isozymes in native isoelectric focusing gels, overview	660274
4.6	-	Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	calculated from amino acid sequence	706468
4.7	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
4.8	-	Daucus carota	-	native isoelectric focusing	660274
4.8	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
4.9	-	Actinidia hemsleyana	C0IRG8	calculated from amino acid sequence	706468
5.3	-	Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	calculated from amino acid sequence	706468
5.77	-	Dimocarpus longan	-	calculated pI-value	694757
5.9	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
5.96	-	Dimocarpus longan	-	calculated pI-value	694757
6.1	-	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	calculated from amino acid sequence	706468
6.3	-	Tropaeolum majus	-	major enzyme form XET(6.3), isoelectric focusing	706280
6.37	-	Dimocarpus longan	-	calculated pI-value	694757
6.4	-	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	calculated from amino acid sequence	706468
6.6	-	Tropaeolum majus	-	about, isozymes sXET and eXET, isoelectric focusing	660266
6.7	-	Hordeum vulgare	B1P1S7, P93668	isoelectric focusing; isoelectric focusing	703656
6.7	-	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	calculated from amino acid sequence	706468
6.8	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
6.9	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
7.1	-	Pisum sativum	-	native isoelectric focusing	660274
7.5	-	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	calculated from amino acid sequence	706468
7.7	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
8	-	Actinidia chinensis	C0IRH0, C0IRH3	calculated from amino acid sequence	706468
8	-	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	calculated from amino acid sequence	706468
8.2	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
8.3	-	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	calculated from amino acid sequence	706468
8.3	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
8.5	-	Hordeum vulgare	-	isoelectric focusing	674794
8.5	-	Cicer arietinum	-	2D-SDS-PAGE	675146
8.7	-	Actinidia chinensis	C0IRH0, C0IRH3	calculated from amino acid sequence	706468
9.2	-	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	calculated from amino acid sequence	706468
9.2	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
9.4	-	Lactuca sativa ssp. capitata, Piper sp.	-	native isoelectric focusing	660274
9.4	-	Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	calculated from amino acid sequence	706468
9.8	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
additional information	-	Allium ampeloprasum, Cucumis sativus	-	at least 4 isozymes, development of a sensitive method for activity detection of isozymes in native isoelectric focusing gels, overview	660274

SOURCE TISSUE	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE	SOURCE
aril	Dimocarpus longan	-	-	694757
callus	Phaseolus vulgaris	-	-	694769
cell suspension culture	Populus alba	-	-	636825
cell suspension culture	Nicotiana tabacum	-	-	636828
coleoptile	Oryza sativa	Q5Z6G7, Q5Z6H1, Q5Z6H3, Q6ZAN9, Q763W5, Q76BW5, Q8VWG5	; ; ; ; ; ; ;	660231
cotyledon	Tropaeolum majus	-	source for mRNA isolation	636813
cotyledon	Tropaeolum majus	-	of germinated seeds	636816, 636823, 636824
cotyledon	Arabidopsis thaliana	-	-	636819
cotyledon	Tropaeolum majus	-	NXG1 is exclusively expressed in cotyledons	636820
cotyledon	Lens culinaris, Phaseolus vulgaris, Pisum sativum, Tamarindus indica	-	of germinated seeds	636823
cotyledon	Tropaeolum majus	-	-	660274, 672932
epicotyl	Pisum sativum	-	-	636810, 636831, 636837, 660274
epicotyl	Vigna angularis	-	-	636811, 636837, 660149
epicotyl	Tropaeolum majus	-	XET1 is highly expressed in young epicotyls	636820
epicotyl	Tropaeolum majus	-	eXET, in epicotyls and other growing regions	636830
epicotyl	Tropaeolum majus	-	-	636831, 636837
epicotyl	Tropaeolum majus	-	isozyme eXET	660266
epicotyl	Cicer arietinum	-	-	670606, 675146
epicotyl	Vigna radiata	Q5MB21	-	676341
epidermal cell	Cicer arietinum	O65734	-	670606
epidermis	Vigna angularis	-	-	660149
epidermis	Vigna radiata	Q5MB21	-	676341
floret	Brassica oleracea	-	-	636827, 636832, 636833, 660311
floret	Brassica oleracea var. botrytis	Q6YDN9	-	657834
flower	Arabidopsis thaliana	Q9ZV40	-	682473
flower	Dianthus caryophyllus	-	-	692626
flower	Actinidia chinensis	C0IRH0, C0IRH3	;	706468
flower	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	; ; ; ; ; ;	706468
flower	Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	; ;	706468
flower	Actinidia hemsleyana	C0IRG8	-	706468
flower	Actinidia setosa	C0IRG1	-	706468
flower	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	; ; ; ; ; ; ; ; ; ;	706468
fruit	Actinidia deliciosa	-	core tissue of ripe kiwifruit	636817
fruit	Solanum lycopersicum	-	tXET-B1 is most abundant in pink fruit pericarp	636822
fruit	Cucumis sativus, Piper sp.	-	-	660274
fruit	Solanum lycopersicum	-	-	670560
fruit	Solanum lycopersicum	Q40144, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	; ; ; ; ; ; ; ; ;	699806
fruit	Actinidia chinensis	C0IRH0, C0IRH3	ripe fruit; ripe fruit	706468
fruit	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	ripe fruit; ripe fruit; ripe fruit; ripe fruit; ripe fruit; ripe fruit; ripe fruit	706468
fruit	Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	ripe fruit; ripe fruit; ripe fruit	706468
fruit	Actinidia hemsleyana	C0IRG8	ripe fruit	706468
fruit	Actinidia setosa	C0IRG1	ripe fruit	706468
fruit	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	ripe fruit; ripe fruit; ripe fruit; ripe fruit; ripe fruit; ripe fruit; ripe fruit; ripe fruit; ripe fruit; ripe fruit; ripe fruit	706468
gametophyte	Mnium hornum	-	-	636810
hypocotyl	Solanum lycopersicum	Q40144	LeEXT gene is expressed in outer cell layers of the hypocotyl, after auxin treatment overlapping spatial distribution in the epidermis and outer cortical cell layers	636815
hypocotyl	Arabidopsis thaliana	-	-	636819
hypocotyl	Vigna radiata	Q5MB21	-	676341
internode	Pisum sativum	-	internodes I, II, III and V, numbered from the cotyledonary node	636821
internode	Oryza sativa	Q5Z6G7, Q5Z6H1, Q5Z6H3, Q6ZAN9, Q763W5, Q76BW5, Q8VWG5	; ; ; ; ; ; ;	660231
internode	Cicer arietinum	-	-	675146
leaf	Zea mays	-	-	636810, 681144
leaf	Anthriscus sylvestris, Bromus erectus, Holcus lanatus, Lupinus polyphyllus, Solanum lycopersicum	-	-	636810
leaf	Phaseolus vulgaris	-	leaves from 5-day seedlings	636812
leaf	Arabidopsis thaliana	-	bases	636819
leaf	Tropaeolum majus	-	XET1 is expressed in young and mature leaves at lower levels than in young epicotyls and roots, 7fold higher expression in young leaves than in mature ones	636820
leaf	Nicotiana tabacum	P93349	source leaf, levels of NtXET-1 mRNA decreases in midribs with increasing age of leaves	636834
leaf	Populus tremula x Populus tremuloides	Q8GZD5	PttXET16A is expressed transiently in developing leaves	636836
leaf	Oryza sativa	Q5Z6G7, Q5Z6H1, Q5Z6H3, Q6ZAN9, Q763W5, Q76BW5, Q8VWG5	; ; ; ; ; ; ;	660231
leaf	Allium ampeloprasum, Lactuca sativa ssp. capitata, Tropaeolum majus	-	-	660274
leaf	Capsicum annuum	-	-	673649
leaf	Oryza sativa	-	-	675122
leaf	Gossypium arboreum	-	-	699805
leaf	Gossypium hirsutum	Q7Y252	-	699805
leaf	Gossypium raimondii	-	-	699805
leaf	Actinidia chinensis	C0IRH0, C0IRH3	;	706468
leaf	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	; ; ; ; ; ;	706468
leaf	Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	; ;	706468
leaf	Actinidia hemsleyana	C0IRG8	-	706468
leaf	Actinidia setosa	C0IRG1	-	706468
pericarp	Dimocarpus longan	-	-	694757
petal	Dianthus caryophyllus	-	-	692626
petiole	Apium sp.	-	activity is very pronounced in the vicinity of the vascular bundles	636814
petiole	Apium sp.	-	young petioles, high activity in thick-walled collenchyma cells	636837
phloem	Populus tremula x Populus tremuloides	Q8GZD5	XET activity in xylem and phloem fibers at the stage of secondary wall formation, PttXET16A	636836
phloem	Apium graveolens, Arabidopsis thaliana	-	-	676443
pistil	Brassica rapa subsp. campestris	Q5MD55	-	676712
plant collar	Oryza sativa	Q5Z6G7, Q5Z6H1, Q5Z6H3, Q6ZAN9, Q763W5, Q76BW5, Q8VWG5	; ; ; ; ; ; ;	660231
radicle	Cicer arietinum	-	-	675146
root	Tropaeolum majus	-	XET1 is highly expressed in young roots	636820
root	Populus tremula x Populus tremuloides	Q8GZD5	PttXET16A expression in young roots and root tips	636836
root	Arabidopsis thaliana	-	XET activity in the initiating root hairs; XET activity in the root cell elongation zone	636837
root	Nicotiana tabacum	-	XET activity in the root cell elongation zone	636837
root	Tropaeolum majus	-	-	636837
root	Adiantum capillus-veneri, Aloe sp., Anthurium upalaense, Anthurium willdenowii, Arabidopsis thaliana, Asphodelus fistulosus, Azolla sp., Beckmannia syzigachne, Blumenbachia hieronymi, Briza maxima, Calandrinia grandiflora, Callistephus chinensis, Canna indica, Carex flacca, Cedrus atlantica, Cenchrus ciliaris, Centaurea benedicta, Chaenorhinum minus, Chamaecyparis sp., Chamaecyparis thyoides, Chamaedorea elegans, Cochlearia officinalis, Colysis pteropus, Commelina nilagirica, Convallaria majalis, Crocus vernus, Cyperus prolifer, Dracaena draco, Elsholtzia ciliata, Euphorbia helioscopia, Helianthus annuus, Iris pseudacorus, Juncus effusus, Lactuca perennis, Lemna minor, Linum usitatissimum, Luzula luzuloides, Musa x paradisiaca, Nicotiana tabacum, Peperomia rotundifolia, Pharbitis purpurea, Picea abies, Pinus parviflora, Pinus radiata, Pitcairnia imbricata, Pothomorphe petalta, Pteris cretica, Scabiosa atropurpurea, Selaginella sp., Taxus baccata, Tradescantia zebrina, Tragopodon pratensis, Trigonella caerulea, Triticum turgidum subsp. dicoccon, Typha angustifolia, Typha latifolia, Vulpia myuros, Zea mays	-	high XET activity in the epidermis cell wall of the elongation zone and in trichoblasts in the differentation zone	636838
root	Oryza sativa	Q5Z6G7, Q5Z6H1, Q5Z6H3, Q6ZAN9, Q763W5, Q76BW5, Q8VWG5	; ; ; ; ; ; ;	660231
root	Daucus carota	-	-	660274
root	Medicago truncatula	-	-	668722
root	Arabidopsis thaliana	-	-	676459, 682473
root	Zea mays	Q5JZX2	elongation zone of the maize root	681144
root	Arabidopsis thaliana	-	isozymes XTH14 and XTH26 are predominantly root-specific	704884
root	Actinidia chinensis	C0IRH0, C0IRH3	;	706468
root	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	; ; ; ; ; ;	706468
root	Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	; ;	706468
root	Actinidia hemsleyana	C0IRG8	-	706468
root	Actinidia setosa	C0IRG1	-	706468
root	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	; ; ; ; ; ; ; ; ; ;	706468
root hair	Lotus japonicus	-	-	674963
seed	Tropaeolum majus	-	-	636813, 636829, 636833, 636837, 701702, 706280
seed	Tropaeolum majus	-	cotyledons of germinated seeds	636816, 636823, 636824
seed	Lens culinaris, Phaseolus vulgaris, Pisum sativum, Tamarindus indica	-	cotyledons of germinated seeds	636823
seed	Tropaeolum majus	-	sXET, expressed during germination	636830
seed	Lens culinaris	-	-	636833
seed	Pisum sativum	-	-	636837
seed	Tropaeolum majus	-	expression of isozyme sXET during germination	660266
seedling	Pisum sativum	-	7-8-day etiolated seedlings	636810
seedling	Solanum lycopersicum	-	-	636810
seedling	Vigna radiata var. radiata	-	-	636814, 636832
seedling	Sinapis sp.	-	-	636814
seedling	Vigna radiata var. radiata	-	sprouting seedlings, more abundant in the growing tissues of the hypocotyls and leaves than in the cotyledons	636827
seedling	Oryza sativa	Q5Z6G7, Q5Z6H1, Q5Z6H3, Q6ZAN9, Q763W5, Q76BW5, Q8VWG5	; ; ; ; ; ; ;	660231
seedling	Hordeum vulgare	-	-	674794
seedling	Oryza sativa	-	-	675122
seedling	Hordeum vulgare	B1P1S7, P93668	;	703656
shoot	Arabidopsis thaliana	-	26 days old	636818
shoot	Arabidopsis thaliana	-	-	636833
shoot	Vigna radiata var. radiata	-	etiolated shoots	636833
shoot	Sagittaria pygmaea	-	-	671337
sprout	Vigna radiata var. radiata	-	-	636814
stem	Solanum lycopersicum	-	-	636810, 636837
stem	Acer pseudoplatanus	-	first year stem	636810
stem	Allium schoenoprasum	-	peduncle	636810
stem	Bromus erectus, Holcus lanatus	-	-	636810
stem	Pisum sativum	-	etiolated stem, activity is positively correlated with growth rate in different zones of pea stem	636810
stem	Taraxacum officinale	-	peduncle	636810
stem	Zea mays	-	-	636810
stem	Pisum sativum	-	etiolated 7-day stems	636812
stem	Arabidopsis sp.	-	-	636814
stem	Tropaeolum majus	-	XET1 is expressed at lower levels in stems than in young epicotyls and roots	636820
stem	Solanum lycopersicum	-	tXET-B1 is detected in stems	636822
stem	Populus tremula x Populus tremuloides	Q8GZD5	-	636836
stem	Pisum sativum, Tropaeolum majus, Vigna angularis	-	-	636837
stem	Cicer arietinum	-	-	670606, 675146
thallus	Marchantia polymorpha	-	-	636810
tuber	Sagittaria pygmaea	-	-	671337
vascular tissue	Arabidopsis thaliana	-	-	636819
vascular tissue	Cicer arietinum	O65734	-	670606
xylem	Populus tremula x Populus tremuloides	Q8GZD5	XET activity in xylem and phloem fibers at the stage of secondary wall formation, PttXET16A	636836
xylem	Populus tremula x Populus tremuloides	-	-	676473
leaf	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	; ; ; ; ; ; ; ; ; ;	706468
additional information	Arabidopsis thaliana	-	XETs accumulates in expanding cells, at the sites of intercellular airspace, formation, and at the bases of leaves, cotyledons and hypocotyls, detailed localization	636819
additional information	Tropaeolum majus	-	XET1 is not expressed in cotyledons	636820
additional information	Nicotiana tabacum	P93349	tissue-specific NtXET-1 expression pattern, highest mRNA levels in organs highly enriched in vascular tissues	636834
additional information	Populus tremula x Populus tremuloides	Q8GZD5	detailed localization of XET in poplar stems, PttXET16A expression pattern, expression in secondary vascular tissues	636836
additional information	Oryza sativa	Q5Z6G7, Q5Z6H1, Q5Z6H3, Q6ZAN9, Q763W5, Q76BW5, Q8VWG5	tissue-specific and growth stage-dependent isozyme expression patterns, negligible expression in shoot, overview; tissue-specific and growth stage-dependent isozyme expression patterns, negligible expression in shoot, overview; tissue-specific and growth stage-dependent isozyme expression patterns, negligible expression in shoot, overview; tissue-specific and growth stage-dependent isozyme expression patterns, negligible expression in shoot, overview; tissue-specific and growth stage-dependent isozyme expression patterns, negligible expression in shoot, overview; tissue-specific and growth stage-dependent isozyme expression patterns, negligible expression in shoot, overview; tissue-specific and growth stage-dependent isozyme expression patterns, negligible expression in shoot, overview; tissue-specific and growth stage-dependent isozyme expression patterns, negligible expression in shoot, overview	660231
additional information	Tropaeolum majus	-	isozyme eXET also occurs in other growing regions	660266

LOCALIZATION	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	GeneOntology No.	LITERATURE	SOURCE
apoplast	Vigna angularis	-	-	48046	636837
cell wall	Vigna angularis	-	-	5618	636811, 636837, 660149
cell wall	Tropaeolum majus	-	localized exclusively in	5618	636813
cell wall	Actinidia deliciosa	-	most of the XET activity is strongly associated with the cell wall	5618	636817
cell wall	Populus alba	-	bound to	5618	636825
cell wall	Pisum sativum, Tropaeolum majus	-	cell wall marker enzyme, XET is present in the cell walls in form of a competent glycosyl-enzyme complex	5618	636831
cell wall	Nicotiana tabacum	P93349	the same gene encodes a protein, that may be both soluble and bound to the cell wall	5618	636834
cell wall	Nicotiana tabacum	-	bound to	5618	636837
cell wall	Pisum sativum, Tropaeolum majus	-	-	5618	636837
cell wall	Populus tremula x Populus tremuloides	-	-	5618	660130
cell wall	Oryza sativa	Q5Z6G7, Q5Z6H1, Q5Z6H3, Q6ZAN9, Q763W5, Q76BW5, Q8VWG5	; ; ; ; ; ; ;	5618	660231
cell wall	Brassica oleracea	-	-	5618	660311
cell wall	Zea mays	Q5JZX2	ZmXTH1 is weakly bound to the cell wall	5618	681144
soluble	Nicotiana tabacum	P93349	the same gene encodes a protein, that may be both soluble and bound to the cell wall	-	636834
extracellular	Vigna angularis	-	extracellular or apoplastic space of epicotyls	-	636811
additional information	Pisum sativum	-	not ionically bound to the cell wall, little XET activity is covalently bound in the cell wall	-	636810
additional information	Nicotiana tabacum	-	during interphase EXGT is extensively secreted into the apoplast via the endoplasmic reticulum-Golgi apparatus network, during cytokinesis it is exclusively located in the phragmoblast and eventually transported to the cell plate	-	636828
additional information	Arabidopsis thaliana	-	expression profiles of members of the XTH gene family, each XTH gene is likely to have a unique fingerprint of expression and regulation	-	636837
additional information	Nicotiana tabacum, Pisum sativum	-	-	-	636837

PDB	SCOP	CATH	ORGANISM
1umz, download	SCOP (1umz)	CATH (1umz)	Populus tremula x Populus tremuloides
1un1, download	SCOP (1un1)	CATH (1un1)	Populus tremula x Populus tremuloides

MOLECULAR WEIGHT	MOLECULAR WEIGHT MAXIMUM	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE
26500	-	Tropaeolum majus	-	deglycosylated major enzyme form XET(6.3), SDS-PAGE	706280
29000	-	Tropaeolum majus	-	glycosylated major enzyme form XET(6.3), SDS-PAGE	706280
29500	-	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	calculated from amino acid sequence	706468
29500	-	Actinidia hemsleyana	C0IRG8	calculated from amino acid sequence	706468
29600	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
29700	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
29900	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
30000	-	Phaseolus vulgaris	-	determined by SDS-PAGE and Western Blot analysis	694769
30100	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
30200	-	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	calculated from amino acid sequence; calculated from amino acid sequence	706468
30200	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
30400	-	Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	calculated from amino acid sequence	706468
31000	-	Hordeum vulgare	-	SDS-PAGE	674794
31000	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
31100	-	Actinidia chinensis	C0IRH0, C0IRH3	calculated from amino acid sequence	706468
31200	-	Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	calculated from amino acid sequence	706468
31730	-	Dimocarpus longan	-	calculated molecular mass	694757
31800	-	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	calculated from amino acid sequence; calculated from amino acid sequence	706468
31800	-	Actinidia eriantha	C0IRG0, C0IRG2, C0IRH1	calculated from amino acid sequence	706468
31800	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
31900	-	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	calculated from amino acid sequence	706468
31900	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
32000	-	Populus tremula x Populus tremuloides	-	SDS-PAGE	671392
32000	-	Cicer arietinum	-	SDS-PAGE	675146
32000	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
32200	-	Brassica rapa subsp. campestris	Q5MD55	SDS-PAGE	676712
32420	-	Dimocarpus longan	-	calculated molecular mass	694757
32930	-	Dimocarpus longan	-	calculated molecular mass	694757
33000	35000	Hordeum vulgare	B1P1S7, P93668	SDS-PAGE shows a single, but somewhat diffuse band of 33-35 kDa, indicating that the protein could be glycosylated; SDS-PAGE shows a single, but somewhat diffuse band of 33-35 kDa, indicating that the protein could be glycosylated	703656
33400	-	Vigna radiata	Q5MB21	calculated from amino acid sequence	676341
33780	-	Populus tremula x Populus tremuloides	-	mutant PttXET16-34 E85G, calculated molecular mass; mutant PttXET16-34 E85G, determined by ESI-TOF MS analysis	694512
33790	-	Populus tremula x Populus tremuloides	-	mutant PttXET16-34 E85A, calculated molecular mass; mutant PttXET16-34 E85A, determined by ESI-TOF MS analysis	694512
33810	-	Populus tremula x Populus tremuloides	-	mutant PttXET16-34 E85S, calculated molecular mass; mutant PttXET16-34 E85S, determined by ESI-TOF MS analysis	694512
33850	-	Populus tremula x Populus tremuloides	-	PttXET16-34, calculated molecular mass, glycoform GlcNAc2Man8	693105
34020	-	Populus tremula x Populus tremuloides	-	PttXET16-34, calculated molecular mass, glycoform GlcNAc2Man9	693105
34180	-	Populus tremula x Populus tremuloides	-	PttXET16-34, calculated molecular mass, glycoform GlcNAc2Man10	693105
35500	-	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	calculated from amino acid sequence	706468
36000	-	Arabidopsis thaliana	Q9ZV40	determined by SDS-PAGE	682473
36000	-	Malus x domestica	C0IRH4, C0IRH6, C0IRH7, C0IRH8, C0IRH9, C0IRI0, C0IRI1, C0IRI2, C0IRI3, C0IRI4, Q8GTJ0	calculated from amino acid sequence	706468
36700	-	Actinidia chinensis	C0IRH0, C0IRH3	calculated from amino acid sequence	706468
37000	-	Solanum lycopersicum	-	SDS-PAGE	670560
38000	-	Betula pendula	-	SDS-PAGE	674988
59000	-	Zea mays	Q5JZX2	-	681144

SUBUNITS	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE
?	Vigna angularis	-	x * 33000, SDS-PAGE	636811, 636837
?	Tropaeolum majus	-	x * 31000, SDS-PAGE and calculated from the amino acid sequence, the cDNA encodes a 33.5 kDa precursor polypeptide, which is subsequently processed to a 31 kDa mature protein	636813
?	Actinidia deliciosa	-	x * 34000, predicted MW of the mature protein encoded by AdXET5 is 31.8 kDa, SDS-PAGE	636817
?	Arabidopsis thaliana	-	x * 33400, predicted size of TCH4	636819
?	Solanum lycopersicum	-	x * 30460, tXET-B2; x * 30493, tXET-B1; x * 32000, His-tagged recombinant tXET-B2 with predicted molecular mass of 32 kDa	636822
?	Brassica oleracea, Vigna radiata var. radiata	-	x * 32000, each isoenzyme, SDS-PAGE	636827, 636832
?	Nicotiana tabacum	P93349	x * 33900, calculated from the amino acid sequence; x * 36000, probably glycosylated enzyme, Western blot	636834
?	Arabidopsis thaliana, Solanum lycopersicum, Tropaeolum majus	-	-	636837
?	Brassica oleracea var. botrytis	Q6YDN9	x * 33115, native enzyme, mass spectrometry, x * 31737, deglycosyated enzyme, mass spectrometry	657834

POSTTRANSLATIONAL MODIFICATION	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE
glycoprotein	Actinidia deliciosa	-	AdXET5 and AdXET6: asparagine-linked carbohydrate, N-glycosylated, glycosylation of the protein is not required for endo-transglycosylase activity	636817
proteolytic modification	Actinidia deliciosa	-	21 amino acids signal peptide at the N-terminus is cleaved to produce the mature protein	636817
proteolytic modification	Arabidopsis thaliana	-	mature TCH4 polypeptide lacks the putative N-terminal signal sequence	636818
glycoprotein	Brassica oleracea var. botrytis	Q6YDN9	one N-glycosylation site situated close to the predicted catalytic residues, enzyme is a high-mannose-type glycan, glycosylation is required for activity, deglycosylation results in 40% loss of activity, overview	657834
glycoprotein	Nicotiana tabacum	P93349	two putative glycosylation sites at amino acid positions 14 and 114	636834
proteolytic modification	Nicotiana tabacum	P93349	contains a hydrophobic N-terminus indicating a signal peptide	636834
glycoprotein	Oryza sativa	Q5Z6G7, Q5Z6H1, Q5Z6H3, Q6ZAN9, Q763W5, Q76BW5, Q8VWG5	isozyme possesses an N-glycosylation site adjacent to the C-terminal side of the DEIDFEFLG motif; isozyme possesses an N-glycosylation site adjacent to the C-terminal side of the DEIDFEFLG motif; isozyme possesses an N-glycosylation site adjacent to the C-terminal side of the DEIDFEFLG motif; isozyme possesses an N-glycosylation site adjacent to the C-terminal side of the DEIDFEFLG motif; isozyme possesses an N-glycosylation site adjacent to the C-terminal side of the DEIDFEFLG motif; isozyme possesses an N-glycosylation site adjacent to the C-terminal side of the DEIDFEFLG motif; isozyme possesses an N-glycosylation site adjacent to the C-terminal side of the DEIDFEFLG motif; isozyme XTH1, not isozyme XTH21, possesses an N-glycosylation site adjacent to the C-terminal side of the DEIDFEFLG motif	660231
no glycoprotein	Oryza sativa	Q5Z6G7, Q5Z6H1, Q5Z6H3, Q6ZAN9, Q763W5, Q76BW5, Q8VWG5	isozymes XTH19 and XTH20	660231
glycoprotein	Populus tremula x Populus tremuloides	Q8GZD5	PttXET16A contains a putative N-glycosylation site	636836
glycoprotein	Populus tremula x Populus tremuloides	-	enzyme contains a conserved N-glycosylation site situated proximal to the predicted catalytic site, deglycosylation by endoglycosidase H or by site-directed mutagenesis does not influence the enzyme activity	657870
glycoprotein	Populus tremula x Populus tremuloides	-	-	693105
proteolytic modification	Populus tremula x Populus tremuloides	Q8GZD5	PttXET16A has a putative 22 amino acids signal peptide at the N-terminus	636836
glycoprotein	Solanum lycopersicum	-	tXET-B1 and tXET-B2 with N-glycosylation sites	636822
proteolytic modification	Solanum lycopersicum	-	tXET-B1 and tXET-B2 contain a hydrophobic signal peptide of 20 and 18 amino acids, respectively, typical of an exported protein	636822
glycoprotein	Tropaeolum majus	-	-	706280
no glycoprotein	Tropaeolum majus	-	-	636813
proteolytic modification	Tropaeolum majus	-	hydrophobic core of 24 amino acids at the N-terminus, characteristic of a signal peptide, enzyme must be transported through the cell membrane in order to reach the cell wall, DNA encodes a 33.5 kDa precursor polypeptide, which is subsequently processed to a 31 kDa mature protein	636813
glycoprotein	Vigna angularis	-	with mannosyl residues	636811
glycoprotein	Zea mays	Q5JZX2	-	681144
glycoprotein	Arabidopsis thaliana	Q9ZSU4	all 4 isoenzymes, TCH4, Meri-5, EXGT and XTR9, are N-glycosylated, requirement of glycosylation for activity of the isoenzymes differs; all 4 isoenzymes, TCH4, Meri-5, EXGT and XTR9, are N-glycosylated, requirement of glycosylation for activity of the isoenzymes differs	636835
additional information	Arabidopsis thaliana	Q9ZSU4	co- and post-translational eucaryotic-specific modifications of TCH4 are critical for optimal XET activity	636835

Crystallization/COMMENTARY	ORGANISM	UNIPROT ACCESSION NO.	LITERATURE
2 different crystal forms	Populus tremula	-	636826
purified recombinant enzyme, free enzyme or in complex with a xyloglucan nonasaccharide XLLG, hanging drop vapour diffusion method, 20�C, 0.002 ml of 10 mg/ml protein in 10 mM HEPES, pH 7.0, mixed with equal volume of a solution containing 1.0 M NaOAc and 0.2 M imidazole, and again mixed with equal volume of reservoir solution containing 0.4 M potassium sodium tartrate, X-ray diffraction structure determination and analysis at 1.8 A resolution, overall structure is a beta-sandwich, molecular modeling	Populus tremula x Populus tremuloides	-	660130
active-site loop deletion variant NXG1-DELTAYNIIG in free and product-complexed forms, using 0.2 M sodium formate, 0.1 M Bis Tris propane buffer at pH 6.5, and 20% (w/v) PEG 3350	Tropaeolum majus	-	701134

pH STABILITY	pH STABILITY MAXIMUM	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE
3.5	4	Populus tremula x Populus tremuloides	-	at pH 3.5-4.0 no degradation is observed	671392
5	7	Betula pendula	-	the enzyme is 100% stable for 24 h in the pH range 5-7 at room temperature, but at pH values below and above this range 50-75% of the activity is lost	674988

TEMPERATURE STABILITY	TEMPERATURE STABILITY MAXIMUM	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE
0	37	Arabidopsis thaliana	-	isozyme XTH14 shows high activity at 37�C, and at least 80% of this activity is maintained down to 20�C. At 4�C the protein still displays more than 60% of ist activity at 37�C. The activity abruptly decreases to about 30% at 0�C. Isozyme XTH26 shows high activity at 37�C, and at least 50% of this activity is maintained down to 20�C. At 4�C the protein still displays more than 30% of ist activity at 37�C, while the activity abruptly decreases to about 15% at 0�C	704884
5	-	Arabidopsis thaliana	Q9ZSU4	all 4 isoenzymes are markedly cold-tolerant retaining activity at 5�C; all 4 isoenzymes are markedly cold-tolerant retaining activity at 5�C	636835
38	50	Tropaeolum majus	-	the activity of XETs from nasturtium seeds is stable at 40�C during 2 h (at 38�C during 8 h), but it is completely lost at 50�C	706280
44	-	Arabidopsis thaliana	-	TCH4 protein: undetectable activity, more heat-sensitive than the total XET activity	636818
52.3	-	Populus tremula x Populus tremuloides	-	unfolding temperature for the recombinant N93S mutant enzyme, slight protection by 20% glycerol or sucrose, 0.5 M urea, or NaCl at 350 mM, further destabilization by NaCl at 1 M	657870
52.9	-	Populus tremula x Populus tremuloides	-	unfolding temperature for the recombinant wild-type enzyme, slight protection by 20% glycerol or sucrose, 0.5 M urea, or NaCl at 350 mM, further destabilization by NaCl at 1 M	657870
95	-	Hordeum vulgare	B1P1S7, P93668	about 25% of isozyme XET6 activity survives incubation at 95�C for 1 min	703656
additional information	-	Pisum sativum	-	boiling inactivates	636810
additional information	-	Brassica oleracea, Vigna radiata var. radiata	-	isoenzymes are heat-labile, none of the isoenzymes is particularly cold-tolerant	636827

GENERAL STABILITY	ORGANISM	UNIPROT ACCESSION NO.	LITERATURE
loss of activity if frozen and stored at -80�C	Actinidia deliciosa	-	636817
activity is lost after partial purification and desalting, ascorbic acid and 2-mercaptoethanol cannot prevent the loss, activity can be restored by addition of a wide variety of inorganic and organic salts	Brassica oleracea	-	660311
progressive purification destabilizes XET activity, 10% glycerol stabilizes	Brassica oleracea	-	636832
about 30% activity is lost during one freeze-thaw cycle	Brassica oleracea var. botrytis	Q6YDN9	657834
repeated cycles of freezing and thawing reduce its activity to around 10%	Hordeum vulgare	-	703656, 703656
addition of bovine serum albumin does not affect enzyme activity or stability	Populus tremula x Populus tremuloides	-	671858
0.1 mM final concentration spermine stabilizes	Tropaeolum majus	-	636823
progressive purification destabilizes XET activity, 10% glycerol stabilizes	Vigna radiata var. radiata	-	636832

ORGANIC SOLVENT	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE
Ethanol	Brassica oleracea	-	15%, about 3 M, about 50% inhibition of product formation	636814
Glycerol	Hordeum vulgare	-	the addition of 10% (v/v) glycerol has no affect on XET activity after several freeze-thawing cycles	674794

OXIDATION STABILITY	ORGANISM	UNIPROT ACCESSION NO.	LITERATURE
No entries in this field

STORAGE STABILITY	ORGANISM	UNIPROT ACCESSION NO.	LITERATURE
-80�C, partially purified XET, ConA-eluate stage, 4 weeks, stable	Actinidia deliciosa	-	636817
-80�C, purified XET, loss of activity	Actinidia deliciosa	-	636817
4�C, purified XET, 24 h, stable	Actinidia deliciosa	-	636817
14�C, 0.1 mg/ml enzyme in 50 mM ammonium acetate, pH 5.5, with 0.5 M ammonium sulfate, complete loss of activity within 3 months	Brassica oleracea var. botrytis	Q6YDN9	657834
-20�C or -80�C, activity declines gradually	Hordeum vulgare	-	703656, 703656
-20�C, 100 mM succinate or ammonium acetate buffers at pH 6.0 containing 5 mM calcium chloride, 1 year, no loss of activity	Hordeum vulgare	-	674794
4�C, at least 6 months, without loss of activity	Hordeum vulgare	-	701937, 701937, 701937

Purification/COMMENTARY	ORGANISM	UNIPROT ACCESSION NO.	LITERATURE
His-Trap chelating column chromatography	Actinidia chinensis	C0IRH0, C0IRH3	706468
3000fold, AdXET6	Actinidia deliciosa	-	636817
His-Trap chelating column chromatography; His-Trap chelating column chromatography	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	706468
-	Arabidopsis thaliana	Q9ZV40	682473
ammonium sulfate precipitation, Hi-Trap SP Sepharose column chromatography, Superdex 75 gel filtration	Arabidopsis thaliana	-	704884
partial, recombinant TCH4, Meri-5, EXGT and XTR9, expressed in Sf9 insect cells; partial, recombinant TCH4, Meri-5, EXGT and XTR9, expressed in Sf9 insect cells	Arabidopsis thaliana	Q9ZSU4	636835
recombinant TCH4 protein expressed in Escherichia coli	Arabidopsis thaliana	-	636818
TCH4 and EXGT	Arabidopsis thaliana	-	636833
Ni-substituted chelating Sepharose FF column chromatography	Betula pendula	-	674988
-	Brassica oleracea	-	636827, 636833
general, mechanism-based method for purification, about 200fold, step-wise addition of (NH4)2SO4 reveals distinct isoforms	Brassica oleracea	-	636832
partial	Brassica oleracea	-	660311
native enzyme from florets to homogeneity by adsorption chromatography, 55-140fold purification dependent on different assay methods for quantification	Brassica oleracea var. botrytis	Q6YDN9	657834
direct elution from the acrylamide gel	Cicer arietinum	-	675146
-	Coleochaete scutata, Equisetum arvense, Equisetum fluviatile, Equisetum hyemale, Equisetum scirpoides, Equisetum telmateia, Equisetum variegatum	-	694679
ammonium sulfate precipitation, Sepharose Q column chromatography, phenyl Sepharose column chromatography and Bio-Gel P60 gel filtration; ammonium sulfate precipitation, Sepharose Q column chromatography, phenyl Sepharose column chromatography and Bio-Gel P60 gel filtration	Hordeum vulgare	B1P1S7, P93668	703656
ammonium sulfate precipitation, Sepharose Q column chromatography, phenyl Sepharose column chromatography, chromatofocusing on PBE-94, and Bio-Gel P-60 gel filtration; Sepharose Q column chromatography, Phenyl-Sepharose chromatography, PBE-94 column chromatography and Bio-Gel P-60 gel filtration	Hordeum vulgare	-	674794
immobilized metal affinity chromatography; immobilized metal affinity chromatography; immobilized metal affinity chromatography	Hordeum vulgare	B1P1S7, P93671, P93672	701937
-	Lens culinaris	-	636823, 636833
recombinant NtXET-1, expressed in Escherichia coli	Nicotiana tabacum	P93349	636834
-	Phaseolus vulgaris	-	636823
protein extracts from bean cells are prepared	Phaseolus vulgaris	-	694769
-	Pisum sativum	-	636823
recombinant I, expressed in Pichia pastoris	Populus tremula	-	636826
-	Populus tremula x Populus tremuloides	-	671858, 693104, 693105, 694512
recombinant enzyme from Pichia pastoris by strong cation exchange chromatography and gel filtration in a sequential combination	Populus tremula x Populus tremuloides	-	660130
recombinant His6-tagged PttXET16A, expressed in Escherichia coli BL21(DE3)	Populus tremula x Populus tremuloides	Q8GZD5	636836
recombinant wild-type and mutant enzymes from Pichia pastoris by ultrafiltration, one or two steps of cation exchange chromatography, dialysis, and adsorption chromatography	Populus tremula x Populus tremuloides	-	657870
SP-Sepharose fast flow column chromatography and S-source 15S gel filtration	Populus tremula x Populus tremuloides	-	671392
Supelclean ENVI-8 SPE column gel filtration	Populus tremula x Populus tremuloides	-	672509
-	Selaginella kraussiana	Q1XD17	677562
His-tagged recombinant tXET-B2, expressed in Escherichia coli	Solanum lycopersicum	-	636822
PD-10 column chromatography and UNO Q column chromatography	Solanum lycopersicum	-	670560
proteins are extracted from tomato plants; proteins are extracted from tomato plants; proteins are extracted from tomato plants; proteins are extracted from tomato plants; proteins are extracted from tomato plants; proteins are extracted from tomato plants; proteins are extracted from tomato plants; proteins are extracted from tomato plants; proteins are extracted from tomato plants; proteins are extracted from tomato plants; proteins are extracted from tomato plants; proteins are extracted from tomato plants	Solanum lycopersicum	Q40144, Q43527, Q43528, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	680320
-	Tamarindus indica	-	636823
-	Tropaeolum majus	-	636813, 636816, 636823, 636824, 636829, 636833
isozymes sXET and eXET from germinated seeds, i.e. cotyledons, and from epicotyls, respectively, to near homogeneity by ammonium sulfate fractionation, anion exchange chromatography, adsorption and desorption of the enzyme-substrate complex on cellulose, and hydrophobic-interaction chromatography	Tropaeolum majus	-	660266
polyanion SI column chromatography, Spheron phosphate column chromatography, and Superdex 75 gel filtration	Tropaeolum majus	-	706280
-	Vigna angularis	-	636837
87fold, from apoplastic space of epicotyls	Vigna angularis	-	636811
-	Vigna radiata var. radiata	-	636827, 636833
general, mechanism-based method for purification, about 200fold, step-wise addition of (NH4)2SO4 reveals distinct isoforms	Vigna radiata var. radiata	-	636832
-	Zea mays	Q5JZX2	681144

Cloned/COMMENTARY	ORGANISM	UNIPROT ACCESSION NO.	LITERATURE
isoform XTH14 is expressed in Escherichia coli BL21 cells	Actinidia chinensis	C0IRH0, C0IRH3	706468
6 isoforms, AdXET1-6 gene family is cloned, a full-length cDNA, AdXET5, is cloned, sequenced and overexpressed as active XET in Escherichia coli, purified XET is encoded by AdXET6	Actinidia deliciosa	-	636817
isoform XTH5 is expressed in Escherichia coli BL21 cells; isoform XTH7 is expressed in Escherichia coli BL21 cells	Actinidia deliciosa	C0IRG3, C0IRG4, C0IRG5, C0IRG6, C0IRG7, C0IRG9, C0IRH2	706468
3 insect-cell-produced XETs: EXGT, TCH4 and MERI-5	Arabidopsis thaliana	-	636833
AtXTH24 is expressed in baculovirus-infected insect cells	Arabidopsis thaliana	P24806	694774
cloning and expression of TCH4 in Escherichia coli; TCH4 is a member of the XET-related gene family	Arabidopsis thaliana	-	636818
cloning and expression of TCH4, Meri-5, EXGT and XTR9 using the baculovirus/Sf9 insect cell system, XTR9 is sequenced; cloning and expression of XTR9 using the baculovirus/Sf9 insect cell system, XTR9 is sequenced	Arabidopsis thaliana	Q9ZSU4	636835
expressed in Pichia pastoris strain GS115	Arabidopsis thaliana	-	704884
gene structure, genomic localization and phylogenetic relationship of the XTH gene family	Arabidopsis thaliana	-	636837
into the pBIm and pCAM-BIA1300 vector, and into the pPIC6A expression vector for the production of recombinant AtXTH21 protein using the Pichia pastoris expression system	Arabidopsis thaliana	Q9ZV40	682473
TCH4 is a member of the XET-related gene family	Arabidopsis thaliana	-	636819
expressed in Pichia pastoris strain GS115	Betula pendula	-	674988
DNA and amino acid sequence determination and analysis, expression in Pichia pastoris resulting in a recombinant enzyme which is more highly mannosylated than the native enzyme without having influence on activity	Brassica oleracea var. botrytis	Q6YDN9	657834
expressed in Arabidopsis thaliana	Brassica rapa subsp. campestris	Q5MD55	676712
expressed in Arabidopsis thaliana	Capsicum annuum	-	673649
expressed in Escherichia coli strain BL21 (DE3)	Cicer arietinum	-	675146
into the pMD-18T vector	Dianthus caryophyllus	-	692626
into the pMD-18T vector	Dimocarpus longan	-	694757
expressed in Pichia pastoris; expressed in Pichia pastoris	Hordeum vulgare	B1P1S7, P93668	703656
expressed in Pichia pastoris; expressed in Pichia pastoris; expressed in Pichia pastoris	Hordeum vulgare	B1P1S7, P93671, P93672	701937
NtXET-1 is cloned and expressed in Escherichia coli, ORF encodes a 295 amino acids protein, cDNA is cloned in sense and antisense orientation, creation of transgenic tobacco plants with reduced NtXET-1 expression: 2 independent lines with reduced total XET activity by 56% and 37%, respectively, in midribs of tobacco plants transformed with an antisense construct, which exhibit an at least 20% increase in the average MW of xyloglucan	Nicotiana tabacum	P93349	636834
DNA and amino acid sequence determination and analysis, phylogenetic analysis and sequence alignment; DNA and amino acid sequence determination and analysis, phylogenetic analysis and sequence alignment; DNA and amino acid sequence determination and analysis, phylogenetic analysis and sequence alignment; DNA and amino acid sequence determination and analysis, phylogenetic analysis and sequence alignment; DNA and amino acid sequence determination and analysis, phylogenetic analysis and sequence alignment; DNA and amino acid sequence determination and analysis, phylogenetic analysis and sequence alignment; DNA and amino acid sequence determination and analysis, phylogenetic analysis and sequence alignment; DNA and amino acid sequence determination and analysis, phylogenetic analysis and sequence alignment	Oryza sativa	Q5Z6G7, Q5Z6H1, Q5Z6H3, Q6ZAN9, Q763W5, Q76BW5, Q8VWG5	660231
recombinant I expression in Pichia pastoris	Populus tremula	-	636826
DNA sequence determination and analysis, functional expression in Pichia pastoris	Populus tremula x Populus tremuloides	-	660130
DNA sequence determination and analysis, methanol-induced, functional expression of wild-type and N93S mutant enzymes in Pichia pastoris, the recombinant wild-type enzyme is heterogeneous due to presence of variable N-glycosylation and incomplete cleavage of the alpha-factor secretion signal peptide	Populus tremula x Populus tremuloides	-	657870
expressed in Pichia pastoris	Populus tremula x Populus tremuloides	-	671858, 672509
expressed in Pichia pastoris strain GS115	Populus tremula x Populus tremuloides	-	671392
for expression in Pichia pastoris strain GS115	Populus tremula x Populus tremuloides	-	694512
PttXET16-34 is cloned and recombinantly expressed in Pichia pastoris	Populus tremula x Populus tremuloides	-	693104, 693105
PttXET16A, a XET isoform in secondary vascular tissues and a member of XET subfamily I, is cloned, sequenced and expressed in Escherichia coli BL21(DE3), structure of the coding sequence	Populus tremula x Populus tremuloides	Q8GZD5	636836
-	Selaginella kraussiana	Q1XD17	677562
expressed in Pichia pastoris	Solanum lycopersicum	-	670560
LeEXT gene encoding XET is cloned	Solanum lycopersicum	Q40144	636815
small multi-gene family encodes XET: tXET�B1, -B2, -B3 and -B4, tXET-B2 is cloned, sequenced and overexpressed in Escherichia coli, nucleotide and amino acid sequence of tXET-B1	Solanum lycopersicum	-	636822
expressed in Pichia pastoris strain GS115	Tropaeolum majus	-	701134
genes XET1 and NXG1 encode 2 enzyme forms, XET1 cDNA is cloned and sequenced, amino acid sequence of NGX1	Tropaeolum majus	-	636820
single copy gene, cDNA encoding XET is cloned, sequenced and encodes a 33.5 kDa precursor polypeptide, which is subsequently processed to a 31 kDa mature protein, NXG1 and 2 may be different alleles of the XET gene	Tropaeolum majus	-	636813
into the pET28a+ vector for transformation of Escherichia coli BL21 cells, into the pPICZalphaA vector for transformation of Pichia pastoris X-33 cells, into the pCAMBIA1302 and pCAMBIA1300 vectors for transformation of onion and Arabidopsis thaliana cells, respectively	Zea mays	Q5JZX2	681144

EXPRESSION	ORGANISM	UNIPROT ACCESSION NO.	LITERATURE
isozyme XTH7 is expressed at the red ripe stage; the expression of isozyme XTH5 is clearly associated with fruit ripening; the expression of isozyme XTH8 is clearly associated with fruit ripening; XTH12 is expressed at the red ripe stage; XTH1 is expressed at the red ripe stage; XTH2 is expressed at the red ripe stage; XTH3 is expressed at the red ripe stage; XTH4 is expressed at the red ripe stage; XTH6 is expressed at the red ripe stage; XTH9 is expressed at the red ripe stage	Solanum lycopersicum	Q40144, Q6RHX7, Q6RHX8, Q6RHX9, Q6RHY0, Q6RHY1, Q9FR51, Q9FZ05, Q9SDX0, Q9SLN9	699806

ENGINEERING	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE
E97Q	Arabidopsis thaliana	-	At-XTH22: a Glu to Gln substitution, converting the active site sequence DEIDFEFL to DQIDFEFL, abolishes XET activity	636837
E85A	Populus tremula x Populus tremuloides	-	site-directed mutagenesis of the catalytic nucleophile Glu-85 yields an enzyme with glycosynthase activity	694512
E85G	Populus tremula x Populus tremuloides	-	PttXET16-34 catalytic nucleophile variant	693105
E85G	Populus tremula x Populus tremuloides	-	site-directed mutagenesis of the catalytic nucleophile Glu-85 yields an enzyme with glycosynthase activity	694512
E85S	Populus tremula x Populus tremuloides	-	site-directed mutagenesis of the catalytic nucleophile Glu-85 yields an enzyme with glycosynthase activity	694512
N93S	Populus tremula x Populus tremuloides	-	site-directed mutagenesis, activity and thermal stability of the mutant enzyme are similar to the wild-type enzyme, but the mutant shows reduced solubility	657870

Renatured/COMMENTARY	ORGANISM	UNIPROT ACCESSION NO.	LITERATURE
No entries in this field

APPLICATION	ORGANISM	UNIPROT ACCESSION NO.	COMMENTARY	LITERATURE
No entries in this field

REF.	AUTHORS	TITLE	JOURNAL	VOL.	PAGES	YEAR	ORGANISM	LINK TO PUBMED	SOURCE
636810	Fry, S.C.; Smith, R.C.; Renwick, K.F.; Martin, D.J.; Hodge, S.K.; Matthews, K.J.	Xyloglucan endotransglycosylase, a new wall-loosening enzyme activity from plants	Biochem. J.	282	821-828	1992	Acer pseudoplatanus, Allium schoenoprasum, Anthriscus sylvestris, Bromus erectus, Holcus lanatus, Lupinus polyphyllus, Marchantia polymorpha, Mnium hornum, Pisum sativum, Solanum lycopersicum, Taraxacum officinale, Zea mays	-
636811	Nishitani, K.; Tominaga, R.	Endo-xyloglucan transferase, a novel class of glycosyltransferase that catalyzes transfer of a segment of xyloglucan molecule to another xyloglucan molecule	J. Biol. Chem.	267	21058-21064	1992	Vigna angularis	PubMed
636812	Lorences, E.P.; Fry, S.C.	Xyloglucan oligosaccharides with at least two alpha-D-xylose residues act as acceptor substrates for xyloglucan endotransglycosylase and promote the depolymerisation of xyloglucan	Physiol. Plant.	88	105-112	1993	Phaseolus vulgaris, Pisum sativum	-
636813	de Silva, J.; Jarman, C.D.; Arrowsmith, D.A.; Stronach, M.S.; Chengappa, S.; Sidebottom, C.; Reid, J.S.G.	Molecular characterization of a xyloglucan-specific endo-(1-->4)-beta-D-glucanase (xyloglucan endo-transglycosylase) from nasturtium seeds	Plant J.	3	701-711	1993	Tropaeolum majus	PubMed
636814	Fry, S.C.	Novel 'dot-blot' assays for glycosyltransferases and glycosylhydrolases: Optimization for xyloglucan endotransglycosylase (XET) activity	Plant J.	11	1141-1150	1997	Apium sp., Arabidopsis sp., Brassica oleracea, Sinapis sp., Vigna radiata var. radiata	-
636815	Catala, C.; Rose, J.K.C.; Bennett, A.B.	Auxin regulation and spatial localization of an endo-1,4-beta-D-glucanase and a xyloglucan endotransglycosylase in expanding tomato hypocotyls	Plant J.	12	417-426	1997	Solanum lycopersicum	PubMed
636816	Fanutti, C.; Gidley, M.J.; Reid, J.S.G.	Action of a pure xyloglucan endo-transglycosylase (formerly called xyloglucan-specific endo-(1-->4)-beta-D-glucanase) from the cotyledons of germinated nasturtium seeds	Plant J.	3	691-700	1993	Tropaeolum majus	PubMed
636817	Schr�der, R.; Atkinson, R.G.; Langenk�mper, G.; Redgwell, R.J.	Biochemical and molecular characterisation of xyloglucan endotransglycosylase from ripe kiwifruit	Planta	204	242-251	1998	Actinidia deliciosa	PubMed
636818	Purugganan, M.M.; Braam, J.; Fry, S.C.	The Arabidopsis TCH4 xyloglucan endotransglycosylase. Substrate specificity, pH optimum, and cold tolerance	Plant Physiol.	115	181-190	1997	Arabidopsis thaliana	PubMed
636819	Antosiesicz, D.M.; Purugganan, M.M.; Polisensky, D.H.; Braam, J.	Cellular localization of Arabidopsis xyloglucan endotransglycosylase-related proteins during development and after wind stimulation	Plant Physiol.	115	1319-1328	1997	Arabidopsis thaliana	PubMed
636820	Rose, J.K.C.; Brummell, D.A.; Bennett, A.B.	Two divergent xyloglucan endotransglycosylases exhibit mutually exclusive patterns of expression in nasturtium	Plant Physiol.	110	493-499	1996	Tropaeolum majus	PubMed
636821	Potter, I.; Fry, S.C.	Xyloglucan endotransglycosylase activity in pea internodes. Effects of applied gibberellic acid	Plant Physiol.	103	235-241	1993	Pisum sativum	PubMed
636822	Arrowsmith, D.A.; de Silva, J.	Characterisation of two tomato fruit-expressed cDNAs encoding xyloglucan endo-transglycosylase	Plant Mol. Biol.	28	391-403	1995	Solanum lycopersicum	PubMed
636823	Sulova, Z.; Lednicka, M.; Farkas, V.	A colorimetric assay for xyloglucan-endotransglycosylase from germinating seeds	Anal. Biochem.	229	80-85	1995	Lens culinaris, Phaseolus vulgaris, Pisum sativum, Tamarindus indica, Tropaeolum majus	PubMed
636824	Fanutti, C.; Gidley, M.J.; Reid, J.S.G	Substrate subsite recognition of the xyloglucan endo-transglycosylase or xyloglucan-specific endo-(1-->4)-beta-D-glucanase from the cotyledons of germinated nasturtium (Tropaeolum majus L.) seeds	Planta	200	221-228	1996	Tropaeolum majus	PubMed
636825	Takeda, T.; Mitsuishi, Y.; Sakai, F.; Hayashi, T.	Xyloglucan endotransglycosylation in suspension-cultured poplar cells	Biosci. Biotechnol. Biochem.	60	1950-1955	1996	Populus alba	PubMed
636826	Johansson, P.; Denman, S.; Brumer, H.; Kallas, A.M.; Henriksson, H.; Bergfors, T.; Teeri, T.T.; Jones, T.A.	Crystallization and preliminary x-ray analysis of a xyloglucan endotransglycosylase from Populus tremula * tremuloides	Acta Crystallogr. Sect. D	59	535-537	2003	Populus tremula	PubMed
636827	Steele, N.M.; Fry, S.C.	Differences in catalytic properties between native isoenzymes of xyloglucan endotransglycosylase (XET)	Phytochemistry	54	667-680	2000	Brassica oleracea, Vigna radiata var. radiata	PubMed
636828	Yokoyama, R.; Nishitani, K.	Endoxyloglucan transferase is localized both in the cell plate and in the secretory pathway destined for the apoplast in tobacco cells	Plant Cell Physiol.	42	292-300	2001	Nicotiana tabacum	PubMed
636829	Baran, R.; Sulova, Z.; Stratilova, E.; Farkas, V.	Ping-pong character of nasturtium-seed xyloglucan endotransglycosylase (XET) reaction	Gen. Physiol. Biophys.	19	427-440	2000	Tropaeolum majus	PubMed
636830	Sulova, Z.; Baran, R.; Farkas, V.	Xyloglucan endotransglycosylase (XET) isoenzymes with different modes of action on xyloglucan	12th European Carbohydrate Symposium, Grenoble	France	July 6-11	2003	Tropaeolum majus	-
636831	Sulova, Z.; Baran, R.; Farkas, V.	Release of complexed xyloglucan endotransglycosylase (XET) from plant cell walls by a transglycosylation reaction with xyloglucan-derived oligosaccharides	Plant Physiol. Biochem.	39	927-932	2001	Pisum sativum, Tropaeolum majus	-
636832	Steele, N.M.; Fry, S.C.	Purification of xyloglucan endotransglycosylases (XETs): A generally applicable and simple method based on reversible formation of an enzyme-substrate complex	Biochem. J.	340	207-211	1999	Brassica oleracea, Vigna radiata var. radiata	-
636833	Steele, N.M.; Sulova, Z.; Campbell, P.; Braam, J.; Farkas, V.; Fry, S.C.	Ten isoenzymes of xyloglucan endotransglycosylase from plant cell walls select and cleave the donor substrate stochastically	Biochem. J.	355	671-679	2001	Arabidopsis thaliana, Brassica oleracea, Lens culinaris, Tropaeolum majus, Vigna radiata var. radiata	PubMed
636834	Herbers, K.; Lorences, E.P.; Barrachina, C.; Sonnewald, U.	Functional characterisation of Nicotiana tabacum xyloglucan endotransglycosylase (NtXET-1): Generation of transgenic tobacco plants and changes in cell wall xyloglucan	Planta	212	279-287	2001	Nicotiana tabacum	PubMed
636835	Campbell, P.; Braam, J.	In vitro activities of four xyloglucan endotransglycosylases from Arabidopsis	Plant J.	18	371-382	1999	Arabidopsis thaliana	PubMed
636836	Bourquin, V.; Nishikubo, N.; Abe, H.; Brumer, H.; Denman, S.; Eklund, M.; Christiernin, M.; Teeri, T.T.; Sundberg, B.; Mellerowicz, E.J.	Xyloglucan endotransglycosylases have a function during the formation of secondary cell walls of vascular tissues	Plant Cell	14	3073-3088	2002	Populus tremula x Populus tremuloides	PubMed
636837	Rose, J.K.C.; Braam, J.; Fry, S.C.; Nishitani, K.	The XTH family of enzymes involved in xyloglucan endotransglucosylation and endohydrolysis: Current perspectives and a new unifying nomenclature	Plant Cell Physiol.	43	1421-1435	2002	Apium sp., Arabidopsis thaliana, Nicotiana tabacum, Pisum sativum, Solanum lycopersicum, Spinacia oleracea, Tropaeolum majus, Vigna angularis	PubMed
636838	Vissenberg, K.; Van Sandt, V.; Fry, S.C.; Verbelen, J.P.	Xyloglucan endotransglucosylase action is high in the root elongation zone and in the trichoblasts of all vascular plants from Selaginella to Zea mays	J. Exp. Bot.	54	335-344	2003	Adiantum capillus-veneri, Aloe sp., Anthurium upalaense, Anthurium willdenowii, Arabidopsis thaliana, Asphodelus fistulosus, Azolla sp., Beckmannia syzigachne, Blumenbachia hieronymi, Briza maxima, Calandrinia grandiflora, Callistephus chinensis, Canna indica, Carex flacca, Cedrus atlantica, Cenchrus ciliaris, Centaurea benedicta, Chaenorhinum minus, Chamaecyparis sp., Chamaecyparis thyoides, Chamaedorea elegans, Cochlearia officinalis, Colysis pteropus, Commelina nilagirica, Convallaria majalis, Crocus vernus, Cyperus prolifer, Dracaena draco, Elsholtzia ciliata, Euphorbia helioscopia, Helianthus annuus, Iris pseudacorus, Juncus effusus, Lactuca perennis, Lemna minor, Linum usitatissimum, Luzula luzuloides, Musa x paradisiaca, Nicotiana tabacum, Peperomia rotundifolia, Pharbitis purpurea, Picea abies, Pinus parviflora, Pinus radiata, Pitcairnia imbricata, Pothomorphe petalta, Pteris cretica, Scabiosa atropurpurea, Selaginella sp., Taxus baccata, Tradescantia zebrina, Tragopodon pratensis, Trigonella caerulea, Triticum turgidum subsp. dicoccon, Typha angustifolia, Typha latifolia, Vulpia myuros, Zea mays	PubMed
657834	Henriksson, H.; Denman, S.E.; Campuzano, I.D.; Ademark, P.; Master, E.R.; Teeri, T.T.; Brumer, H.	N-linked glycosylation of native and recombinant cauliflower xyloglucan endotransglycosylase 16A	Biochem. J.	375	61-73	2003	Brassica oleracea var. botrytis	PubMed
657870	Kallas, A.M.; Piens, K.; Denman, S.E.; Henriksson, H.; Faldt, J.; Johansson, P.; Brumer, H.; Teeri, T.T.	Enzymatic properties of native and deglycosylated hybrid aspen (Populus tremulaxtremuloides) xyloglucan endotransglycosylase 16A expressed in Pichia pastoris	Biochem. J.	390	105-113	2005	Populus tremula x Populus tremuloides	PubMed
660130	Johansson, P.; Brumer, H.3rd.; Baumann, M.J.; Kallas, A.M.; Henriksson, H.; Denman, S.E.; Teeri, T.T.; Jones, T.A.	Crystal structures of a poplar xyloglucan endotransglycosylase reveal details of transglycosylation acceptor binding	Plant Cell	16	874-886	2004	Populus tremula x Populus tremuloides	PubMed
660149	Kaku, T.; Tabuchi, A.; Wakabayashi, K.; Hoson, T.	Xyloglucan oligosaccharides cause cell wall loosening by enhancing xyloglucan endotransglucosylase/hydrolase activity in azuki bean epicotyls	Plant Cell Physiol.	45	77-82	2004	Vigna angularis	PubMed
660231	Yokoyama, R.; Rose, J.K.; Nishitani, K.	A surprising diversity and abundance of xyloglucan endotransglucosylase/hydrolases in rice. Classification and expression analysis	Plant Physiol.	134	1088-1099	2004	Oryza sativa	PubMed
660266	Sulova, Z.; Baran, R.; Farkas, V.	Divergent modes of action on xyloglucan of two isoenzymes of xyloglucan endo-transglycosylase from Tropaeolum majus	Plant Physiol. Biochem.	41	431-437	2003	Tropaeolum majus	-
660274	Farkas, V.; Ait-Mohand, F.; Stratilova, E.	Sensitive detection of transglycosylating activity of xyloglucan endotransglycosylase/hydrolase (XTH) after isoelectric focusing in polyacrylamide gels	Plant Physiol. Biochem.	43	431-435	2005	Allium ampeloprasum, Cucumis sativus, Daucus carota, Lactuca sativa ssp. capitata, Piper sp., Pisum sativum, Tropaeolum majus	PubMed
660311	Takeda, T.; Fry, S.C.	Control of xyloglucan endotransglucosylase activity by salts and anionic polymers	Planta	219	722-732	2004	Brassica oleracea	PubMed
668722	Maldonado-Mendoza, I.E.; Dewbre, G.R.; Blaylock, L.; Harrison, M.J.	Expression of a xyloglucan endotransglucosylase/hydrolase gene, Mt-XTH1, from Medicago truncatula is induced systemically in mycorrhizal roots	Gene	345	191-197	2005	Medicago truncatula	PubMed
670560	Saladie, M.; Rose, J.K.; Cosgrove, D.J.; Catala, C.	Characterization of a new xyloglucan endotransglucosylase/hydrolase (XTH) from ripening tomato fruit and implications for the diverse modes of enzymic action	Plant J.	47	282-295	2006	Solanum lycopersicum	PubMed
670606	Romo, S.; Jimenez, T.; Labrador, E.; Dopico, B.	The gene for a xyloglucan endotransglucosylase/hydrolase from Cicer arietinum is strongly expressed in elongating tissues	Plant Physiol. Biochem.	43	169-176	2005	Cicer arietinum	PubMed
671337	Ookawara, R.; Satoh, S.; Yoshioka, T.; Ishizawa, K.	Expression of alpha-expansin and xyloglucan endotransglucosylase/hydrolase genes associated with shoot elongation enhanced by anoxia, ethylene and carbon dioxide in arrowhead (Sagittaria pygmaea Miq.) tubers	Ann. Bot.	96	693-702	2005	Sagittaria pygmaea	PubMed
671392	Bollok, M.; Henriksson, H.; Kallas, A.; Jahic, M.; Teeri, T.T.; Enfors, S.O.	Production of poplar xyloglucan endotransglycosylase using the methylotrophic yeast Pichia pastoris	Appl. Biochem. Biotechnol.	126	61-77	2005	Populus tremula x Populus tremuloides	PubMed
671858	Saura-Valls, M.; Faure, R.; Ragas, S.; Piens, K.; Brumer, H.; Teeri, T.T.; Cottaz, S.; Driguez, H.; Planas, A.	Kinetic analysis using low-molecular mass xyloglucan oligosaccharides defines the catalytic mechanism of a Populus xyloglucan endotransglycosylase	Biochem. J.	395	99-106	2006	Populus tremula x Populus tremuloides	PubMed
672509	Gustavsson, M.T.; Persson, P.V.; Iversen, T.; Martinelle, M.; Hult, K.; Teeri, T.T.; Brumer, H.	Modification of cellulose fiber surfaces by use of a lipase and a xyloglucan endotransglycosylase	Biomacromolecules	6	196-203	2005	Populus tremula x Populus tremuloides	PubMed
672932	Mohand, F.A.; Farkas, V.	Screening for hetero-transglycosylating activities in extracts from nasturtium (Tropaeolum majus)	Carbohydr. Res.	341	577-581	2006	Tropaeolum majus	PubMed
673649	Cho, S.K.; Kim, J.E.; Park, J.A.; Eom, T.J.; Kim, W.T.	Constitutive expression of abiotic stress-inducible hot pepper CaXTH3, which encodes a xyloglucan endotransglucosylase/hydrolase homolog, improves drought and salt tolerance in transgenic Arabidopsis plants	FEBS Lett.	580	3136-3144	2006	Capsicum annuum	PubMed
674794	Hrmova, M.; Farkas, V.; Lahnstein, J.; Fincher, G.B.	A Barley xyloglucan xyloglucosyl transferase covalently links xyloglucan, cellulosic substrates, and (1,3;1,4)-beta-D-glucans	J. Biol. Chem.	282	12951-12962	2007	Hordeum vulgare	PubMed
674963	Maekawa, T.; Hayashi, M.; Murooka, Y.	Root hair abundant genes LjRH101 and LjRH102 encode peroxidase and xyloglucan endotransglycosylase in Lotus japonicus	J. Biosci. Bioeng.	99	84-86	2005	Lotus japonicus	PubMed
674988	Toikkanen, J.H.; Niku-Paavola, M.L.; Bailey, M.; Immanen, J.; Rintala, E.; Elomaa, P.; Helariutta, Y.; Teeri, T.H.; Fagerstroem, R.	Expression of xyloglucan endotransglycosylases of Gerbera hybrida and Betula pendula in Pichia pastoris	J. Biotechnol.	130	161-170	2007	Betula pendula, Gerbera hybrid cultivar	PubMed
675122	Cui, D.; Neill, S.J.; Tang, Z.; Cai, W.	Gibberellin-regulated XET is differentially induced by auxin in rice leaf sheath bases during gravitropic bending	J. Exp. Bot.	56	1327-1334	2005	Oryza sativa	PubMed
675146	Jimenez, T.; Martin, I.; Labrador, E.; Dopico, B.	The immunolocation of a xyloglucan endotransglucosylase/hydrolase specific to elongating tissues in Cicer arietinum suggests a role in the elongation of vascular cells	J. Exp. Bot.	57	3979-3988	2006	Cicer arietinum	PubMed
676341	Yun, H.S.; Kwon, C.; Kang, B.G.; Lee, J.S.; Han, T.; Chang, S.C.; Kim, S.	A xyloglucan endotransglycosylase/hydrolase1, VrXTH1, is associated with cell elongation in mungbean hypocotyls	Physiol. Plant.	125	106-113	2005	Vigna radiata	-
676397	Van Sandt, V.S.; Guisez, Y.; Verbelen, J.P.; Vissenberg, K.	Xyloglucan endotransglycosylase/hydrolase (XTH) is encoded by a multi-gene family in the primitive vascular land plant Selaginella kraussiana	Plant Biol.	9	142-146	2007	Selaginella kraussiana	PubMed
676433	Baumann, M.J.; Ekloef, J.M.; Michel, G.; Kallas, A.M.; Teeri, T.T.; Czjzek, M.; Brumer, H.	Structural evidence for the evolution of xyloglucanase activity from xyloglucan endo-transglycosylases: Biological implications for cell wall metabolism	Plant Cell	19	1947-1963	2007	Populus tremula x Populus tremuloides	PubMed
676443	Divol, F.; Vilaine, F.; Thibivilliers, S.; Kusiak, C.; Sauge, M.H.; Dinant, S.	Involvement of the xyloglucan endotransglycosylase/hydrolases encoded by celery XTH1 and Arabidopsis XTH33 in the phloem response to aphids	Plant Cell Environ.	30	187-201	2007	Apium graveolens, Arabidopsis thaliana	PubMed
676459	Vissenberg, K.; Oyama, M.; Osato, Y.; Yokoyama, R.; Verbelen, J.P.; Nishitani, K.	Differential expression of AtXTH17, AtXTH18, AtXTH19 and AtXTH20 genes in Arabidopsis roots. Physiological roles in specification in cell wall construction	Plant Cell Physiol.	46	192-200	2005	Arabidopsis thaliana	PubMed
676473	Nishikubo, N.; Awano, T.; Banasiak, A.; Bourquin, V.; Ibatullin, F.; Funada, R.; Brumer, H.; Teeri, T.T.; Hayashi, T.; Sundberg, B.; Mellerowicz, E.J.	Xyloglucan endo-transglycosylase (XET) functions in gelatinous layers of tension wood fibers in poplar - A glimpse into the mechanism of the balancing act of trees	Plant Cell Physiol.	48	843-855	2007	Populus tremula x Populus tremuloides	PubMed
676712	Shin, Y.K.; Yum, H.; Kim, E.S.; Cho, H.; Gothandam, K.M.; Hyun, J.; Chung, Y.Y.	BcXTH1, a Brassica campestris homologue of Arabidopsis XTH9, is associated with cell expansion	Planta	224	32-41	2006	Brassica rapa subsp. campestris	PubMed
677562	Van Sandt, V.S.; Suslov, D.; Verbelen, J.P.; Vissenberg, K.	Xyloglucan endotransglucosylase activity loosens a plant cell wall	Ann. Bot.	100	1467-1473	2007	Selaginella kraussiana	PubMed
680320	Miedes, E.; Lorences, E.P.	The implication of xyloglucan endotransglucosylase/hydrolase (XTHs) in tomato fruit infection by Penicillium expansum Link. A	J. Agric. Food Chem.	55	9021-9026	2007	Solanum lycopersicum	PubMed
681144	Genovesi, V.; Fornale, S.; Fry, S.C.; Ruel, K.; Ferrer, P.; Encina, A.; Sonbol, F.M.; Bosch, J.; Puigdomenech, P.; Rigau, J.; Caparros-Ruiz, D.	ZmXTH1, a new xyloglucan endotransglucosylase/hydrolase in maize, affects cell wall structure and composition in Arabidopsis thaliana	J. Exp. Bot.	59	875-889	2008	Zea mays	PubMed
682473	Liu, Y.B.; Lu, S.M.; Zhang, J.F.; Liu, S.; Lu, Y.T.	A xyloglucan endotransglucosylase/hydrolase involves in growth of primary root and alters the deposition of cellulose in Arabidopsis	Planta	226	1547-1560	2007	Arabidopsis thaliana	PubMed
692626	Song, L.; Wang, Y.; Lu, W.; Wu, G.; Jiang, Y.; Gao, H.	Differential expressions of expansin and xyloglucan endotransglucosylase genes by adenosine triphosphate of cut carnation flowers during senescence	Int. J. Agric. Res.	2	945-951	2007	Dianthus caryophyllus	-
693104	Saura-Valls, M.; Faure, R.; Brumer, H.; Teeri, T.T.; Cottaz, S.; Driguez, H.; Planas, A.	Active-site mapping of a Populus xyloglucan endo-transglycosylase with a library of xylogluco-oligosaccharides	J. Biol. Chem.	283	21853-21863	2008	Populus tremula x Populus tremuloides	PubMed
693105	Piens, K.; Faure, R.; Sundqvist, G.; Baumann, M.J.; Saura-Valls, M.; Teeri, T.T.; Cottaz, S.; Planas, A.; Driguez, H.; Brumer, H.	Mechanism-based labeling defines the free energy change for formation of the covalent glycosyl-enzyme intermediate in a xyloglucan endo-transglycosylase	J. Biol. Chem.	283	21864-21872	2008	Populus tremula x Populus tremuloides	PubMed
694512	Piens, K.; Henriksson, A.M.; Gullfot, F.; Lopez, M.; Faure, R.; Ibatullin, F.M.; Teeri, T.T.; Driguez, H.; Brumer, H.	Glycosynthase activity of hybrid aspen xyloglucan endo-transglycosylase PttXET16-34 nucleophile mutants	Org. Biomol. Chem.	5	3971-3978	2007	Populus tremula x Populus tremuloides	PubMed
694679	Fry, S.C.; Mohler, K.E.; Nesselrode, B.H.; Frankova, L.	Mixed-linkage beta-glucan: xyloglucan endotransglucosylase, a novel wall-remodelling enzyme from Equisetum (horsetails) and charophytic algae	Plant J.	55	240-252	2008	Coleochaete scutata, Equisetum arvense, Equisetum fluviatile, Equisetum hyemale, Equisetum scirpoides, Equisetum telmateia, Equisetum variegatum	PubMed
694757	Feng, H.; Zhong, Y.; Xie, H.; Chen, J.; Li, J.; Lu, W.	Differential expression and regulation of longan XET genes in relation to fruit growth	Plant Sci.	174	32-37	2008	Dimocarpus longan	-
694769	Alonso-Simon, A.; Garcia-Angulo, P.; Encina, A.E.; Alvarez, J.M.; Acebes, J.L.; Hayashi, T.	Increase in XET activity in bean (Phaseolus vulgaris L.) cells habituated to dichlobenil	Planta	226	765-771	2007	Phaseolus vulgaris	PubMed
694774	Takeda, T.; Miller, J.G.; Fry, S.C.	Anionic derivatives of xyloglucan function as acceptor but not donor substrates for xyloglucan endotransglucosylase activity	Planta	227	893-905	2008	Arabidopsis thaliana	PubMed
699805	Michailidis, G.; Argiriou, A.; Darzentas, N.; Tsaftaris, A.	Analysis of xyloglucan endotransglycosylase/hydrolase (XTH) genes from allotetraploid (Gossypium hirsutum) cotton and its diploid progenitors expressed during fiber elongation	J. Plant Physiol.	166	403-416	2009	Gossypium arboreum, Gossypium hirsutum, Gossypium raimondii	PubMed
699806	Miedes, E.; Lorences, E.P.	Xyloglucan endotransglucosylase/hydrolases (XTHs) during tomato fruit growth and ripening	J. Plant Physiol.	166	489-498	2009	Solanum lycopersicum	-
700720	Kurasawa, K.; Matsui, A.; Yokoyama, R.; Kuriyama, T.; Yoshizumi, T.; Matsui, M.; Suwabe, K.; Watanabe, M.; Nishitani, K.	The AtXTH28 gene, a xyloglucan endotransglucosylase/hydrolase, is involved in automatic self-pollination in Arabidopsis thaliana	Plant Cell Physiol.	50	413-422	2009	Arabidopsis thaliana	PubMed
701134	Mark, P.; Baumann, M.J.; Ekloef, J.M.; Gullfot, F.; Michel, G.; Kallas, A.M.; Teeri, T.T.; Brumer, H.; Czjzek, M.	Analysis of nasturtium TmNXG1 complexes by crystallography and molecular dynamics provides detailed insight into substrate recognition by family GH16 xyloglucan endo-transglycosylases and endo-hydrolases	Proteins	75	820-836	2008	Tropaeolum majus	PubMed
701702	Schroeder, R.; Atkinson, R.G.; Redgwell, R.J.	Re-interpreting the role of endo-beta-mannanases as mannan endotransglycosylase/hydrolases in the plant cell wall	Ann. Bot.	104	197-204	2009	Tropaeolum majus	PubMed
701937	Vaaje-Kolstad, G.; Farkas, V.; Fincher, G.B.; Hrmova, M.	Barley xyloglucan xyloglucosyl transferases bind xyloglucan-derived oligosaccharides in their acceptor-binding regions in multiple conformational states	Arch. Biochem. Biophys.	496	61-68	2010	Hordeum vulgare	PubMed
703656	Hrmova, M.; Farkas, V.; Harvey, A.J.; Lahnstein, J.; Wischmann, B.; Kaewthai, N.; Ezcurra, I.; Teeri, T.T.; Fincher, G.B.	Substrate specificity and catalytic mechanism of a xyloglucan xyloglucosyl transferase HvXET6 from barley (Hordeum vulgare L.)	FEBS J.	276	437-456	2009	Hordeum vulgare	PubMed
704884	Maris, A.; Suslov, D.; Fry, S.C.; Verbelen, J.P.; Vissenberg, K.	Enzymic characterization of two recombinant xyloglucan endotransglucosylase/hydrolase (XTH) proteins of Arabidopsis and their effect on root growth and cell wall extension	J. Exp. Bot.	60	3959-3972	2009	Arabidopsis thaliana	PubMed
706280	Stratilova, E.; Ait-Mohand, F.; Rehulka, P.; Garajova, S.; Flodrova, D.; Rehulkova, H.; Farkas, V.	Xyloglucan endotransglycosylases (XETs) from germinating nasturtium (Tropaeolum majus) seeds: Isolation and characterization of the major form	Plant Physiol. Biochem.	48	207-215	2010	Tropaeolum majus	PubMed
706468	Atkinson, R.; Johnston, S.; Yauk, Y.; Sharma, N.; Schroeder, R.	Analysis of xyloglucan endotransglucosylase/hydrolase (XTH) gene families in kiwifruit and apple	Postharvest Biol. Technol.	51	149-157	2009	Actinidia chinensis, Actinidia deliciosa, Actinidia eriantha, Actinidia hemsleyana, Actinidia setosa, Malus x domestica	-

LINKS TO OTHER DATABASES (specific for EC-Number 2.4.1.207)

NCBI: PubMed, Protein, Nucleotide, Structure, Genome, OMIM

IUBMB Enzyme Nomenclature

PROSITE Database of protein families and domains

SYSTERS

Protein Mutant Database

InterPro (database of protein families, domains and functional sites)

All organisms
Acer pseudoplatanus
Actinidia chinensis
Actinidia deliciosa
Actinidia eriantha
Actinidia hemsleyana
Actinidia setosa
Adiantum capillus-veneri
Allium ampeloprasum
Allium schoenoprasum
Aloe sp.
Anthriscus sylvestris
Anthurium upalaense
Anthurium willdenowii
Apium graveolens
Apium sp.
Arabidopsis sp.
Arabidopsis thaliana
Asphodelus fistulosus
Azolla sp.
Beckmannia syzigachne
Beckmannia syzigachne Fernald
Betula pendula
Blumenbachia hieronymi
Brassica oleracea
Brassica oleracea var. botrytis
Brassica rapa subsp. campestris
Briza maxima
Bromus erectus
Calandrinia grandiflora
Callistephus chinensis
Canna indica
Capsicum annuum
Carex flacca
Cedrus atlantica
Cedrus atlantica Carr.
Cenchrus ciliaris
Centaurea benedicta
Chaenorhinum minus
Chamaecyparis sp.
Chamaecyparis thyoides
Chamaedorea elegans
Cicer arietinum
Cochlearia officinalis
Coleochaete scutata
Colysis pteropus
Commelina nilagirica
Convallaria majalis
Crocus vernus
Crocus vernus Hill
Cucumis sativus
Cyperus prolifer
Daucus carota
Dianthus caryophyllus
Dimocarpus longan
Dracaena draco
Elsholtzia ciliata
Equisetum arvense
Equisetum fluviatile
Equisetum hyemale
Equisetum scirpoides
Equisetum telmateia
Equisetum variegatum
Euphorbia helioscopia
Gerbera hybrid cultivar
Gossypium arboreum
Gossypium hirsutum
Gossypium raimondii
Helianthus annuus
Holcus lanatus
Hordeum vulgare
Iris pseudacorus
Juncus effusus
Lactuca perennis
Lactuca sativa ssp. capitata
Lemna minor
Lens culinaris
Lentinula edodes SR-1
Linum usitatissimum
Lotus japonicus
Lupinus polyphyllus
Luzula luzuloides
Malus x domestica
Marchantia polymorpha
Medicago truncatula
Mnium hornum
Musa x paradisiaca
Nicotiana tabacum
Oryza sativa
Peperomia rotundifolia
Pharbitis purpurea
Pharbitis purpurea Bojer
Phaseolus vulgaris
Picea abies
Pinus parviflora
Pinus parviflora Glauca
Pinus radiata
Piper sp.
Pisum sativum
Pitcairnia imbricata
Populus alba
Populus tremula
Populus tremula x Populus tremuloides
Pothomorphe petalta
Pteris cretica
Sagittaria pygmaea
Scabiosa atropurpurea
Selaginella kraussiana
Selaginella sp.
Sinapis sp.
Solanum lycopersicum
Spinacia oleracea
Tamarindus indica
Taraxacum officinale
Taxus baccata
Tradescantia zebrina
Tragopodon pratensis
Trigonella caerulea
Trigonella caerulea Ser.
Triticum turgidum subsp. dicoccon
Tropaeolum majus
Typha angustifolia
Typha latifolia
Vigna angularis
Vigna radiata
Vigna radiata var. radiata
Vulpia myuros
Zea mays