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Results 1 - 10 of 58 > >>
EC Number BRENDA No. Title Journal Volume Pages Year Organism PubMed ID
Show all pathways known for 2.6.1.52Display the reaction diagram Show all sequences 2.6.1.52759886 Comparison of kinetic and enzymatic properties of intracellular phosphoserine aminotransferases from alkaliphilic and neutralophilic bacteria Open Chem. 18 149-164 2020 Bos taurus -
Show all pathways known for 2.6.1.52Display the reaction diagram Show all sequences 2.6.1.52759886 Comparison of kinetic and enzymatic properties of intracellular phosphoserine aminotransferases from alkaliphilic and neutralophilic bacteria Open Chem. 18 149-164 2020 Escherichia coli -
Show all pathways known for 2.6.1.52Display the reaction diagram Show all sequences 2.6.1.52759886 Comparison of kinetic and enzymatic properties of intracellular phosphoserine aminotransferases from alkaliphilic and neutralophilic bacteria Open Chem. 18 149-164 2020 Glycine max -
Show all pathways known for 2.6.1.52Display the reaction diagram Show all sequences 2.6.1.52759886 Comparison of kinetic and enzymatic properties of intracellular phosphoserine aminotransferases from alkaliphilic and neutralophilic bacteria Open Chem. 18 149-164 2020 Niallia circulans -
Show all pathways known for 2.6.1.52Display the reaction diagram Show all sequences 2.6.1.52759886 Comparison of kinetic and enzymatic properties of intracellular phosphoserine aminotransferases from alkaliphilic and neutralophilic bacteria Open Chem. 18 149-164 2020 Alkalihalobacillus alcalophilus -
Show all pathways known for 2.6.1.52Display the reaction diagram Show all sequences 2.6.1.52759886 Comparison of kinetic and enzymatic properties of intracellular phosphoserine aminotransferases from alkaliphilic and neutralophilic bacteria Open Chem. 18 149-164 2020 Tetradesmus obliquus -
Show all pathways known for 2.6.1.52Display the reaction diagram Show all sequences 2.6.1.52759886 Comparison of kinetic and enzymatic properties of intracellular phosphoserine aminotransferases from alkaliphilic and neutralophilic bacteria Open Chem. 18 149-164 2020 Ovis aries -
Show all pathways known for 2.6.1.52Display the reaction diagram Show all sequences 2.6.1.52758955 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
Show all pathways known for 2.6.1.52Display the reaction diagram Show all sequences 2.6.1.52758955 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
Show all pathways known for 2.6.1.52Display the reaction diagram Show all sequences 2.6.1.52759123 Glutamine-utilizing transaminases are a metabolic vulnerability of TAZ/YAP-activated cancer cells EMBO Rep. 19 e43577 2018 Homo sapiens 29661856
Results 1 - 10 of 58 > >>