农科机构知识库联盟

Improving accuracy of genomic prediction by genetic architecture based priors in a Bayesian model

文献类型：外文期刊

第一作者： Gao, Ning

作者： Gao, Ning;Li, Jiaqi;He, Jinlong;Xiao, Guang;Luo, Yuanyu;Zhang, Hao;Chen, Zanmou;Zhang, Zhe;Gao, Ning;Zhang, Zhe

作者机构：

关键词： Genomic selection;Bayesian approaches;Priors;Genetic Architecture

期刊名称：BMC GENETICS （影响因子：2.797；五年影响因子：3.263 ）

ISSN： 1471-2156

年卷期： 2015 年 16 卷

页码：

收录情况： SCI

摘要： Background: In recent years, with the development of high-throughput sequencing technology and the commercial availability of genotyping bead chips, more attention is being directed towards the utilization of abundant genetic markers in animal and plant breeding programs, human disease risk prediction and personal medicine. Several useful approaches to accomplish genomic prediction have been developed and used widely, but still have room for improvement to gain more accuracy. In this study, an improved Bayesian approach, termed BayesB pi,which differs from the original BayesB in priors assigning, is proposed. An effective method for calculating the locus-specific pi by converting p-values from association between SNPs and traits' phenotypes is given and systemically validated using a German Holstein dairy cattle population. Furthermore, the new method is applied to a loblolly pine (Pinus taeda) dataset. Results: Compared with the original BayesB, BayesB pi can improve the accuracy of genomic prediction up to 7.62 % for milk fat percentage, a trait which shows a large effect of quantitative trait loci (QTL). For milk yield, which is controlled by small to moderate effect genes, the accuracy of genomic prediction can be improved up to 4.94 %. For somatic cell score, of which no large effect QTL has been reported, GBLUP performs better than Bayesian methods. BayesB pi outperforms BayesC pi in 10 out of 12 scenarios in the dairy cattle population, especially in small to moderate population sizes where accuracy of BayesCp are dramatically low. Results of the loblolly pine dataset show that BayesB pi outperforms BayesB in 14 out of 17 traits and BayesC pi in 8 out of 17 traits, respectively. Conclusions: For traits controlled by large effect genes, BayesB pi can improve the accuracy of genomic prediction and unbiasedness of BayesB in moderate size populations. Knowledge of traits' genetic architectures can be integrated into practices of genomic prediction by assigning locus-specific priors to markers, which will help Bayesian approaches perform better in variable selection and marker effects shrinkage.

分类号：

相关文献

[1]Accuracy of genomic prediction using low-density marker panels. Zhang, Z.,Ding, X.,Liu, J.,Zhang, Q.,Zhang, Z.,de Koning, D. -J.,Zhang, Z.,de Koning, D. -J.,de Koning, D. -J..

[2]Underappreciated problems of low replication in ecological field studies. Lemoine, Nathan P.,Hoffman, Ava,Felton, Andrew J.,Baur, Lauren,Chaves, Francis,Gray, Jesse,Yu, Qiang,Smith, Melinda D.,Yu, Qiang.

[3]Association mapping of loci controlling genetic and environmental interaction of soybean flowering time under various photo-thermal conditions. Mao, Tingting,Li, Wenbin,Han, Tianfu,Mao, Tingting,Li, Jinyu,Wu, Tingting,Wu, Cunxiang,Sun, Shi,Jiang, Bingjun,Hou, Wensheng,Han, Tianfu,Wen, Zixiang,Wang, Dechun,Song, Qijian. 2017

[4]Genome-wide association study for soybean cyst nematode resistance in Chinese elite soybean cultivars. Zhang, Jun,Li, Wei,Zhang, Yanwei,Zhang, Lifeng,Dai, Haiying,Xu, Ran,Wen, Zixiang,Wang, Dechun,Zhang, Jun.

[5]Accuracy of Whole-Genome Prediction Using a Genetic Architecture-Enhanced Variance-Covariance Matrix. Zhang, Zhe,He, Jinlong,Gao, Ning,Zhang, Hao,Li, Jiaqi,Erbe, Malena,Ober, Ulrike,Simianer, Henner. 2015

[6]Genome-wide association mapping of QTL underlying seed oil and protein contents of a diverse panel of soybean accessions. Li, Ying-hui,Hong, Hui-long,Li, Hui-hui,Liu, Zhang-xiong,Tian, Yun,Li, Yan-fei,Qiu, Li-juan,Reif, Jochen C.,Ma, Yan-song,Li, Jun,Li, Wen-bin. 2018

[7]A dynamic framework for quantifying the genetic architecture of phenotypic plasticity. Wang, Zhong,Lv, Yafei,Xu, Fang,Zhou, Tao,Li, Xin,Feng, Sisi,Wu, Rongling,Pang, Xiaoming,Li, Jiahan,Li, Zhikang,Wu, Rongling.

[8]Comparative study of estimation methods for genomic breeding values. Wang, Chonglong,Qian, Rong,Wang, Chonglong,Zhang, Qin,Jiang, Li,Ding, Xiangdong,Wang, Chonglong,Zhao, Yaofeng. 2016

[9]Achievements and prospects of genomics-assisted breeding in three legume crops of the semi-arid tropics. Varshney, Rajeev K.,Mohan, S. Murali,Gaur, Pooran M.,Pandey, Manish K.,Sawargaonkar, Shrikant L.,Chitikineni, Annapurna,Janila, Pasupuleti,Saxena, K. B.,Sharma, Mamta,Rathore, Abhishek,Mallikarjuna, Nalini,Gowda, C. L. L.,Varshney, Rajeev K.,Varshney, Rajeev K.,Varshney, Rajeev K.,Liang, Xuanqiang,Gangarao, N. V. P. R.,Pandey, Manish K.,Bohra, Abhishek,Pratap, Aditya,Datta, Subhojit,Chaturvedi, S. K.,Nadarajan, N.,Kimurto, Paul K.,Fikre, Asnake,Tripathi, Shailesh,Bharadwaj, Ch.,Anuradha, G.,Babbar, Anita,Choudhary, Arbind K.,Mhase, M. B.,Mannur, D. M.. 2013

[10]Incorporating Gene Annotation into Genomic Prediction of Complex Phenotypes. Gao, Ning,Zhang, Zhe,Yuan, Xiaolong,Zhang, Hao,Li, Jiaqi,Gao, Ning,Martini, Johannes W. R.,Simianer, Henner. 2017

[11]Genome-Wide Association Study and QTL Mapping Reveal Genomic Loci Associated with Fusarium Ear Rot Resistance in Tropical Maize Germplasm. Chen, Jiafa,Ding, Junqiang,Wu, Jianyu,Chen, Jiafa,Ding, Junqiang,Wu, Jianyu,Wu, Jianyu,Chen, Jiafa,Shrestha, Rosemary,Zheng, Hongjian,Mu, Chunhua,Mahuku, George,Zheng, Hongjian,Mu, Chunhua,Mahuku, George. 2016

[12]Accuracy of genomic prediction for milk production traits in the Chinese Holstein population using a reference population consisting of cows. Ding, X.,Zhang, Z.,Li, X.,Wang, S.,Wu, X.,Sun, D.,Yu, Y.,Liu, J.,Wang, Y.,Zhang, Y.,Zhang, S.,Zhang, Y.,Zhang, Q.,Zhang, Z.. 2013

[13]Genetic parameters and trends for production and reproduction traits of a Landrace herd in China. Zhang Zhe,Zhang Hao,Pan Rong-yang,Wu Long,Li Ya-lan,Chen Zan-mou,Cai Geng-yuan,Li Jia-qi,Wu Zhen-fang. 2016

[14]Potential of marker selection to increase prediction accuracy of genomic selection in soybean (Glycine max L.). Li, Wenbin,Ma, Yansong,Liu, Zhangxiong,Guo, Yong,Qiu, Lijuan,Ma, Yansong,Luan, Xiaoyan,Reif, Jochen C.,Jiang, Yong,Wen, Zixiang,Wang, Dechun,Han, Tianfu,Wu, Cunxiang,Sun, Shi,Wei, Shuhong,Wang, Shuming,Yang, Chunming,Wang, Huicai,Yang, Chunming,Zhang, Mengchen,Lu, Weiguo,Xu, Ran,Zhou, Rong,Zhou, Xinan,Wang, Ruizhen,Sun, Zudong,Chen, Huaizhu,Zhang, Wanhai,Sun, Bincheng,Wu, Jian,Han, Dezhi,Yan, Hongrui,Hu, Guohua,Liu, Chunyan,Fu, Yashu,Chen, Weiyuan,Guo, Tai,Zhang, Lei,Yuan, Baojun.

[15]The strategy and potential utilization of temperate germplasm for tropical germplasm improvement: a case study of maize (Zea mays L.). Wen, Weiwei,Tovar, Victor H. Chavez,Taba, Suketoshi,Wen, Weiwei,Yan, Jianbing,Guo, Tingting,Li, Huihui. 2012

[16]Transcriptome Analysis Suggests That Chromosome Introgression Fragments from Sea Island Cotton (Gossypium barbadense) Increase Fiber Strength in Upland Cotton (Gossypium hirsutum). Quanwei Lu,Yuzhen Shi,Huang, Jinling,Yuan, Youlu,Xianghui Xiao,Pengtao Li,Juwu Gong,Wankui Gong,Aiying Liu,Haihong Shang,Junwen Li,Qun Ge,Weiwu Song,Shaoqi Li,Zhen Zhang,Md Harun or Rashid,Renhai Peng,Youlu Yuan,Jinling Huang. 2017

[17]Effect of Trait Heritability, Training Population Size and Marker Density on Genomic Prediction Accuracy Estimation in 22 bi-parental Tropical Maize Populations. Zhang, Ao,Liu, Yubo,Cui, Zhenhai,Ruan, Yanye,Yu, Haiqiu,Zhang, Ao,Wang, Hongwu,Liu, Yubo,Burgueno, Juan,San Vicente, Felix,Crossa, Jose,Zhang, Xuecai,Wang, Hongwu,Beyene, Yoseph,Semagn, Kassa,Olsen, Michael,Prasanna, Boddupalli M.,Cao, Shiliang,Semagn, Kassa. 2017

[18]Comparison of single-trait and multiple-trait genomic prediction models. Guo, Gang,Zhao, Fuping,Du, Lixin,Guo, Gang,Guo, Gang,Wang, Yachun,Zhang, Yuan,Guo, Gang,Su, Guosheng. 2014

[19]Genome-Wide SNP Discovery and Analysis of Genetic Diversity in Farmed Sika Deer (Cervus nippon) in Northeast China Using Double-Digest Restriction Site-Associated DNA Sequencing. Ba, Hengxing,Jia, Boyin,Wang, Guiwu,Yang, Yifeng,Li, Chunyi,Kedem, Gilead. 2017

[20]Whole-genome strategies for marker-assisted plant breeding. Xu, Yunbi,Lu, Yanli,Gao, Shibin,Prasanna, Boddupalli M.. 2012

作者其他论文更多>>

Comparison of toxic effects of phenanthrene and perfluorooctane sulfonate on Chinese tongue sole Cynoglossus semilaevis larva in a muti-biomarker approach

作者：Zhang, Zhe;Duan, Yafei;Zhang, Linbao;Tian, Fei;Xiong, Qian;Chen, Haigang;Xia, Bin

关键词：Cynoglossus semilaevis; Phenanthrene; Perfluorooctane sulfonate; Cytochrome P450; Antioxidant enzymes; Nuclear hormone receptor
Estimation Model for Cotton Canopy Structure Parameters Based on Spectral Vegetation Index

作者：Qi, Yaqin;Chen, Xi;Chen, Zhengchao;Zhang, Hao;Qi, Yaqin;Zhang, Xin;Shen, Congju;Chen, Bing;Wang, Qiong;Liu, Taijie;Qi, Yaqin;Chen, Yan;Peng, Yuanying

关键词：spectral vegetation index; cotton canopy information; estimation model
Single-cell transcriptome atlas of lamprey exploring Natterin- induced white adipose tissue browning

作者：Pang, Yue;Du, Zeyu;Zhang, Jin;Lu, Jiali;Li, Jun;Dong, Xinrui;Zhao, Zhisheng;Chuan, Shunqin;Sun, Mingjie;Li, Qingwei;Pang, Yue;Du, Zeyu;Zhang, Jin;Lu, Jiali;Li, Jun;Dong, Xinrui;Zhao, Zhisheng;Chuan, Shunqin;Sun, Mingjie;Li, Qingwei;Qin, Yating;Liu, Qun;Han, Kai;Yuan, Zengbao;Pan, Shanshan;Xu, Mengyang;Wang, Dantong;Li, Zhen;Chen, Yadong;Song, Yue;Zhan, Liping;Cui, Wei;Wang, Jun;Fan, Guangyi;Qin, Yating;Liu, Qun;Han, Kai;Fan, Guangyi;Qin, Yating;Liu, Qun;Han, Kai;Song, Yue;Qin, Yating;Fan, Guangyi;Yuan, Zengbao;Xu, Mengyang;Wang, Dantong;Gu, Ying;Yang, Huanming;Xu, Xun;Liu, Xin;Fan, Guangyi;Xu, Mengyang;Fan, Guangyi;Li, Shuo;Zhang, Zhe;Ni, Ming;Jia, Xiaodong;Xia, Zhangyong;Yue, Zhen;Fan, Guangyi;Gu, Ying;Yang, Huanming;Xu, Xun;Liu, Xin

关键词：
Genome-wide CRISPR screens identify CLC-2 as a drug target for anti-herpesvirus therapy: tackling herpesvirus drug resistance

作者：Yang, Fayu;Wei, Nan;Cai, Shuo;Liu, Jing;Zhang, Hao;Shang, Lu;Wang, Mi;Liu, Yingchun;Zhang, Lifang;Fei, Chenzhong;Tong, Wu;Liu, Changlong;Tong, Guangzhi;Gu, Feng;Yang, Fayu;Wei, Nan;Cai, Shuo;Liu, Jing;Zhang, Hao;Shang, Lu;Wang, Mi;Liu, Yingchun;Zhang, Lifang;Fei, Chenzhong;Gu, Feng;Yang, Fayu;Lan, Qingping;Kuang, Ersheng;Zheng, Bo

关键词：herpesviruses; CRISPR; host-directed therapy; CLC-2; DIDS
Characterization and comparison of metabolites in colostrum from yaks, buffaloes, and cows based on UPLC-QTRAP-MS metabolomics

作者：Zhang, Xueyan;Li, Changhui;Zhang, Hao;Huang, Jiaxiang;Zeng, Qingkun;Li, Ling;Yang, Pan;Wang, Pengjie;Zhang, Hao;Chu, Min;Luo, Jie;Zhang, Hao

关键词：UPLC-MS; Inositol; Carnitine; Primary bile acids; Multivariate statistical analysis; Targeted metabolomics
Caffeic acid improves biocontrol effect of Pantoea jilinensis D25 against tomato gray mold

作者：Zheng, Lining;Zheng, Shuanglan;Wang, Shengyi;Han, Zhe;Gao, Ao;Zhang, Hao;Wu, Xian;Pan, Hongyu

关键词：Pantoea jilinensis D25; tomato; Botrytis cinerea; biocontrol effect; caffeic acid
Untargeted Metabolomics Reveals Key Differences Between Yak, Buffalo, and Cow Colostrum Based on UHPLC-ESI-MS/MS

作者：Wang, Yuzhuo;Li, Changhui;Zhang, Hao;Huang, Jiaxiang;Zeng, Qingkun;Li, Ling;Yang, Pan;Wang, Pengjie;Ren, Fazheng;Zhang, Hao;Chu, Min;Luo, Jie;Ren, Fazheng;Zhang, Hao

关键词：untargeted metabolomics; yak colostrum; buffalo colostrum; cow colostrum; specific milk composition; colostrum biomarkers

Improving accuracy of genomic prediction by genetic architecture based priors in a Bayesian model

作者其他论文 更多>>

Comparison of toxic effects of phenanthrene and perfluorooctane sulfonate on Chinese tongue sole Cynoglossus semilaevis larva in a muti-biomarker approach

Estimation Model for Cotton Canopy Structure Parameters Based on Spectral Vegetation Index

Single-cell transcriptome atlas of lamprey exploring Natterin- induced white adipose tissue browning

Genome-wide CRISPR screens identify CLC-2 as a drug target for anti-herpesvirus therapy: tackling herpesvirus drug resistance

Characterization and comparison of metabolites in colostrum from yaks, buffaloes, and cows based on UPLC-QTRAP-MS metabolomics

Caffeic acid improves biocontrol effect of Pantoea jilinensis D25 against tomato gray mold

Untargeted Metabolomics Reveals Key Differences Between Yak, Buffalo, and Cow Colostrum Based on UHPLC-ESI-MS/MS

作者其他论文更多>>