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  • Title: Corynebacterium glutamicum glyceraldehyde-3-phosphate dehydrogenase isoforms with opposite, ATP-dependent regulation.
    Author: Omumasaba CA, Okai N, Inui M, Yukawa H.
    Journal: J Mol Microbiol Biotechnol; 2004; 8(2):91-103. PubMed ID: 15925900.
    Abstract:
    Corynebacterium glutamicum gapA and gapB encode glyceraldehyde-3-phosphate dehydrogenases (GAPDHs) that differ in molecular weight and activity in the presence of ATP. Comparative genome analysis revealed that GapA, the product of gapA, represented the canonical GAPDH that is highly conserved across the three major life forms. GapB, with an additional 110-residue-long sequence upstream of its GAPDH-specific domain, was homologous only to select microbial putative GAPDHs. Upon gene disruption, the initial growth rates of the wild-type, DeltagapA and DeltagapB strains on glucose (0.77, 0.00 and 0.76 h(-1), respectively), lactate (0.20, 0.18 and 0.15 h(-1), respectively), pyruvate (0.39, 0.29 and 0.20 h(-1), respectively), and acetate (0.06, 0.06 and 0.04 h(-1), respectively), implied that GapA was indispensable for growth on glucose, that GapB, but not GapA, affected early growth on acetate, and that GapB had a greater influence on growth under gluconeogenic conditions than GapA. The disruption of either gapA or gapB showed no significant effect on the transcription of any of the other gap cluster genes although it led to reduced triosephosphate isomerase (TPI) activities. Glycolytic GAPDH activity at low in vitro ATP concentrations was solely attributed to the 35.9-kDa GapA. At higher ATP concentrations, the same activity was attributed to the 51.2-kDa GapB. Both enzymes, however, exhibited similar NADP-dependent GAPDH activities at the higher ATP concentrations. In effect therefore, the GAPDH-catalyzed reaction at low ATP concentrations was irreversible, with all the glycolytic activity strictly NAD-dependent and attributed to GapA. At higher ATP concentrations, the reaction was reversible, with glycolytic activity NAD- or NADP-dependent and attributed to GapB, while gluconeogenic activity was attributable to both GapA and GapB.
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