The presence of resistant starch-degrading amylases in Bifidobacterium adolescentis of the human gut

Resistant starch (RS) is a complex prebiotic carbohydrate beneficial to the human gut. In the present study, four genes encoding for putative amylolytic enzymes, likely to be responsible for RS-degradation, were identified in the genome of Bifidobacterium adolescentis P2P3 by comparative genomic ana...

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Veröffentlicht in:International journal of biological macromolecules 2020-10, Vol.161, p.389-397
Hauptverfasser: Jung, Dong-Hyun, Seo, Dong-Ho, Kim, Ye-Jin, Chung, Won-Hyong, Nam, Young-Do, Park, Cheon-Seok
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Sprache:eng
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Zusammenfassung:Resistant starch (RS) is a complex prebiotic carbohydrate beneficial to the human gut. In the present study, four genes encoding for putative amylolytic enzymes, likely to be responsible for RS-degradation, were identified in the genome of Bifidobacterium adolescentis P2P3 by comparative genomic analysis. Our results showed that only three enzymes (RSD1, RSD2, and RSD3) exhibited non-gelatinized high amylose corn starch (HACS)-degrading activity in addition to typical α-amylase activity. These three RS-degrading enzymes (RSD) were composed of multiple domains, including signal peptide, catalytic domain, carbohydrate binding domains, and putative cell wall-anchoring domains. Typical catalytic domains were conserved by exhibiting seven typical conserved regions (I–VII) found mostly in α-amylases. Analysis of enzymatic activity revealed that RSD2 displayed stronger activity toward HACS-granules than RSD1 and RSD3. Comparative genomics in combination with enzymatic experiments confirmed that RSDs might be the key enzymes used by RS-degrading bifidobacteria to degrade RS in a particular ecological niche, such as the human gut. •Resistant starch (RS) is a complex prebiotic carbohydrate beneficial to the human gut.•In B. adolescentis, three enzymes were responsible for RS hydrolysis.•Among the three enzymes, RSD2 displayed the strongest activity.•These enzymes are prebiotically important for RS substrate assimilation.
ISSN:0141-8130
1879-0003
DOI:10.1016/j.ijbiomac.2020.05.235