A novel pathway for L-citramalate synthesis in Rhodospirillum rubrum.
When [14C]propionate was incubated with a cell-free extract of Rhodospirillum rubrum in the presence of glyoxylate, ATP, CoA, Mg2+, and Mn2+, radioactivity was incorporated into mesaconate (MSA) as well as into beta-methylmalate (MMA) and citramalate (CMA). MSA was suggested to be an intermediate of the conversion of MMA to CMA based on the following observations. (i) When non-labeled MSA was added to the CMA-forming reaction system, radioactivity was trapped in MSA. (ii) When MSA was incubated with the cell-free extract, CMA was formed. (iii) The alpha-carboxyl group of CMA was shown to be derived from the beta-carboxyl group of MMA, implying that CMA was formed from MMA via MSA through successive dehydration and hydration. From the results of Sephadex G-10 column chromatography of the reaction products, beta-methylmalyl-CoA and mesaconyl-CoA were presumed to be involved in the reaction. A new CMA-forming metabolic pathway is proposed as follows: erythro-beta-methylamalyl-CoA leads to mesaconyl-CoA leads to MSA leads to L-CMA.[1]References
- A novel pathway for L-citramalate synthesis in Rhodospirillum rubrum. Osumi, T., Katsuki, H. J. Biochem. (1977) [Pubmed]
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