The enzyme, characterized from the Gram-negative bacterium Paraburkholderia rhizoxinica, participates in the biosynthesis of 3PG-factor 420. The enzyme can also accept 2-phospho-L-lactate and phosphoenolpyruvate, but activity is much higher with 3-phospho-D-glycerate. cf. EC 2.7.7.68, 2-phospho-L-lactate guanylyltransferase and EC 2.7.7.105, phosphoenolpyruvate guanylyltransferase.
The enzyme appears in viruses and cellular organisms
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SYSTEMATIC NAME
IUBMB Comments
GTP:3-phospho-D-glycerate guanylyltransferase
The enzyme, characterized from the Gram-negative bacterium Paraburkholderia rhizoxinica, participates in the biosynthesis of 3PG-factor 420. The enzyme can also accept 2-phospho-L-lactate and phosphoenolpyruvate, but activity is much higher with 3-phospho-D-glycerate. cf. EC 2.7.7.68, 2-phospho-L-lactate guanylyltransferase and EC 2.7.7.105, phosphoenolpyruvate guanylyltransferase.
analysis of the evolution of the F420 biosynthesis enzymes (CofC, CofD, CofE, CofG and CofH) to understand the origin and distribution of the cofactor, phylogenetic analysis and tree, overview. F420 biosynthesis pathways evolved through bacterial-to-archaeal horizontal gene transfers
analysis of the evolution of the F420 biosynthesis enzymes (CofC, CofD, CofE, CofG and CofH) to understand the origin and distribution of the cofactor, phylogenetic analysis and tree, overview. F420 biosynthesis pathways evolved through bacterial-to-archaeal horizontal gene transfers
analysis of the evolution of the F420 biosynthesis enzymes (CofC, CofD, CofE, CofG and CofH) to understand the origin and distribution of the cofactor, phylogenetic analysis and tree, overview. F420 biosynthesis pathways evolved through bacterial-to-archaeal horizontal gene transfers
analysis of the evolution of the F420 biosynthesis enzymes (CofC, CofD, CofE, CofG and CofH) to understand the origin and distribution of the cofactor, phylogenetic analysis and tree, overview. F420 biosynthesis pathways evolved through bacterial-to-archaeal horizontal gene transfers