Positive selection of skeleton-related genes during duck domestication revealed by whole genome sequencing

Positive selection of skeleton-related genes during duck domestication revealed by whole genome sequencing

Abstract Background Domestication alters several phenotypic, neurological, and physiological traits in domestic animals compared to those in their wild ancestors. Domestic ducks originated from mallards, and some studies have shown that spot-billed ducks may have also made minor genetic contribution...

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Main Authors: Tao Zhu, Xin Qi, Yu Chen, Liang Wang, Xueze Lv, Weifang Yang, Jianwei Zhang, Kaiyang Li, Zhonghua Ning, Zhihua Jiang, Lujiang Qu
Format: Article
Language:English
Published: BMC 2021-09-01
Series:BMC Ecology and Evolution
Subjects:
Duck
Domestication
Artificial selection
Positive selection
Skeleton
Online Access:https://doi.org/10.1186/s12862-021-01894-7
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spelling doaj-6c595cfa46c64f19bf5cad587b3c37a62021-09-12T11:04:16ZengBMCBMC Ecology and Evolution2730-71822021-09-012111810.1186/s12862-021-01894-7Positive selection of skeleton-related genes during duck domestication revealed by whole genome sequencingTao Zhu0Xin Qi1Yu Chen2Liang Wang3Xueze Lv4Weifang Yang5Jianwei Zhang6Kaiyang Li7Zhonghua Ning8Zhihua Jiang9Lujiang Qu10Department of Animal Genetics and Breeding, National Engineering Laboratory for Animal Breeding, College of Animal Science and Technology, China Agricultural UniversityDepartment of Animal Genetics and Breeding, National Engineering Laboratory for Animal Breeding, College of Animal Science and Technology, China Agricultural UniversityBeijing General Station of Animal HusbandryBeijing General Station of Animal HusbandryBeijing General Station of Animal HusbandryBeijing General Station of Animal HusbandryBeijing General Station of Animal HusbandryBeijing General Station of Animal HusbandryDepartment of Animal Genetics and Breeding, National Engineering Laboratory for Animal Breeding, College of Animal Science and Technology, China Agricultural UniversityDepartment of Animal Sciences, Center for Reproductive Biology, Veterinary and Biomedical Research Building, Washington State UniversityDepartment of Animal Genetics and Breeding, National Engineering Laboratory for Animal Breeding, College of Animal Science and Technology, China Agricultural UniversityAbstract Background Domestication alters several phenotypic, neurological, and physiological traits in domestic animals compared to those in their wild ancestors. Domestic ducks originated from mallards, and some studies have shown that spot-billed ducks may have also made minor genetic contributions to domestication. Compared with the two ancestral species, domestic ducks generally differ in body size and bone morphology. In this study, we performed both genomic and transcriptomic analyses to identify candidate genes for elucidating the genetic mechanisms underlying phenotypic variation. Methods In this study, the duck genome data from eight domestic breeds and two wild species were collected to study the genetic changes during domestication. And the transcriptome data of different tissues from wild ducks and seven domestic ducks were used to reveal the expression difference between wild and domestic ducks. Results Using fixation index (Fst) algorithm and transcriptome data, we found that the genes related to skeletal development had high Fst values in wild and domestic breeds, and the differentially expressed genes were mainly enriched in the ossification pathway. Our data strongly suggest that the skeletal systems of domestic ducks were changed to adapt to artificial selection for larger sizes. In addition, by combining the genome and transcriptome data, we found that some Fst candidate genes exhibited different expression patterns, and these genes were found to be involved in digestive, immune, and metabolic functions. Conclusions A wide range of phenotypic differences exists between domestic and wild ducks. Through both genome and transcriptome analyses, we found that genes related to the skeletal system in domestic ducks were strongly selected. Our findings provide new insight into duck domestication and selection effects during the domestication.https://doi.org/10.1186/s12862-021-01894-7DuckDomesticationArtificial selectionPositive selectionSkeleton
collection DOAJ
language English
format Article
sources DOAJ
author Tao Zhu
Xin Qi
Yu Chen
Liang Wang
Xueze Lv
Weifang Yang
Jianwei Zhang
Kaiyang Li
Zhonghua Ning
Zhihua Jiang
Lujiang Qu
spellingShingle Tao Zhu
Xin Qi
Yu Chen
Liang Wang
Xueze Lv
Weifang Yang
Jianwei Zhang
Kaiyang Li
Zhonghua Ning
Zhihua Jiang
Lujiang Qu
Positive selection of skeleton-related genes during duck domestication revealed by whole genome sequencing
BMC Ecology and Evolution
Duck
Domestication
Artificial selection
Positive selection
Skeleton
author_facet Tao Zhu
Xin Qi
Yu Chen
Liang Wang
Xueze Lv
Weifang Yang
Jianwei Zhang
Kaiyang Li
Zhonghua Ning
Zhihua Jiang
Lujiang Qu
author_sort Tao Zhu
title Positive selection of skeleton-related genes during duck domestication revealed by whole genome sequencing
title_short Positive selection of skeleton-related genes during duck domestication revealed by whole genome sequencing
title_full Positive selection of skeleton-related genes during duck domestication revealed by whole genome sequencing
title_fullStr Positive selection of skeleton-related genes during duck domestication revealed by whole genome sequencing
title_full_unstemmed Positive selection of skeleton-related genes during duck domestication revealed by whole genome sequencing
title_sort positive selection of skeleton-related genes during duck domestication revealed by whole genome sequencing
publisher BMC
series BMC Ecology and Evolution
issn 2730-7182
publishDate 2021-09-01
description Abstract Background Domestication alters several phenotypic, neurological, and physiological traits in domestic animals compared to those in their wild ancestors. Domestic ducks originated from mallards, and some studies have shown that spot-billed ducks may have also made minor genetic contributions to domestication. Compared with the two ancestral species, domestic ducks generally differ in body size and bone morphology. In this study, we performed both genomic and transcriptomic analyses to identify candidate genes for elucidating the genetic mechanisms underlying phenotypic variation. Methods In this study, the duck genome data from eight domestic breeds and two wild species were collected to study the genetic changes during domestication. And the transcriptome data of different tissues from wild ducks and seven domestic ducks were used to reveal the expression difference between wild and domestic ducks. Results Using fixation index (Fst) algorithm and transcriptome data, we found that the genes related to skeletal development had high Fst values in wild and domestic breeds, and the differentially expressed genes were mainly enriched in the ossification pathway. Our data strongly suggest that the skeletal systems of domestic ducks were changed to adapt to artificial selection for larger sizes. In addition, by combining the genome and transcriptome data, we found that some Fst candidate genes exhibited different expression patterns, and these genes were found to be involved in digestive, immune, and metabolic functions. Conclusions A wide range of phenotypic differences exists between domestic and wild ducks. Through both genome and transcriptome analyses, we found that genes related to the skeletal system in domestic ducks were strongly selected. Our findings provide new insight into duck domestication and selection effects during the domestication.
topic Duck
Domestication
Artificial selection
Positive selection
Skeleton
url https://doi.org/10.1186/s12862-021-01894-7
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