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丁向東

(中國農業大學教授)

鎖定
丁向東,中國農業大學動物科學技術學院教授、博士、博士生導師,全國種豬遺傳評估中心專家組成員兼秘書;SCI雜誌Frontier in Genetics, Frontier in Veterinary Science,Animal BioScience編委;中國畜牧獸醫學會養豬學分會理事兼副秘書長;中國畜牧獸醫學會信息技術分會理事。 [1] 
中文名
丁向東
國    籍
中國
畢業院校
中國農業大學
主要成就
國家種豬遺傳評估系統關鍵技術研發、建立及應用
職    稱
教授

目錄

  1. 1 人物經歷
  2. 學習經歷
  3. 工作經歷
  4. 教學工作
  1. 2 研究方向
  2. 3 主要貢獻
  3. 科研項目
  4. 主要學術論文
  1. 授權專利
  2. 4 社會服務工作
  3. 5 獲得獎勵與榮譽

丁向東人物經歷

丁向東學習經歷

1999/09-2004/06中國農業大學,動物科技學院, 博士,指導老師:張勤教授。
1995/09-1999/06 中國農業大學,動物科技學院,學士。 [1] 

丁向東工作經歷

2008/01-至今 中國農業大學,動物科技學院,副研究員、副教授, 博士生導師
2015/02-2016/02 加州大學伯克利分校(美國),國家留學基金委訪問學者,合作導師:Rasmus Nielsen
2010/06-2010/12 奧胡斯大學動物遺傳系(丹麥),合作研究,合作導師:Mogens Lund, 蘇國生
2005/03-2008/02 哥廷根大學動物遺傳育種研究所(德國),博士後,合作導師:Henner Simianer
2004/07-2007/12 中國農業大學,動物遺傳育種與繁殖系,,講師

丁向東教學工作

本科生課程:《畜牧數據統計分析》、《畜產品生產與質量評定》、《豬生產學》
研究生課程:《統計遺傳學》、《分子數量遺傳學》

丁向東研究方向

統計遺傳,動物分子設計育種,遺傳評估 [1] 

丁向東主要貢獻

丁向東科研項目

(1) 中國-奧地利豬和牛聯合基因組育種,2020/07-2022/06, 國家重點研發計劃-政府間合作,科技部,177萬,主持
(2) 基於單細胞轉錄組測序技術挖掘影響豬胚胎期毛囊密度的細胞亞羣及其遺傳機理解析,2021/01-2024/12,國家自然科學基金,58萬,主持
(3) 國家生豬產業技術體系-性能測定與遺傳評估,2016/01-2020/12,農業農村部,350萬,主持
(4) 利用整合組學策略解析豬無毛性狀遺傳機理,2017/01-2020/12,國家自然科學基金,84萬,主持
(5) 基於全基因組選擇信號的中國荷斯坦牛產奶性狀基因定位,2013/01-2016/12, 國家自然科學基金,80萬,主持
(6) 豬全基因組選擇育種與生豬遺傳改良計劃2.0,2018/01-2021/12,農業農村部,165萬,主持
(7) 畜禽全基因組關聯分析基因定位的策略優化,2011/01-2012/12,教育部留學回國人員啓動基金,4萬,主持
(8) 北京市科技新星,2009-2013,北京市,8萬,主持
(9) 利用單倍型信息進行畜禽基因精細定位,2009/01-2011/12,國家自然科學基金,20萬,主持
(10) 精品種豬培育及產業化示範,2009/01-2011/12,北京市,40萬,主持
(11) 基於高密度SNP的標記輔助選擇技術,2008/01-2010/12, 科技部,90萬,主持 [1] 

丁向東主要學術論文

(1) SCI論文(第一和通訊作者,用*標註):
(1) Jiang Yao, Zou Quan, Liu Bo, Li Shujuan, Wang Yi, Liu Tianlong, Ding Xiangdong*, Atlas of prenatal hair follicle morphogenesis using the pig as a model system, Front. Cell Dev. Biol. 2021,| doi: 10.3389/fcell.2021.721979.(IF: 6.684)
(2) Shaolei Shi, Xiujin Li, Lingzhao Fang, Aoxing Liu, Guosheng Su, Yi Zhang, Basang Luobu, Xiangdong Ding*, Shengli Zhang*,Genomic prediction using Bayesian regression models with global-local prior. Frontiers in Genetics, 2021, 10.3389/fgene.2021.628205.(IF: 4.599)
(3) Huatao Liu, Hailiang Song, Yao Jiang, Yifan Jiang, Fengxia Zhang, Yibing Liu,Yong Shi, Xiangdong Ding*, Chuduan Wang*, A Single-Step Genome Wide Association Study on Body Size Traits Using Imputation-Based Whole-Genome Sequence Data in Yorkshire Pigs. Frontiers in Genetics, 2021, 10.3389/fgene.2021. 629049.(IF: 4.599)
(4) King Xing#, Huatao Liu#, Fengxia Zhang, Yibing Liu,Yong Shi, Xiangdong Ding*, Chuduan Wang*, Identification of key genes affecting porcine fat deposition based on co-expression network analysis of weighted genes. Journal of Animal Science and Biotechnology, 2021, 10.1186/s40104-021-00616-9.(IF: 5.922,中科院1區)
(5) Ying Yu, Siqian Chen, Shuli Liu, Siyuan Mi, Wenlong Li, Shengli Zhang*, Xiangdong Ding*, Comparative analyses of sperm DNA methylomes among three commercial pig breeds reveal vital hypomethylated regions associated with spermatogenesis and embryonic development. Frontiers in Genetics,2021, DOI: 10.3389/fgene.2021.740036.(IF: 4.599)
(6) Fu Lu, Jiang, Yao; Wang, Chonglong; Mei, Mengran; Zhou, Ziwen; Jiang, Yifan; Song, Hailiang; Ding Xiangdong*. A Genome-Wide Association Study on Feed Efficiency Related Traits in Landrace Pigs,Frontiers in Genetics, 2020, 11: 692.(IF: 3.517)
(7) Wang Yi, Niu Zhigang, Zeng Zhengcheng; Jiang Yao; Jiang Yifan; Ding Yugong; Tang Sen; Shi Hongcai*; Ding Xiangdong*. Using High-Density SNP Array to Reveal Selection Signatures Related to Prolificacy in Chinese and Kazakhstan Sheep Breeds. Animals, 2020, 10(9): 1633.(IF: 2.323)
(8) Song Hailiang; Zhang Qin; Ding Xiangdong*. The superiority of multi-trait models with genotype-by-environment interactions in a limited number of environments for genomic prediction in pigs. Journal of Animal Science and Biotechnology, 2020, 11(1): 88.(IF: 4.392,中科院1區)
(9) Song, Hailiang; Zhang, Qin; Misztal, Ignacy; Ding, Xiangdong*.Genomic prediction of growth traits for pigs in the presence of genotype by environment interactions using single-step genomic reaction norm model. Journal of Animal Breeding and Genetics, 2020, 137(6): 523-534.(IF:1.822)
(10) Jiang Y, Tang S, Xiao W, Yun P, Ding X*. A genome-wide association study of reproduction traits in four pig populations with different genetic backgrounds. Asian-Australas J Anim Sci. 2020 Sep;33(9):1400-1410.
(11) Yao Jiang, Yifan Jiang, Haihan Zhang, Mengran Mei,Hailiang Song,Xianghui Ma, Li Jiang, Zhenquan Yu, Qin Zhang, Xiangdong Ding*,A Mutation in MAP2 is Associated with Prenatal Hair Follicle Density, FASEB J,2019, 33(12):1-12.(IF:5.391)
(12) Hailiang Song, Shaopan Ye, Yifan Jiang, Zhe Zhang, Qin Zhang and Xiangdong Ding*, Using imputation-based whole genome sequence data to improve the accuracy of genomic prediction for admixed population in pig, Genetics Selection Evolution, 2019,51(1):58. (IF:4.017, 中科院1區)
(13) Jiang Y, Jiang Y, Wang S, Zhang Q, Ding X*. Optimal sequencing depth design for whole genome re-sequencing in pigs. BMC Bioinformatics. 2019 Nov 8;20(1):556.(IF:3.242)
(14) JinXin. Zhang, Hailiang. Song, Qin. Zhang, Xiangdong Ding*Assessment of relationships between animals based on pedigree and genomic information, Animal, 2019, 11: 1-9.(IF:2.4)
(15) Suoyu Zhang, Jinxin Zhang, Qin Zhang, Hongjie Yang, Zhigang Wang, Xiangdong Ding*, and Yuchun Pan*. Estimation of genetic parameters for reproductive traits in connectedness groups of Duroc, Landrace and Yorkshire pigs in China. Journal of Animal Breeding and Genetics. 2019, 9.(IF:1.822)
(16) Hailiang Song, Jinxin Zhang, Qin Zhang, Xiangdong Ding*. Using different single-step strategies to improve the efficiency of genomic prediction on body measurement traits in pig. Frontiers in Genetics, (2019).9: 730-730.(IF: 3.517)
(17) Hongying Ma, Sheng Wang#, Guorong Zeng, Jintu Guo, Minghao Guo…,Xiangdong Ding*,Chuanjiang Zhao*. The Origin of a Coastal Indigenous Horse Breed in China Revealed by Genome-Wide SNP Data. Genes, 2019, 10(3):241-267.(IF: 3.759)
(18) Peipei Ma, Ju Huang, Weijia Gong, Xiujin Li, Hongding Gao, Qin Zhang, Xiangdong Ding* and Chonglong Wang. The impact of genomic relatedness between populations on the genomic estimated breeding values. Journal of Animal Science and Biotechnology,2018 9:64.(IF: 4.392,中科院1區)
(19) *Dong-Dong Wu, Xiang-Dong Ding#, Sheng Wang,Jan M Wójcik, Yi Zhang, Małgorzata Tokarska, Yan Li, Ming-Shan Wang, Omar Faruque , Rasmus Nielsen*, Qin Zhang*, Ya-Ping Zhang*. Pervasive introgression facilitated domestication and adaptation in the Bos species complex[J]. Nature Ecology & Evolution, 2018, 2(7): 1139.(共1, IF:12.541,中科院1區)
(20) Yao Jiang, Shaoqing Tang, Chuduan. Wang, Yuan Wang, Yongxiao Qin, Yuliang Wang, Jinxin. Zhang, Hailiang Song, Shirong Mi, Fan Yu, Wei Xiao, Qin Zhang, Xiangdong Ding*. A genome-wide association study of growth and fatness traits in two pig populations with different genetic backgrounds[J]. Journal of Animal Science, 2018, 96(3):806-816.(IF: 2.155)
(21) Song hailiang, li leyi, Ma peipei, zhang shengli, Su guosheng, Mogens Lund, Zhang Qin, Ding Xiangdong*. Improving the accuracy of genomic prediction of body conformation traits in Chinese Holsteins using markers derived from high-density marker panels[J]. Journal of Dairy Science, 2018, 101(6):5250.(IF: 3.432,中科院1區)
(22) H Song, L Li, Q Zhang, S Zhang, X Ding*. Accuracy and bias of genomic prediction with different de-regression methods[J]. Animal, 2018, 12(6):1111-1117.(IF:2.4)
(23) Y Wang, X Ding#, Z Tan, K Xing, T Yang, Y Wang, D Sun, C Wang. Genome-wide association study for reproductive traits in a Large White pig population[J]. Animal Genetics, 2018, 49(2):127-131.(IF:2.841)
(24) H Song, J Zhang, Y Jiang, H Gao, S Tang, S Mi, F Yu, Q Meng, W Xiao, Q Zhang, X Ding*. Genomic prediction for growth and reproduction traits in pig using an admixed reference population[J]. Journal of Animal Science, 2017, 95(8):3415-3424.(IF: 2.155)
(25) Song H, Li L, Zhang Q, Zhang S, Ding X. Accuracy and bias of genomic prediction with different de-regression methods. Animal. 2018 Jun;12(6):1111-1117.(IF:2.4)
(26) Yuan Wang, Xiangdong Ding#, Zhen Tan, Chao Ning, Kai Xing, Ting Yang, Yongjie Pan, Dongxiao Sun, Chuduan Wang. Genome-Wide Association Study of Piglet Uniformity and Farrowing Interval[J]. Frontiers in Genetics, 2017, 8:194:1-9.(IF: 3.517)
(27) ChonglongWang, QinZhang, LiJiang, RongQian, XiangdongDing*, YaofengZhao*. Comparative study of estimation methods for genomic breeding value, Chinese Science Bulletin, 2016, 61(5):353-356.(IF:9.511,中科院1區)
(28) Ma Yunlong, Ding Xiangdong#, Qanbari S, S Weigend, Zhang Qin* and H Simianer. Properties of different selection signature statistics and a new strategy for combining them. Heredity (2015) 115, 426–436.(IF:3.436)
(29) He Sang,Wang Sheng,Fu WeiXuan, Ding Xiangdong*,Zhang Qin, Imputation of missing genotypes from low-to high-density SNP panel in different population designs, Animal Genetics, 2015, 46(1):1-7(IF:2.841)
(30) Zhe Zhang, Xiujin Li, Jiaqi Li, Xiangdong Ding*, Qin Zhang, GPOPSIM: a simulation tool for whole-genome genetic data, BMC genetics, 2015,16(10)1-6.(IF: 2.567)
(2) 中文:
(1) 邱奧,王雪,孟慶利,張勤,丁向東,三款豬50KSNP芯片基因型填充效果研究,中國畜牧雜誌,2021,33-38.
(2) 周子文,王雪,丁向東*. 基於高密度SNP標記估計羣體間遺傳關聯. 遺傳,2021,DOI: 10.16288/j.yczz.20-351.
(3) 丁向東, 邱小田, 王志剛, 等. 我國生豬遺傳改良計劃對生豬種業影響和未來工作建議[J]. 中國畜牧雜誌, 2020,56(6):169-174.
(4) 周子文,付璐,丁向東*等,利用後裔測定驗證大白豬基因組選擇實施效果研究,畜牧獸醫學報 2020 , 51 ( 10 ): 2367 - 2377.
(5) 張金鑫,唐韶青,宋海亮,高虹,蔣堯,江一凡,彌世榮,孟慶利,於凡,肖煒,雲鵬,張勤, 丁向東*, 北京地區大白豬基因組聯合育種研究,中國農業科學,2019,52(12):2161-2170
(6) 汪楷庭, 丁向東* 豬PLA2G4A基因單核苷酸多態性及其與飼料報酬性狀的關聯分析 2019,55(11):52-58
(7) 高虹 邱小田王長存,張金鑫,,張鎖宇,王源,張勤王志剛,楊紅傑,丁向東*,我國杜洛克、長白、大白豬區域性聯合遺傳評估研究,畜牧獸醫學報,2018,49(12):2567-2575.
(8) 張金鑫,張鎖宇,邱小田,王長存,王源,高虹,王志剛,楊紅傑,張勤,丁向東*. 我國杜洛克、長白和大白豬場間遺傳聯繫分析,畜牧獸醫學報,2017.
(9) 張越 楊宇澤 張金鑫 張鎖宇 邱小田 唐韶青 丁向東*,DMU、GBS和Herdsman3個軟件育種值估計的比較,中國畜牧雜誌,2017 , 53 (7) :29-35.
(10) 秦永孝;王玉梁;高雪峯;彌世榮;邱小田;張勤;丁向東*,基於紅外設備的母豬發情狀態下體温變化研究。畜牧獸醫學報, 2016,52(1):85-91.
(3) 軟件著作權:
(1) 全基因組基因與環境互作模擬軟件V1.0,2021SRBJ0035
(2) 基於系譜信息的羣體關聯估計軟件,2021SRBJ0422,2021
(3) 基於系譜信息的羣體關聯估計軟件,2020SRBJ0422,2020
(4) 基於隨機抽樣方法的羣體關聯估計軟件,2020SRBJ0502,2020
(5) 基於基因組信息的羣體關聯估計軟件 2020SRBJ0423,2020
(6) 綜合系譜和基因組信息的羣體關聯估計軟件 2020SRBJ0424,2020
(7) 基於一步策略快速估計基因組育種值軟件(簡稱fastBLUP) V1.0, 2019SRBJ0851,2019
(8) 豬基因組選擇育種網絡平台系統V2.0,2019SRBJ0853,2019
(9) 基因一步法自動化豬基因組遺傳評估軟件V2.0,2018SRBJ1087,2018
(10) 全國和區域性豬育種值估計計算軟件V1.0, 2018SRBJ1085,2018
(11) 不同品種豬場場間關聯率計算軟件V1.0,2018SRBJ1086,2018
(12) 豬基因組選擇育種網絡平台,2017SRBJ0040,2017
(13) 動物體温監測系統,2017SRBJ0106,2017
(14) 基於GBLUP方法自動化豬基因組遺傳評估軟件,2017SRBJ0105,2017
(15) 基於自動化需求的豬基因組遺傳評估軟件,2017SRBJ0168,2017
(16) 基於BayesR方法自動化豬基因組遺傳評估軟件,2017SRBJ0250,2017
(17) 基於一步法自動化豬基因組遺傳評估軟件,2017SRBJ0167,2017
(18) 基於自動化需求的全基因組選擇數據準備軟件V1.0,2015SRBJ0030,2015
(19) 基因組SNP芯片數據編輯軟件V1.0,2015SRBJ0210,2015
(20) 基於F統計量基因選擇信號檢測軟件V1.0, 2015SRBJ0213,2015
(21) 兩性狀全基因組數據模擬軟件V1.0,2014SRBJ0036,2014
(22) 基於一步法策略的基因組育種值估計軟件V1.0, 2014SRBJ0037,2014
(23) 基於基因組和微效多基因信息的混合模型估計基因組育種值軟件V1.0,2014SRBJ0038,2014
(24) 利用系譜傳遞不平衡精細定位基因軟件,2011SRBJ4833,2011
(25) 基因組育種值最佳線性無偏預測軟件V1.0,2010SRBJ5208,2010
(26) 全基因組羣體數據模擬程序軟件,2010SRBJ3976,2010
(27) 基因組育種值估計程序軟件, 2010SRBJ3977, 2010
(28) 半同胞資料單倍型推斷軟件,2010SRBJ5207, 2010 [1] 

丁向東授權專利

(1) 丁向東,宋海亮,張勤:一種豬全基因組低密度SNP芯片及其製作方法和應用,專利號:ZL201711190317.6
(2) 丁向東,蔣堯,梅孟然:一種影響豬毛囊發育的MAP2突變基因及應用,專利號:ZL201910036131.8
(3) 丁向東,蔣堯,梅孟然:一種影響豬毛囊發育的UNC5D突變基因及應用,專利號:ZL201910036737.1
(4) 丁向東,秦晉,鄒全,蔣堯:Cultivation method of porcine hair follicle stem cell. 一種豬毛囊幹細胞豬培養方法,國際專利號:AU2021105854 A4
(5) 丁向東,張勤,邱奧:一種基於靶向捕獲測序的豬50K液相芯片及其應用,申請號:202110359470.7(已完成了200萬元的專利轉讓)

丁向東社會服務工作

(1) 全國種豬遺傳評估中心專家組成員兼秘書
(2) SCI雜誌Frontier in Genetics, Frontier in Veterinary Science,Animal BioScience編委
(3) 中國畜牧獸醫學會養豬學分會理事兼副秘書長
(4) 中國畜牧獸醫學會信息技術分會理事

丁向東獲得獎勵與榮譽

(1) 中國荷斯坦牛基因組選擇分子育種技術體系的建立與應用,國家科技進步二等獎,科技部,2016
(2) 中國荷斯坦牛基因組選擇技術平台的建立與應用,北京市科學技術一等獎,北京市,2015
(3) 全國生豬遺傳改良體系建立和應用,中華農業科技獎,農業農村部,2015
(4) 種豬育種管理系統研究與應用,北京市農業推廣獎,北京市,2014,排名第1
(5) 國家種豬遺傳評估系統關鍵技術研發、建立及應用,高等學校科學研究優秀成果獎(二等獎),教育部,2012
(6) 國家和區域性種豬遺傳評估系統關鍵技術研發與應用,廣東省科技進步獎一等獎,廣東省,2011
(7) 北京市科技新星,2009 [1] 
參考資料