Kiwifruit fermentation drives positive gut microbial and metabolic changes irrespective of initial microbiota composition
Kiwifruit fermentation drives positive gut microbial and metabolic changes irrespective of initial microbiota composition
It is well established that individuals vary greatly in the composition of their core microbiota. Despite differing ecology, we show here that metabolic capacity converges under the pressure of kiwifruit substrates in a model gut system. The impact of pre-digested green and gold kiwifruit on the human colonic microbiota and their metabolic products was assessed using in vitro, pH-controlled, anaerobic batch culture fermenters. Phylogenetic analyses revealed that bacterial composition changed over time, irrespective of whether a substrate was added or not, indicating a natural adjustment period to the gut model environment. Adding kiwifruit substrate caused additional changes in terms of growth of specific bacterial groups, bacterial diversity and metabolite profiles. Relative abundance of Bacteroides spp. increased with both green and gold kiwifruit substrate while Bifidobacterium spp. increased only with green kiwifruit. NMR spectroscopy and GC demonstrated an increase in organic acids (primarily acetate, butyrate, and propionate) and a concomitant decrease in several amino acids and oligosaccharides following addition of green and gold kiwifruit substrate. The experiments demonstrated that despite markedly different baseline profiles in individual donor inoculum, kiwifruit components can induce substantive change in microbial ecology and metabolism which could have consequences for human health.
16S rRNA gene sequencing, Bioinformatics, Gut models, Microbial ecology, Microbiota
37-45
Blatchford, Paul
efcd57eb-afcd-4b97-85ac-117a1573d898
Stoklosinski, Halina
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Walton, Gemma
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Swann, Jonathan
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Gibson, Glenn
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Gearry, Richard
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Ansell, Juliet
1a45d318-ccc4-422f-a1b0-fda78d364b37
30 July 2015
Blatchford, Paul
efcd57eb-afcd-4b97-85ac-117a1573d898
Stoklosinski, Halina
6606434f-e691-4675-b594-3e9cc6badb3a
Walton, Gemma
a167f493-b3bf-4063-acdf-acdfa8c1137c
Swann, Jonathan
7c11a66b-f4b8-4dbf-aa17-ad8b0561b85c
Gibson, Glenn
24ac4753-4f78-475f-9766-5da179e2ab92
Gearry, Richard
035329e6-83eb-4396-87ef-c00ccbd3a7ce
Ansell, Juliet
1a45d318-ccc4-422f-a1b0-fda78d364b37
Blatchford, Paul, Stoklosinski, Halina, Walton, Gemma, Swann, Jonathan, Gibson, Glenn, Gearry, Richard and Ansell, Juliet
(2015)
Kiwifruit fermentation drives positive gut microbial and metabolic changes irrespective of initial microbiota composition.
Bioactive Carbohydrates and Dietary Fibre, 6 (1), .
(doi:10.1016/j.bcdf.2015.07.001).
Abstract
It is well established that individuals vary greatly in the composition of their core microbiota. Despite differing ecology, we show here that metabolic capacity converges under the pressure of kiwifruit substrates in a model gut system. The impact of pre-digested green and gold kiwifruit on the human colonic microbiota and their metabolic products was assessed using in vitro, pH-controlled, anaerobic batch culture fermenters. Phylogenetic analyses revealed that bacterial composition changed over time, irrespective of whether a substrate was added or not, indicating a natural adjustment period to the gut model environment. Adding kiwifruit substrate caused additional changes in terms of growth of specific bacterial groups, bacterial diversity and metabolite profiles. Relative abundance of Bacteroides spp. increased with both green and gold kiwifruit substrate while Bifidobacterium spp. increased only with green kiwifruit. NMR spectroscopy and GC demonstrated an increase in organic acids (primarily acetate, butyrate, and propionate) and a concomitant decrease in several amino acids and oligosaccharides following addition of green and gold kiwifruit substrate. The experiments demonstrated that despite markedly different baseline profiles in individual donor inoculum, kiwifruit components can induce substantive change in microbial ecology and metabolism which could have consequences for human health.
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Published date: 30 July 2015
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Publisher Copyright:
© 2015 Elsevier Ltd. All rights reserved.
Keywords:
16S rRNA gene sequencing, Bioinformatics, Gut models, Microbial ecology, Microbiota
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Local EPrints ID: 473387
URI: http://eprints.soton.ac.uk/id/eprint/473387
ISSN: 2212-6198
PURE UUID: b1fc6560-bfab-4dd6-8c63-a7d4e1c6c502
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Date deposited: 17 Jan 2023 17:37
Last modified: 17 Mar 2024 04:01
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Author:
Paul Blatchford
Author:
Halina Stoklosinski
Author:
Gemma Walton
Author:
Glenn Gibson
Author:
Richard Gearry
Author:
Juliet Ansell
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