Literature summary for 2.7.1.30 extracted from

Thorner, J.W.; Paulus, H.
Glycerol and glycerate kinases (1973), The Enzymes,3rd ed. (Boyer,P. D. ,ed. ), 8, 487-508.

No PubMed abstract available

General Stability

General Stability	Organism
glycerol affords considerable stabilization at the unfavorable pH values	Mycobacterium sp.
pigeon liver enzyme is sensitive to extreme dilution but can be stabilized by addition of 0.01% bovine serum albumin	Columba sp.
the enzyme in crude extracts is stable to freezing and thawing, while more purified preparations are inactivated	Rattus norvegicus
the enzyme in crude extracts is stable to freezing and thawing, while more purified preparations are inactivated	Pseudomonas aeruginosa

Inhibitors

Inhibitors	Comment	Organism
ADP	-	Escherichia coli
ADP	-	Gallus gallus
ADP	-	Rattus norvegicus
AMP	-	Saccharomyces cerevisiae
fructose 1,6-diphosphate	not	Candida mycoderma
fructose 1,6-diphosphate	-	Escherichia coli
fructose 1,6-diphosphate	not	Neurospora crassa
glycerol 3-phosphate	-	Bacillus subtilis
glycerol 3-phosphate	-	Bombus sp.
glycerol 3-phosphate	-	Bos taurus
glycerol 3-phosphate	-	Candida mycoderma
glycerol 3-phosphate	-	Cavia porcellus
glycerol 3-phosphate	-	Clostridium novyi
glycerol 3-phosphate	-	Columba sp.
glycerol 3-phosphate	-	Cyberlindnera jadinii
glycerol 3-phosphate	-	Enterococcus faecalis
glycerol 3-phosphate	-	Escherichia coli
glycerol 3-phosphate	-	Felis catus
glycerol 3-phosphate	-	Geotrichum candidum
glycerol 3-phosphate	-	Gluconobacter oxydans
glycerol 3-phosphate	-	Halobacterium salinarum
glycerol 3-phosphate	-	Homo sapiens
glycerol 3-phosphate	-	Klebsiella aerogenes
glycerol 3-phosphate	-	Locusta sp.
glycerol 3-phosphate	-	Mesocricetus auratus
glycerol 3-phosphate	-	Mus musculus
glycerol 3-phosphate	-	Mycobacterium butyricum
glycerol 3-phosphate	-	Mycobacterium sp.
glycerol 3-phosphate	-	Mycobacterium tuberculosis
glycerol 3-phosphate	-	Mycolicibacterium smegmatis
glycerol 3-phosphate	-	Neurospora crassa
glycerol 3-phosphate	-	Nocardia asteroides
glycerol 3-phosphate	-	Oryctolagus cuniculus
glycerol 3-phosphate	-	Pseudomonas aeruginosa
glycerol 3-phosphate	competitive to glycerol	Rattus norvegicus
glycerol 3-phosphate	-	Saccharomyces cerevisiae
glycerol 3-phosphate	-	Shigella sonnei
glycerol 3-phosphate	-	Staphylococcus aureus
glycerol 3-phosphate	-	trout
glycerol 3-phosphate	-	Wickerhamomyces anomalus
iodoacetamide	-	Candida mycoderma
iodoacetamide	-	Rattus norvegicus
iodoacetate	-	Escherichia coli
N-ethylmaleimide	-	Escherichia coli
N-ethylmaleimide	-	Rattus norvegicus
p-chloromercuribenzoate	-	Candida mycoderma
p-chloromercuribenzoate	-	Rattus norvegicus
p-Hydroxymercuriphenylsulfonate	-	Escherichia coli

KM Value [mM]

KM Value [mM]	KM Value Maximum [mM]	Substrate	Comment	Organism
additional information	-	additional information	-	Gallus gallus
additional information	-	additional information	-	Mus musculus
additional information	-	additional information	-	Escherichia coli
additional information	-	additional information	-	Rattus norvegicus
additional information	-	additional information	-	Bos taurus
additional information	-	additional information	-	Columba sp.
additional information	-	additional information	-	Candida mycoderma

Localization

Localization	Comment	Organism	GeneOntology No.	Textmining
cytosol	described in the most tissues	Cavia porcellus	5829	-
cytosol	described in the most tissues	Staphylococcus aureus	5829	-
cytosol	described in the most tissues	Bacillus subtilis	5829	-
cytosol	described in the most tissues	Cyberlindnera jadinii	5829	-
cytosol	described in the most tissues	Mus musculus	5829	-
cytosol	described in the most tissues	Escherichia coli	5829	-
cytosol	described in the most tissues	Homo sapiens	5829	-
cytosol	described in the most tissues	Rattus norvegicus	5829	-
cytosol	described in the most tissues	Saccharomyces cerevisiae	5829	-
cytosol	described in the most tissues	Bos taurus	5829	-
cytosol	described in the most tissues	Oryctolagus cuniculus	5829	-
cytosol	described in the most tissues	Mycolicibacterium smegmatis	5829	-
cytosol	described in the most tissues	Neurospora crassa	5829	-
cytosol	described in the most tissues	Klebsiella aerogenes	5829	-
cytosol	described in the most tissues	Pseudomonas aeruginosa	5829	-
cytosol	described in the most tissues	Halobacterium salinarum	5829	-
cytosol	described in the most tissues	Enterococcus faecalis	5829	-
cytosol	described in the most tissues	Mycobacterium tuberculosis	5829	-
cytosol	described in the most tissues	Mesocricetus auratus	5829	-
cytosol	described in the most tissues	Felis catus	5829	-
cytosol	described in the most tissues	Mycobacterium sp.	5829	-
cytosol	described in the most tissues	Nocardia asteroides	5829	-
cytosol	described in the most tissues	Gluconobacter oxydans	5829	-
cytosol	described in the most tissues	Mycobacterium butyricum	5829	-
cytosol	described in the most tissues	Wickerhamomyces anomalus	5829	-
cytosol	described in the most tissues	Shigella sonnei	5829	-
cytosol	described in the most tissues	trout	5829	-
cytosol	described in the most tissues	Geotrichum candidum	5829	-
cytosol	described in the most tissues	Columba sp.	5829	-
cytosol	described in the most tissues	Locusta sp.	5829	-
cytosol	described in the most tissues	Bombus sp.	5829	-
cytosol	described in the most tissues	Candida mycoderma	5829	-
cytosol	described in the most tissues	Clostridium novyi	5829	-
mitochondrion	-	Bos taurus	5739	-

Metals/Ions

Metals/Ions	Comment	Organism	Structure
Mg2+	required	Escherichia coli

Molecular Weight [Da]

Molecular Weight [Da]	Molecular Weight Maximum [Da]	Comment	Organism
60000	-	4 * 60000, SDS-PAGE	Saccharomyces cerevisiae
140000	-	gel filtration, zone sedimentation in sucrose density gradient	Neurospora crassa
210000	217000	equilibrium sedimentation	Escherichia coli

Natural Substrates/ Products (Substrates)

Natural Substrates	Organism	Comment (Nat. Sub.)	Natural Products	Comment (Nat. Pro.)	Rev.	Reac.
ATP + glycerol	Escherichia coli	enzyme functions primarily in the utilization of glycerol as a carbon and energy source	?	-	?
ATP + glycerol	Mesocricetus auratus	higher organisms: salvage of glycerol released upon lipolysis	?	-	?

Organism

Organism	UniProt	Comment	Textmining
Bacillus subtilis	-	-	-
Bombus sp.	-	queen bumblebee	-
Bos taurus	-	-	-
Candida mycoderma	-	-	-
Cavia porcellus	-	-	-
Clostridium novyi	-	-	-
Columba sp.	-	pigeon	-
Cyberlindnera jadinii	-	-	-
Enterococcus faecalis	-	-	-
Escherichia coli	-	-	-
Felis catus	-	-	-
Gallus gallus	-	-	-
Geotrichum candidum	-	-	-
Gluconobacter oxydans	-	-	-
Halobacterium salinarum	-	-	-
Homo sapiens	-	-	-
Klebsiella aerogenes	-	-	-
Locusta sp.	-	-	-
Mesocricetus auratus	-	-	-
Mus musculus	-	-	-
Mycobacterium butyricum	-	-	-
Mycobacterium sp.	-	607	-
Mycobacterium sp. 607	-	607	-
Mycobacterium tuberculosis	-	-	-
Mycolicibacterium smegmatis	-	-	-
Neurospora crassa	-	-	-
Nocardia asteroides	-	-	-
Oryctolagus cuniculus	-	-	-
Pseudomonas aeruginosa	-	-	-
Rattus norvegicus	-	-	-
Saccharomyces cerevisiae	-	-	-
Shigella sonnei	-	-	-
Staphylococcus aureus	-	-	-
trout	-	-	-
Wickerhamomyces anomalus	-	-	-

Oxidation Stability

Oxidation Stability	Organism
susceptible to inactivation by oxidation of sulfhydryl groups	Columba sp.

Reaction

Reaction	Comment	Organism	Reaction ID
ATP + glycerol = ADP + sn-glycerol 3-phosphate	ordered mechanism	Escherichia coli	a
ATP + glycerol = ADP + sn-glycerol 3-phosphate	ordered mechanism	Rattus norvegicus	a

Source Tissue

Source Tissue	Comment	Organism	Textmining
adipose tissue	-	Gallus gallus	-
adipose tissue	-	Bos taurus	-
adipose tissue	white and brown	Mus musculus	-
adipose tissue	white and brown	Homo sapiens	-
adipose tissue	white and brown	Rattus norvegicus	-
adipose tissue	white and brown	Oryctolagus cuniculus	-
adipose tissue	white and brown	Locusta sp.	-
intestine	-	Rattus norvegicus	-
intestine	-	Mesocricetus auratus	-
intestine	-	Felis catus	-
kidney	-	Rattus norvegicus	-
liver	-	Gallus gallus	-
liver	-	Mus musculus	-
liver	-	Rattus norvegicus	-
liver	-	Bos taurus	-
liver	-	Mesocricetus auratus	-
liver	-	trout	-
liver	-	Columba sp.	-
additional information	enzyme activity in various tissues	Cavia porcellus	-
additional information	enzyme activity in various tissues	Staphylococcus aureus	-
additional information	enzyme activity in various tissues	Bacillus subtilis	-
additional information	enzyme activity in various tissues	Cyberlindnera jadinii	-
additional information	enzyme activity in various tissues	Mus musculus	-
additional information	enzyme activity in various tissues	Escherichia coli	-
additional information	enzyme activity in various tissues	Homo sapiens	-
additional information	enzyme activity in various tissues	Rattus norvegicus	-
additional information	enzyme activity in various tissues	Saccharomyces cerevisiae	-
additional information	enzyme activity in various tissues	Bos taurus	-
additional information	enzyme activity in various tissues	Oryctolagus cuniculus	-
additional information	enzyme activity in various tissues	Mycolicibacterium smegmatis	-
additional information	enzyme activity in various tissues	Neurospora crassa	-
additional information	enzyme activity in various tissues	Klebsiella aerogenes	-
additional information	enzyme activity in various tissues	Pseudomonas aeruginosa	-
additional information	enzyme activity in various tissues	Halobacterium salinarum	-
additional information	enzyme activity in various tissues	Enterococcus faecalis	-
additional information	enzyme activity in various tissues	Mycobacterium tuberculosis	-
additional information	enzyme activity in various tissues	Mesocricetus auratus	-
additional information	enzyme activity in various tissues	Felis catus	-
additional information	enzyme activity in various tissues	Mycobacterium sp.	-
additional information	enzyme activity in various tissues	Nocardia asteroides	-
additional information	enzyme activity in various tissues	Gluconobacter oxydans	-
additional information	enzyme activity in various tissues	Mycobacterium butyricum	-
additional information	enzyme activity in various tissues	Wickerhamomyces anomalus	-
additional information	enzyme activity in various tissues	Shigella sonnei	-
additional information	enzyme activity in various tissues	trout	-
additional information	enzyme activity in various tissues	Geotrichum candidum	-
additional information	enzyme activity in various tissues	Columba sp.	-
additional information	enzyme activity in various tissues	Locusta sp.	-
additional information	enzyme activity in various tissues	Bombus sp.	-
additional information	enzyme activity in various tissues	Candida mycoderma	-
additional information	enzyme activity in various tissues	Clostridium novyi	-
muscle	-	Gallus gallus	-
muscle	-	Rattus norvegicus	-
muscle	-	Oryctolagus cuniculus	-
muscle	-	trout	-
muscle	-	Columba sp.	-
muscle	-	Locusta sp.	-
muscle	-	Bombus sp.	-
spermatozoon	-	Gallus gallus	-
spermatozoon	-	Homo sapiens	-
spermatozoon	-	Bos taurus	-
spermatozoon	-	Oryctolagus cuniculus	-
spermatozoon	-	trout	-

Storage Stability

Storage Stability	Organism
-20°C, pH 5.0, partially purified enzymes have half-lives of several weeks to months	Rattus norvegicus
-20°C, pH 5.0, partially purified enzymes have half-lives of several weeks to months	Mesocricetus auratus
-20°C, pH 5.0, partially purified enzymes have half-lives of several weeks to months	Columba sp.
as crystalline suspension in saturated ammonium sulfate, solutions containing 10 mM glycerol, 1 mM EDTA and a thiol e.g. 2-mercaptoethanol, yeast enzyme stable for several months, E. coli enzyme for several years	Escherichia coli
as crystalline suspension in saturated ammonium sulfate, solutions containing 10 mM glycerol, 1 mM EDTA and a thiol e.g. 2-mercaptoethanol, yeast enzyme stable for several months, E. coli enzyme for several years	Saccharomyces cerevisiae

Substrates and Products (Substrate)

Substrates	Comment Substrates	Organism	Products	Comment (Products)	Rev.
ATP + D-glyceraldehyde	-	Escherichia coli	ADP + D-glyceraldehyde 3-phosphate	-	?
ATP + dihydroxyacetone	-	Escherichia coli	ADP + dihydroxyacetone phosphate	-	?
ATP + dihydroxyacetone	-	Candida mycoderma	ADP + dihydroxyacetone phosphate	-	?
ATP + glycerol	-	Gallus gallus	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Cavia porcellus	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Staphylococcus aureus	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Bacillus subtilis	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Cyberlindnera jadinii	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Mus musculus	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Escherichia coli	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Homo sapiens	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Rattus norvegicus	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Saccharomyces cerevisiae	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Bos taurus	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Oryctolagus cuniculus	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Mycolicibacterium smegmatis	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Neurospora crassa	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Klebsiella aerogenes	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Pseudomonas aeruginosa	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Halobacterium salinarum	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Enterococcus faecalis	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Mycobacterium tuberculosis	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Mesocricetus auratus	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Felis catus	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Mycobacterium sp.	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Nocardia asteroides	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Gluconobacter oxydans	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Mycobacterium butyricum	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Wickerhamomyces anomalus	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Shigella sonnei	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	trout	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Geotrichum candidum	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Columba sp.	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Locusta sp.	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Bombus sp.	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Candida mycoderma	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Clostridium novyi	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme can utilize only ATP as phosphoryl group donor	Mycobacterium sp. 607	ADP + sn-glycerol 3-phosphate	-	?
ATP + glycerol	enzyme functions primarily in the utilization of glycerol as a carbon and energy source	Escherichia coli	?	-	?
ATP + glycerol	higher organisms: salvage of glycerol released upon lipolysis	Mesocricetus auratus	?	-	?
ATP + L-glyceraldehyde	-	Escherichia coli	ADP + L-glyceraldehyde 3-phosphate	-	?
ATP + L-glyceraldehyde	-	Candida mycoderma	ADP + L-glyceraldehyde 3-phosphate	-	?
CTP + glycerol	-	Gallus gallus	CDP + glycerol 3-phosphate	-	?
CTP + glycerol	-	Candida mycoderma	CDP + glycerol 3-phosphate	-	?
ITP + glycerol	-	Gallus gallus	IDP + glycerol 3-phosphate	-	?
ITP + glycerol	-	Candida mycoderma	IDP + glycerol 3-phosphate	-	?
additional information	-	Saccharomyces cerevisiae	?	-	?
additional information	-	Candida mycoderma	?	-	?
additional information	phosphate rather than D-glyceraldehyde 3-phosphate is formed, the hydrated form of this triose is phosphorylated in position 1 to yield an unstable intermediate that decomposes to D-glyceraldehyde + phosphate	Escherichia coli	?	-	?
UTP + glycerol	-	Gallus gallus	UDP + glycerol 3-phosphate	-	?

Subunits

Subunits	Comment	Organism
tetramer	4 * 60000, SDS-PAGE	Saccharomyces cerevisiae
tetramer	4 * 55000-57000, equilibrium ultracentrifugation in presence of 6 M guanidine HCl, SDS-PAGE	Escherichia coli

Temperature Stability [°C]

Temperature Stability Minimum [°C]	Temperature Stability Maximum [°C]	Comment	Organism
additional information	-	-	Escherichia coli
additional information	-	-	Rattus norvegicus
additional information	-	enzyme is quite heat labile	Mycobacterium sp.
50	-	5 min, 30% loss of activity	Neurospora crassa
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Cavia porcellus
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Staphylococcus aureus
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Bacillus subtilis
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Cyberlindnera jadinii
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Mus musculus
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Escherichia coli
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Homo sapiens
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Rattus norvegicus
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Saccharomyces cerevisiae
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Bos taurus
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Oryctolagus cuniculus
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Mycolicibacterium smegmatis
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Neurospora crassa
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Klebsiella aerogenes
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Pseudomonas aeruginosa
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Halobacterium salinarum
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Enterococcus faecalis
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Mycobacterium tuberculosis
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Mesocricetus auratus
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Felis catus
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Mycobacterium sp.
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Nocardia asteroides
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Gluconobacter oxydans
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Mycobacterium butyricum
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Wickerhamomyces anomalus
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Shigella sonnei
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	trout
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Geotrichum candidum
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Columba sp.
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Locusta sp.
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Bombus sp.
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Candida mycoderma
60	-	in presence of 10 mM glycerol and 1 mM EDTA almost all glycerol kinases can be heated for prolonged periods	Clostridium novyi
70	-	-	Cavia porcellus
70	-	-	Staphylococcus aureus
70	-	-	Bacillus subtilis
70	-	-	Cyberlindnera jadinii
70	-	-	Mus musculus
70	-	-	Homo sapiens
70	-	-	Rattus norvegicus
70	-	-	Saccharomyces cerevisiae
70	-	-	Bos taurus
70	-	-	Oryctolagus cuniculus
70	-	-	Mycolicibacterium smegmatis
70	-	-	Neurospora crassa
70	-	-	Klebsiella aerogenes
70	-	-	Pseudomonas aeruginosa
70	-	-	Halobacterium salinarum
70	-	-	Enterococcus faecalis
70	-	-	Mycobacterium tuberculosis
70	-	-	Mesocricetus auratus
70	-	-	Felis catus
70	-	-	Mycobacterium sp.
70	-	-	Nocardia asteroides
70	-	-	Gluconobacter oxydans
70	-	-	Mycobacterium butyricum
70	-	-	Wickerhamomyces anomalus
70	-	-	Shigella sonnei
70	-	-	trout
70	-	-	Geotrichum candidum
70	-	-	Columba sp.
70	-	-	Locusta sp.
70	-	-	Bombus sp.
70	-	-	Candida mycoderma
70	-	-	Clostridium novyi
70	-	t1/2: 5 min	Escherichia coli

pH Optimum

pH Optimum Minimum	pH Optimum Maximum	Comment	Organism
7	7.5	-	Mycobacterium sp.
7	7.5	-	Clostridium novyi
8	-	-	Saccharomyces cerevisiae

pH Stability

pH Stability	pH Stability Maximum	Comment	Organism
additional information	-	glycerol affords considerable stabilization at the unfavorable pH values, glycerol kinases from microorganisms most stable at a neutral pH, glycerol kinases from higher organisms most stable in an acidic pH range	Rattus norvegicus
5	-	0°C, 24 h, complete loss of activity, 30°C, 30 min, 75% loss of activity	Escherichia coli
5	-	0°C, 6 h, without glycerol, completely stable	Columba sp.
6	9	30°C, in presence of glycerol, completely stable for 30 min	Mycobacterium sp.
7	-	0°C, 6 h, without glycerol, 90% loss of activity	Columba sp.
7	-	0°C, 24 h, 50% loss of activity	Escherichia coli
7.5	-	25°C, no loss of activity after several h	Rattus norvegicus
9.8	-	25°C, half-life: 6.5 min	Rattus norvegicus