2.4.1.207 donor barley (1,3,1,4)-beta-D-glucan + acceptor cellooligosaccharide 0.1% relative activity compared to the reaction with donor tamarind xyloglucan and acceptor xyloglucan oligosaccharide Hordeum vulgare ? - ? 388611 2.4.1.207 donor barley (1,3,1,4)-beta-D-glucan + acceptor xyloglucan oligosaccharide 0.2% relative activity compared to the reaction with donor tamarind xyloglucan and acceptor xyloglucan oligosaccharide Hordeum vulgare ? - ? 388612 2.4.1.207 donor carboxymethylcellulose + acceptor xyloglucan oligosaccharide 0.4% relative activity compared to the reaction with donor tamarind xyloglucan and acceptor xyloglucan oligosaccharide Hordeum vulgare ? - ? 388613 2.4.1.207 donor Glc8-based xyloglucan oligosaccharide + acceptor sulforhodamine-labelled xyloglucan oligosaccharide - Hordeum vulgare ? - ? 452072 2.4.1.207 donor hydroxyethyl cellulose + acceptor xyloglucan - Tropaeolum majus ? - ? 388614 2.4.1.207 donor hydroxyethylcellulose + acceptor cellooligosaccharide 0.2% relative activity compared to the reaction with donor tamarind xyloglucan and acceptor xyloglucan oligosaccharide Hordeum vulgare ? - ? 388615 2.4.1.207 donor hydroxyethylcellulose + acceptor xyloglucan oligosaccharide 44.2% relative activity compared to the reaction with donor tamarind xyloglucan and acceptor xyloglucan oligosaccharide Hordeum vulgare ? - ? 388616 2.4.1.207 donor locust bean gum + acceptor xyloglucan oligosaccharide 0.1% relative activity compared to the reaction with donor tamarind xyloglucan and acceptor xyloglucan oligosaccharide Hordeum vulgare ? - ? 388617 2.4.1.207 donor sodium carboxymethyl cellulose + acceptor xyloglucan - Tropaeolum majus ? - ? 388618 2.4.1.207 donor sulfuric acid-swollen cellulose + acceptor xyloglucan oligosaccharide 5% relative activity compared to the reaction with donor tamarind xyloglucan and acceptor xyloglucan oligosaccharide Hordeum vulgare ? - ? 388619 2.4.1.207 donor tamarind xyloglucan + acceptor cellooligosaccharide 0.1% relative activity compared to the reaction with donor tamarind xyloglucan and acceptor xyloglucan oligosaccharide Hordeum vulgare ? - ? 388620 2.4.1.207 donor tamarind xyloglucan + acceptor xyloglucan 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 Arabidopsis thaliana ? - ? 409338 2.4.1.207 donor tamarind xyloglucan + acceptor xyloglucan oligosaccharide - Hordeum vulgare ? - ? 388621 2.4.1.207 donor xyloglucan + acceptor beta-(1,4)-xylooligosaccharide the transglycosylating activity is 0.31% of that determined with xyloglucan oligosaccharide as acceptor Tropaeolum majus ? - ? 409339 2.4.1.207 donor xyloglucan + acceptor beta-(1,6)-D-gluco-oligosaccharide the transglycosylating activity is 0.69% of that determined with xyloglucan oligosaccharide as acceptor Tropaeolum majus ? - ? 409340 2.4.1.207 donor xyloglucan + acceptor cellooligosaccharide - Tropaeolum majus ? - ? 388622 2.4.1.207 donor xyloglucan + acceptor cellooligosaccharide the transglycosylating activity is 4.6% of that determined with xyloglucan oligosaccharide as acceptor Tropaeolum majus ? - ? 388622 2.4.1.207 donor xyloglucan + acceptor laminarioligosaccharide - Tropaeolum majus ? - ? 388623 2.4.1.207 donor xyloglucan + acceptor laminarioligosaccharide the transglycosylating activity is 0.23% of that determined with xyloglucan oligosaccharide as acceptor Tropaeolum majus ? - ? 388623 2.4.1.207 donor xyloglucan + acceptor mixed-linkage beta-(1,3 1,4)-gluco-oligosaccharide the transglycosylating activity is 2.06% of that determined with xyloglucan oligosaccharide as acceptor Tropaeolum majus ? - ? 409341 2.4.1.207 donor xyloglucan + acceptor pustulooligosaccharide - Tropaeolum majus ? - ? 409342 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Spinacia oleracea ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Zea mays ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Nicotiana tabacum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Arabidopsis thaliana ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Cicer arietinum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Solanum lycopersicum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Acer pseudoplatanus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Apium graveolens ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Oryza sativa ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Taraxacum officinale ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Tropaeolum majus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Lupinus polyphyllus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Marchantia polymorpha ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Betula pendula ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Mnium hornum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Allium schoenoprasum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Holcus lanatus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Bromus erectus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Anthriscus sylvestris ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Populus tremula x Populus tremuloides ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Gossypium arboreum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Sagittaria pygmaea ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Gossypium hirsutum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan - Gossypium raimondii ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptor specificity Vigna radiata var. radiata ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptor specificity Pisum sativum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptor specificity Brassica oleracea ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptor specificity Vigna angularis ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan kiwifruit xyloglucan donor, acceptor: XXXG-ol, a reduced heptasaccharide derived from kiwifruit xyloglucan Actinidia deliciosa ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: polymer xyloglucan or its derived oligosaccharides Phaseolus vulgaris ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: polymer xyloglucan or its derived oligosaccharides Vigna radiata var. radiata ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: polymer xyloglucan or its derived oligosaccharides Pisum sativum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: polymer xyloglucan or its derived oligosaccharides Arabidopsis thaliana ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: polymer xyloglucan or its derived oligosaccharides Arabidopsis sp. ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: polymer xyloglucan or its derived oligosaccharides Solanum lycopersicum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: polymer xyloglucan or its derived oligosaccharides Lens culinaris ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: polymer xyloglucan or its derived oligosaccharides Tamarindus indica ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: polymer xyloglucan or its derived oligosaccharides Populus alba ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: polymer xyloglucan or its derived oligosaccharides Brassica oleracea ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: polymer xyloglucan or its derived oligosaccharides Tropaeolum majus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: polymer xyloglucan or its derived oligosaccharides Sinapis sp. ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: polymer xyloglucan or its derived oligosaccharides Vigna angularis ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: polymer xyloglucan or its derived oligosaccharides Apium sp. ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptor and donor substrate specificities of the isoenzymes TCH4, Meri-5, EXGT and XTR9 Arabidopsis thaliana ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan NtXET-1 has a prefence for smaller xyloglucan molecules as acceptors Nicotiana tabacum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan 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 Populus alba ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan 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 Vigna angularis ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan highly specific for xyloglucan as the glycosyl donor Pisum sativum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan highly specific for xyloglucan as the glycosyl donor Populus alba ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan highly specific for xyloglucan as the glycosyl donor Vigna angularis ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptor: fucosylated xyloglucan nonasaccharide Tropaeolum majus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan pronounced preference for xyloglucan oligosaccharides with backbones of 4 over 3 over 2 Glc residues as acceptors Vigna radiata var. radiata ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan pronounced preference for xyloglucan oligosaccharides with backbones of 4 over 3 over 2 Glc residues as acceptors Brassica oleracea ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan xyloglucan from Tamarindus indica Phaseolus vulgaris ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan xyloglucan from Tamarindus indica Vigna radiata var. radiata ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan xyloglucan from Tamarindus indica Pisum sativum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan xyloglucan from Tamarindus indica Arabidopsis thaliana ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan xyloglucan from Tamarindus indica Lens culinaris ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan xyloglucan from Tamarindus indica Tamarindus indica ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan xyloglucan from Tamarindus indica Brassica oleracea ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan xyloglucan from Tamarindus indica Tropaeolum majus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan xyloglucan from Tamarindus indica Vigna angularis ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan xyloglucan from Vigna angularis Vigna angularis ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan donors: TCH4 protein is more active against tamarind xyloglucan than nasturtium xyloglucan as donor, pea stem xyloglucan, acceptors: XLLG-ol, XXFG-ol Arabidopsis thaliana ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan 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 Pisum sativum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan 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 Tropaeolum majus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan XET forms a stable donor xyloglucan-XET complex Vigna radiata var. radiata ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan XET forms a stable donor xyloglucan-XET complex Brassica oleracea ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan preference for solanaceous xyloglucan without Fuc over xyloglucan from other sources as donor Solanum lycopersicum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan minimum acceptor structure is Xyl2Glc3 Phaseolus vulgaris ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan minimum acceptor structure is Xyl2Glc3 Pisum sativum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan 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 Tropaeolum majus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan isoenzyme XTR9 has a clear preference for non-fucosylated xyloglucan polymers as donor, but not isoenzymes TCH4, Meri-5 and EXGT Arabidopsis thaliana ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan enzyme chooses its donor substrate independently of size and attacks it, once only, at a randomly selected cleavage site Vigna radiata var. radiata ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan enzyme chooses its donor substrate independently of size and attacks it, once only, at a randomly selected cleavage site Arabidopsis thaliana ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan enzyme chooses its donor substrate independently of size and attacks it, once only, at a randomly selected cleavage site Lens culinaris ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan enzyme chooses its donor substrate independently of size and attacks it, once only, at a randomly selected cleavage site Brassica oleracea ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan enzyme chooses its donor substrate independently of size and attacks it, once only, at a randomly selected cleavage site Tropaeolum majus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan xyloglucan from Rosa cultures Pisum sativum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan xyloglucan from Tropaeolum majus seed Phaseolus vulgaris ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan xyloglucan from Tropaeolum majus seed Pisum sativum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan xyloglucan from Tropaeolum majus seed Arabidopsis thaliana ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan xyloglucan from Tropaeolum majus seed Arabidopsis sp. ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan xyloglucan from Tropaeolum majus seed Tropaeolum majus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan xyloglucan from Tropaeolum majus seed Vigna angularis ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan donor specificity Pisum sativum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan donor specificity Arabidopsis thaliana ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan donor specificity Vigna angularis ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan donor xyloglucan cleavage sites of XTHs from stems and epicotyls Vigna angularis ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan donor: Glc8-based XXXGXXXG Tropaeolum majus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan enzyme transfers a large segment of a xyloglucan molecule to another one generating chimeric polymers Phaseolus vulgaris ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan enzyme transfers a large segment of a xyloglucan molecule to another one generating chimeric polymers Pisum sativum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan enzyme transfers a large segment of a xyloglucan molecule to another one generating chimeric polymers Vigna angularis ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan galactosyl or fucosyl side chains are not required for acceptor activity Phaseolus vulgaris ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan galactosyl or fucosyl side chains are not required for acceptor activity Pisum sativum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan galactosyl or fucosyl side chains are not required for acceptor activity Vigna angularis ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan xyloglucan from pea Populus alba ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Convallaria majalis ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Pinus radiata ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Zea mays ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Nicotiana tabacum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Arabidopsis thaliana ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Picea abies ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Helianthus annuus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Selaginella sp. ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Lemna minor ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Linum usitatissimum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Ipomoea purpurea ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Typha latifolia ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Musa x paradisiaca ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Pteris cretica ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Taxus baccata ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Callistephus chinensis ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Adiantum capillus-veneri ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Leptochilus pteropus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Azolla sp. ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Pinus parviflora ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Cedrus atlantica ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Chamaecyparis thyoides ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Chamaecyparis sp. ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Pothomorphe petalta ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Peperomia rotundifolia ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Cistanthe grandiflora ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Euphorbia helioscopia ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Cochlearia officinalis ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Blumenbachia hieronymi ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Elsholtzia ciliata ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Chaenorhinum minus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Centaurea benedicta ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Trigonella caerulea ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Tragopodon pratensis ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Lactuca perennis ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Scabiosa atropurpurea ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Anthurium upalaense ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Anthurium willdenowii ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Crocus vernus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Iris pseudacorus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Dracaena draco ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Aloe sp. ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Asphodelus fistulosus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Chamaedorea elegans ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Triticum dicoccum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Briza maxima ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Cenchrus ciliaris ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Festuca myuros ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Beckmannia syzigachne ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Juncus effusus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Luzula luzuloides ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Typha angustifolia ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Cyperus prolifer ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Carex flacca ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Tradescantia zebrina ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Commelina nilagirica ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Pitcairnia imbricata ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Canna indica ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan tamarind seed xyloglucan as donor substrate, oligosaccharidyl-alditol as acceptor Pisum sativum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan specific for xyloglucan Arabidopsis thaliana ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan specific for xyloglucan Tropaeolum majus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan-derived nonasaccharide Glc4Xyl3GalFuc and certain other xyloglucan oligosaccharides, non-reducing terminal Xyl-Glc group is essential Pisum sativum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan 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 Arabidopsis thaliana ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: high MW xyloglucan, xyloglucan-derived oligosaccharides with at least two alpha-D-xylose residues, reducing group is not required for acceptor activity Phaseolus vulgaris ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: high MW xyloglucan, xyloglucan-derived oligosaccharides with at least two alpha-D-xylose residues, reducing group is not required for acceptor activity Pisum sativum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan donor: pine or tobacco xyloglucan Nicotiana tabacum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan 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 Tropaeolum majus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan 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 Tropaeolum majus ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan enzyme cleaves and religates xyloglucan polymers Populus tremula ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: sulforhodamine-labeled xyloglucan-oligosaccharides Populus tremula x Populus tremuloides ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan donor is apple xyloglycan, acceptor is XXXGol Solanum lycopersicum ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Pinus parviflora Glauca ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Ipomoea purpurea Bojer ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Trigonella caerulea Ser. ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Beckmannia syzigachne Fernald ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Nicotiana tabacum SR-1 ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Cedrus atlantica Carr. ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan acceptors: xyloglucan oligosaccharide-SR mixture Crocus vernus Hill ? - ? 353748 2.4.1.207 donor xyloglucan + acceptor xyloglucan-derived oligosaccharide - Tropaeolum majus ? - ? 388624 2.4.1.207 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 XLLGol-SR Vigna radiata var. radiata ? - ? 353753 2.4.1.207 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 XLLGol-SR Arabidopsis sp. ? - ? 353753 2.4.1.207 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 XLLGol-SR Brassica oleracea ? - ? 353753 2.4.1.207 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 XLLGol-SR Sinapis sp. ? - ? 353753 2.4.1.207 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 XLLGol-SR Apium sp. ? - ? 353753 2.4.1.207 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 ? - ? 353749 2.4.1.207 donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)(Fuc-Gal-Xyl(1-6))Glc(1-4)Glc preference of XLLG over XXXG over XXFG over XXG Pisum sativum ? - ? 353749 2.4.1.207 donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)(Fuc-Gal-Xyl(1-6))Glc(1-4)Glc 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 Pisum sativum ? - ? 353749 2.4.1.207 donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)(Fuc-Gal-Xyl(1-6))Glc(1-4)Glc XXFG Spinacia oleracea ? - ? 353749 2.4.1.207 donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)(Fuc-Gal-Xyl(1-6))Glc(1-4)Glc XXFG Pisum sativum ? - ? 353749 2.4.1.207 donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)(Fuc-Gal-Xyl(1-6))Glc(1-4)Glc-ol XXFG-ol Arabidopsis thaliana ? - ? 353750 2.4.1.207 donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)(Fuc-Gal-Xyl(1-6))Glc(1-4)Glc-ol TCH4 protein, 50% as effective as XLLG-ol Arabidopsis thaliana ? - ? 353750 2.4.1.207 donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)(Fuc-Gal-Xyl(1-6))Glc(1-4)Glc-ol 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 Arabidopsis thaliana ? - ? 353750 2.4.1.207 donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)Glc - Phaseolus vulgaris ? - ? 353757 2.4.1.207 donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)Glc - Pisum sativum ? - ? 353757 2.4.1.207 donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)Glc - Tropaeolum majus ? - ? 353757 2.4.1.207 donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)Glc Glc3Xyl2 Tropaeolum majus ? - ? 353757 2.4.1.207 donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)Glc XXG, preference of XLLG over XXXG over XXFG over XXG Pisum sativum ? - ? 353757 2.4.1.207 donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)Glc Xyl2Glc3 is less effective than heptasaccharide XG7: Xyl3Glc4, minimal structure required for acceptor activity Phaseolus vulgaris ? - ? 353757 2.4.1.207 donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)Glc Xyl2Glc3 is less effective than heptasaccharide XG7: Xyl3Glc4, minimal structure required for acceptor activity Pisum sativum ? - ? 353757 2.4.1.207 donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)Glc-ol pentamer XXG-ol, all isoenzymes have low but significant activity, tamarind xyloglucan as donor Vigna radiata var. radiata ? - ? 353758 2.4.1.207 donor xyloglucan + Xyl(1-6)Glc(1-4)(Xyl(1-6))Glc(1-4)Glc-ol pentamer XXG-ol, all isoenzymes have low but significant activity, tamarind xyloglucan as donor Brassica oleracea ? - ? 353758 2.4.1.207 donor xyloglucan + Xyl(1-6)Glc(1-4)Glc trimer XG-ol, only isomer M55a shows a slight activity, tamarind xyloglucan as donor Vigna radiata var. radiata ? - ? 353762 2.4.1.207 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 1.7-3.6fold preference of XLLG-ol over XXXG-ol, mung bean isoenzymes have higher affinities for XLLG-ol than cauliflower isoenzymes Vigna radiata var. radiata ? - ? 353752 2.4.1.207 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 1.7-3.6fold preference of XLLG-ol over XXXG-ol, mung bean isoenzymes have higher affinities for XLLG-ol than cauliflower isoenzymes Brassica oleracea ? - ? 353752 2.4.1.207 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 comparison of the size distributions of the different isoenzymes’ transglycosylation products Vigna radiata var. radiata ? - ? 353752 2.4.1.207 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 comparison of the size distributions of the different isoenzymes’ transglycosylation products Arabidopsis thaliana ? - ? 353752 2.4.1.207 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 comparison of the size distributions of the different isoenzymes’ transglycosylation products Lens culinaris ? - ? 353752 2.4.1.207 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 comparison of the size distributions of the different isoenzymes’ transglycosylation products Brassica oleracea ? - ? 353752 2.4.1.207 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 comparison of the size distributions of the different isoenzymes’ transglycosylation products Tropaeolum majus ? - ? 353752 2.4.1.207 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 isoenzyme C45a dissociates from the reaction products after each polysaccharide-to-oligosaccharide transglycosylation event Brassica oleracea ? - ? 353752 2.4.1.207 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 donor: tamarind xyloglucan Vigna radiata var. radiata ? - ? 353752 2.4.1.207 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 donor: tamarind xyloglucan Arabidopsis thaliana ? - ? 353752 2.4.1.207 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 donor: tamarind xyloglucan Lens culinaris ? - ? 353752 2.4.1.207 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 donor: tamarind xyloglucan Brassica oleracea ? - ? 353752 2.4.1.207 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 donor: tamarind xyloglucan Tropaeolum majus ? - ? 353752 2.4.1.207 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 TCH4, Meri-5, EXGT and XTR9 show a marked preference for XLLG-ol over XXFG-ol or XXXG-ol as acceptor oligosaccharide Arabidopsis thaliana ? - ? 353752 2.4.1.207 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 donor: tamarind or pea xyloglucan polymer Arabidopsis thaliana ? - ? 353752 2.4.1.207 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 Gal2Xyl3Glc3glucitol prepared from tamarind flour/seed xyloglucan Vigna radiata var. radiata ? - ? 353752 2.4.1.207 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 Gal2Xyl3Glc3glucitol prepared from tamarind flour/seed xyloglucan Pisum sativum ? - ? 353752 2.4.1.207 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 Gal2Xyl3Glc3glucitol prepared from tamarind flour/seed xyloglucan Brassica oleracea ? - ? 353752 2.4.1.207 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 Gal2Xyl3Glc3glucitol prepared from tamarind flour/seed xyloglucan Tropaeolum majus ? - ? 353752 2.4.1.207 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 TCH4 protein, better substrate than XXFG-ol, lower affinity than for polymer xyloglucan Arabidopsis thaliana ? - ? 353752 2.4.1.207 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 reaction results in a hybrid product and a leaving group Arabidopsis thaliana ? - ? 353752 2.4.1.207 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 XLLG-ol Vigna radiata var. radiata ? - ? 353752 2.4.1.207 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 XLLG-ol Pisum sativum ? - ? 353752 2.4.1.207 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 XLLG-ol Arabidopsis thaliana ? - ? 353752 2.4.1.207 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 XLLG-ol Lens culinaris ? - ? 353752 2.4.1.207 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 XLLG-ol Brassica oleracea ? - ? 353752 2.4.1.207 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 XLLG-ol Tropaeolum majus ? - ? 353752 2.4.1.207 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 ? - ? 353751 2.4.1.207 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 preference of XLLG over XXXG over XXFG over XXG Pisum sativum ? - ? 353751 2.4.1.207 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 XG9n, better substrate than Glc4Xyl3GalFuc Pisum sativum ? - ? 353751 2.4.1.207 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 XLLG Pisum sativum ? - ? 353751 2.4.1.207 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 XLLG Arabidopsis sp. ? - ? 353751 2.4.1.207 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 XLLG Tropaeolum majus ? - ? 353751 2.4.1.207 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 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 Tropaeolum majus ? - ? 353751 2.4.1.207 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 Glc4Xyl3Gal2 Tropaeolum majus ? - ? 353751 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc XLXG Tropaeolum majus ? - ? 353759 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Galbeta(1-2)Xylalpha(1-6))Glcbeta(1-4)Glc XXLG Tropaeolum majus ? - ? 353760 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc preference of XLLG over XXXG over XXFG over XXG Pisum sativum ? - ? 353754 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc heptasaccharide XG7, Xyl3Glc4, is more effective than Xyl2Glc3 Phaseolus vulgaris ? - ? 353754 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc heptasaccharide XG7, Xyl3Glc4, is more effective than Xyl2Glc3 Pisum sativum ? - ? 353754 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc XG7, better substrate than Glc4Xyl3GalFuc Pisum sativum ? - ? 353754 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc XXXG Pisum sativum ? - ? 353754 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc XXXG Tropaeolum majus ? - ? 353754 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol - Pisum sativum ? - ? 353756 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol pea xyloglucan as donor, specific for xyloglucan as donor Populus alba ? - ? 353756 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol 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 Arabidopsis thaliana ? - ? 353756 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol pine or tobacco xyloglucan as donor Nicotiana tabacum ? - ? 353756 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol isoenzymes have 9-19times greater activities than on XXG-ol, reduced activity with XLLG-ol Vigna radiata var. radiata ? - ? 353756 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol isoenzymes have 9-19times greater activities than on XXG-ol, reduced activity with XLLG-ol Brassica oleracea ? - ? 353756 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol tamarind seed xyloglucan as donor Vigna radiata var. radiata ? - ? 353756 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol tamarind seed xyloglucan as donor Pisum sativum ? - ? 353756 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol tamarind seed xyloglucan as donor Brassica oleracea ? - ? 353756 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol XXXG-ol Vigna radiata var. radiata ? - ? 353756 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol XXXG-ol Pisum sativum ? - ? 353756 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol XXXG-ol Arabidopsis thaliana ? - ? 353756 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol XXXG-ol Populus alba ? - ? 353756 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol XXXG-ol Brassica oleracea ? - ? 353756 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol XXXG-ol Actinidia deliciosa ? - ? 353756 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol XXXG-ol Nicotiana tabacum ? - ? 353756 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol XG7-ol is approximately as effective as heptasaccharide XG7, efficient substrate, reducing group is not required for acceptor activity Phaseolus vulgaris ? - ? 353756 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glc-ol 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 Populus alba ? - ? 353756 2.4.1.207 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 XXXGXXXG-ol, dimer of XXXG-ol, most effective acceptor, pea xyloglucan as donor Populus alba ? - ? 353761 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glcbeta1-PA pyridylamino XXXG Vigna angularis ? - ? 353755 2.4.1.207 donor xyloglucan + Xylalpha(1-6)Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)(Xylalpha(1-6))Glcbeta(1-4)Glcbeta1-PA pyridylamino heptasaccharide is a good substrate Vigna angularis ? - ? 353755 2.4.1.207 donor xyloglucan + xyloglucan - Hordeum vulgare ? - ? 409343 2.4.1.207 donor xyloglucan + xyloglucan acceptor - Pisum sativum ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor - Zea mays ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor - Nicotiana tabacum ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor - Solanum lycopersicum ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor - Vigna angularis ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Arabidopsis thaliana ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Brassica oleracea ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Arabidopsis thaliana ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Tropaeolum majus ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Populus tremula x Populus tremuloides ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor XETs encoded by a gene family may influence plant growth and development, low pH would limit XET function in vivo Arabidopsis thaliana ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor role in elongation-growth and other processes involving xyloglucan metabolism Tropaeolum majus ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Arabidopsis thaliana ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Nicotiana tabacum ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Convallaria majalis ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Pinus radiata ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Zea mays ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Nicotiana tabacum ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Arabidopsis thaliana ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Picea abies ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Helianthus annuus ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Selaginella sp. ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Lemna minor ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Linum usitatissimum ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Ipomoea purpurea ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Typha latifolia ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Musa x paradisiaca ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Pteris cretica ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Taxus baccata ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Callistephus chinensis ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Adiantum capillus-veneri ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Leptochilus pteropus ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Azolla sp. ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Pinus parviflora ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Cedrus atlantica ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Chamaecyparis thyoides ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Chamaecyparis sp. ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Pothomorphe petalta ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Peperomia rotundifolia ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Cistanthe grandiflora ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Euphorbia helioscopia ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Cochlearia officinalis ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Blumenbachia hieronymi ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Elsholtzia ciliata ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Chaenorhinum minus ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Centaurea benedicta ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Trigonella caerulea ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Tragopodon pratensis ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Lactuca perennis ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Scabiosa atropurpurea ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Anthurium upalaense ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Anthurium willdenowii ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Crocus vernus ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Iris pseudacorus ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Dracaena draco ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Aloe sp. ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Asphodelus fistulosus ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Chamaedorea elegans ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Triticum dicoccum ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Briza maxima ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Cenchrus ciliaris ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Festuca myuros ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Beckmannia syzigachne ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Juncus effusus ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Luzula luzuloides ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Typha angustifolia ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Cyperus prolifer ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Carex flacca ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Tradescantia zebrina ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Commelina nilagirica ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Pitcairnia imbricata ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Canna indica ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Populus alba ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Solanum lycopersicum ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Pisum sativum ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Tropaeolum majus ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor existence of different classes of XET with differing roles in vivo Vigna radiata var. radiata ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor existence of different classes of XET with differing roles in vivo Arabidopsis thaliana ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor existence of different classes of XET with differing roles in vivo Brassica oleracea ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor existence of different classes of XET with differing roles in vivo Tropaeolum majus ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Actinidia deliciosa ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor role in cell elongation Arabidopsis thaliana ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor enzyme is capable of splitting and reconnecting xyloglucan molecules in rapidly growing plant tissues, expression and presumed physiological roles of At-XTH22 and 24 Arabidopsis thaliana ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor enzyme mediates cell wall disassembly associated with expansive growth Solanum lycopersicum ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Nicotiana tabacum ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor enzyme depolymerises xyloglucan Phaseolus vulgaris ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor enzyme depolymerises xyloglucan Pisum sativum ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor role in wall assembly as well as loosening Zea mays ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Tropaeolum majus ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Pisum sativum ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Vigna angularis ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Vigna radiata var. radiata ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Arabidopsis thaliana ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor lentil and nasturtium, NXG1, seed enzymes are involved in the mobilization of cotyledonary xyloglucan reserves after germination Lens culinaris ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor lentil and nasturtium, NXG1, seed enzymes are involved in the mobilization of cotyledonary xyloglucan reserves after germination Tropaeolum majus ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor involved in xyloglucan metabolism Pisum sativum ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor one of four enzymes, which act in concert to catalyze the mobilisation of storage xyloglucan from the cell wall Tropaeolum majus ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Tropaeolum majus ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor major role is the integration of new xyloglucan into the cell walls of the densely cytoplasmic florets Brassica oleracea ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor 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 Vigna radiata var. radiata ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor one of the key enzymes involved in the breakdown of reserve xyloglucan in seeds of some dicotyledonous plants during germination Phaseolus vulgaris ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor one of the key enzymes involved in the breakdown of reserve xyloglucan in seeds of some dicotyledonous plants during germination Pisum sativum ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor one of the key enzymes involved in the breakdown of reserve xyloglucan in seeds of some dicotyledonous plants during germination Lens culinaris ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor one of the key enzymes involved in the breakdown of reserve xyloglucan in seeds of some dicotyledonous plants during germination Tamarindus indica ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor one of the key enzymes involved in the breakdown of reserve xyloglucan in seeds of some dicotyledonous plants during germination Tropaeolum majus ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Pinus parviflora Glauca ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Ipomoea purpurea Bojer ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Trigonella caerulea Ser. ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Beckmannia syzigachne Fernald ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Nicotiana tabacum SR-1 ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Cedrus atlantica Carr. ? - ? 370419 2.4.1.207 donor xyloglucan + xyloglucan acceptor acts in root development, necessary for root hair growth Crocus vernus Hill ? - ? 370419 2.4.1.207 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 ? - ? 409344 2.4.1.207 donor xyloglucan + [Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Galp(beta1,2)-Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp - Hordeum vulgare ? - ? 409345 2.4.1.207 donor xyloglucan + [Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp - Hordeum vulgare ? - ? 409346 2.4.1.207 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 - Populus tremula x Populus tremuloides [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 - ? 400954 2.4.1.207 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 - Populus tremula x Populus tremuloides [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 - ? 400959 2.4.1.207 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 - Populus tremula x Populus tremuloides 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 - ? 400960 2.4.1.207 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 - Populus tremula x Populus tremuloides [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 - ? 400955 2.4.1.207 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 - Populus tremula x Populus tremuloides [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 - ? 400956 2.4.1.207 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 - Populus tremula x Populus tremuloides [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 - ? 400957 2.4.1.207 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 - Populus tremula x Populus tremuloides 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 - ? 400958 2.4.1.207 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 - Populus tremula x Populus tremuloides [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 - ? 401038 2.4.1.207 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 - Populus tremula x Populus tremuloides 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 - ? 401039 2.4.1.207 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 - Populus tremula x Populus tremuloides 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 - ? 401040 2.4.1.207 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 - Populus tremula x Populus tremuloides 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 - ? 401041 2.4.1.207 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 - Populus tremula x Populus tremuloides [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 - ? 401035 2.4.1.207 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 - Populus tremula x Populus tremuloides 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 - ? 401036 2.4.1.207 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 - Populus tremula x Populus tremuloides 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 - ? 401037 2.4.1.207 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 - Populus tremula x Populus tremuloides [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 - ? 401034 2.4.1.207 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 - Populus tremula x Populus tremuloides [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 - ? 401031 2.4.1.207 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 - Populus tremula x Populus tremuloides [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 - ? 401032 2.4.1.207 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 - Populus tremula x Populus tremuloides 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 - ? 401033 2.4.1.207 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 - Populus tremula x Populus tremuloides [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 - ? 401030 2.4.1.207 Glc8-based xyloglucan oligosaccharide + ? - Hordeum vulgare ? - ? 409512 2.4.1.207 hydroxyethyl cellulose + reduced xyloglucan-derived heptasaccharide 3.4% activity compared to tamarind xyloglycan Hordeum vulgare ? - ? 409587 2.4.1.207 kiwifruit xyloglucan + XXXG-ol - Malus domestica ? - ? 409617 2.4.1.207 kiwifruit xyloglucan + XXXG-ol - Actinidia eriantha ? - ? 409617 2.4.1.207 kiwifruit xyloglucan + XXXG-ol - Actinidia setosa ? - ? 409617 2.4.1.207 kiwifruit xyloglucan + XXXG-ol - Actinidia deliciosa ? - ? 409617 2.4.1.207 kiwifruit xyloglucan + XXXG-ol - Actinidia hemsleyana ? - ? 409617 2.4.1.207 kiwifruit xyloglucan + XXXG-ol - Actinidia chinensis ? - ? 409617 2.4.1.207 mixed-linkage (1->3,1->4)-beta-D-glucan - Equisetum arvense xyloglucan oligosaccharide - ? 398944 2.4.1.207 mixed-linkage (1->3,1->4)-beta-D-glucan - Equisetum fluviatile xyloglucan oligosaccharide - ? 398944 2.4.1.207 mixed-linkage (1->3,1->4)-beta-D-glucan - Equisetum hyemale xyloglucan oligosaccharide - ? 398944 2.4.1.207 mixed-linkage (1->3,1->4)-beta-D-glucan - Equisetum scirpoides xyloglucan oligosaccharide - ? 398944 2.4.1.207 mixed-linkage (1->3,1->4)-beta-D-glucan - Equisetum telmateia xyloglucan oligosaccharide - ? 398944 2.4.1.207 mixed-linkage (1->3,1->4)-beta-D-glucan - Equisetum variegatum xyloglucan oligosaccharide - ? 398944 2.4.1.207 mixed-linkage (1->3,1->4)-beta-D-glucan - Coleochaete scutata xyloglucan oligosaccharide - ? 398944 2.4.1.207 additional information - Zea mays ? - ? 89 2.4.1.207 additional information - Solanum lycopersicum ? - ? 89 2.4.1.207 additional information not: Xyl1Glc3, XylGlc2 Phaseolus vulgaris ? - ? 89 2.4.1.207 additional information not: Xyl1Glc3, XylGlc2 Pisum sativum ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Convallaria majalis ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Pinus radiata ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Zea mays ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Nicotiana tabacum ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Picea abies ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Helianthus annuus ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Selaginella sp. ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Lemna minor ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Linum usitatissimum ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Ipomoea purpurea ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Typha latifolia ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Musa x paradisiaca ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Pteris cretica ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Taxus baccata ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Callistephus chinensis ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Adiantum capillus-veneri ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Leptochilus pteropus ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Azolla sp. ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Pinus parviflora ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Cedrus atlantica ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Chamaecyparis thyoides ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Chamaecyparis sp. ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Pothomorphe petalta ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Peperomia rotundifolia ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Cistanthe grandiflora ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Euphorbia helioscopia ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Cochlearia officinalis ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Blumenbachia hieronymi ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Elsholtzia ciliata ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Chaenorhinum minus ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Centaurea benedicta ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Trigonella caerulea ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Tragopodon pratensis ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Lactuca perennis ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Scabiosa atropurpurea ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Anthurium upalaense ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Anthurium willdenowii ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Crocus vernus ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Iris pseudacorus ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Dracaena draco ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Aloe sp. ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Asphodelus fistulosus ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Chamaedorea elegans ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Triticum dicoccum ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Briza maxima ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Cenchrus ciliaris ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Festuca myuros ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Beckmannia syzigachne ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Juncus effusus ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Luzula luzuloides ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Typha angustifolia ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Cyperus prolifer ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Carex flacca ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Tradescantia zebrina ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Commelina nilagirica ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Pitcairnia imbricata ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Canna indica ? - ? 89 2.4.1.207 additional information 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 Tropaeolum majus ? - ? 89 2.4.1.207 additional information not: carboxymethylcellulose, barley glucan Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information tXET-B2 has no hydrolytic activity Solanum lycopersicum ? - ? 89 2.4.1.207 additional information 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 Tropaeolum majus ? - ? 89 2.4.1.207 additional information contains strongly conserved sequence motif of XETs: DEIDFEFLG Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information contains strongly conserved sequence motif of XETs: DEIDFEFLG Populus tremula x Populus tremuloides ? - ? 89 2.4.1.207 additional information no endoglucanase activity Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information oligosaccharides of cello-, chito- and/or oligoglucurono-series are much less effective than xyloglucan-derived oligosaccharides Pisum sativum ? - ? 89 2.4.1.207 additional information oligosaccharides of cello-, chito- and/or oligoglucurono-series are much less effective than xyloglucan-derived oligosaccharides Tropaeolum majus ? - ? 89 2.4.1.207 additional information PttXET16A has 4 conserved Cys residues Populus tremula x Populus tremuloides ? - ? 89 2.4.1.207 additional information 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 Actinidia deliciosa ? - ? 89 2.4.1.207 additional information 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 Vigna angularis ? - ? 89 2.4.1.207 additional information no acceptors: alpha-D-Xylp(1-6)D-Glc and isoprimeverose Pisum sativum ? - ? 89 2.4.1.207 additional information not: cellotetraose Phaseolus vulgaris ? - ? 89 2.4.1.207 additional information not: cellotetraose Pisum sativum ? - ? 89 2.4.1.207 additional information not: cellotetraose Tropaeolum majus ? - ? 89 2.4.1.207 additional information free oligosaccharides are probably not the usual acceptor substrates in vivo Vigna radiata var. radiata ? - ? 89 2.4.1.207 additional information free oligosaccharides are probably not the usual acceptor substrates in vivo Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information free oligosaccharides are probably not the usual acceptor substrates in vivo Lens culinaris ? - ? 89 2.4.1.207 additional information free oligosaccharides are probably not the usual acceptor substrates in vivo Brassica oleracea ? - ? 89 2.4.1.207 additional information free oligosaccharides are probably not the usual acceptor substrates in vivo Tropaeolum majus ? - ? 89 2.4.1.207 additional information 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 Brassica oleracea ? - ? 89 2.4.1.207 additional information key enzyme in all plant processes that require cell wall remodeling Populus tremula x Populus tremuloides ? - ? 89 2.4.1.207 additional information xyloglucan oligosaccharides cause cell wall loosening by enhancing xyloglucan oligosaccharide degrading enzyme activity Vigna angularis ? - ? 89 2.4.1.207 additional information different assay methods, overview Brassica oleracea var. botrytis ? - ? 89 2.4.1.207 additional information 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 Tropaeolum majus ? - ? 89 2.4.1.207 additional information no hydrolytic activity of the wild-type or N93S mutant enzyme Populus tremula x Populus tremuloides ? - ? 89 2.4.1.207 additional information the enzyme shows both xyloglucan endotransglucosylase and xyloglucan hydrolase activity Pisum sativum ? - ? 89 2.4.1.207 additional information the enzyme shows both xyloglucan endotransglucosylase and xyloglucan hydrolase activity Allium ampeloprasum ? - ? 89 2.4.1.207 additional information the enzyme shows both xyloglucan endotransglucosylase and xyloglucan hydrolase activity Daucus carota ? - ? 89 2.4.1.207 additional information the enzyme shows both xyloglucan endotransglucosylase and xyloglucan hydrolase activity Cucumis sativus ? - ? 89 2.4.1.207 additional information the enzyme shows both xyloglucan endotransglucosylase and xyloglucan hydrolase activity Oryza sativa ? - ? 89 2.4.1.207 additional information the enzyme shows both xyloglucan endotransglucosylase and xyloglucan hydrolase activity Tropaeolum majus ? - ? 89 2.4.1.207 additional information the enzyme shows both xyloglucan endotransglucosylase and xyloglucan hydrolase activity Vigna angularis ? - ? 89 2.4.1.207 additional information the enzyme shows both xyloglucan endotransglucosylase and xyloglucan hydrolase activity Piper sp. ? - ? 89 2.4.1.207 additional information the enzyme shows both xyloglucan endotransglucosylase and xyloglucan hydrolase activity Lactuca sativa ssp. capitata ? - ? 89 2.4.1.207 additional information transglycosylation acceptor binding mechanism, structure-function study Populus tremula x Populus tremuloides ? - ? 89 2.4.1.207 additional information does not produce any hetero-transglycosylation products with cello-oligosaccharides or lactose Populus tremula x Populus tremuloides ? - ? 89 2.4.1.207 additional information 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 Hordeum vulgare ? - ? 89 2.4.1.207 additional information 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 Phaseolus vulgaris ? - ? 89 2.4.1.207 additional information 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 Dianthus caryophyllus ? - ? 89 2.4.1.207 additional information 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 Solanum lycopersicum ? - ? 89 2.4.1.207 additional information 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 Populus tremula x Populus tremuloides ? - ? 89 2.4.1.207 additional information 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 Zea mays ? - ? 89 2.4.1.207 additional information 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 Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information 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 Dimocarpus longan ? - ? 89 2.4.1.207 additional information 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 Selaginella kraussiana ? - ? 89 2.4.1.207 additional information 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 Populus tremula x Populus tremuloides ? - ? 89 2.4.1.207 additional information anionic, oxidised derivatives of xyloglucan are used as substrates for AtXTH24 Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information 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 Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information 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) Hordeum vulgare ? - ? 89 2.4.1.207 additional information no hydrolytic activity can be detected with either isoenzyme Hordeum vulgare ? - ? 89 2.4.1.207 additional information 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 Hordeum vulgare ? - ? 89 2.4.1.207 additional information 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 Tropaeolum majus ? - ? 89 2.4.1.207 additional information 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 Hordeum vulgare ? - ? 89 2.4.1.207 additional information root-specific isozyme AtXTH1 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information root-specific isozyme AtXTH13 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. The endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information root-specific isozyme AtXTH17 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information root-specific isozyme AtXTH18 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information root-specific isozyme AtXTH19 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information XET activity catalyses the endo-cleavage of xyloglucan (the donor substrate) and the creation of a glycosidic link between the newly formed potentially reducing terminus and the nonreducing terminus of another xyloglucan (or xyloglucan oligosaccharide) molecule (the acceptor substrate), cleavage specificity, overview Equisetum arvense ? - ? 89 2.4.1.207 additional information XET activity catalyses the endo-cleavage of xyloglucan (the donor substrate) and the creation of a glycosidic link between the newly formed potentially reducing terminus and the nonreducing terminus of another xyloglucan (or xyloglucan oligosaccharide) molecule (the acceptor substrate), cleavage specificity, overview Equisetum fluviatile ? - ? 89 2.4.1.207 additional information activity assay with reduced xyloglucan-derived nonasaccharide as substrate Populus tremula x Populus tremuloides ? - ? 89 2.4.1.207 additional information usage of xyloglucan heptasaccharide XXXG and its reduced form XXXGol as donor substrates Nicotiana tabacum ? - ? 89 2.4.1.207 additional information XTH isozyme spcificities with different donor substrates, tamarind xyloglucan-derived oligosacchrides, overview Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information XTH isozyme spcificities with different donor substrates, tamarind xyloglucan-derived oligosacchrides, overview. AtXTH13 catalyzes the release of XGO1 (Glc4-based xylogluco-oligosaccharides) and XGO3 (Glc12-based xyloglucooligosaccharides) from a mixture of minimal XET/XEH substrates, XGO2 (Glc8-based xylogluco-oligosaccharides), derived from tamarind seed xyloglucan and bearing naturally variable galactosylation. The rate of release of XGO1 is identical to that of XGO3 at all substrate concentrations across a wide range Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information XTH isozyme specificity with different donor substrates, tamarind xyloglucan-derived oligosaccharides, overview Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information xyloglucan xyloglucosyl transferases act as xyloglucan endotransglycosylases and use a disproportionation reaction mechanism, tamarind xyloglucan is used as a donor substrate Hordeum vulgare ? - ? 89 2.4.1.207 additional information xyloglucan xyloglucosyl transferases act as xyloglucan endotransglycosylases and use a disproportionation reaction mechanism, tamarind xyloglucan is used as a donor substrate and [Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-[Xylp(alpha1,6)]-Glcp(beta1,4)-Glcp as acceptor substrate Hordeum vulgare ? - ? 89 2.4.1.207 additional information xyloglucan xyloglucosyl transferases act as xyloglucan endotransglycosylases and use a disproportionation reaction mechanism, tamarind xyloglucan is used as a donor substrate. Transglycosylation reactions are catalysed by HvXET6 during a two-stage reaction cycle Hordeum vulgare ? - ? 89 2.4.1.207 additional information enzyme activity assay with partially purified apple xyloglucan as donor and [3H]XXXG-ol as xyloglucan acceptor substrate Solanum lycopersicum ? - ? 89 2.4.1.207 additional information enzyme activity assay with partially purified apple xyloglucan as donor and [3H]XXXG-ol as xyloglucan acceptor substrate Malus domestica ? - ? 89 2.4.1.207 additional information enzyme activity assay with partially purified apple xyloglucan as donor and [3H]XXXGol as xyloglucan acceptor substrate Solanum lycopersicum ? - ? 89 2.4.1.207 additional information enzyme activity assay with partially purified tamarind xyloglucan as donor and [3H]XXXG-ol as xyloglucan acceptor substrate Populus tremula x Populus tremuloides ? - ? 89 2.4.1.207 additional information enzyme activity assay with partially purified tamarind xyloglucan as donor and [3H]XXXG-ol as xyloglucan acceptor substrate Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information enzyme predominantly catalyzes hetero-transglycosylation. Its preferred donor substrates (cellulose or mixed-linkage beta-glucan) differ qualitatively from its acceptor substrate xyloglucan. HTG generates stable cellulose-xyloglucan and mixed-linkage beta-glucan-xyloglucan covalent bonds. No donor substrate: cellohexaose Equisetum fluviatile ? - ? 89 2.4.1.207 additional information isozyme XHT31 shows predominant undetectable xyloglucan endohydrolase, XEH, activity and has only slight xyloglucan endotransglucosylase, XET, activity in vitro. Usage of XXXG-ol as acceptor substrate and of xyloglucan as donor substrate. XXXG-ol is the preferred XET acceptor substrate, among five cellotetraitol-based oligosaccharides tested. Isozyme XTH31's XET activity is strongly compromised when the second Xyl residue is galactosylated. XTH31 cleaves the substrate from about 186 kDa to 6 kDa (median sizes) within 40 h, gas spectrometric analysis. The isozyme does not have a preferred cleavage site close to either terminus. The complete hydrolysis of a 186-kDa tamarind xyloglucan molecule to yield Glc4-based oligosaccharides would require about 150 cuts. XEH action continues for at least 40 h, with an initial rate of about 1.5 cuts per starting molecule per hour. Substrate specificity of Arabidopsis thaliana XET isozymes XTH15 and XTH31, overview. The acceptor site of XTH31 is relatively poor at accommodating substrates that have Gal (or Fuc-Gal) simultaneously on the 2nd and 3rd isoprimeverose groups, counted from the nonreducing end Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information isozyme XTH15 has high xyloglucan endotransglucosylase, XET, and undetectable xyloglucan endohydrolase, XEH, activity in vitro. Usage of XXXG-ol as acceptor substrate and of xyloglucan as donor substrate. XXXG-ol is the preferred XET acceptor substrate, among five cellotetraitol-based oligosaccharides tested. XTH15's XET activity tolerateds substitution at the second Xyl residue. Substrate specificity of Arabidopsis thaliana XET isozymes XTH15 and XTH31, overview Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information the overall xyloglucan-degrading activity in the presence and absence of XG subunit oligosaccharides, donor substrate is tamarind xyloglucan Pinus radiata ? - ? 89 2.4.1.207 additional information usage of cellulose-bound tamarind seed xyloglucan as donor substrate and [1-3H]XXXGol as acceptor substrate Petroselinum sp. ? - ? 89 2.4.1.207 additional information enzyme XTH15, a classical group-I/II xyloglucan endotransglucosylase/hydrolase (XTH), has high xyloglucan endotransglucosylase (XET) and undetectable xyloglucan hydrolase (XEH) activity in vitro Arabidopsis thaliana ? - ? 89 2.4.1.207 additional information incorporation of sulforhodamine-labelled xyloglucan oligosaccharides (XyGO-SR) into xyloglucan Cuscuta reflexa ? - ? 89 2.4.1.207 additional information no hydrolytic activity with xyloglucan (EC 3.2.1.151) by isozyme DkXTH1 Diospyros kaki ? - ? 89 2.4.1.207 additional information no hydrolytic activity with xyloglucan (EC 3.2.1.151) by isozyme DkXTH2 Diospyros kaki ? - ? 89 2.4.1.207 additional information protein swollenin (SWOI) does not exhibit xyloglucan:xyloglucosyl transferase (XET) activity with donor substrate tamarind xyloglucan and and xyloglucan oligomers Trichoderma reesei ? - ? 89 2.4.1.207 additional information when expressed in vitro, the recombinant DkXTH8 protein exhibits strict xyloglucan endotransglycosylase activity (XET, EC 2.4.1.207), whereas no xyloglucan endohydrolase activity (XEH, EC 3.2.1.151) is observed Diospyros kaki ? - ? 89 2.4.1.207 additional information enzyme FvXTH9 shows activity of mixed-linkage glucan:xyloglucan endotransglucosylase (MXE, EC 2.4.1.B52), cellulose:xyloglucan endotransglucosylase (CXE, EC 2.4.1.B52), and xyloglucan endotransglucosylase (XET) activities Fragaria vesca ? - - 89 2.4.1.207 additional information evaluation of the substrate specificities of xyloglucan acceptors by using a set of synthetic oligosaccharides obtained by automated glycan assembly. The ability of XETs to incorporate the oligosaccharides into polysaccharides printed as microarrays and into stem sections is assessed, showing that single xylose substitutions are sufficient for transfer, and xylosylation of the terminal glucose residue is not required by XETs, independent of plant species. To obtain information on the potential xylosylation pattern of the natural acceptor of XETs, that is, the nonreducing end of xyloglucan, the activity of xyloglucan xylosyl transferase (XXT) 2 on the synthetic xyloglucan oligosaccharides is tested. Acceptor substrate specificities of XET, overview Arabidopsis thaliana ? - - 89 2.4.1.207 additional information evaluation of the substrate specificities of xyloglucan acceptors by using a set of synthetic oligosaccharides obtained by automated glycan assembly. The ability of XETs to incorporate the oligosaccharides into polysaccharides printed as microarrays and into stem sections is assessed, showing that single xylose substitutions are sufficient for transfer, and xylosylation of the terminal glucose residue is not required by XETs, independent of plant species. To obtain information on the potential xylosylation pattern of the natural acceptor of XETs, that is, the nonreducing end of xyloglucan, the activity of xyloglucan xylosyl transferase (XXT) 2 on the synthetic xyloglucan oligosaccharides is tested. Acceptor substrate specificities of XET, overview Pisum sativum ? - - 89 2.4.1.207 additional information prediction of union type and energy stability of the complexes formed between PrXTH1 and different substrates (XXXGXXXG, XXFGXXFG, XLFGXLFG and cellulose), structures overview. Molecular docking, molecular dynamics, MM-GBSA and electrostatic potential calculations are employed to predict the binding modes, free energies of interaction, and the distribution of electrostatic charge. The results suggest that the enzyme forms more stable complexes with hemicellulose substrates than cellulose, and the best ligand is the xyloglucan XLFGXLFG. PrXTH1 is able to interact with different xyloglycans structures but no activity is observed for cellulose as substrate Pinus radiata ? - - 89 2.4.1.207 additional information protein-ligand interaction analysis and mode of FcXTH2, overview. Favorable binding energies are obtained between FcXTH2 and the different ligands. Nevertheless, the interaction of FcXTH2 with XXXGXXXG is highly favored, and a weaker binding interaction is found between the protein and cellodextrin 8-mer or XXFGXXFG as ligands. Different octasaccharides are positioned along the open groove of the protein. Only XXXGXXXG hemicellulose octasaccharide locates close to two of the catalytic residues (Glu85, Asp87) being able to interact with them Fragaria chiloensis ? - - 89 2.4.1.207 additional information SR-labelled xyloglucan-oligosaccharides, laminari-oligosaccharides, mixed-linkage (1,3/1,4)-beta-D-glucosaccharides, (1,4)-beta-D-glucurono-xylooligosaccharides, cello-oligosaccharides, manno-oligosaccharides and penta-galacturonic acid oligosaccharide, are used as acceptors. Preferred substrate are xyloglucan-oligosaccharides and cello-oligosaccharides, no activity is detected in tissues other than germinating seeds with laminari-oligosaccharides, mixed-linkage (1,3/1,4)-beta-D-glucosaccharides, (1,4)-beta-D-glucurono-xylooligosaccharides, manno-oligosaccharides and penta-galacturonic acid oligosaccharide. Heterotransglycosylation activities and acceptor substrate specificity of TmXET6.3, overview Tropaeolum majus ? - - 89 2.4.1.207 additional information substrate specificity of isozymes PtoXTH27 and PtoXTH34, PtoXTH34 has a higher affinity for XXXG. The receptor substrate of XTH in plants may be XXXG, or xyloglucan oligosaccharides with different chain lengths or structures, such as XLLG and XXXGXXXG. The different affinities of PtoXTH34 and PtoXTH27 for XXXG may be due to the diversity of receptor substrates in plants. Additionally, PtoXTH27 may have other receptor substrates with higher affinity Populus tomentosa ? - - 89 2.4.1.207 additional information [3H]XXXGol and tamarind xyloglucan are used as substrates in a radioactive enzyme assay to yield [3H]polysaccharide Arabidopsis thaliana ? - - 89 2.4.1.207 additional information not: cellobiose-SR Pinus parviflora Glauca ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Ipomoea purpurea Bojer ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Trigonella caerulea Ser. ? - ? 89 2.4.1.207 additional information enzyme activity assay with partially purified tamarind xyloglucan as donor and [3H]XXXG-ol as xyloglucan acceptor substrate Arabidopsis thaliana Col-0 ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Beckmannia syzigachne Fernald ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Nicotiana tabacum SR-1 ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Cedrus atlantica Carr. ? - ? 89 2.4.1.207 additional information not: cellobiose-SR Crocus vernus Hill ? - ? 89 2.4.1.207 pea xyloglucan - Arabidopsis thaliana ? - ? 453934 2.4.1.207 pea xyloglucan + reduced xyloglucan-derived heptasaccharide - Hordeum vulgare ? - ? 410062 2.4.1.207 rhodamin-conjugated Glc3-Xyl3-Gal2-glucitol + xyloglucan acceptor substrate: rhodamin-conjugated reduced xyloglucan-derived nonasaccharide, donor substrate: tamarind-seed xyloglucan, fluorescence assay Tropaeolum majus ? - ? 377604 2.4.1.207 tamarind xyloglucan - Arabidopsis thaliana ? - ? 450730 2.4.1.207 tamarind xyloglucan 3% tamarind xyloglucan Diospyros kaki ? - ? 450730 2.4.1.207 tamarind xyloglucan + alpha-D-Xyl-(1->6)-[alpha-D-Xyl-(1->6)-[alpha-D-Xyl-(1->6)-beta-D-Glc-(1->4)]-beta-D-Glc-(1->4)]-beta-D-Glc-(1->4)-D-Glc i.e. XGO, the enzyme activity is assayed by the colorimetric method, overview Pinus radiata ? - ? 458241 2.4.1.207 tamarind xyloglucan + reduced xyloglucan-derived heptasaccharide 100% activity Hordeum vulgare ? - ? 410356 2.4.1.207 tamarind xyloglucan + XLLG-9-aminopyrene-1,4,6-trisulfonate XET activity assay Arabidopsis thaliana ? - ? 401990 2.4.1.207 tamarind xyloglucan + XLLGol XET activity Fragaria vesca ? - ? 458242 2.4.1.207 tamarind xyloglucan + XXFGol XET activity Fragaria vesca ? - ? 458243 2.4.1.207 tamarind xyloglucan + XXGol XET activity Fragaria vesca ? - ? 458244 2.4.1.207 tamarind xyloglucan + XXLGol XET activity Fragaria vesca ? - ? 458245 2.4.1.207 tamarind xyloglucan + XXXG the enzyme performs transglucosylation Arabidopsis thaliana ? - ? 435866 2.4.1.207 tamarind xyloglucan + XXXG-ol - Malus domestica ? - ? 410357 2.4.1.207 tamarind xyloglucan + XXXG-ol - Actinidia eriantha ? - ? 410357 2.4.1.207 tamarind xyloglucan + XXXG-ol - Actinidia setosa ? - ? 410357 2.4.1.207 tamarind xyloglucan + XXXG-ol - Actinidia deliciosa ? - ? 410357 2.4.1.207 tamarind xyloglucan + XXXG-ol - Actinidia hemsleyana ? - ? 410357 2.4.1.207 tamarind xyloglucan + XXXG-ol - Actinidia chinensis ? - ? 410357 2.4.1.207 tamarind xyloglucan + XXXGol the enzyme performs transglucosylation Arabidopsis thaliana ? - ? 450729 2.4.1.207 tamarind xyloglucan + XXXGol XET activity Fragaria vesca ? - ? 450729 2.4.1.207 XXXG-ol + xyloglucan - Arabidopsis thaliana ? - ? 436135 2.4.1.207 XXXGol + xyloglucan - Arabidopsis thaliana ? - ? 436136 2.4.1.207 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 - Populus tremula x Populus tremuloides 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) - ? 390085 2.4.1.207 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 acceptor and donor: Glc8-based XXXGXXXG Tropaeolum majus 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 products: XXXGXXXGXXXG + XXXG ? 353763 2.4.1.207 xyloglucan - Diospyros kaki ? - ? 449027 2.4.1.207 xyloglucan + 4-mercaptobutanoyl-Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Glc 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 Populus tremula x Populus tremuloides ? - ? 390089 2.4.1.207 xyloglucan + barley (1,3 1,4)-beta-D-glucan 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 Hordeum vulgare ? - ? 410644 2.4.1.207 xyloglucan + heptaitol - Hordeum vulgare ? - ? 410645 2.4.1.207 xyloglucan + hydroxyethylcellulose the rate of covalent bond formation with hyrdoxyethylcellulose is comparable with that on tamarind xyloglucan Hordeum vulgare ? - ? 410646 2.4.1.207 xyloglucan + monostearyl-Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Glc 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 Populus tremula x Populus tremuloides ? - ? 390090 2.4.1.207 xyloglucan + nonasaccharide XLLG-ol - Populus tremula x Populus tremuloides ? - ? 452071 2.4.1.207 xyloglucan + sulfuric acid-swollen cellulose - Hordeum vulgare ? - ? 410647 2.4.1.207 xyloglucan + tamarind xyloglucan - Hordeum vulgare ? - ? 410648 2.4.1.207 xyloglucan + Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Glc - Hordeum vulgare ? - ? 390091 2.4.1.207 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 ? - ? 390091 2.4.1.207 xyloglucan + Xylalpha(1,6)Glc-Xylalpha(1,6)Glc-Galalpha(1,2)Xylalpha(1,6)Glc-Glc - Hordeum vulgare ? - ? 390093 2.4.1.207 xyloglucan + xyloglucan oligosaccharide the recombinant FcXTH2 protein displays mainly XEH activity and basal XET activity. The Sulova method for XET activity is based in the ability of long xyloglucans (XGs) to bind iodine: the transglycosylation activity causes a reduction in size of XGs that loses the ability to bind the dye. Thus, the XET activity causes the reduction in molecular weight of XGs by transglycosylation of portions of the XG donor to low relative molecular mass (low-Mr) oligosaccharide acceptors whereby no net formation of reducing ends takes place. Thus, the XET activity is assayed by following changes in absorbance at 620 nm Fragaria chiloensis ? - ? 458352 2.4.1.207 xyloglucan nonasaccharide + xyloglucan acceptor: nonasaccharide XLLGol, donor: tamarind xyloglucan Populus tremula x Populus tremuloides ? - ? 378329 2.4.1.207 xyloglucan nonasaccharide + xyloglucan nonasaccharide XLLG, a 2-chloro-4-nitrophenyl-nonasaccharide is no substrate, tamarind xyloglucan Populus tremula x Populus tremuloides ? - ? 378329 2.4.1.207 xyloglucan oligosaccharides + xyloglucan - Brassica oleracea ? - ? 375376 2.4.1.207 xyloglucan oligosaccharides + xyloglucan - Oryza sativa ? - ? 375376 2.4.1.207 xyloglucan oligosaccharides + xyloglucan - Vigna angularis ? - ? 375376 2.4.1.207 xyloglucan oligosaccharides + xyloglucan - Brassica oleracea var. botrytis ? - ? 375376 2.4.1.207 xyloglucan oligosaccharides + xyloglucan sulforhodamine-labeled xyloglucan-derived oligosaccharides, and tamarind-seed xyloglucan Pisum sativum ? - ? 375376 2.4.1.207 xyloglucan oligosaccharides + xyloglucan sulforhodamine-labeled xyloglucan-derived oligosaccharides, and tamarind-seed xyloglucan Allium ampeloprasum ? - ? 375376 2.4.1.207 xyloglucan oligosaccharides + xyloglucan sulforhodamine-labeled xyloglucan-derived oligosaccharides, and tamarind-seed xyloglucan Daucus carota ? - ? 375376 2.4.1.207 xyloglucan oligosaccharides + xyloglucan sulforhodamine-labeled xyloglucan-derived oligosaccharides, and tamarind-seed xyloglucan Cucumis sativus ? - ? 375376 2.4.1.207 xyloglucan oligosaccharides + xyloglucan sulforhodamine-labeled xyloglucan-derived oligosaccharides, and tamarind-seed xyloglucan Tropaeolum majus ? - ? 375376 2.4.1.207 xyloglucan oligosaccharides + xyloglucan sulforhodamine-labeled xyloglucan-derived oligosaccharides, and tamarind-seed xyloglucan Piper sp. ? - ? 375376 2.4.1.207 xyloglucan oligosaccharides + xyloglucan sulforhodamine-labeled xyloglucan-derived oligosaccharides, and tamarind-seed xyloglucan Lactuca sativa ssp. capitata ? - ? 375376 2.4.1.207 xyloglucan oligosaccharides + xyloglucan xyloglucans with MW of about 600-1000 kDa Vigna angularis ? + xyloglucan MW about 50 kDa ? 375377 2.4.1.207 [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 - Populus tremula x Populus tremuloides [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 - ? 399258 2.4.1.207 [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 - Populus tremula x Populus tremuloides [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 - ? 399259 2.4.1.207 [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 - Populus tremula x Populus tremuloides 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 - ? 399260 2.4.1.207 [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 - Populus tremula x Populus tremuloides [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 - ? 399257 2.4.1.207 [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 - Populus tremula x Populus tremuloides [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 - ? 399256 2.4.1.207 [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 - Populus tremula x Populus tremuloides [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 - ? 399254 2.4.1.207 [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 - Populus tremula x Populus tremuloides 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 - ? 399255 2.4.1.207 [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 - Populus tremula x Populus tremuloides 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 - ? 399251 2.4.1.207 [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 - Populus tremula x Populus tremuloides 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 - ? 399252 2.4.1.207 [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 - Populus tremula x Populus tremuloides 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 - ? 399253 2.4.1.207 [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 - Populus tremula x Populus tremuloides [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 - ? 399242 2.4.1.207 [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 - Populus tremula x Populus tremuloides [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 - ? 399249 2.4.1.207 [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 - Populus tremula x Populus tremuloides [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 - ? 399250 2.4.1.207 [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 - Populus tremula x Populus tremuloides [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 - ? 399243 2.4.1.207 [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 - Populus tremula x Populus tremuloides [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 - ? 399244 2.4.1.207 [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 - Populus tremula x Populus tremuloides [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 - ? 399245 2.4.1.207 [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 - Populus tremula x Populus tremuloides [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 - ? 399246 2.4.1.207 [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 - Populus tremula x Populus tremuloides [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 - ? 399247 2.4.1.207 [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 - Populus tremula x Populus tremuloides [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 - ? 399248