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赵志刚

赵志刚,教授,博士生导师。

长期从事水稻籼粳亚种间杂种优势利用相关新基因挖掘、定位、克隆、功能分析及育种利用研究,主要包括籼粳杂种不育新基因以及相应广亲和基因的发掘、定位、克隆与功能研究,开发相应分子标记和育种技术,成功培育籼粳交高产水稻新材料、新品系,取得显著成效。包括发掘qHMS7S7S31DAO9个育性基因,克隆和功能分析了4个杂种不育基因。先后承担国家自然基金云南联合基金,国家转基因项目子课题,国家863子课题,江苏省重点研发项目等课题10余项目,目前主持在研课题2项。2018年作为同等贡献第一作者首次报道植物中的自私基因qHMS7控制水稻种间杂种不育,利用基因编辑技术敲除自私基因使种间杂种F1育性得到恢复,克服了杂种优势利用过程中水稻杂种不育的难题,相关成果发表在20186月份的《Science》杂志。2013年作为第一作者克隆水稻生殖发育关键基因DAO,该基因能够将有活性的植物激素生长素降解为氧化生长素,从而控制植物的生殖发育,相应的结果发表在《Developmental Cell》。此外,通过对不育基因位点分子标记辅助选择的方法,参与育成了一个与籼稻广亲和的粳型不育系509S,该不育系与籼稻品种杂交表现强大的籼粳杂种优势,该不育系提供给全国18家育种单位利用,其中有8个组合已参加国家和省级区试。近五年来以同等贡献第一作者或通讯作者在ScienceDevelopmental CellPlant CellPlant Physiol.Genetics等国内外核心刊物发表论文40余篇,已获得授权国家发明专利4项,已获得授权植物新品种保护权9项。2012年,‘水稻籼粳杂种优势利用相关基因挖掘与新品种培育’获教育部技术发明一等奖,本人排名第22014年,获国家技术发明奖二等奖,本人排名第22012年获南京农业大学首届“钟山学术新秀”; 2016年获江苏省特聘教授;2017年获江苏省“六大人才高峰”高层次人才资助;2018年获科技部中青年领军人才计划;2019年获得“庆祝中华人民共和国成立70周年”纪念章。

 

一、近5年来承担的科研项目如下:

1、水稻种间自私基因qHPS1图位克隆和功能分析,国家自然基金面上项目,319719092020-2023年,59万元,主持,在研;

2、新株型超级稻南方粳稻品种的培育,国家科技重大专项子课题,2016ZX08001-0042016-2020年,150万元,主持,在研;

3、稻属AA基因组种间杂种不育的遗传研究,国家自然基金云南联合基金项目,U15022652016-2019年,80万元,南农主持,结题;

4、绿色超级稻南方粳稻新品种选育,国家高技术研究发展计划(863计划子课题),2014AA10A6042014-2018年,183万元,主持,结题;

5、水稻优质高产抗病虫重要功能基因聚合育种技术研发,江苏省重点研发专项项目,BE20153632015-2018年,100万元,主持,结题;

6、新株型超级稻南方粳稻品种的培育,国家科技重大专项子课题,2014ZX08001-0042014-2015年,90万元,主持,结题;

 

二、人才计划资助项目:

1,科技部中青年科技创新领军人才计划,2018年,农业科学;

2,江苏省“六大人才高峰”高层次人才计划,2017年,农业科学

3,江苏省特聘教授人才计划,2016年,农业科学;

 

三、近年来发表的代表性论文

1Yu XY#, Zhao ZG#(co-author), Zheng XM, Zhou JW, Kong WY, Wang PR, Bai WT, Zheng H, Zhang H, Li J, Liu JF, Wang QM, Zhang L,  Liu K, Yu Y,  Guo XP, Wang JL, Lin QB,   Wu FQ, Ren YL, Zhu SS, Zhang X, Cheng ZJ, Lei CL, Liu SJ, Liu X, Tian YL, Jiang L, Ge S, Wu CY*, Tao DY*,Wang HY*, Wan JM*. A selfish genetic element confers non-Mendelian inheritance in rice. Science, 2018, 360: 1130–1132.

2Zhao ZG, Zhang C, Liu X, Lin Y, Liu LL, Tian YL, Chen LM, Liu SL, Zhou JW, Jiang L, Tao DY*, Wan JM*. Genetic analysis and fine mapping of a dominant dwarfness

gene from wild rice (Oryza barthii). Plant Breeding, 2018; 137: 50–59.

3Zhao ZG, Zhang YH, Liu X, Zhang X, Liu SC, Yu XW, Ren YL, Zheng XM, Zhou KN, Jiang L, Guo XP, Gai Y, Wu CY, Zhai HQ, Wang HY, Wan JM*. A role for a dioxygenase in auxin metabolism and reproductive development in rice. Developmental Cell, 2013,27:113-122.

4Y Yu#, ZG Zhao#(co-author), YR Shi, H Tian, LL Liu,XF Bian, Y Xu, XM Zheng, L Gan, YM Shen, CL Wang,, XW, Yu,CM Wang,, X Zhang,, XP Guo,,JL Wang, H Ikehashi, L Jiang, and JM Wan*. Hybrid Sterility in Rice (Oryza sativa L.) Involves the Tetratricopeptide Repeat Domain Containing Protein. Genetics, 2016; 2013: 1439–1451.

5Liu X, Liu LL, Xiao YH, Liu SJ, Tian YL, Chen LM, Wang ZQ, Jiang L, Zhao ZG*, and Wan JM. Genetic Dissection of Leaf-related Traits using 156 Chromosomal Segment Substitution Lines. J. Plant Biol. 2015; 58:1-9.1,

6Zhao ZG, Zhang YH, Liu X, Zhang X, Liu SC, Yu XW, Ren YL, Zheng XM, Zhou KN, Jiang L, Guo XP, Gai Y, Wu CY, Zhai HQ, Wang HY, Wan JM. A role for a dioxygenase in auxin metabolism and reproductive development in rice. Developmental Cell, 2013, 27: 113-122.

7Chen MJ, Zhao ZG, Chen LM, Zhou F, Zhong ZZ, Jiang L,Wan JM. Genetic analysis and fine mapping of a semi-dwarf gene in a centromeric region in rice (Oryza sativa L.). Breeding Science, 2013, 63: 164-168.

8Zhou SR, Wang Y, Li WC, Zhao ZG, Ren YL, Wang Y, Gu SH, Lin QB, Wang D, Jiang L, Su N, Zhang X, Liu LL, Lei CL, Wang JL, Guo XP, Wu FQ, Wang HY, Wan JM. Pollen semi-sterility1 encodes a kinesin-1-like protein important for male meiosis, anther dehiscence, and fertility in rice. Plant Cell, 2011, 23: 111-129.

9Zhao ZG, Zhu SS, Zhang YH, Bian XF, Wang Y, Jiang L, Liu X, Liu SJ, Zhang WW, Hiroshi Ikehashi and Jianmin Wan. Molecular analysis of an additional case of hybrid sterility in rice (Oryza sativa L.). Planta, 2011, 233: 485-494.

10Chen LM#, Zhao ZG# (co-author), Liu X, Liu LL, Jiang L, Liu SJ, Zhang WW, Wang YH, Liu YQ and Wan JM. Marker-assisted breeding of a photoperiod-sensitive male sterile japonica rice with high cross-compatibility with indica rice. Mol Breeding, 2011, 27: 247-258.

11Zhang YH#, Zhao ZG# (co-author), Zhou JW, Jiang L, Bian XF, Wang Y, Wang CL, Zhong ZZ, Wang JK, Tao DY, and Wan JM. Fine mapping of a gene responsible for pollen semi-sterility in hybrids between Oryza sativa L. and O. glaberrima Steud. Mol Breeding, 2011, 28: 323-334.

12Chen MJ, Zhao ZG, Jiang L and Wan JM. A new gene controlling hybrid sterility in rice (Oryza sativa L.). Euphytica, 2012, 184: 15-22.

13Chen HM, Zhao ZG, Jiang L, Wan XY, Liu LL, Wu XJ and Wan JM. Molecular genetic analysis on percentage of grains with chalkiness in rice (Oryza sativa L.). Afr. J. Biotechnol, 2011, 10: 6891-6903.

14Bian XF, Liu X, Zhao ZG, Jiang L, Gao H, Zhang YH, Zheng M, Chen LM, Liu SJ, Zhai HQ, Wan JM. Heading date gene, dth3 controlled late flowering in O.Glaberrima Steud. By down-regulating Ehd1. Plant Cell Reports, 2011, 30: 2243-2254.

15Wang Y#, Zhong ZZ#, Zhao ZG# (co-author), Jiang L, Bian XF, Zhang WW, Liu LL, Ikehashi H and Wan JM. Fine mapping of a gene causing hybrid pollen sterility between Yunnan weedy rice and cultivated rice (Oryza sativa L.) and phylogenetic analysis of Yunnan weedy rice. Planta, 2010, 231: 559-570.

16Zhou JW, Xu P, Deng XN, Li J, Hu FY, Ren GY, Zhang Z, Luan YH, Deng W, Zhao ZG, Jiang L, Wan JM, Tao DY. Genetic dissection of a chromosomal region conferring hybrid sterility using multi-donors from Oryza glaberrima. Euphyca, 2010, 175: 395-407.

17Xie K, Jiang L, Lu BY, Yang CY, Li LF, Liu X, Zhang L, Zhao ZG, Wan JM. Identification of QTLs for seed dormancy in rice (Oryza satival L.). Plant Breeding, 2011, 130: 328-332.

18Zheng LN, Zhang WW, Liu SJ, Chen LM, Liu X, Chen XG, Ma J, Chen WW, Zhao ZG, Jiang L, Wan JM. Dynamic QTL analysis of rice protein content and protein index using recombinant inbred lines. Journal of Plant Biology, 2011, 54: 321-328.

19Zheng LN, Zhang WW, Liu SJ, Chen LM, Liu X, Chen XG, Ma J, Chen WW, Zhao ZG, Jiang L, Wan JM. Genetic relationship between grain chalkiness, protein content, and paste viscosity properties in a backcross inbred population of rice. Journal of Cereal Science, 2012, 56: 153-160.

20Li LF, Lin QY, Liu SJ, Liu X, Wang WY, Ngo TH, Liu F, Zhao ZG, Jiang L, Wan JM. Identification of quantitative trait loci for seed storability in rice (Oryza sativa L.). Plant Breeding, 2012, 131: 739-743.

21Bian JM, Jiang L, Liu LL, Wei XJ, Xiao YH, Zhang LJ, Zhao ZG, Zhai HQ, Wan JM. Construction of a new set of rice chromosome segment substitution lines and identification of grain weight and related traits QTLs. Breeding Science, 2010, 60: 305-313.

22Zhou LJ, Chen LM, Jiang L, Zhang WW, Liu LL, Liu X, Zhao ZG, Liu SJ, Zhang LJ, Wang JK, Wan JM. Fine mapping of the grain chalkiness QTL Qpgwc-7 in rice (Oryza sativa L.). Theor. Appl. Genet., 2009, 118: 581-590.

23Liu LL, Ma XD, Liu SJ, Zhu CL, Jiang L, Wang YH, Shen Y, Ren YL, Dong H, Chen LM, Liu X, Zhao ZG, Zhai HQ, Wan JM. Identification and characterization of a novel Waxy allele from a Yunnan rice landrace. Plant Mol. Biol. 2009, 71: 609-626.

24Zhao ZG, Jiang L, Zhang WW, Yu CY, Zhu SS, Xie K, Tian H, Liu LL, Hiroshi Ikehashi and Jianmin Wan. Fine mapping of S31, a gene responsible for hybrid embryo-sac abortion in rice (Oryza sativa L.). Planta, 2007, 226: 1087-1096.

25Zhao ZG, Chunming Wang, Ling Jiang, Susong Zhu, Hiroshi Ikehashi, JianminWan. Identification of a new hybrid sterility gene in rice (Oryza sativa L.). Euphytica, 2006, 151: 331–337.

26Zhao ZG, L Jiang, Liu LL, CY YU, WW Zhang, K Xie, JM Wan. Fine mapping of S-31 for hybrid sterility gene in rice (Oryza sativa L.). Rice Genet. Newsl, 2006, 23: 16-20.

27Danting Li, Liangming Chen, Ling Jiang, Susong Zhu, Zhao ZG, Shijia Liu, Ning Su, Huqu Zhai, Hiroshi Ikehashi, Jianmin Wan. Fine mapping of S32(t), a new gene causing hybrid embryo sac sterility in a Chinese landrace rice (Oryza sativa L.). Theor. Appl. Genet., 2006, 92: 183-190.

28Zhu SS, CM Wang, TQ Zheng, Zhao ZG, H. Ikehashi and JM Wan. A new gene located on chromosome 2 causing hybrid sterility in a remote cross of rice. Plant Breeding, 2005, 124: 440-445.


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