Transcriptional Regulation and Adaptation to a High-Fiber Environment in Bacillus subtilis HH2 Isolated from Feces of the Giant Panda

In the giant panda, adaptation to a high-fiber environment is a first step for the adequate functioning of intestinal bacteria, as the high cellulose content of the gut due to the panda's vegetarian appetite results in a harsh environment. As an excellent producer of several enzymes and vitamin...

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Autores principales: Zhou, Ziyao, Zhou, Xiaoxiao, Li, Jin, Zhong, Zhijun, Li, Wei, Liu, Xuehan, Liu, Furui, Su, Huaiyi, Luo, Yongjiu, Gu, Wuyang, Wang, Chengdong, Zhang, Hemin, Li, Desheng, He, Tingmei, Fu, Hualin, Cao, Suizhong, Shi, Jinjiang, Peng, Guangneng
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2015
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4319723/
https://www.ncbi.nlm.nih.gov/pubmed/25658435
http://dx.doi.org/10.1371/journal.pone.0116935
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author Zhou, Ziyao
Zhou, Xiaoxiao
Li, Jin
Zhong, Zhijun
Li, Wei
Liu, Xuehan
Liu, Furui
Su, Huaiyi
Luo, Yongjiu
Gu, Wuyang
Wang, Chengdong
Zhang, Hemin
Li, Desheng
He, Tingmei
Fu, Hualin
Cao, Suizhong
Shi, Jinjiang
Peng, Guangneng
author_facet Zhou, Ziyao
Zhou, Xiaoxiao
Li, Jin
Zhong, Zhijun
Li, Wei
Liu, Xuehan
Liu, Furui
Su, Huaiyi
Luo, Yongjiu
Gu, Wuyang
Wang, Chengdong
Zhang, Hemin
Li, Desheng
He, Tingmei
Fu, Hualin
Cao, Suizhong
Shi, Jinjiang
Peng, Guangneng
author_sort Zhou, Ziyao
collection PubMed
description In the giant panda, adaptation to a high-fiber environment is a first step for the adequate functioning of intestinal bacteria, as the high cellulose content of the gut due to the panda's vegetarian appetite results in a harsh environment. As an excellent producer of several enzymes and vitamins, Bacillus subtilis imparts various advantages to animals. In our previous study, we determined that several strains of B. subtilis isolated from pandas exhibited good cellulose decomposition ability, and we hypothesized that this bacterial species can survive in and adapt well to a high-fiber environment. To evaluate this hypothesis, we employed RNA-Seq technology to analyze the differentially expressed genes of the selected strain B. subtilis HH2, which demonstrates significant cellulose hydrolysis of different carbon sources (cellulose and glucose). In addition, we used bioinformatics software and resources to analyze the functions and pathways of differentially expressed genes. Interestingly, comparison of the cellulose and glucose groups revealed that the up-regulated genes were involved in amino acid and lipid metabolism or transmembrane transport, both of which are involved in cellulose utilization. Conversely, the down-regulated genes were involved in non-essential functions for bacterial life, such as toxin and bacteriocin secretion, possibly to conserve energy for environmental adaptation. The results indicate that B. subtilis HH2 triggered a series of adaptive mechanisms at the transcriptional level, which suggests that this bacterium could act as a probiotic for pandas fed a high-fiber diet, despite the fact that cellulose is not a very suitable carbon source for this bacterial species. In this study, we present a model to understand the dynamic organization of and interactions between various functional and regulatory networks for unicellular organisms in a high-fiber environment.
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spelling pubmed-43197232015-02-18 Transcriptional Regulation and Adaptation to a High-Fiber Environment in Bacillus subtilis HH2 Isolated from Feces of the Giant Panda Zhou, Ziyao Zhou, Xiaoxiao Li, Jin Zhong, Zhijun Li, Wei Liu, Xuehan Liu, Furui Su, Huaiyi Luo, Yongjiu Gu, Wuyang Wang, Chengdong Zhang, Hemin Li, Desheng He, Tingmei Fu, Hualin Cao, Suizhong Shi, Jinjiang Peng, Guangneng PLoS One Research Article In the giant panda, adaptation to a high-fiber environment is a first step for the adequate functioning of intestinal bacteria, as the high cellulose content of the gut due to the panda's vegetarian appetite results in a harsh environment. As an excellent producer of several enzymes and vitamins, Bacillus subtilis imparts various advantages to animals. In our previous study, we determined that several strains of B. subtilis isolated from pandas exhibited good cellulose decomposition ability, and we hypothesized that this bacterial species can survive in and adapt well to a high-fiber environment. To evaluate this hypothesis, we employed RNA-Seq technology to analyze the differentially expressed genes of the selected strain B. subtilis HH2, which demonstrates significant cellulose hydrolysis of different carbon sources (cellulose and glucose). In addition, we used bioinformatics software and resources to analyze the functions and pathways of differentially expressed genes. Interestingly, comparison of the cellulose and glucose groups revealed that the up-regulated genes were involved in amino acid and lipid metabolism or transmembrane transport, both of which are involved in cellulose utilization. Conversely, the down-regulated genes were involved in non-essential functions for bacterial life, such as toxin and bacteriocin secretion, possibly to conserve energy for environmental adaptation. The results indicate that B. subtilis HH2 triggered a series of adaptive mechanisms at the transcriptional level, which suggests that this bacterium could act as a probiotic for pandas fed a high-fiber diet, despite the fact that cellulose is not a very suitable carbon source for this bacterial species. In this study, we present a model to understand the dynamic organization of and interactions between various functional and regulatory networks for unicellular organisms in a high-fiber environment. Public Library of Science 2015-02-06 /pmc/articles/PMC4319723/ /pubmed/25658435 http://dx.doi.org/10.1371/journal.pone.0116935 Text en © 2015 Zhou et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Zhou, Ziyao
Zhou, Xiaoxiao
Li, Jin
Zhong, Zhijun
Li, Wei
Liu, Xuehan
Liu, Furui
Su, Huaiyi
Luo, Yongjiu
Gu, Wuyang
Wang, Chengdong
Zhang, Hemin
Li, Desheng
He, Tingmei
Fu, Hualin
Cao, Suizhong
Shi, Jinjiang
Peng, Guangneng
Transcriptional Regulation and Adaptation to a High-Fiber Environment in Bacillus subtilis HH2 Isolated from Feces of the Giant Panda
title Transcriptional Regulation and Adaptation to a High-Fiber Environment in Bacillus subtilis HH2 Isolated from Feces of the Giant Panda
title_full Transcriptional Regulation and Adaptation to a High-Fiber Environment in Bacillus subtilis HH2 Isolated from Feces of the Giant Panda
title_fullStr Transcriptional Regulation and Adaptation to a High-Fiber Environment in Bacillus subtilis HH2 Isolated from Feces of the Giant Panda
title_full_unstemmed Transcriptional Regulation and Adaptation to a High-Fiber Environment in Bacillus subtilis HH2 Isolated from Feces of the Giant Panda
title_short Transcriptional Regulation and Adaptation to a High-Fiber Environment in Bacillus subtilis HH2 Isolated from Feces of the Giant Panda
title_sort transcriptional regulation and adaptation to a high-fiber environment in bacillus subtilis hh2 isolated from feces of the giant panda
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4319723/
https://www.ncbi.nlm.nih.gov/pubmed/25658435
http://dx.doi.org/10.1371/journal.pone.0116935
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