欧亚杂交猪全基因组结构变异与表型差异的相关性。

IF 6.3 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Wencheng Zong, Jinbu Wang, Runze Zhao, Naiqi Niu, Yanfang Su, Ziping Hu, Xin Liu, Xinhua Hou, Ligang Wang, Lixian Wang, Longchao Zhang
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引用次数: 0

摘要

背景:在大约10000年的驯化和选择过程中,猪品种的基因组中出现了大量的结构变异,深刻影响了它们的表型和适应当地环境的能力。SV(≥ 50bp)在基因组中广泛分布,主要以插入(INS)、移动元件插入(MEI)、缺失(DEL)、重复(DUP)、反转(INV)和易位(TRA)的形式存在。虽然研究已经调查了猪基因组中的SVs,但基于SVs的全基因组关联研究(GWAS)很少进行。结果:在这里,我们通过整合几个SV工具的功率,获得了一个高质量的SV图,其中包含来自15只大白猪和15只Min猪的123151个SV,其中53.95%的SV是首次报道的。这些高质量的SV用于恢复群体遗传结构,证实了基因分型的准确性。然后根据位置效应和品种分层确定潜在的功能SV基因座。最后,通过在F2群体中根据其相应的基因组位置对筛选出的潜在致病基因座进行基因分型,对36个性状进行了GWAS。我们在7号染色体上鉴定了大量涉及8个胴体性状和6个骨骼性状的基因座,其中FKBP5包含几乎所有性状最显著的SV基因座。此外,我们在肌内脂肪、腹围、心脏重量和肝脏重量等方面发现了几个重要的基因座。结论:我们使用高覆盖测序数据构建了一个高质量的SV图谱,然后通过对25个胴体性状、7个骨骼性状、,以及4个肉质性状,以确定SVs可能影响欧洲和中国猪品种的体型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Associations of genome-wide structural variations with phenotypic differences in cross-bred Eurasian pigs.

Background: During approximately 10,000 years of domestication and selection, a large number of structural variations (SVs) have emerged in the genome of pig breeds, profoundly influencing their phenotypes and the ability to adapt to the local environment. SVs (≥ 50 bp) are widely distributed in the genome, mainly in the form of insertion (INS), mobile element insertion (MEI), deletion (DEL), duplication (DUP), inversion (INV), and translocation (TRA). While studies have investigated the SVs in pig genomes, genome-wide association studies (GWAS)-based on SVs have been rarely conducted.

Results: Here, we obtained a high-quality SV map containing 123,151 SVs from 15 Large White and 15 Min pigs through integrating the power of several SV tools, with 53.95% of the SVs being reported for the first time. These high-quality SVs were used to recover the population genetic structure, confirming the accuracy of genotyping. Potential functional SV loci were then identified based on positional effects and breed stratification. Finally, GWAS were performed for 36 traits by genotyping the screened potential causal loci in the F2 population according to their corresponding genomic positions. We identified a large number of loci involved in 8 carcass traits and 6 skeletal traits on chromosome 7, with FKBP5 containing the most significant SV locus for almost all traits. In addition, we found several significant loci in intramuscular fat, abdominal circumference, heart weight, and liver weight, etc. CONCLUSIONS: We constructed a high-quality SV map using high-coverage sequencing data and then analyzed them by performing GWAS for 25 carcass traits, 7 skeletal traits, and 4 meat quality traits to determine that SVs may affect body size between European and Chinese pig breeds.

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CiteScore
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