团队队伍

  • 姓名:赵雪
  • 性别:
  • 职称:教授
  • 硕、博导:博导
  • 学科领域:作物遗传育种
  • 研究方向:大豆基因组学与分子育种
  • 办公地点:公共基础实验中心531
  • 办公电话:18846771513
  • 电子邮件:xuezhao@neau.edu.cn

个人简介

学习经历:

1999.09-2002.06绥化市第一中学高中

2002.09-2006.06beat365中国在线体育 农学专业 本科毕业获农学学士学位

2006.09-2009.06beat365中国在线体育 作物遗传育种 硕士毕业获农学硕士学位

2009.09-2012.06beat365中国在线体育 作物遗传育种 博士毕业获农学博士学位

工作经历:

2012.09-2014.08beat365中国在线体育大豆生物学教育部重点实验室 助理研究员

2014.09-2020.08beat365中国在线体育大豆生物学教育部重点实验室 副研究员

2020.09-今 beat365官方网站种子科学与工程系 教授

教学工作

2019年至2023年,讲授《作物育种(3)》

2023年至今,讲授《作物育种学》

科研项目

1.大豆高产优质性状形成的分子调控网络及其协同改良机制(2021YFF1001204-6),国家重点研发子课题,2022.01-2024.12;

2.大豆抗菌核病主效QTL‘Rswm13’遗传基础解析及抗病基因作用机制研究(31871650),国家自然科学基金面上项目,2019.01-2022.12;

3.北方早熟大豆优质高产广适新品种培育(2017YFD0101302),国家重点研发专项课题,2017.07-2020.12;

4.大豆抗菌核病主效位点精细定位及抗病基因挖掘研究(C2018016),黑龙江省自然科学基金面上项目,2018.07-2021.12;

5.北方早熟大豆优质高产广适新品种培育(GX18B048),国家课题省级配套项目,2018.12-2020.12;

6.大豆胞囊线虫病广谱抗性位点Rscn1的精细定位和抗病基因功能研究(31301339),国家自然科学基金青年项目,2014.01-2016.12;

7.大豆抗菌核病基因挖掘及功能研究(LHB-Q20004),黑龙江省博士后基金,2020.10-2022.12.10;

8.大豆抗胞囊线虫3号和4号生理小种的位点和基因挖掘研究(LHB-2015017),黑龙江省博士后基金,2016.10-2018.12.07;

9.大豆抗菌核病基因挖掘及育种价值分析(UNPYSCT-2016145),黑龙江省高等院校青年人才培养计划,2016.12-2019.12.10;

10.大豆抗菌核病基因挖掘研究(17XG22),东农学者学术骨干计划,2017.10-2020.10;

11.大豆抗菌核病位点及基因挖掘研究(14QC27),东农学者青年才俊计划,2017.10-2020.10;嗯

12.大豆胞囊线虫病多抗位点Rscn1的精细定位及分子辅助选择育种(12541049),2014.1-2016.12。

论文著作

论文

1.Zhao, Xue; Teng, Weili; Li, Yinghui; Liu, Dongyuan; Cao, Guanglu; Li, Dongmei; Qiu, Lijuan; Zheng, Hongkun; Han, Yingpeng; Li, Wenbin. Loci and candidate genes conferring resistance to soybean cyst nematode HG type 2.5.7. BMC GENOMICS. 2017, 18: 462. DOI: 10.1186/s12864-017-3843-y. IF=4.547

2.Zhao, Xue; Li, Wenjing; Zhao, Xiaoyue; Wang, Jinyang; Liu, Zhiyang; Han, Yingpeng; Li, Wenbin. Genome-wide association mapping and candidate gene analysis for seed shape in soybean (Glycine max). CROP & PASTURE SCIENCE. 2019, 70(8): 684-693. DOI: 10.1071/CP19028. IF=2.249

3.Zhao, Xue; Jing, Yan; Luo, Zhenghui; Gao, Sainan; Teng, Weili; Zhan, Yuhang; Qiu, Lijuan; Zheng, Hongkun; Li, Wenbin; Han, Yingpeng. GmST1, which encodes a sulfotransferase, confers resistance to soybean mosaic virus strains G2 and G3. PLANT CELL AND ENVIRONMENT. 2021, 44(8): 2777-2792. DOI: 10.1111/pce.14066. IF=7.947

4.Zhao, Xue; Jiang, Haipeng; Feng, Lei; Qu, Yingfan; Teng, Weili; Qiu, Lijuan; Zheng, Hongkun; Han, Yingpeng; Li, Wenbin. Genome-wide association and transcriptional studies reveal novel genes for unsaturated fatty acid synthesis in a panel of soybean accessions. BMC GENOMICS. 2019, 20: 68. DOI: 10.1186/s12864-019-5449-z. IF=4.547

5.Zhao, Xue; Han, Yingpeng; Li, Yinghui; Liu, Dongyuan; Sun, Mingming; Zhao, Yue; Lv, Chunmei; Li, Dongmei; Yang, Zhijiang; Huang, Long; Teng, Weili; Qiu, Lijuan; Zheng, Hongkun; Li, Wenbin. Loci and candidate gene identification for resistance to Sclerotinia sclerotiorum in soybean (Glycine max L. Merr.) via association and linkage maps. PLANT JOURNAL. 2015, 82(2): 245-255. DOI: 10.1111/tpj.12810. IF=7.091

6.Zhao, Xue; Dong, Hairan; Chang, Hong; Zhao, Jingyun; Teng, Weili; Qiu, Lijuan; Li, Wenbin; Han, Yingpeng. Genome wide association mapping and candidate gene analysis for hundred seed weight in soybean [Glycine max (L.) Merrill]. BMC GENOMICS. 2019, 20(1): 648. DOI: 10.1186/s12864-019-6009-2. IF=4.547

7.Zhao, Xue; Chang, Hong; Feng, Lei; Jing, Yan; Teng, Weili; Qiu, Lijuan; Zheng, Hongkun; Han, Yingpeng; Li, Wenbin. Genome-wide association mapping and candidate gene analysis for saturated fatty acid content in soybean seed. PLANT BREEDING. 2019, 138(5): 588-598. DOI: 10.1111/pbr.12706. IF=2.536呜呜呜

8.Zhao, Xue; Bao, Dongfang; Wang, Wei; Zhang, Chanjuan; Jing, Yan; Jiang, Haipeng; Qiu, Lijuan; Li, Wenbin; Han, Yingpeng. Loci and candidate gene identification for soybean resistance to Phytophthora root rot race 1 in combination with association and linkage mapping. MOLECULAR BREEDING. 2020, 40(10): 100. DOI: 10.1007/s11032-020-01179-9. IF=3.297

9.Zhao Xue; Chang Wei; Han Ying-peng; Teng Wei-li; Li Wen-bin. A Modified Method for the development of SSR molecular markers based on redundant EST data and its application in soybean. JOURNAL OF INTEGRATIVE AGRICULTURE. 2012, 11(4): 545-555. DOI: 10.1016/S2095-3119(12)60041-0. IF=4.384

10. Jianan, Zou; Li, Wenjing; Zhang, Yuting; Song, Wei; Jiang, Haipeng; Zhao, Jingyun; Zhan, Yuhang; Teng, Weili; Qiu, Lijuan;Zhao, Xue*; Han, Yingpeng*. Identification of glutathione transferase gene associated with partial resistance to Sclerotinia stem rot of soybean using genome-wide association and linkage mapping. THEORETICAL AND APPLIED GENETICS. 2021, 134(8): 2699-2709. DOI: 10.1007/s00122-021-03855-6. IF=5.574

11. Jiang, Haipeng; Bu, Fanshan; Tian, Lizheng; Sun, Qiuxia; Bao, Dongfang;Zhao, Xue*; Han, Yingpeng*. RNA-Seq-based identification of potential resistance mechanism against the soybean cyst nematode (Heterodera glycines) HG Type 0 in soybean (Glycine max) cv. Dongnong L-204. CROP & PASTURE SCIENCE. 2020, 71(6): 539-551. DOI: 10.1071/CP20060. IF=2.249.嗯

12. Jiang, Haipeng; Bu, Fanshan; Tian, Lizheng; Sun, Qiuxia; Bao, Dongfang;Zhao, Xue*; Han, Yingpeng*. Transcriptional analysis reveals the response mechanism of soybean (Glycine max) Kangxian 2 to soybean cyst nematode (Heterodera glycines) HG Type 0. CROP & PASTURE SCIENCE. 2021, 72(1): 44-54. DOI: 10.1071/CP20254. IF=2.249

13. Jiang, Haipeng; Bu, Fanshan; Yan, Shixin; Li, Yi; Wu, Tong; Bai, Ruiyao; Xu, Aitong;Zhao, Xue*; Han, Yingpeng*. RNA-Seq analysis of resistant and susceptible soybean genotypes in response to stress from soybean cyst nematode (Heterodera glycines) HG type 1.2.3.5.7. CROP & PASTURE SCIENCE. 2022, 73(3): 238-248. DOI: 10.1071/CP21447. IF=2.249

14. Jiang, Haipeng; Tian, Lizheng; Bu, Fanshan; Sun, Qiuxia;Zhao, Xue*; Han, Yingpeng*. RNA-seq-based identification of potential resistance genes against the soybean cyst nematode (Heterodera glycines) HG Type 1.2.3.5.7 in 'Dongnong L-10'. PHYSIOLOGICAL AND MOLECULAR PLANT PATHOLOGY. 2021, 114: 101627. DOI: 10.1016/j.pmpp.2021.101627. IF=2.604。

15. Jing, Yan; Teng, Weili; Qiu, Lijuan; Zheng, Hongkun; Li, Wenbin; Han, Yingpeng*;Zhao, Xue*. Genetic dissection of soybean partial resistance to sclerotinia stem rot through genome wide association study and high throughout single nucleotide polymorphisms. GENOMICS. 2021, 113(3): 1262-1271. DOI: 10.1016/j.ygeno.2020.10.042. IF=4.31

16. Li, Minmin; Liu, Ying; Tao, Yahan; Xu, Chongjing; Li, Xin; Zhang, Xiaoming; Han, Yingpeng; Yang, Xue; Sun, Jingzhe; Li, Wenbin; Li, Dongmei*;Zhao, Xue*;Zhao, Lin*. Identification of genetic loci and candidate genes related to soybean flowering through genome wide association study. BMC GENOMICS. 2019, 20(1): 987. DOI: 10.1186/s12864-019-6324-7. IF=4.547

17. Li, Ruiqiong; Zou, Jianan; Sun, Dongming; Jing, Yan; Wu, Depeng; Lian, Ming; Teng, Weili; Zhan, Yuhang; Li, Wenbin;Zhao, Xue*; Han, Yingpeng*. Fine-mapping andfunctionalanalyses of acandidategenecontrollingisoflavonecontent insoybeansseed. FRONTIERS IN PLANT SCIENCE. 2022, 13: 865584. DOI: 10.3389/fpls.2022.865584. IF=6.627

18. Sui, Meinan; Jing, Yan; Li, Haiyan; Zhan, Yuhang; Luo, Jian; Teng, Weili; Qiu, Lijuan; Zheng, Hongkun; Li, Wenbin;Zhao, Xue*; Han, Yingpeng*. Identification ofloci andcandidategenesanalyses fortocopherolconcentration ofsoybeanseed. FRONTIERS IN PLANT SCIENCE. 2020, 11: 539460. DOI: 10.3389/fpls.2020.539460. IF=6.627

19. Sui, Meinan; Wang, Yue; Bao, Yuyue; Wang, Xi; Li, Ruiqiong; Lv, Yan; Yan, Ming; Quan, Chao; Li, Chunxia; Teng, Weili; Li, Wenbin;Zhao, Xue*; Han, Yingpeng*. Genome-wide association analysis of sucrose concentration in soybean (Glycine maxL.) seed based on high-throughput sequencing. PLANT GENOME. 2020, 13(3): e220059. DOI: 10.1002/tpg2.20059. IF=4.219

20. Sui, Meinan; Wang, Yue; Cui, Zhihui; Teng, Weili; Yuan, Ming; Li, Wenbin; Wang, Xi; Li, Ruiqiong; Lv, Yan; Yan, Ming; Quan, Chao;Zhao, Xue*; Han, Yingpeng*. Genome-wide association mapping and candidate gene analysis for water-soluble protein concentration in soybean (Glycine max) based on high-throughput single nucleotide polymorphism markers. CROP & PASTURE SCIENCE. 2020, 71(3): 239-248. DOI: 10.1071/CP19425. IF=2.249

21. Sun, Maolin; Na, Chen; Jing, Yan; Cui, Zhihui; Li, Na; Zhan, Yuhang; Teng, Weili; Li, Yongguang; Li, Wenbin;Zhao, Xue*; Han, Yingpeng*. Genome-wide Associationanalysis andgenemining ofresistance tochinarace 1 offrogeyeleafspot insoybean. FRONTIERS IN PLANT SCIENCE. 2022, 13: 867713. DOI: 10.3389/fpls.2022.867713. IF=6.627

22. Sun, Maolin; Zhao, Kezhen; Wang, Jie; Mu, Wenqing; Zhan, Yuhang; Li, Wenbin; Teng, Weili;Zhao, Xue*; Hang, Yingpeng*. Identification of quantitative trait loci underlying lodging of soybean across multiple environments. CROP & PASTURE SCIENCE. 2022, 73(6): 652-662. DOI: 10.1071/CP21468. IF=2.249

23. Wang, Jie; Li, Xiaoxue; Zhao, Xunchao; Na, Chen; Liu, Hongliang; Miao, Huanran; Zhou, Jinghang; Xiao, Jialei;Zhao, Xue*; Han, Yingpeng*. Genome-wideidentification andcharacterization of theabiotic-stress-responsive LACSgenefamily insoybean (Glycine max). AGRONOMY-BASEL. 2022, 12(7): 1496. DOI: 10.3390/agronomy12071496. IF=3.949

24. Wu, Depeng; Li, Chunxia; Jing, Yan; Wang, Jun;Zhao, Xue*; Han, Yingpeng*. Identification of quantitative trait loci underlying soybean (Glycine max) 100-seed weight under different levels of phosphorus fertilizer application. PLANT BREEDING. 2020, 139(5): 959-968. DOI: 10.1111/pbr.12850. IF=2.536

25. Yu, Kuanwei; Na, Chen; Zhao, Xunchao; Zhao, Kezhen; Zhan, Yuhang; Xia, Ning;Zhao, Xue*; Han, Yingpeng*. Genome-wide identification and expression analysis of the polyamine oxidase gene family in soybean. CANADIAN JOURNAL OF PLANT SCIENCE. 2022, (): -. DOI: 10.1139/CJPS-2022-0019. IF=4.547

26. Zhang, Chanjuan; Han, Yingpeng; Qu, Yingfan; Teng, Weili;Zhao, Xue*. Identification of quantitative trait loci underlying resistance of soybean to Fusarium graminearum. PLANT BREEDING. 2020, 139(1): 141-147. DOI: 10.1111/pbr.12760. IF=2.536

27. Zhao, Kezhen; Yu, Kuanwei; Fu, Xue; Zhao, Xunchao; Xia, Ning; Zhan, Yuhang;Zhao, Xue*; Han, Yingpeng*. Genome-wide identification and expression profile analysis of the OMT gene family in response to cyst nematodes and multi-abiotic stresses in soybean. CROP & PASTURE SCIENCE. 2022, 73(11): 1279-1290. DOI: 10.1071/CP22002. IF=2.249

28. Han, Yingpeng;Zhao, Xue(并列一作); Cao, Guanglu; Wang, Yan; Li, Yinghui; Liu, Dongyuan; Teng, Weili; Zhang, Zhiwu; Li, Dongmei; Qiu, Lijuan*; Zheng, Hongkun*; Li, Wenbin*. Genetic characteristics of soybean resistance to HG type 0 and HG type 1.2.3.5.7 ofthe cyst nematode analyzed by genome-wide association mapping. BMC GENOMICS. 2015, 16: 598. DOI: 10.1186/s12864-015-1800-1. IF=4.547

29. Han, Yingpeng;Zhao, Xue(并列一作); Liu, Dongyuan; Li, Yinghui; Lightfoot, David A.; Yang, Zhijiang; Zhao, Lin; Zhou, Gang; Wang, Zhikun; Huang, Long; Zhang, Zhiwu; Qiu, Lijuan; Zheng, Hongkun; Li, Wenbin. Domestication footprints anchor genomic regions ofagronomic importance in soybeans. NEW PHYTOLOGIST. 2016, 209(2): 871-884. DOI: 10.1111/nph.13626. IF=10.323

30. Jing, Yan;Zhao, Xue(并列一作); Wang, Jinyang; Teng, Weili; Qiu, Lijuan; Han, Yingpeng; Li, Wenbin. Identification of thegenomicregionunderlyingseedweight perplant insoybean (Glycine max L. Merr.) viahigh-throughputsingle-nucleotidepolymorphisms and agenome-wideassociationstudy. FRONTIERS IN PLANT SCIENCE. 2018, 9: 1392. DOI: 10.3389/fpls.2018.01392. IF=6.627

31. Jing, Yan;Zhao, Xue(并列一作); Wang, Jun; Lian, Ming; Teng, Weili; Qiu, Lijuan; Han, Yingpeng; Li, Wenbin. Identification of loci and candidate genes for plant height in soybean (Glycine max) via genome-wide association study. PLANT BREEDING. 2019, 138(6):721-732. DOI: 10.1111/pbr.12735. IF=2.536

32. Li, Dongmei;Zhao, Xue(并列一作); Han, Yingpeng; Li, Wenbin; Xie, Futi. Genome-wide association mapping for seed protein and oil contents using a large panel of soybean accessions. GENOMICS. 2019, 111(1): 90-95. DOI: 10.1016/j.ygeno.2018.01.004. IF=4.31

33. Wang, Jinyang;Zhao, Xue(并列一作); Wang, Wei; Qu, Yingfan; Teng, Weili; Qiu, Lijuan; Zheng, Hongkun; Han, Yingpeng; Li, Wenbin. Genome-wide association study of inflorescence length of cultivated soybean based on the high-throughout single-nucleotide markers. MOLECULAR GENETICS AND GENOMICS. 2019, 294(3): 607-620. DOI: 10.1007/s00438-019-01533-3. IF=2.98

34. Zhang, Chanjuan;Zhao, Xue(并列一作); Qu, Yingfan; Teng, Weili; Qiu, Lijuan; Zheng, Hongkun; Wang, Zhenhua; Han, Yingpeng; Li, Wenbin. Loci and candidate genes in soybean that confer resistance to Fusarium graminearum. THEORETICAL AND APPLIED GENETICS. 2019, 132(2): 431-441. DOI: 10.1007/s00122-018-3230-3. IF=5.574

35. Wu, Depeng; Li, Dongmei(并列一作);Zhao, Xue(并列一作); Zhan, Yuhang; Teng, Weili; Qiu, Lijuan; Zheng, Hongkun; Li, Wenbin; Han, Yingpeng. Identification of a candidate gene associated with isoflavone content in soybean seeds using genome-wide association and linkage mapping. PLANT JOURNAL. 2020, 104(4): 950-963. DOI: 10.1111/tpj.14972. IF=7.091。

论著

1.赵雪,主编,基于大豆EST的分子标记开发及应用研究,黑龙江科技出版社,150000字,2014.06

2.赵雪,参编,Recent advances in Marker for soybean breeding,科学出版社,2012.04

其他成果

品种:

1.审定大豆新品种东农62(排名第3),2014;

2.审定大豆新品种东农67(排名第3),2016;

3.审定大豆新品种东农82(排名第5),2019

专利:

1.发明专利“一种辅助鉴定大豆对大豆花叶病毒抗性的方法”(排名第1),ZL201210073913.7,2014;

2.发明专利“一种抗大豆菌核病基因GmPR5、GmPR5转基因植株的构建与应用”(排名第1),ZL201911309597.7,2022;

3.发明专利“一种抗菌核病基因GmGST1、转GmGST1基因植株的构建与应用”(排名第1),ZL201911309610.9,2022;

4.发明专利“大豆基因GmTCM1及其获得方法与应用”(排名第1),ZL202011641417.8,2022。

5.发明专利“一种培育高产量大豆植株的方法以及一种大豆的基因及其应用”(排名第1)ZL202211243907.1,2023。

奖励:

1.2021年,优异大豆资源引进创新及新品种选育推广,黑龙江省科技进步二等奖,排名第二;

2. 2022年获中国作物学会金陵青年学术论坛一等奖。