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Bifidobacterium pseudolongum in the ceca of rats fed Hi-Maize starch has characteristics of a keystone species in bifidobacterial blooms

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posted on 2023-05-03, 12:29 authored by Manuela Centanni, Blair Lawley, Christine Butts, Nicole Roy, Julian Lee, William Kelly, Gerald Tannock
Starches resistant to mammalian digestion are present in foods and pass to the large bowel, where they may be degraded and fermented by the microbiota. Increases in relative abundances of bifidobacteria (blooms) have been reported in rats whose diet was supplemented with Hi-Maize resistant starch. We determined that the bifidobacterial species present in the rat cecum under these circumstances mostly belonged to Bifidobacterium animalis. However, cultures of B. animalis isolated from the rats failed to degrade Hi-Maize starch to any extent. In contrast, Bifidobacterium pseudolongum also detected in the rat microbiota had high starch-degrading ability. Transcriptional comparisons showed increased expression of a type 1 pullulanase, alpha-amylase, and glycogen debranching enzyme by B. pseudolongum when cultured in medium containing Hi-Maize starch. Maltose was released into the culture medium, and B. animalis cultures had shorter doubling times in maltose medium than did B. pseudolongum. Thus, B. pseudolongum, which was present at a consistently low abundance in the microbiota, but which has extensive enzymatic capacity to degrade resistant starch, showed the attributes of a keystone species associated with the bifidobacterial bloom.

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Rights statement

Copyright © 2018 American Society for Microbiology. All Rights Reserved.

Language

  • English

Does this contain Māori information or data?

  • No

Publisher

American Society for Microbiology

Journal title

Applied and Environmental Microbiology

ISSN

0099-2240

Citation

Centanni, M., Lawley, B., Butts, C. A., Roy, N. C., Lee, J., Kelly, W. J., & Tannock, G. W. (2018). Bifidobacterium pseudolongum in the ceca of rats fed Hi-Maize starch has characteristics of a keystone species in bifidobacterial blooms. Applied and Environmental Microbiology, 84(15), e00547–18. doi:10.1128/AEM.00547-18

Funder

Plant and Food Research||Ministry of Business Innovation & Employment

Contract number

A17819

Job code

11316

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