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Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)

Purification and characterization of the 2-methyl branched-chain Acyl-CoA dehydrogenase, an enzyme involved in NADH-dependent enoyl-CoA reduction in anaerobic mitochondria of the nematode, Ascaris suum.

The 2-methyl branched-chain acyl-CoA dehydrogenase was purified to homogeneity from mitochondria of the parasitic nematode, Ascaris suum. The native molecular weight of the enzyme was estimated to be 170,000 by gel filtration. The enzyme migrated as a single protein band with Mr = 42,500 during sodium dodecyl sulfate-polyacrylamide gel electrophoresis suggesting that the enzyme is a tetramer composed of identical subunits. The enzyme exhibited absorbance maxima at 272, 375, and 452 with a ratio 7.9:0.8:1.0, respectively. FAD content was estimated to be 0.9 mol/mol of subunit and the absorption coefficient of FAD at 452 nm was 14.1 mM-1 cm-1. The purified enzyme dehydrogenated both 2-methylbutyryl-CoA and 2-methylvaleryl-CoA with apparent Km and Vmax values of 18 microM and 1.62 mumol/min/mg and 21 microM and 1.58 mumol/min/mg, respectively. This enzyme also appeared to dehydrogenate butyryl-CoA, valeryl-CoA, and octanoyl-CoA but at a much lower rate. The enzyme did not dehydrogenate propionyl-CoA, isobutyryl-CoA, isovaleryl-CoA, and palmitoyl-CoA. Tiglyl-CoA and 2-methyl-2-pentenoyl-CoA were identified as reaction products from 2-methylbutyryl- and 2-methylvaleryl-CoA, respectively. Dehydrogenating activity with both substrates was inhibited by tiglyl-CoA, acetoacetyl-CoA, and straight chain acyl CoAs of increasing chain length. N-Ethylmaleimide and p-hydroxymercuribenzoate had little effect on dehydrogenating activity but the heavy metals Hg2+ and Ag2+ were potent inhibitors. Physiologically, the dehydrogenase functions as a branched-chain enoyl-CoA reductase. Incubations of A. suum submitochondrial particles, NADH, tiglyl-CoA, purified A. suum electron-transfer flavoprotein, and the 2-methyl branched-chain acyl-CoA dehydrogenase resulted in the rotenone-sensitive, dehydrogenase-dependent formation of 2-methylbutyryl-CoA.[1]


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