| Accession | PRJCA027522 | ||||||||||
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| Title | bovine | ||||||||||
| Relevance | bovine | ||||||||||
| Umbrella project |
IDP: The Immunity Deciphering Project |
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| Data types | metabolomics | ||||||||||
| Organisms | Bos taurus | ||||||||||
| Description | The frequency of enterotype conversion shifted from variable to stable. The close relationship observed between phenotype and enterotype, revealing a potential pro-growth effect of Bifidobacterium, might be implemented by promoting the use of carbohydrate, activating the synthesis of volatile fatty acids, amino acids and vitamin B6, and inhibiting methane production in the hindgut. The FMT results indicated the beneficial effect of Bifidobacterium on host growth and hindgut development. These results support the notion that the Bifidobacterium-dominated fecal microbiome would be an important driving force for promoting the host growth in the early life. Our findings provide new insights into the potential probiotic mining and application strategies to promote the growth of young animals or improve their growth retardation. | ||||||||||
| Sample scope | Environment | ||||||||||
| Release date | 2024-07-03 | ||||||||||
| Publication |
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| Grants |
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| Submitter | yimin zhuang (z1164323345@163.com) | ||||||||||
| Organization | China Agricultural University | ||||||||||
| Submission date | 2024-06-28 |
| Resource name | Description |
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