2.6.1.96: 4-aminobutyrate-pyruvate transaminase
This is an abbreviated version!
For detailed information about 4-aminobutyrate-pyruvate transaminase, go to the full flat file.
Word Map on EC 2.6.1.96
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2.6.1.96
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gamma-aminobutyric
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2.6.1.19
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putrescine
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transaminases
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2-oxoglutarate
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taurine
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pyridoxal
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2-aminoethylphosphonic
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epilepsy
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semialdehyde
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ethanolamine-o-sulphate
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myelin
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polyamine
- 2.6.1.96
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gamma-aminobutyric
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2.6.1.19
- putrescine
- transaminases
- 2-oxoglutarate
- taurine
- pyridoxal
-
2-aminoethylphosphonic
-
epilepsy
- semialdehyde
-
ethanolamine-o-sulphate
-
myelin
- polyamine
Reaction
Synonyms
4-aminobutyrate transaminase, BnaA.GABA-T.a, BnaA.GABA-T.b, BnaA01g24820D, BnaA05g17430D, BnaC.GABA-T.a, BnaC.GABA-T.b, BnaC05g30410D, GABA transaminase, GABA-T, GABA-T2, GABA-T3, gaba:pyruvate transaminase, GABA:pyruvate-T, gamma-aminobutyrate transaminase, gamma-aminobutyrate transaminase 1, mitochondrial, gamma-aminobutyric acid pyruvate transaminase, gamma-aminobutyric acid transaminase, gammaaAminobutyric acid transaminase, Os04g0614500, Osl2, Pop2, pyruvate-specific mitochondrial GABA-T
ECTree
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General Information
General Information on EC 2.6.1.96 - 4-aminobutyrate-pyruvate transaminase
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malfunction
enzyme-deficient pop2 flowers accumulate GABA, and the growth of many pop2 pollen tubes is arrested, consistent with their in vitro GABA hypersensitivity. Some pop2 tubes continue to grow toward ovules, yet they are misguided, presumably because they target ectopic GABA on the ovule surface. Wild-type tubes decreased POP2 activity leads to increased levels of GABA throughout the ovule, coupled with aberrant growth and guidance of pop2 pollen tubes
physiological function
additional information
the POP2 gene encodes a transaminase that degrades GABA and contributes to the formation of a gradient leading up to the micropyle, effect of GABA on pollen tube elongation in vitro
physiological function
unique roles for each isozyme in developmental processes
physiological function
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inhibition of gamma-aminobutyrate-transaminase (GABA-T) of Brassica napus, using vinyl-GABA as a specific inhibitor reduces root growth by 44%. Inhibition is less severe when vinyl-GABA is associated with exogenous GABA and is not reduced with exogenous GABA alone. GABA level in root is not linked with the root length reduction. In root, vinyl-GABA-treatment causes a twofold increase in content of almost all amino acids, except for alanine whose content is 19fold higher than in control
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members of the rice GABA-T gene family vary in many respects, such as intracellular targeting, enzymatic activity and regulation of gene expression
additional information
members of the rice GABA-T gene family vary in many respects, such as intracellular targeting, enzymatic activity and regulation of gene expression
additional information
members of the rice GABA-T gene family vary in many respects, such as intracellular targeting, enzymatic activity and regulation of gene expression
additional information
members of the rice GABA-T gene family vary in many respects, such as intracellular targeting, enzymatic activity and regulation of gene expression