Functional analyses of three acyl-CoA synthetases involved in bile acid degradation in Pseudomonas putidaDOC21
Summary Pseudomonas putidaDOC21, a soil-dwelling proteobacterium, catabolizes a variety of steroids and bile acids. Transposon mutagenesis and bioinformatics analyses identified four clusters of steroid degradation (std) genes encoding a single catabolic pathway. The latter includes three predicted...
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Veröffentlicht in: | Environmental microbiology 2015-01, Vol.17 (1), p.47 |
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Zusammenfassung: | Summary Pseudomonas putidaDOC21, a soil-dwelling proteobacterium, catabolizes a variety of steroids and bile acids. Transposon mutagenesis and bioinformatics analyses identified four clusters of steroid degradation (std) genes encoding a single catabolic pathway. The latter includes three predicted acyl-CoA synthetases encoded by stdA1, stdA2 and stdA3 respectively. The [Delta]stdA1 and [Delta]stdA2 deletion mutants were unable to assimilate cholate or other bile acids but grew well on testosterone or 4-androstene-3,17-dione (AD). In contrast, a [Delta]stdA3 mutant grew poorly in media containing either testosterone or AD. When cells were grown with succinate in the presence of cholate, [Delta]stdA1 accumulated [Delta]1/4-3-ketocholate and [Delta]1,4-3-ketocholate, whereas [Delta]stdA2 only accumulated 7[alpha],12[alpha]-dihydroxy-3-oxopregna-1,4-diene-20-carboxylate (DHOPDC). When incubated with testosterone or bile acids, [Delta]stdA3 accumulated 3a[alpha]-H-4[alpha](3'propanoate)-7a[beta]-methylhexahydro-1,5-indanedione (HIP) or the corresponding hydroxylated derivative. Biochemical analyses revealed that StdA1 converted cholate, 3-ketocholate, [Delta]1/4-3-ketocholate, and [Delta]1,4-3-ketocholate to their CoA thioesters, while StdA2 transformed DHOPDC to DHOPDC-CoA. In contrast, purified StdA3 catalysed the CoA thioesterification of HIP and its hydroxylated derivatives. Overall, StdA1, StdA2 and StdA3 are acyl-CoA synthetases required for the complete degradation of bile acids: StdA1 and StdA2 are involved in degrading the C-17 acyl chain, whereas StdA3 initiates degradation of the last two steroid rings. The study highlights differences in steroid catabolism between Proteobacteria and Actinobacteria. |
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ISSN: | 1462-2912 1462-2920 |
DOI: | 10.1111/1462-2920.12395 |