Literature DB >> 33165812

Modes of genetic adaptations underlying functional innovations in the rumen.

Xiangyu Pan1, Yudong Cai1, Zongjun Li1, Xianqing Chen2, Rasmus Heller3, Nini Wang1, Yu Wang1, Chen Zhao1, Yong Wang4,5,6, Han Xu1, Songhai Li7, Ming Li1, Cunyuan Li8, Shengwei Hu8, Hui Li1,9, Kun Wang2, Lei Chen2, Bin Wei1, Zhuqing Zheng1, Weiwei Fu1, Yue Yang2, Tingting Zhang1, Zhuoting Hou2, Yueyang Yan1, Xiaoyang Lv10, Wei Sun10,11, Xinyu Li12, Shisheng Huang13, Lixiang Liu14, Shengyong Mao14, Wenqing Liu15, Jinlian Hua15, Zhipeng Li16, Guojie Zhang5,17,18,19, Yulin Chen1, Xihong Wang1, Qiang Qiu2,20, Brian P Dalrymple21, Wen Wang22,23,24, Yu Jiang25.   

Abstract

The rumen is the hallmark organ of ruminants and hosts a diverse ecosystem of microorganisms that facilitates efficient digestion of plant fibers. We analyzed 897 transcriptomes from three Cetartiodactyla lineages: ruminants, camels and cetaceans, as well as data from ruminant comparative genomics and functional assays to explore the genetic basis of rumen functional innovations. We identified genes with relatively high expression in the rumen, of which many appeared to be recruited from other tissues. These genes show functional enrichment in ketone body metabolism, regulation of microbial community, and epithelium absorption, which are the most prominent biological processes involved in rumen innovations. Several modes of genetic change underlying rumen functional innovations were uncovered, including coding mutations, genes newly evolved, and changes of regulatory elements. We validated that the key ketogenesis rate-limiting gene (HMGCS2) with five ruminant-specific mutations was under positive selection and exhibits higher synthesis activity than those of other mammals. Two newly evolved genes (LYZ1 and DEFB1) are resistant to Gram-positive bacteria and thereby may regulate microbial community equilibrium. Furthermore, we confirmed that the changes of regulatory elements accounted for the majority of rumen gene recruitment. These results greatly improve our understanding of rumen evolution and organ evo-devo in general.

Entities:  

Keywords:  comparative genomics; comparative transcriptomics; evo-devo; evolution of organs; rumen innovations

Year:  2020        PMID: 33165812     DOI: 10.1007/s11427-020-1828-8

Source DB:  PubMed          Journal:  Sci China Life Sci        ISSN: 1674-7305            Impact factor:   6.038


  63 in total

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10.  Trimmomatic: a flexible trimmer for Illumina sequence data.

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3.  Short Linear Motifs Characterizing Snake Venom and Mammalian Phospholipases A2.

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4.  RGD v2.0: a major update of the ruminant functional and evolutionary genomics database.

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5.  Cross-tissue single-cell transcriptomic landscape reveals the key cell subtypes and their potential roles in the nutrient absorption and metabolism in dairy cattle.

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6.  Ruminal Bacterial Community Successions in Response to Monensin Supplementation in Goats.

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Review 7.  Structural and process controls of AIEgens for NIR-II theranostics.

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  7 in total

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