EC Number |
BRENDA No. |
Title |
Journal |
Volume |
Pages |
Year |
Organism |
PubMed ID |
---|
2.6.1.52 | 759886 |
Comparison of kinetic and enzymatic properties of intracellular phosphoserine aminotransferases from alkaliphilic and neutralophilic bacteria |
Open Chem. |
18 |
149-164 |
2020 |
Bos taurus |
- |
2.6.1.52 | 759886 |
Comparison of kinetic and enzymatic properties of intracellular phosphoserine aminotransferases from alkaliphilic and neutralophilic bacteria |
Open Chem. |
18 |
149-164 |
2020 |
Escherichia coli |
- |
2.6.1.52 | 759886 |
Comparison of kinetic and enzymatic properties of intracellular phosphoserine aminotransferases from alkaliphilic and neutralophilic bacteria |
Open Chem. |
18 |
149-164 |
2020 |
Glycine max |
- |
2.6.1.52 | 759886 |
Comparison of kinetic and enzymatic properties of intracellular phosphoserine aminotransferases from alkaliphilic and neutralophilic bacteria |
Open Chem. |
18 |
149-164 |
2020 |
Niallia circulans |
- |
2.6.1.52 | 759886 |
Comparison of kinetic and enzymatic properties of intracellular phosphoserine aminotransferases from alkaliphilic and neutralophilic bacteria |
Open Chem. |
18 |
149-164 |
2020 |
Alkalihalobacillus alcalophilus |
- |
2.6.1.52 | 759886 |
Comparison of kinetic and enzymatic properties of intracellular phosphoserine aminotransferases from alkaliphilic and neutralophilic bacteria |
Open Chem. |
18 |
149-164 |
2020 |
Tetradesmus obliquus |
- |
2.6.1.52 | 759886 |
Comparison of kinetic and enzymatic properties of intracellular phosphoserine aminotransferases from alkaliphilic and neutralophilic bacteria |
Open Chem. |
18 |
149-164 |
2020 |
Ovis aries |
- |
2.6.1.52 | 758955 |
Engineering of phosphoserine aminotransferase increases the conversion of L-homoserine to 4-hydroxy-2-ketobutyrate in a glycerol-independent pathway of 1,3-propanediol production from glucose |
Biotechnol. J. |
14 |
e1900003 |
2019 |
Escherichia coli |
30925016 |
2.6.1.52 | 758955 |
Engineering of phosphoserine aminotransferase increases the conversion of L-homoserine to 4-hydroxy-2-ketobutyrate in a glycerol-independent pathway of 1,3-propanediol production from glucose |
Biotechnol. J. |
14 |
e1900003 |
2019 |
Escherichia coli MG1655 |
30925016 |
2.6.1.52 | 759123 |
Glutamine-utilizing transaminases are a metabolic vulnerability of TAZ/YAP-activated cancer cells |
EMBO Rep. |
19 |
e43577 |
2018 |
Homo sapiens |
29661856 |