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Regulation of glyoxylate metabolism in escherichia coli k 12 enz glyoxylate carbo ligase enz malate synthase






Journal of Bacteriology 98(3): 1098-1108

Regulation of glyoxylate metabolism in escherichia coli k 12 enz glyoxylate carbo ligase enz malate synthase



Accession: 006288225



Related references

Ornston L.N.; Ornston M.K., 1969: Pathway of glyoxylate oxidation in escherichia coli abstract enz glyoxylate carbo ligase enz malate synthase. Bacteriological Proceedings 69: 128

Hall, R.L.; Kezdy, F.J., 1970: Glyoxylate carbo ligase from escherichia coli specificity of the enzyme for unhydrated glyoxylate. Archives of Biochemistry and Biophysics 138(2): 551-556

Kaltwasser H., 1968: Uric acid degradation and biosynthesis of the enzymes enz uricase enz glyoxylate carbo ligase and enz urease in hydrogenomonas h 16 i formation of enz glyoxylate carbo ligase and enz d glycerate 3 dehydrogenase. Archiv fuer Mikrobiologie 64(1): 71-84

Moriyama T., 1970: Alpha keto glutarate glyoxylate carbo ligase activity in escherichia coli. Biochemical & Biophysical Research Communications: 790-795

Raghunathan R., 1981: The influence of thiamin on the synthesis of glyoxylate carbo ligase ec 41147 in escherichia coli k 12. Ircs (international Research Communications System) Medical Science Library Compendium: 1141-1142

Anonymous, 1972: Pyruvate glyoxylate carbo ligase activity of the pyruvate dehydrogenase complex ec 1241 of escherichia coli

Howard, B.R.; Endrizzi, J.A.; Remington, S.James, 2000: Crystal structure of Escherichia coli malate synthase G complexed with magnesium and glyoxylate at a 2.0 A resolution: mechanistic implications. The crystal structure of selenomethionine-substituted malate synthase G, an 81 kDa monomeric enzyme from Escherichia coli has been determined by MAD phasing, model building, and crystallographic refinement to a resolution of 2.0 A. The crystallogr...

Howard, B.R.; Endrizzi, J.A.; Remington, S.J.mes, 2000: Crystal structure of Escherichia coli malate synthase G complexed with magnesium and glyoxylate at 2.0 ANG resolution: Mechanistic implications. The crystal structure of selenomethionine-substituted malate synthase G, an 81 kDa monomeric enzyme from Escherichia coli has been determined by MAD phasing, model building, and crystallographic refinement to a resolution of 2.0 ANG. The crystallo...

Howard, B.R.; Endrizzi, J.A.; Remington, S.J., 2000: Crystal structure of Escherichia coli malate synthase G complexed with magnesium and glyoxylate at 2.0 A resolution: mechanistic implications. The crystal structure of selenomethionine-substituted malate synthase G, an 81 kDa monomeric enzyme from Escherichia coli has been determined by MAD phasing, model building, and crystallographic refinement to a resolution of 2.0 A. The crystallogr...

Ornston, L.N.; Ornston, M.K., 1969: Regulation of glyoxylate metabolism in Escherichia coli K-12. The relative contributions of the dicarboxylic acid and the tricarboxylic acid cycles to the oxidative catabolism of glyoxylate in Escherichia coli K-12 were deduced by analysis of mutant strains that were blocked in the formation of glyoxylate ca...