A genome-wide scan to identify signatures of selection in two Iranian indigenous chicken ecotypes

A genome-wide scan to identify signatures of selection in two Iranian indigenous chicken ecotypes

Abstract Background Various regions of the chicken genome have been under natural and artificial selection for thousands of years. The substantial diversity that exits among chickens from different geographic regions provides an excellent opportunity to investigate the genomic regions under selectio...

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Main Authors: Elaheh Rostamzadeh Mahdabi, Ali Esmailizadeh, Ahmad Ayatollahi Mehrgardi, Masood Asadi Fozi
Format: Article
Language:deu
Published: BMC 2021-09-01
Series:Genetics Selection Evolution
Online Access:https://doi.org/10.1186/s12711-021-00664-9
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spelling doaj-e991d18bf4504749ab7ebd9716b01bc62021-09-12T11:30:21ZdeuBMCGenetics Selection Evolution1297-96862021-09-0153111610.1186/s12711-021-00664-9A genome-wide scan to identify signatures of selection in two Iranian indigenous chicken ecotypesElaheh Rostamzadeh Mahdabi0Ali Esmailizadeh1Ahmad Ayatollahi Mehrgardi2Masood Asadi Fozi3Department of Animal Science, Faculty of Agriculture, Shahid Bahonar University of KermanDepartment of Animal Science, Faculty of Agriculture, Shahid Bahonar University of KermanDepartment of Animal Science, Faculty of Agriculture, Shahid Bahonar University of KermanDepartment of Animal Science, Faculty of Agriculture, Shahid Bahonar University of KermanAbstract Background Various regions of the chicken genome have been under natural and artificial selection for thousands of years. The substantial diversity that exits among chickens from different geographic regions provides an excellent opportunity to investigate the genomic regions under selection which, in turn, will increase our knowledge about the mechanisms that underlie chicken diversity and adaptation. Several statistics have been developed to detect genomic regions that are under selection. In this study, we applied approaches based on differences in allele or haplotype frequencies (F ST and hapFLK, respectively) between populations, differences in long stretches of consecutive homozygous sequences (ROH), and differences in allele frequencies within populations (composite likelihood ratio (CLR)) to identify inter- and intra-populations traces of selection in two Iranian indigenous chicken ecotypes, the Lari fighting chicken and the Khazak or creeper (short-leg) chicken. Results Using whole-genome resequencing data of 32 individuals from the two chicken ecotypes, approximately 11.9 million single nucleotide polymorphisms (SNPs) were detected and used in genomic analyses after quality processing. Examination of the distribution of ROH in the two populations indicated short to long ROH, ranging from 0.3 to 5.4 Mb. We found 90 genes that were detected by at least two of the four applied methods. Gene annotation of the detected putative regions under selection revealed candidate genes associated with growth (DCN, MEOX2 and CACNB1), reproduction (ESR1 and CALCR), disease resistance (S1PR1, ALPK1 and MHC-B), behavior pattern (AGMO, GNAO1 and PSEN1), and morphological traits (IHH and NHEJ1). Conclusions Our findings show that these two phenotypically different indigenous chicken populations have been under selection for reproduction, immune, behavioral, and morphology traits. The results illustrate that selection can play an important role in shaping signatures of differentiation across the genomic landscape of two chicken populations.https://doi.org/10.1186/s12711-021-00664-9
collection DOAJ
language deu
format Article
sources DOAJ
author Elaheh Rostamzadeh Mahdabi
Ali Esmailizadeh
Ahmad Ayatollahi Mehrgardi
Masood Asadi Fozi
spellingShingle Elaheh Rostamzadeh Mahdabi
Ali Esmailizadeh
Ahmad Ayatollahi Mehrgardi
Masood Asadi Fozi
A genome-wide scan to identify signatures of selection in two Iranian indigenous chicken ecotypes
Genetics Selection Evolution
author_facet Elaheh Rostamzadeh Mahdabi
Ali Esmailizadeh
Ahmad Ayatollahi Mehrgardi
Masood Asadi Fozi
author_sort Elaheh Rostamzadeh Mahdabi
title A genome-wide scan to identify signatures of selection in two Iranian indigenous chicken ecotypes
title_short A genome-wide scan to identify signatures of selection in two Iranian indigenous chicken ecotypes
title_full A genome-wide scan to identify signatures of selection in two Iranian indigenous chicken ecotypes
title_fullStr A genome-wide scan to identify signatures of selection in two Iranian indigenous chicken ecotypes
title_full_unstemmed A genome-wide scan to identify signatures of selection in two Iranian indigenous chicken ecotypes
title_sort genome-wide scan to identify signatures of selection in two iranian indigenous chicken ecotypes
publisher BMC
series Genetics Selection Evolution
issn 1297-9686
publishDate 2021-09-01
description Abstract Background Various regions of the chicken genome have been under natural and artificial selection for thousands of years. The substantial diversity that exits among chickens from different geographic regions provides an excellent opportunity to investigate the genomic regions under selection which, in turn, will increase our knowledge about the mechanisms that underlie chicken diversity and adaptation. Several statistics have been developed to detect genomic regions that are under selection. In this study, we applied approaches based on differences in allele or haplotype frequencies (F ST and hapFLK, respectively) between populations, differences in long stretches of consecutive homozygous sequences (ROH), and differences in allele frequencies within populations (composite likelihood ratio (CLR)) to identify inter- and intra-populations traces of selection in two Iranian indigenous chicken ecotypes, the Lari fighting chicken and the Khazak or creeper (short-leg) chicken. Results Using whole-genome resequencing data of 32 individuals from the two chicken ecotypes, approximately 11.9 million single nucleotide polymorphisms (SNPs) were detected and used in genomic analyses after quality processing. Examination of the distribution of ROH in the two populations indicated short to long ROH, ranging from 0.3 to 5.4 Mb. We found 90 genes that were detected by at least two of the four applied methods. Gene annotation of the detected putative regions under selection revealed candidate genes associated with growth (DCN, MEOX2 and CACNB1), reproduction (ESR1 and CALCR), disease resistance (S1PR1, ALPK1 and MHC-B), behavior pattern (AGMO, GNAO1 and PSEN1), and morphological traits (IHH and NHEJ1). Conclusions Our findings show that these two phenotypically different indigenous chicken populations have been under selection for reproduction, immune, behavioral, and morphology traits. The results illustrate that selection can play an important role in shaping signatures of differentiation across the genomic landscape of two chicken populations.
url https://doi.org/10.1186/s12711-021-00664-9
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