The distal intestinal microbiome of hybrids of Hainan black goats and Saanen goats.

The distal intestinal microbiome of hybrids of Hainan black goats and Saanen goats.

Intestinal microbiota performed numerous important functions during digestion. The first filial generation (F1) hybrids of Hainan black goats and Saanen goats had different traits, black goats (BG) and white goats (WG), which also brought different production performance. We explored the difference...

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Main Authors: Shuaiming Jiang, Dongxue Huo, Zhengkai You, Qiannan Peng, Chenchen Ma, Haibo Chang, Xue Lin, Lu Wang, Jiachao Zhang
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0228496
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spelling doaj-aff017e0e32246d8b398936ed44db6f32021-03-03T21:26:47ZengPublic Library of Science (PLoS)PLoS ONE1932-62032020-01-01151e022849610.1371/journal.pone.0228496The distal intestinal microbiome of hybrids of Hainan black goats and Saanen goats.Shuaiming JiangDongxue HuoZhengkai YouQiannan PengChenchen MaHaibo ChangXue LinLu WangJiachao ZhangIntestinal microbiota performed numerous important functions during digestion. The first filial generation (F1) hybrids of Hainan black goats and Saanen goats had different traits, black goats (BG) and white goats (WG), which also brought different production performance. We explored the difference of gut microbiota between black goats and white goats that both belonged to the first filial generation (F1) hybrids. In general, the alpha diversity of the black goat group was significantly higher than the white goat group. The species richness had no significant difference, while the species evenness of BG was higher than WG. Bacteroides, Oscillospira, Alistipes, Ruminococcus, Clostridium and Oscillibacter, as the core gut microbial genera, all had high abundance in BG and WG group. Only the Bacteroides and Bacteroidaceae 5-7N15 were the different genera between the BG and WG group, of which Bacteroides overlapped with the core genera and enriched in the WG group. Besides, PICRUSt analysis showed that there was a high abundance in the secondary metabolic pathways including membrane transport, replication and repair, carbohydrate metabolism and amino acid metabolism. We found the intestinal microbial species of black goats and white goats were very similar for living in the identical growing environment and feeding conditions, but there was still a slight difference in the content. On the one hand, it was proved that the small effect of genotype and the great effect of diet affected the intestinal microbiota together. On the other hand, it was also proved that these different traits of first filial generation (F1) hybrids may not related to gut microbiota and only because of different genotype. Moreover, characterization of the gut microbiota in BG and WG will be useful in goats gut microbiota research.https://doi.org/10.1371/journal.pone.0228496
collection DOAJ
language English
format Article
sources DOAJ
author Shuaiming Jiang
Dongxue Huo
Zhengkai You
Qiannan Peng
Chenchen Ma
Haibo Chang
Xue Lin
Lu Wang
Jiachao Zhang
spellingShingle Shuaiming Jiang
Dongxue Huo
Zhengkai You
Qiannan Peng
Chenchen Ma
Haibo Chang
Xue Lin
Lu Wang
Jiachao Zhang
The distal intestinal microbiome of hybrids of Hainan black goats and Saanen goats.
PLoS ONE
author_facet Shuaiming Jiang
Dongxue Huo
Zhengkai You
Qiannan Peng
Chenchen Ma
Haibo Chang
Xue Lin
Lu Wang
Jiachao Zhang
author_sort Shuaiming Jiang
title The distal intestinal microbiome of hybrids of Hainan black goats and Saanen goats.
title_short The distal intestinal microbiome of hybrids of Hainan black goats and Saanen goats.
title_full The distal intestinal microbiome of hybrids of Hainan black goats and Saanen goats.
title_fullStr The distal intestinal microbiome of hybrids of Hainan black goats and Saanen goats.
title_full_unstemmed The distal intestinal microbiome of hybrids of Hainan black goats and Saanen goats.
title_sort distal intestinal microbiome of hybrids of hainan black goats and saanen goats.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2020-01-01
description Intestinal microbiota performed numerous important functions during digestion. The first filial generation (F1) hybrids of Hainan black goats and Saanen goats had different traits, black goats (BG) and white goats (WG), which also brought different production performance. We explored the difference of gut microbiota between black goats and white goats that both belonged to the first filial generation (F1) hybrids. In general, the alpha diversity of the black goat group was significantly higher than the white goat group. The species richness had no significant difference, while the species evenness of BG was higher than WG. Bacteroides, Oscillospira, Alistipes, Ruminococcus, Clostridium and Oscillibacter, as the core gut microbial genera, all had high abundance in BG and WG group. Only the Bacteroides and Bacteroidaceae 5-7N15 were the different genera between the BG and WG group, of which Bacteroides overlapped with the core genera and enriched in the WG group. Besides, PICRUSt analysis showed that there was a high abundance in the secondary metabolic pathways including membrane transport, replication and repair, carbohydrate metabolism and amino acid metabolism. We found the intestinal microbial species of black goats and white goats were very similar for living in the identical growing environment and feeding conditions, but there was still a slight difference in the content. On the one hand, it was proved that the small effect of genotype and the great effect of diet affected the intestinal microbiota together. On the other hand, it was also proved that these different traits of first filial generation (F1) hybrids may not related to gut microbiota and only because of different genotype. Moreover, characterization of the gut microbiota in BG and WG will be useful in goats gut microbiota research.
url https://doi.org/10.1371/journal.pone.0228496
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