Population genomics identifies patterns of genetic diversity and selection in chicken

Li, Diyan; Li, Yan; Li, Miao; Che, Tiandong; Tian, Shilin; Chen, Binlong; Zhou, Xuming; Zhang, Guolong; Gaur, Uma; Luo, Majing; Tian, Kai; He, Mengnan; Shen, He; Xu, Zhongxian; Jin, Long; Tang, Qianzi; Dai, Yifei; Xu, Huailiang; Hu, Yaodong; Zhao, Xiaoling; Yin, Huadong; Wang, Yan; Zhou, Rongjia; Yang, Chaowu; Du, Huarui; Jiang, Xiaosong; Zhu, Qing; Li, Mingzhou

doi:10.1186/s12864-019-5622-4

Cited by 48 publications

(41 citation statements)

References 65 publications

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“…They possess their own genetic structure in subgroups. In admixture result, game breeds and red jungle clustered as one group until K = 16, suggesting domestic breeds and wild populations have mutual introgression (Li et al, 2019;Wang et al, 2020). It is consistent with our NJ tree results that all breeds from the same population clustered, except that game breeds.…”

Section: Discussion Population Structure and Genetic Diversitysupporting

confidence: 88%

“…On chromosome 11, more than 33% of the Silkies chickens, 24% of the Tibet chickens and 14% of Hongshan chickens had a ROH in the region from 1.91 to 4.00 Mb, from 2.31 to 5.66 Mb, and from 2.30 to 3.91 Mb, which contained NECAB2, SLC38A8, and NFATC3 genes, and several potential candidate genes for silky feathers. On chromosome 3, we showed that up to 40% of Beijing You chickens had a ROH between 69.38 and 70.93 Mb, retaining the gene ASCC3 which is also a candidate gene for silky feathers (Li et al, 2019). Besides, on chromosome 2, chromosome 3, and chromosome 13, we identified several potential candidate genes associated with egg production, eggshell quality and growth traits, such as GDF9, OPN, CDH9, CDH10, and KIF18A (Pines et al, 1995;Hincke et al, 2010;An et al, 2012;Lin et al, 2014;Wang et al, 2020).…”

Section: Genomic Inbreeding and Runs Of Homozygosity Islandmentioning

confidence: 89%

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Genome-Wide Population Genetic Analysis of Commercial, Indigenous, Game, and Wild Chickens Using 600K SNP Microarray Data

Zhang

Nie

et al. 2020

Front. Genet.

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Section: Discussion Population Structure and Genetic Diversitysupporting

confidence: 88%

Section: Genomic Inbreeding and Runs Of Homozygosity Islandmentioning

confidence: 89%

Genome-Wide Population Genetic Analysis of Commercial, Indigenous, Game, and Wild Chickens Using 600K SNP Microarray Data

Zhang

Nie

et al. 2020

Front. Genet.

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“…Genes for aesthetic physical phenotypes including height, stature, coat and plumage colour are commonly encountered in genomic regions under selection in domestic animal populations since they are easily identifiable [42][43][44][45] . Conformation characteristics are among the most discernible traits in horses and are the principal observable traits on which Thoroughbreds are selected.…”

Section: Scientific Reports |mentioning

confidence: 99%

Genomic inbreeding trends, influential sire lines and selection in the global Thoroughbred horse population

McGivney

Han

Corduff

et al. 2020

Sci Rep

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The Thoroughbred horse is a highly valued domestic animal population under strong selection for athletic phenotypes. Here we present a high resolution genomics-based analysis of inbreeding in the population that may form the basis for evidence-based discussion amid concerns in the breeding industry over the increasing use of small numbers of popular sire lines, which may accelerate a loss of genetic diversity. In the most comprehensive globally representative sample of Thoroughbreds to-date (n = 10,118), including prominent stallions (n = 305) from the major bloodstock regions of the world, we show using pan-genomic SNP genotypes that there has been a highly significant decline in global genetic diversity during the last five decades (F iS R 2 = 0.942, P = 2.19 × 10 −13 ; F RoH R 2 = 0.88, P = 1.81 × 10 −10 ) that has likely been influenced by the use of popular sire lines. Estimates of effective population size in the global and regional populations indicate that there is some level of regional variation that may be exploited to improve global genetic diversity. Inbreeding is often a consequence of selection, which in managed animal populations tends to be driven by preferences for cultural, aesthetic or economically advantageous phenotypes. Using a composite selection signals approach, we show that centuries of selection for favourable athletic traits among Thoroughbreds acts on genes with functions in behaviour, musculoskeletal conformation and metabolism. As well as classical selective sweeps at core loci, polygenic adaptation for functional modalities in cardiovascular signalling, organismal growth and development, cellular stress and injury, metabolic pathways and neurotransmitters and other nervous system signalling has shaped the Thoroughbred athletic phenotype. Our results demonstrate that genomics-based approaches to identify genetic outcrosses will add valuable objectivity to augment traditional methods of stallion selection and that genomicsbased methods will be beneficial to actively monitor the population to address the marked inbreeding trend.The Thoroughbred is among the fastest animals selected by humans for sport, originating from "the commingled blood of Arabs, Turks and Barbs" 1 crossed with local British and Irish mares 2 "but selection and training have together made him a very different animal from his parent-stocks" 1 . The Thoroughbred is now a large (N ~ 500,000) global breed but, in the context of modern horse breeds, it has very low genetic diversity 3,4 due to the limited foundation alleles at the establishment of the stud book and restriction of external gene flow subsequent to the closing of the population 5-7 . In Thoroughbred horse breeding selection of potential champion racehorses is a global multi-billion-dollar business, but there is no systematic industry-mediated genomic selection or genetic population management. We hypothesised that the market-driven emphasis on highly valuable pedigrees and the common practice of inbreeding to successful ancestors in attempts to reinforce...

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“…Due to its economic and agricultural importance, the wild progenitor of the Domestic Chicken, Gallus gallus (Red Junglefowl), was the first avian species whose genome was completely sequenced (ICGSC 2004). Since then, genomes of many of the hundreds of different breeds of Gallus gallus have been sequenced (e.g., Imsland et al 2012;Yi et al 2014;Wang et al 2015;Lawal et al 2018;Li et al 2019;Yang et al 2019), resulting in a large number of available chicken genomes.…”

Section: Introductionmentioning

confidence: 99%

Whole genome phylogeny of Gallus: introgression and data-type effects

et al. 2020

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Background: Previous phylogenetic studies that include the four recognized species of Gallus have resulted in a number of distinct topologies, with little agreement. Several factors could lead to the failure to converge on a consistent topology, including introgression, incomplete lineage sorting, different data types, or insufficient data. Methods:We generated three novel whole genome assemblies for Gallus species, which we combined with data from the published genomes of Gallus gallus and Bambusicola thoracicus (a member of the sister genus to Gallus). To determine why previous studies have failed to converge on a single topology, we extracted large numbers of orthologous exons, introns, ultra-conserved elements, and conserved non-exonic elements from the genome assemblies. This provided more than 32 million base pairs of data that we used for concatenated maximum likelihood and multispecies coalescent analyses of Gallus.Results: All of our analyses, regardless of data type, yielded a single, well-supported topology. We found some evidence for ancient introgression involving specific Gallus lineages as well as modest data type effects that had an impact on support and branch length estimates in specific analyses. However, the estimated gene tree spectra for all data types had a relatively good fit to their expectation given the multispecies coalescent. Conclusions:Overall, our data suggest that conflicts among previous studies probably reflect the use of smaller datasets (both in terms of number of sites and of loci) in those analyses. Our results demonstrate the importance of sampling large numbers of loci, each of which has a sufficient number of sites to provide robust estimates of gene trees. Low-coverage whole genome sequencing, as we did here, represents a cost-effective means to generate the very large data sets that include multiple data types that enabled us to obtain a robust estimate of Gallus phylogeny.

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Population genomics identifies patterns of genetic diversity and selection in chicken

Cited by 48 publications

References 65 publications

Genome-Wide Population Genetic Analysis of Commercial, Indigenous, Game, and Wild Chickens Using 600K SNP Microarray Data

Genome-Wide Population Genetic Analysis of Commercial, Indigenous, Game, and Wild Chickens Using 600K SNP Microarray Data

Genomic inbreeding trends, influential sire lines and selection in the global Thoroughbred horse population

Whole genome phylogeny of Gallus: introgression and data-type effects

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