Identification of loci and genes for growth related traits from a genome-wide association study in a slow- x fast-growing broiler chicken cross

文献类型: 外文期刊

第一作者: Liu, Ranran

作者: Liu, Ranran;Sun, Yanfa;Zhao, Guiping;Wang, Hongyang;Zheng, Maiqing;Li, Peng;Liu, Li;Wen, Jie;Sun, Yanfa;Liu, Ranran;Zhao, Guiping;Wang, Hongyang;Zheng, Maiqing;Wen, Jie

作者机构:

关键词: Chicken;Weight;Carcass;GWAS;Candidate genes

期刊名称:GENES & GENOMICS ( 影响因子:1.839; 五年影响因子:1.329 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Identification of functional genes for multifactorial traits is an ongoing priority. A genome-wide association study and gene expression study for weight and carcass composition traits is presented here using a F2 resource population derived from a cross between slow- and fast-growing chicken breeds. For weight traits, eight SNPs on GGA4 plus one SNP on GGA27 were significantly associated with two or more target traits, including body weight (BW) at day 56, BW93, carcass weight, eviscerated weight, breast weight (BrW), thigh muscle weight (ThW) and wing weight. Of 11candidate genes identified near significant SNPs, three were shown by Q-PCR to be differentially expressed in breast muscle between chickens selected from phenotypic extremes of carcass weight and BrW, including ligand dependent nuclear receptor corepressor-like protein and LIM domain-binding factor 2. For major carcass composition traits, nine significant SNPs on GGA1, GGAZ and GGA6 were identified as being associated with BrW and/or percentage. The wings apart-like homolog (Drosophila, WAPAL) on GGA6 had the most significant association with percentage of ThW.

分类号: Q

  • 相关文献

[1]Genome-Wide Linkage Analysis and Association Study Identifies Loci for Polydactyly in Chickens. Sun, Yanfa,Liu, Ranran,Zhao, Guiping,Zheng, Maiqing,Sun, Yan,Yu, Xiaoqiong,Li, Peng,Wen, Jie,Sun, Yanfa,Liu, Ranran,Zhao, Guiping,Zheng, Maiqing,Wen, Jie,Sun, Yanfa. 2014

[2]The identification of 14 new genes for meat quality traits in chicken using a genome-wide association study. Sun, Yanfa,Zhao, Guiping,Liu, Ranran,Zheng, Maiqing,Hu, Yaodong,Wu, Dan,Zhang, Lei,Li, Peng,Wen, Jie,Zhao, Guiping,Liu, Ranran,Zheng, Maiqing,Li, Peng,Wen, Jie,Sun, Yanfa,Wen, Jie. 2013

[3]Growth rate, carcass traits and meat quality of slow-growing chicken grown according to three raising systems. Dou, T. C.,Shi, S. R.,Sun, H. J.,Wang, K. H..

[4]Genome-Wide Association Study Identifying Candidate Genes Influencing Important Agronomic Traits of Flax (Linum usitatissimum L.)Using SLAF-seq. Xie, Dongwei,Dai, Zhigang,Yang, Zemao,Tang, Qing,Su, Jianguang,Xie, Dongwei,Zhao, Debao,Yang, Xue,Zhang, Liguo,Sun, Jian. 2018

[5]Differential expression of six chicken genes associated with fatness traits in a divergently selected broiler population. Wu, Xianwen,Zhang, Qi,Xu, Songsong,Jin, Pengcheng,Luan, Peng,Li, Yumao,Cao, Zhiping,Leng, Li,Wang, Yuxiang,Wang, Shouzhi,Wu, Xianwen,Zhang, Qi,Xu, Songsong,Jin, Pengcheng,Luan, Peng,Li, Yumao,Cao, Zhiping,Leng, Li,Wang, Yuxiang,Wang, Shouzhi,Wu, Xianwen,Zhang, Qi,Xu, Songsong,Jin, Pengcheng,Luan, Peng,Li, Yumao,Cao, Zhiping,Leng, Li,Wang, Yuxiang,Wang, Shouzhi.

[6]Genome-wide association study of 8 carcass traits in Jinghai Yellow chickens using specific-locus amplified fragment sequencing technology. Wang, Wenhao,Zhang, Tao,Wang, Jinyu,Zhang, Genxi,Li, Guohui,Xue, Qian,Han, Kunpeng,Wang, Wenhao,Wang, Yongjuan,Zhang, Yinwen,Zhang, Jianhui,Zheng, Hongkun,Zhao, Xiuhua.

[7]Effects of irradiation of each of the five peach fruit moth (Lepidoptera: Carposinidae) instars on 5th instar weight, larval mortality and cumulative developmental time: A preliminary investigation. Li, Baishu,Liu, Bo,Li, Tianxu,Wang, Yuejin,Zhan, Guoping,Gao, Meixu. 2016

[8]Growth, reproduction and biochemical toxicity of chlorantraniliprole in soil on earthworms (Eisenia fetida). Liu, Tong,Wang, Xiuguo,Chen, Dan,Li, Yiqiang,Wang, Fenglong. 2018

[9]Association of LXRA gene variants with carcass and meat quality traits in beef cattle. Gan, Qianfu,Xu, Shangzhong,Gan, Qianfu,Zhang, Lupei,Xu, Shangzhong,Li, Hengde,Li, Junya,Gao, Xue,Ren, Hongyan,Chen, Jinbao. 2008

[10]Proteome changes underpin improved meat quality and yield of chickens (Gallus gallus) fed the probiotic Enterococcus faecium. Zheng, Aijuan,Luo, Jianjie,Meng, Kun,Zhang, Shu,Li, Ke,Liu, Guohua,Cai, Huiyi,Yao, Bin,Li, Jianke,Bryden, Wayne L.. 2014

[11]QTL Mapping by Whole Genome Re-sequencing and Analysis of Candidate Genes for Nitrogen Use Efficiency in Rice. Xia, Xiuzhong,Zhang, Zongqiong,Nong, Baoxuan,Zeng, Yu,Deng, Guofu,Li, Danting,Xiong, Faqian,Wu, Yanyan,Gao, Ju. 2017

[12]Quantitative trait loci analysis and genome-wide comparison for silique related traits in Brassica napus. Wang, Xiaodong,Chen, Li,Chao, Hongbo,Li, Maoteng,Wang, Xiaodong,Chen, Li,Xiang, Jun,Gan, Jianping,Wang, Aina,Wang, Hao,Tian, Jianhua,Zhao, Xiaoping,Zhao, Yajun,Zhao, Weiguo. 2016

[13]Genome-Wide Association and Transcriptome Analyses Reveal Candidate Genes Underlying Yield-determining Traits in Brassica napus. Lu, Kun,Peng, Liu,Zhang, Chao,Lu, Junhua,Yang, Bo,Xiao, Zhongchun,Liang, Ying,Xu, Xingfu,Qu, Cunmin,Zhang, Kai,Liu, Liezhao,Li, Jiana,Peng, Liu,Zhang, Chao,Zhu, Qinlong,Fu, Minglian,Yuan, Xiaoyan. 2017

[14]Fine mapping and identification of candidate genes for a QTL affecting Meloidogyne incognita reproduction in Upland cotton. Kumar, Pawan,He, Yajun,Singh, Rippy,Shen, Xinlian,Chee, Peng W.,Davis, Richard F.,Guo, Hui,Paterson, Andrew H.,Peterson, Daniel G.,Nichols, Robert L.,Shen, Xinlian,He, Yajun. 2016

[15]Transcriptome analysis of genes involved in anthocyanins biosynthesis and transport in berries of black and white spine grapes (Vitis davidii). Sun, Lei,Fan, Xiucai,Zhang, Ying,Jiang, Jianfu,Sun, Haisheng,Liu, Chonghuai. 2016

[16]Loci and candidate genes conferring resistance to soybean cyst nematode HG type 2.5.7. Zhao, Xue,Teng, Weili,Cao, Guanglu,Li, Dongmei,Han, Yingpeng,Li, Wenbin,Li, Yinghui,Qiu, Lijuan,Li, Dongmei,Zheng, Hongkun. 2017

[17]High-resolution mapping and characterization of qRgls2, a major quantitative trait locus involved in maize resistance to gray leaf spot. Xu, Ling,Zhang, Yan,Zhu, Mang,Zhong, Tao,Xu, Mingliang,Shao, Siquan,Chen, Wei,Tan, Jing,Fan, Xingming. 2014

[18]QTL Mapping by SLAF-seq and Expression Analysis of Candidate Genes for Aphid Resistance in Cucumber. Liang, Danna,Chen, Minyang,Qi, Xiaohua,Xu, Qiang,Zhou, Fucai,Chen, Xuehao,Liang, Danna. 2016

[19]A dense SNP genetic map constructed using restriction site-associated DNA sequencing enables detection of QTLs controlling apple fruit quality. Sun, Rui,Chang, Yuansheng,Wang, Yi,Li, Hui,Wu, Ting,Zhang, Xinzhong,Han, Zhenhai,Yang, Fengqiu,Zhao, Yongbo,Chen, Dongmei. 2015

[20]Genome-Wide Identification of QTL for Seed Yield and Yield-Related Traits and Construction of a High-Density Consensus Map for QTL Comparison in Brassica napus. Zhao, Weiguo,Wang, Hao,Tian, Jianhua,Li, Baojun,Zhao, Weiguo,Wang, Hao,Chen, Li,Chao, Hongbo,Li, Maoteng,Wang, Xiaodong,Long, Yan,Xiang, Jun,Gan, Jianping,Li, Maoteng,Liang, Wusheng. 2016

作者其他论文 更多>>

微信小程序