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EC Tree
The enzyme appears in viruses and cellular organisms
Synonyms
osiaglu, iaglc synthase, osiaaglu, indole-3-acetate beta-glucosyltransferase, indol-3-ylacetylglucose synthase, udp-glucose:indol-3-ylacetate glucosyl-transferase, udpg-indol-3-ylacetyl glucosyl transferase, indole-3-acetic acid glucosyltransferase, iaa-glucose synthase,
more
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glucosyltransferase, uridine diphosphoglucose-indoleacetate
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-
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IAA glucosyltransferase
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IAA-glucose synthase
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indol-3-ylacetylglucose synthase
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-
-
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indole-3-acetate beta-glucosyltransferase
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indole-3-acetic acid glucosyltransferase
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indole-3-acetic acid UDP-glucosyltransferase
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-
UDP-glucose:indol-3-ylacetate glucosyl-transferase
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-
-
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UDP-glucose:indol-3-ylacetate glucosyltransferase
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UDPG-indol-3-ylacetyl glucosyl transferase
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-
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UDPG: indole-3-ylacetyl-beta-D-glucosyltransferase
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UDPglucose:indole-3-acetate beta-D-glucosyltransferase
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IAGlc synthase
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UDP-glucose + (indol-3-yl)acetate = UDP + 1-O-(indol-3-yl)acetyl-beta-D-glucose
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hexosyl group transfer
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UDP-glucose:(indol-3-yl)acetate beta-D-glucosyltransferase
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UDP-glucose + (indol-3-yl)acetate
UDP + 1-O-(indol-3-yl)acetyl-beta-D-glucose
UDP-glucose + (indol-3-yl)propionate
UDP + 1-O-(indol-3-yl)propionyl-beta-D-glucose
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22% of the activity with (indol-3-yl)acetate
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-
r
UDP-glucose + 1-naphthalene acetate
UDP + 1-naphthalene acetyl-beta-D-glucose
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24% of the activity with (indol-3-yl)acetate
-
-
r
UDP-glucose + cinnamic acid
UDP + cinnamoyl-beta-1-D-glucose
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-
-
-
r
UDP-glucose + gibberellin GA3
UDP + ?
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1.9% of the activity with (indol-3-yl)acetate
-
-
r
UDP-glucose + indole-3-acetate
1-O-indole-3-acetyl-beta-D-glucose + UDP
UDP-glucose + indole-3-acetate
UDP + indole-3-acetyl-beta-1-D-glucose
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-
-
-
r
UDPglucose + 2,5-dimethoxycinnamic acid
UDP + 2,5-dimethoxycinnamoyl-beta-1-D-glucose
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4.3% of the activity with indole-3-acetate
-
-
?
UDPglucose + 3,4-dimethoxycinnamic acid
UDP + 3,4-dimethoxycinnamoyl-beta-1-D-glucose
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6.1% of the activity with indole-3-acetate
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-
?
UDPglucose + 3-hydroxy-4-methoxy cinnamic acid
UDP + 3-hydroxy-4-methoxycinnamoyl-beta-1-D-glucose
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9.4% of the activity with indole-3-acetate
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-
?
UDPglucose + ferulic acid
UDP + feruloyl-beta-1-D-glucose
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7.8% of the activity with indole-3-acetate
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-
?
UDPglucose + indole butyric acid
UDP + indole butanoyl-beta-1-D-glucose
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-
-
-
?
UDPglucose + indole propionic acid
UDP + indole propanoyl-beta-1-D-glucose
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-
-
-
?
UDPglucose + indole-3-acetate
?
UDPglucose + indole-3-acetate
UDP + indole-3-acetyl-beta-1-D-glucose
UDPglucose + m-hydroxycinnamic acid
UDP + m-hydroxycinnamoyl-beta-1-D-glucose
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4.3% of the activity with indole-3-acetate
-
-
?
UDPglucose + naphthalene-1-acetic acid
UDP + naphthyl-1-acetyl-beta-1-D-glucose
UDPglucose + o-hydroxycinnamic acid
UDP + o-hydroxycinnamoyl-beta-1-D-glucose
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7.6% of the activity with indole-3-acetate
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-
?
UDPglucose + p-coumaric acid
UDP + p-coumaroyl-beta-1-D-glucose
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10.2% of the activity with indole-3-acetate
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-
?
UDPglucose + phenylacetic acid
UDP + phenylacetyl-beta-1-D-glucose
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-
-
-
?
UDP-glucose + (indol-3-yl)acetate
UDP + 1-O-(indol-3-yl)acetyl-beta-D-glucose
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-
-
?
UDP-glucose + (indol-3-yl)acetate
UDP + 1-O-(indol-3-yl)acetyl-beta-D-glucose
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-
-
?
UDP-glucose + (indol-3-yl)acetate
UDP + 1-O-(indol-3-yl)acetyl-beta-D-glucose
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-
-
-
r
UDP-glucose + (indol-3-yl)acetate
UDP + 1-O-(indol-3-yl)acetyl-beta-D-glucose
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best substrate
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-
r
UDP-glucose + indole-3-acetate
1-O-indole-3-acetyl-beta-D-glucose + UDP
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-
-
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r
UDP-glucose + indole-3-acetate
1-O-indole-3-acetyl-beta-D-glucose + UDP
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r
UDPglucose + indole-3-acetate
?
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first enzyme in pathway synthesizing ester conjugates of indoleacetate, constitutive in maize vegetative tissue, can be increased by incubation of tissue with 1-naphthalene acetic acid
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-
?
UDPglucose + indole-3-acetate
?
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first reaction in a series leading to the ester conjugates of indole-3-acetic acid
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-
?
UDPglucose + indole-3-acetate
?
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first enzyme-catalyzed reaction leading from indole-3-acetic acid to the myo-inositol ester of indole-3-acetate
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-
?
UDPglucose + indole-3-acetate
UDP + indole-3-acetyl-beta-1-D-glucose
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-
-
?
UDPglucose + indole-3-acetate
UDP + indole-3-acetyl-beta-1-D-glucose
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-
-
?
UDPglucose + indole-3-acetate
UDP + indole-3-acetyl-beta-1-D-glucose
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-
-
?
UDPglucose + indole-3-acetate
UDP + indole-3-acetyl-beta-1-D-glucose
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specific for UDPglucose
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r
UDPglucose + indole-3-acetate
UDP + indole-3-acetyl-beta-1-D-glucose
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specific for UDPglucose
i.e. 1-O-indol-3-ylacetyl-beta-D-glucose
?
UDPglucose + indole-3-acetate
UDP + indole-3-acetyl-beta-1-D-glucose
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equilibrium away from ester formation and towards formation of indole-3-acetate
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r
UDPglucose + naphthalene-1-acetic acid
UDP + naphthyl-1-acetyl-beta-1-D-glucose
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-
-
?
UDPglucose + naphthalene-1-acetic acid
UDP + naphthyl-1-acetyl-beta-1-D-glucose
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70% of the activity with indole-3-acetate
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-
?
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UDP-glucose + (indol-3-yl)acetate
UDP + 1-O-(indol-3-yl)acetyl-beta-D-glucose
UDPglucose + indole-3-acetate
?
UDP-glucose + (indol-3-yl)acetate
UDP + 1-O-(indol-3-yl)acetyl-beta-D-glucose
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-
-
?
UDP-glucose + (indol-3-yl)acetate
UDP + 1-O-(indol-3-yl)acetyl-beta-D-glucose
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-
-
?
UDP-glucose + (indol-3-yl)acetate
UDP + 1-O-(indol-3-yl)acetyl-beta-D-glucose
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r
UDPglucose + indole-3-acetate
?
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first enzyme in pathway synthesizing ester conjugates of indoleacetate, constitutive in maize vegetative tissue, can be increased by incubation of tissue with 1-naphthalene acetic acid
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?
UDPglucose + indole-3-acetate
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first reaction in a series leading to the ester conjugates of indole-3-acetic acid
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?
UDPglucose + indole-3-acetate
?
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first enzyme-catalyzed reaction leading from indole-3-acetic acid to the myo-inositol ester of indole-3-acetate
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?
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Ca2+
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stimulates
Mg2+
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stimulates
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2,4-dichlorophenoxy acetic acid
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2-naphthalene acetic acid
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competitive inhibitor
indole-3-acetate glucan
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indole-3-acetate-myo-inositol
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indole-3-butyric acid
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competitive inhibitor
Indole-3-propionic acid
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competitive inhibitor
naphthylphthalamic acid
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phosphate
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100 mM phosphate buffer, 50% inhibition
phosphatidyl ethanolamine
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D-gluconic acid lactone
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the inhibitor of beta-glucosidase activity, potentiates the enzyme activity at the optimal concentration of 0.3 mM
thiol compounds
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stimulate
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0.52
(indol-3-yl)acetate
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pH 7.6, 30°C
1.5
(indol-3-yl)propionate
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pH 7.6, 30°C
4
1-naphthalene acetate
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pH 7.6, 30°C
0.15
indole butyric acid
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0.14
indole propionic acid
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0.24 - 1.08
indole-3-acetate
2.67
UDP-glucose
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pH 7.6, 30°C
0.24
indole-3-acetate
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1.08
indole-3-acetate
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0.25
UDPglucose
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2.27
(indol-3-yl)acetate
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pH 7.6, 30°C
0.72
(indol-3-yl)propionate
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pH 7.6, 30°C
0.53
1-naphthalene acetate
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pH 7.6, 30°C
0.49
UDP-glucose
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pH 7.6, 30°C
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4.36
(indol-3-yl)acetate
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pH 7.6, 30°C
0.46
(indol-3-yl)propionate
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pH 7.6, 30°C
0.13
1-naphthalene acetate
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pH 7.6, 30°C
0.16
UDP-glucose
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pH 7.6, 30°C
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0.038
2-naphthalene acetic acid
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pH 7.6, 30°C
0.1
indole-3-butyric acid
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pH 7.6, 30°C
0.15
Indole-3-propionic acid
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pH 7.6, 30°C
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0.06
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purified enzyme, substrate gibberellin GA3, pH 7.6, 30°C
0.656
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purified enzyme, substrate (indol-3-yl)propionate, pH 7.6, 30°C
0.715
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purified enzyme, substrate 1-naphthalene acetate, pH 7.6, 30°C
2.976
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purified enzyme, substrate (indol-3-yl)acetate, pH 7.6, 30°C
additional information
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-
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6.7 - 7.6
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pH 7.3-7.6: maximal activity, no activity below pH 6.7
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30
assay at
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brenda
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brenda
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brenda
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brenda
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UniProt
brenda
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UniProt
brenda
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brenda
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brenda
additional information
expression pattern of OsIAGLU in various developmental and germination stages in rice using quantitative RT-PCR approach
brenda
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brenda
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cultured
brenda
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immature
brenda
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brenda
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immature
brenda
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immature seed
brenda
quantitative RT-PCR enzyme expression analysis shows that the expression of OsIAGLU is relatively higher in the late developing and the early germinating seeds
brenda
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immature
brenda
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immature seed
brenda
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brenda
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brenda
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transient expression of OsIAAGLU-GFP or GFP-OsIAAGLU in rice protoplasts is limited to the cytoplasm
brenda
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evolution
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the enzyme belongs to the UDP-sugar dependent transferases
metabolism
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the enzyme catalyzes the first step in the biosynthesis of indol-3-yl ester conjugates in monocotyledonous plants
malfunction
disruption of OsIAGLU results in low seed vigour in rice, ABA-sensitive phenotypes during seed germination, overview
malfunction
Overexpression of OsIAAGLU results in altered plant architecture. The number of tillers and leaf angle is significantly increased with a concomitant decrease in plant height and panicle length in the transgenic rice lines overexpressing OsIAAGLU compared to the wild-type plants. Phenotypes of iaaglu mutants show no obvious differences with wild-type plants. Overexpression of OsIAAGLU results in reduced sensitivity to indole-3-acetic acid (IAA) and 1-naphthalene acetic acid (NAA) and altered gravitropic response of the roots in the transgenic plants. Free IAA contents in the leaves, root tips, and lamina joint of OsIAAGLU-overexpressing transgenic lines are lower than those of wild-type plants. The transgenic plants are shorter than the wild-type plants and exhibit exaggerated leaf angles at the 5-leaf stage compared to the wild-type plants
physiological function
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1-O-(indol-3-yl)acetyl-beta-D-glucose, synthesized by the enzyme, is the substrate for (indol-3-yl)acetate labeling of glycoproteins from pea seeds indicating a possible role of this enzyme in the covalent modification of a class of proteins by a plant hormone. Auxin is a key plant hormone that regulates many physiological processes in plants including organ morphogenesis (i.e. apical dominance, root development) and environmental responses (biotic and abiotic stress). The major auxin is indole-3-acetic acid (IAA), but other indole-derived carboxylic acids, i.e. indole-3-butyric acid, indole-3-propionic acid, 4-chloro-indole-3-acetic acid, and indole-3-pyruvic acid have also auxin activity. Auxin action is highly dependent on its concentration, which must be precisely controlled
physiological function
indole-3-acetic acid glucosyltransferase (OsIAAGLU) catalyzes the reaction of free indole-3-acetic acid (IAA) with glucose to generate IAA-glucose. OsIAAGLU plays a regulatory role in IAA homeostasis and rice architecture
physiological function
the enzyme plays a role on seed vigour in seeds. Transcriptome analysis reveals that the indole-3-acetic acid (IAA)- and abscisic acid (ABA)-related genes are involved in the OsIAGLU regulation of seed vigour in rice. The regulation of seed vigour by OsIAGLU accurs through modulating IAA and ABA levels to alert OsABIs expression in germinating seeds in rice. Based on analysis of single-nucleotide polymorphism data of rice accessions, two haplotypes of OsIAGLU that positively correlate with seed vigour are identified in Oryza sativa subsp. indica accessions. OsIAGLU regulates seed vigour involved in OsABIs expression
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U75B1_ARATH
469
0
52813
Swiss-Prot
Chloroplast (Reliability: 3 )
U75B2_ARATH
455
0
51190
Swiss-Prot
Chloroplast (Reliability: 4 )
U75C1_SOLLC
470
0
52739
Swiss-Prot
Mitochondrion (Reliability: 5 )
IABG_MAIZE
471
0
49710
Swiss-Prot
Mitochondrion (Reliability: 5 )
A0A7C9AXW5_OPUST
261
0
29653
TrEMBL
other Location (Reliability: 3 )
A0A2I0AM87_9ASPA
461
0
50768
TrEMBL
Chloroplast (Reliability: 4 )
A0A7C8YIQ2_OPUST
127
0
13945
TrEMBL
other Location (Reliability: 3 )
A0A2P6QKD5_ROSCH
458
0
50735
TrEMBL
other Location (Reliability: 3 )
A0A0B2SA27_GLYSO
423
0
47309
TrEMBL
other Location (Reliability: 4 )
A0A2I0AM99_9ASPA
454
0
50041
TrEMBL
Chloroplast (Reliability: 4 )
A0A0B2RN29_GLYSO
83
0
9663
TrEMBL
other Location (Reliability: 2 )
A0A396IUV3_MEDTR
317
0
36358
TrEMBL
other Location (Reliability: 2 )
A0A2P6QKD6_ROSCH
456
0
50900
TrEMBL
other Location (Reliability: 3 )
A0A0B2PCN2_GLYSO
268
0
30968
TrEMBL
Secretory Pathway (Reliability: 2 )
A0A2I0AK43_9ASPA
460
0
51424
TrEMBL
other Location (Reliability: 4 )
B9T2I0_RICCO
192
0
22166
TrEMBL
Secretory Pathway (Reliability: 4 )
A0A2P6PK12_ROSCH
236
0
26434
TrEMBL
other Location (Reliability: 3 )
A0A7C9FIL5_OPUST
173
0
19121
TrEMBL
other Location (Reliability: 2 )
A0A0B2QSP7_GLYSO
405
0
45984
TrEMBL
other Location (Reliability: 1 )
A0A7C9DKZ2_OPUST
129
0
14392
TrEMBL
other Location (Reliability: 4 )
A0A7C9EZE0_OPUST
386
0
42117
TrEMBL
other Location (Reliability: 5 )
B9T2I2_RICCO
458
0
51799
TrEMBL
other Location (Reliability: 3 )
A0A2P6PK15_ROSCH
84
0
9699
TrEMBL
other Location (Reliability: 2 )
A0A2I0AM14_9ASPA
502
0
54411
TrEMBL
other Location (Reliability: 4 )
A0A0B2SX41_GLYSO
443
0
49763
TrEMBL
other Location (Reliability: 4 )
A0A7C9EVI5_OPUST
212
0
23308
TrEMBL
Chloroplast (Reliability: 5 )
A0A7C9AXI4_OPUST
106
0
11894
TrEMBL
other Location (Reliability: 4 )
A0A7C9ESK5_OPUST
173
0
19121
TrEMBL
other Location (Reliability: 1 )
A0A7C8YCK6_OPUST
132
0
14866
TrEMBL
Secretory Pathway (Reliability: 4 )
A0A2P6QKF5_ROSCH
482
0
53947
TrEMBL
Chloroplast (Reliability: 3 )
A0A0B2SVG0_GLYSO
432
0
48877
TrEMBL
other Location (Reliability: 3 )
A0A7C8ZJY8_OPUST
147
0
16344
TrEMBL
Secretory Pathway (Reliability: 5 )
A0A0B2SBD9_GLYSO
431
0
47697
TrEMBL
other Location (Reliability: 3 )
A0A396H867_MEDTR
54
0
6315
TrEMBL
other Location (Reliability: 2 )
A0A0B2SJJ3_GLYSO
460
0
52091
TrEMBL
other Location (Reliability: 3 )
B9S2K1_RICCO
471
0
52785
TrEMBL
other Location (Reliability: 2 )
A0A0B2QX89_GLYSO
437
0
49288
TrEMBL
other Location (Reliability: 4 )
A0A0B2QB93_GLYSO
89
0
9776
TrEMBL
Secretory Pathway (Reliability: 2 )
A0A0B2QB93_GLYSO
89
0
9776
TrEMBL
Secretory Pathway (Reliability: 2 )
A0A7C9CJB9_OPUST
109
0
12428
TrEMBL
other Location (Reliability: 4 )
A0A0B2PUG4_GLYSO
447
0
50160
TrEMBL
Secretory Pathway (Reliability: 3 )
B9T2H7_RICCO
178
0
19914
TrEMBL
other Location (Reliability: 5 )
A0A2P6QKE8_ROSCH
177
0
19647
TrEMBL
other Location (Reliability: 2 )
A0A7C8YIP5_OPUST
102
0
11573
TrEMBL
other Location (Reliability: 3 )
A0A7C9ETS5_OPUST
181
0
20011
TrEMBL
other Location (Reliability: 1 )
A0A0P0W2E0_ORYSJ
515
0
54251
TrEMBL
-
Q10RB7_ORYSJ
648
0
72014
TrEMBL
other Location (Reliability: 3 )
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43700
-
x * 43700, SDS-PAGE
45700
-
x * 45700, SDS-PAGE
51000
-
1 * 51000, SDS-PAGE
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monomer
-
1 * 51000, SDS-PAGE
?
-
x * 43700, SDS-PAGE
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additional information
higher levels of free indole-3-acetic acid (IAA) and abscisic acid (ABA) are identified in germinating seeds of osiaglu mutants compared to wild-type plants. When treated with exogenous IAA and ABA, the osiaglu mutants and wild-type plants show sensitivity to ABA while not IAA, but the exogenous IAA amplified ABA-induced reduction of seed vigour in rice. The continuously higher expressions of ABA-INSENSITIVE 3 (OsABI3) and OsABI5 occur in germinating seeds of osiaglu mutants compared to wild-type plants. ABSCISIC ACID-INSENSITIVE 3 (ABI3) is a major downstream component of ABA signalling, and it has been reported as a major regulator of seed dormancy and ABA inhibition of seed germination
additional information
overexpression of OsIAAGLU reveals a role for indole-3-acetic acid (IAA)-glucose conjugation in modulating rice plant architecture. Construction of iaaglu mutants using the CRISPR/Cas9 system. Construction of hybrids Dongjin as well as IAAGLUOE3 containing pDR5:GUS obtained by crossing pDR5:GUS plants as the male parent with wild-type, OsIAAGLU overexpression plants (IAAGLUOE3) as the female parent, respectively. OsIAAGLU-overexpressing plants are insensitive to exogenous IAA/NAA (1-naphthalene acetic acid) and exhibit reduced root gravitropism. Transgenic plant phenotypes, overview
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loses activity during column chromatographic procedures
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retention of 79% of the initial activity after 16 h dialysis
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stable to lyophilization
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-20°C, stable for 15 d, 15% loss of activity after 35 d
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native enzyme from immature seeds by PEG fractionation, anion exchange chromatography, and preparative PAGE
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-
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gene OsIAAGLU, sequence comparisons, quantitative real-time PCR enzyme expression analysis, recombinant expression of GFP-tagged wild-type and mutant enzymes in Oryza sativa plants using the Agrobacterium tumefaciens strain EHA105 transfection method
gene OsIAGLU, quantitative RT-PCR enzyme expression analysis
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expression of OsIAAGLU can be induced by indole-3-acetic acid (IAA) and 1-naphthalene acetic acid (NAA). Quantitative RT-PCR analysis show that within 2-6 h of exogenous auxin (0.01 mM IAA or 0.001 mM NAA) treatment, the expression of OsIAAGLU is upregulated in the leaves of 14-day-old rice seedlings. The response to NAA is earlier and many times greater than IAA. The transgenic plants are shorter than the wild-type plants and exhibit exaggerated leaf angles at the 5-leaf stage compared to the wild-type plants
quantitative RT-PCR enzyme expression analysis shows that the expressions of OsIAGLU is significantly induced by indole-3-acetic acid (IAA) and abscisic acid (ABA). Induce transcription levels of OsIAGLU in response to GA3, ABA, and IAA treatments in germinating seeds conducted using quantitative RT-PCR approach
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Michalczuk, L.; Bandurski, R.S.
Enzymic synthesis of 1-O-indol-3-ylacetyl-beta-D-glucose and indol-3-ylacetyl-myo-inositol
Biochem. J.
207
273-281
1982
Zea mays
brenda
Kowalczyk, S.; Bandurski, R.S.
Isomerization of 1-O-indol-3-ylacetyl-beta-D-glucose. Enzymatic hydrolysis of 1-O-, 4-O-, and 6-O-indol-3-ylacetyl-beta-D-glucose and the enzymatic synthesis of indole-3-acetyl glycerol by a hormone metabolizing complex
Plant Physiol.
94
4-12
1990
Zea mays
brenda
Leznicki, A.J.; Bandurski, R.S.
Enzymic synthesis of indole-3-acetyl-1-O-beta-D-glucose
Plant Physiol.
88
1474-1480
1988
Zea mays
brenda
Leznicki, A.J.; Bandurski, R.S.
Enzymic synthesis of indole-3-acetyl-1-O-beta-D-glucose
Plant Physiol.
88
1481-1485
1988
Zea mays
brenda
Kowalczyk, S.; Bandurski, R.S.
Enzymic synthesis of 1-O-(indol-3-ylacetyl)-beta-D-glucose. Purification of the enzyme from Zea mays, and preparation of antibodies to the enzyme
Biochem. J.
279
509-514
1991
Zea mays
brenda
Kowalczyk, S.; Jakubowska, A.; Bandurski, R.S.
1-Naphtalene acetic acid induces indole-3-ylacetylglucose synthase in Zea mays seedling tissue
Plant Growth Regul.
38
127-134
2002
Zea mays
-
brenda
Jackson, R.G.; Lim, E.K.; Li, Y.; Kowalczyk, M.; Sandberg, G.; Hoggett, J.; Ashford, D.A.; Bowles, D.J.
Identification and biochemical characterization of an Arabidopsis indole-3-acetic acid glucosyltransferase
J. Biol. Chem.
276
4350-4356
2001
Arabidopsis sp.
brenda
Jakubowska, A.; Kowalczyk, S.
The auxin conjugate 1-O-indole-3-acetyl-beta-D-glucose is synthesized in immature legume seeds by IAGlc synthase and may be used for modification of some high molecular weight compounds
J. Exp. Bot.
55
791-801
2004
Brassica napus, Pisum sativum
brenda
Ostrowski, M.; Hetmann, A.; Jakubowska, A.
Indole-3-acetic acid UDP-glucosyltransferase from immature seeds of pea is involved in modification of glycoproteins
Phytochemistry
117
25-33
2015
Pisum sativum
brenda
He, Y.; Zhao, J.; Yang, B.; Sun, S.; Peng, L.; Wang, Z.
Indole-3-acetate beta-glucosyltransferase OsIAGLU regulates seed vigour through mediating crosstalk between auxin and abscisic acid in rice
Plant Biotechnol. J.
18
1933-1945
2020
Oryza sativa Japonica Group (Q10RB7)
brenda
Yu, X.L.; Wang, H.Y.; Leung, D.W.M.; He, Z.D.; Zhang, J.J.; Peng, X.X.; Liu, E.E.
Overexpression of OsIAAGLU reveals a role for IAA-glucose conjugation in modulating rice plant architecture
Plant Cell Rep.
38
731-739
2019
Oryza sativa Japonica Group (A0A0P0W2E0)
brenda
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