更新时间:2024-09-20 20:23
孙传清,男,博士,中国农业大学农学院植物遗传育种学与种子科学系教授、博士生导师。孙传清兼任国家植物基因研究中心(北京)项目科学家,国际生物多样性计划中国国家专家委员会委员,《生物多样性》和《Journal of Integrated Plant Biology》杂志的编委。孙传清在水稻基因资源与分子育种学领域有丰富的研究成果,他主持的项目“水稻驯化的分子机理研究”在2020年度获得国家自然科学奖二等奖。他还发表了大量的学术论文,对水稻的遗传学和育种学做出了重要贡献。
1981.09-1985.07:湖南农业大学 大学本科
1985.09-1988.07:北京农业大学 硕士研究生
1988.07-1992.02:武陵大学 助教、讲师
1992.02-1996.07:中国(北京)农业大学 博士研究生
1993.10-1994.09:东北师范大学留日予校 培训日语
1996.07-1997.11:中国农业大学 讲师
1997.12-2002.11:中国农业大学 副教授
2000.05-2001.03:东北大学(日本) 客员副教授
2002.12至今: 中国农业大学 教授
2002年获教育部优秀青年教师资助计划,2004年入选教育部新世纪优秀人才,2006年享受政府特殊津贴;2007年获国家杰出青年科学基金;2008年,“Control of a key transition from prostrate to erect growth in rice domestication(控制水稻进化中由匍匐到直立生长的关键转变)”的研究论文在世界遗传学顶尖杂志Nature Genetics(《自然-遗传学》)正式发表。 研究方向是水稻基因资源与分子育种学,主要包括水稻资源遗传多样性、野生稻优异基因发掘、定位、克隆及利用、亚洲栽培稻进化分子机理、水稻分子育种。
孙传清研究的是野生稻重要基因发掘与克隆,亚洲栽培稻进化的分子机理,水稻株型和产量性状调控分子机理,水稻分子育种。
1、2023.03.07-2027.11.30,国家重点研发计划,农业动植物核心驯化基因模块的构建
2、2023.02.22-2027.11.30,国家重点研发计划,农业植物和农业动物从头驯化机制与种质定向创制
3、2021.11.08-2026.12.31,国家自然科学基金项目,水稻驯化过程中丰产性与适应性协同改良的分子机制研究
4、2020.08.05-2021.12.31,国家自然科学基金项目,水稻、玉米和小麦产量共性性状的遗传网络解析
5、2016.12.13-2020.12.31,国家重点研发计划,水稻优异种质资源形成与演化规律研究
6、2011.09.22-2020.12.31,国际合作项目,中国农业大学与孟山都项目合作协议
参考资料:
1、2012.04.15-2015.04.15,研究许可及选择权协议
2、2010.06.25-2010.12.31,主要转基因作物环境安全和食品安全一致性信息研究
3、2009.07.08-2012.07.08,水稻中与氮利用效率相关的性状基因鉴定和应用
参考资料:
1、蛋白质nog1在调控植物产量和穗粒数中的应用PCT,PCT/,PCT/CN2017/097608
2、水稻苗期耐旱相关蛋白DT1及其编码基因和应用-PCT,PCT/,PCT/CN2015/057230
3、一种降低水稻愈伤组织褐化、提高遗传转化效率的方法,2019,201910720257.7
4、一种鉴定普通野生稻与栽培稻杂种后代育性的分子标记及其应用,2019,201910084323.6
5、一种培育高产栽培水稻的方法及其应用,2019,201910012059.5
6、一种提高水稻远缘杂交后代育性的方法与所用蛋白质,2019,201910012015.2
7、一种与水稻落粒性及粒型相关的蛋白SSH1及其编码基因与应用,2018,201810757562.9
8、与非洲稻落粒相关的插入缺失片段及其应用,2018,201810430272.3
9、与水稻落粒性相关的蛋白及其编码基因与应用,2018,201810430257.9
10、与非洲稻籽粒长度相关的SNP位点及其应用,2017,201710327509.0
11、与水稻粒长及落粒性相关的蛋白及其编码基因与应用,2017,201710311084.4
12、蛋白质nog1在调控植物产量和穗粒数中的应用,2017,201710220258.6
13、水稻抵抗叶片衰老蛋白RLS3及其编码基因与应用,2016,201610143470.2
14、植物株型相关蛋白PROG2及其编码基因与应用,2015,201510941421.9
15、植物表型相关蛋白NRL2及其编码基因与应用,2015,201510920687.5
16、一种与植物顶端优势相关的CAD1蛋白及其相关生物材料与应用,2014,201410717903.1
17、培育分蘖数增加的转基因禾本科植物的方法及其相关生物材料,2014,201410329309.5
18、一种与植物低氮耐性相关的TON1蛋白及其相关生物材料与应用,2014,201410309018.X
19、利用农杆菌获得转基因籼稻的方法及其专用培养基,2013,201310717649.0
20、与植物耐冷性相关的LTP蛋白及其编码基因与应用,2013,201310163458.4
21、一种用于鉴定云南元江普通野生稻细胞质雄性不育系的恢复系的分子标记及专用引物,2012,201210560937.5
22、控制植物穗粒数的GPA2基因及其应用,2012,201210560887.0
23、水稻新生组织特异启动子p-EMA1及其应用,2012,201210482822.9
24、水稻启动子p-G8及其应用,2012,201210479112.0
25、水稻冷诱导启动子p-LTT1及其应用,2012,201210479055.6
26、水稻启动子p-G7及其应用,2012,201210478717.8
27、水稻启动子p-G6及其应用,2012,201210477893.X
28、水稻启动子p-G9及其应用,2012,201210477891.0
29、植物耐冷相关蛋白GST及其编码基因和其应用,2012,201210477881.7
30、一种籼稻组织培养的方法,2012,201210199024.5
31、植物耐冷相关蛋白LTT9及其编码基因和应用,2012,201210072826.X
32、水稻散穗基因PAC1调控序列及分子标记应用,2012,201210046646.4
33、控制水稻散穗基因PAC1及其应用,2012,201210046643.0
34、耐旱相关蛋白DT1及其编码基因和应用,2011,201110296327.4
35、水稻苗期耐旱相关蛋白DT1及其编码基因和应用,2011,201110119679.2
36、一种鉴定高组织培养力植物渗入系的方法,2011,201110021672.7
37、控制水稻粒重的蛋白及其编码基因与应用,2010,201010621898.6
38、与水稻粒重相关的蛋白及其编码基因与应用,2010,201010616323.5
39、一种启动子及其应用,2010,201010613344.1
40、水稻颖壳发育相关蛋白TRI1及其编码基因和应用,2010,201010122456.7
41、水稻颖壳发育基因启动子p-TRI1及其应用,2010,201010122413.9
42、水稻冷诱导启动子p-LTT7及其应用,2010,201010122399.2
43、一种与植物耐冷性相关的蛋白及其编码基因与应用,2008,200810181172.8
44、一种与植物耐冷性相关的蛋白及其编码基因与应用,2008,200810113015.3
45、一种与植物耐冷性相关的蛋白及其编码基因与应用,2008,200810113014.9
46、与水稻株型和穗粒数有关的锌指蛋白及其编码基因与应用,2008,200810104743.8
47、辅助筛选籼稻和粳稻的方法,2008,200810056917.8
48、一种辅助筛选籼稻和粳稻的方法,2008,200810056530.2
49、一种辅助筛选籼稻和粳稻的方法以及专用引物,2008,200810056529.X
50、一种调控水稻分蘖角度的基因及其编码蛋白与应用,2007,200710187606.0
51、一种辅助筛选耐冷水稻的方法与其专用引物,2006,200610089799.1
52、辅助筛选耐冷水稻的方法及其专用引物,2006,200610089798.7
53、辅助筛选耐冷水稻的方法和它的专用引物,2006,200610088805.1
54、辅助筛选耐冷水稻的方法与其专用引物,2006,200610088803.2
55、一种辅助筛选耐冷水稻的方法及其专用引物,2006,200610088801.3
56、调控水稻分蘖角度的基因及其编码蛋白与应用,2006,200610078950.1
57、一种调控植物落粒性的转录因子及其编码基因与应用,2006,200610059834.5
58、一种培育高产水稻的方法及专用分子标记,2005,200510105005.1
59、红小豆铁结合蛋白及其编码基因与应用,2005,200510068345.1
60、水稻苗期耐旱相关蛋白DT1及其编码基因和应用pct..
61、调控植物产量、穗粒数和粒重的蛋白质OsAP2-39及其编码基因的应用
62、调控植物产量、穗粒数和粒重的蛋白质COG1及其编码基因的应用
63、水稻产量相关基因nog1及其编码蛋白的应用
64、水稻苗期耐旱相关蛋白DT1及其编码基因和应用pct
65、水稻萌发期耐盐基因OsPAO3及其编码蛋白的应用
66、水稻产量相关基因nog1及其编码蛋白的应用
67、与水稻匍匐生长习性相关的蛋白及其编码基因与应用
68、耐冷相关基因LTSS9a及其编码蛋白和应用
69、耐冷相关基因LTSS9a及其编码蛋白和应用
70、LTSS9b蛋白及其编码基因在调控水稻耐寒性中的应用
71、MCT1基因及其编码蛋白在水稻耐冷中的应用
72、调控水稻功能持绿和抽穗期的蛋白质OsSCE1a及其编码基因的应用
参考资料:
1.Chen Hao, Tang Yanyan, Liu Jianfeng, Tan Lubin, Jiang Jiahuan, Wang Mumu, Zhu Zuofeng, Sun Xianyou, Sun Chuanqing*. Emergence of a novel chimeric gene underlying grain number in rice. Genetics 2017, 205(2), 993–1002
2.Jin Jing, Hua Lei, Zhu Zuofeng, Tan Lubin, Zhao Xinhui, Zhang Weifeng, Liu Fengxia, Fu Yongcai, Cai Hongwei, Sun Xianyou, Gu Ping, Xie Daoxin, Sun Chuanqing*. GAD1 encodes a secreted peptide that regulates grain number, grain length and awn development in rice domestication. Plant Cell 2016, 28(10): 2453–2463
3.Lin Yanhui, Tan Lubin, Zhao Lei, Sun Xianyou, Sun Chuanqing*. RSL3, a protein with AAA+ domain localized in chloroplast, sustains leaf longevity in rice. J Integr Plant Biol. 2016, 58(12): 971-982
4.Hua Lei, Diane R. Wang, Tan Lubin, Fu Yongcai, Liu Fengxia, Xiao Langtao, Zhu Zuofeng, Fu Qiang, Sun Xianyou, Gu Ping, Cai Hongwei, Susan R. McCouch, Sun Chuanqing*.LABA1, a domestication gene associated with long, barbed awns in wild rice. Plant Cell 2015, 27: 1875–1888
5.Zhao Lei, Tan Lubin, Zhu Zuofeng, Xiao Langtao, Xie Daoxin, Sun Chuanqing*. PAY1 improves plant architecture and enhances grain yield in rice. Plant J. 2015,83(3): 528–536
6.Zhang Yangjun, Tan Lubin, Zhu Zuofeng, Yuan Lixing, Xie Daoxin, Sun Chuanqing*. TOND1 confers tolerance to nitrogen deficiency in rice. Plant J. 2015, 81 (3): 367–376
7.Zhu Zuofeng, Tan Lubin, Fu Yongcai, Liu Fengxia, Cai Hongwei, Xie Daoxin, Wu Feng, Wu Jianzhong, Matsumoto Takashi, Sun Chuanqing*,Genetic control of inflorescence architecture during rice domestication. Nat Commun, 2013, 4: 2200 doi: 10.1038/ncomms3200.
8.Liu Fengxia, Xu Wenying, Song Qian, Tan Lubin, Liu Jiayong,Fu Yongcai, Su Zhen*, Sun Chuanqing*. Microarray assisted fine-mapping of quantitative trait loci for cold tolerance in rice. Mol Plant. 2013, 6 (3): 757-767
9.Lei Dongyang, Tan Lubin, Liu Fengxia, Chen Liyun, Sun Chuanqing*. Identification of heat-sensitive QTL derived from common wild rice (Oryza rufipogon Griff.). Plant Sci, 2013, 201-202:121-127
10.Sun Lianjun, Li Xiaojiao, Fu Yongcai, Zhu Zuofeng, Tan Lubin, Liu Fengxia, Sun Xianyou, Sun Xuewen, Sun Chuanqing*. GS6, a member of the GRAS gene family, negatively regulates grain size in rice. J Integr Plant Biol. 2013, 55(10): 938–949
11.Dai Xiaodong, Ding Younian, Tan Lubin, Fu Yongcai, Liu Fengxia, Zhu Zuofeng, Sun Xianyou, Sun Xuewen, Gu Ping, Cai Hongwei and Sun Chuanqing*. LHD1, an allele of DTH8/Ghd8 controls late heading date in common wild rice (Oryza rufipogon Griff.). J Integr Plant Biol. 2012, 54(10): 790-799
12.Jiang Jiahuan, Tan Lubin, Zhu Zuofeng, Fu Yongcai, Liu Fengxia, Cai Hongwei, and Sun Chuanqing*. Molecular evolution of the TAC1gene from rice (Oryza sativa L.). J Genet Genomics, 2012, 39(10): 551-560
13.Li Xiaojiao, Sun Lianjun, Liu Fengxia, Tan Lubin, Zhu Zuofeng, Fu Yongcai, Sun Xianyou, Sun Xuewen, Xie Daoxin and Sun Chuanqing*. TH1, a DUF640 domain-like gene controls lemma and palea development in rice. Plant Mol Biol. 2012,78(4):351-359
14.Tian Lei, Tan Lubin, Liu Fengxia, Cai Hongwei, Sun Chuanqing*. Genetic identification of quantitative trait loci associated with salt tolerance at seedling stage from Oryza rufipogon. J Genet Genomics, 2011, 38(12): 585-591
15.Zhang Si-Ju, Song Xue-Qin, Yu Bai-Sheng, Zhang Bao-Cai, Sun Chuan-Qing, J. Paul Knoxc, Zhou Yi-Hua. Identification of quantitative trait loci affecting hemicellulose characteristics based on cell wall composition in a wild and cultivated rice species. Mol Plant. 2011, 10.1093/mp/ssr076
16.Zhang Bosen, Tian Feng, Tan Lubin, Xie Daoxin*, Sun Chuanqing*. Characterization of a novel high-tillering dwarf 3 mutant in rice. J Genet Genomics, 2011, 38(9): 411-418
17.Luo Xiaojin, Wu Shuang, Tian Feng, Xin Xiaoyun, Zha Xiaojun, Dong Xianxin, Fu Yongcai, Wang Xiangkun, Yang Jinshui*, Sun Chuanqing*. Identification of heterotic loci associated with yield-related traits in Chinese common wild rice (Oryza rufipogon Griff.). Plant Sci, 2011, 181:14-22
18.Fu Qiang, Zhang Peijiang, Tan Lubin, Zhu Zuofeng, Ma Dan, Fu Yongcai, Zhan Xinchun, Hongwei Cai, Sun Chuanqing*. Analysis of QTLs for yield-related traits in Yuanjiang common wild rice (Oryza rufipogon Griff.). J Genet Genomics, 2010, 37(2): 147-157
19.Li Xianran, Tan Lubin, Zhu Zuofeng,Huang Haiyan, Liu Ying, Hu Songnian, Sun Chuanqing*. Patterns of nucleotide diversity in wild and cultivated rice. Plant Syst Evol, 2009, 281:97-106
20.Luan Weijiang, Chen Huizhe, Fu Yaping, Si Huamin, Peng Wen, Song Susheng, Liu Wenzhen, Hu Guocheng, Sun Zongxiu*, Xie Daoxin*, Sun Chuanqing*. The Effect of the Crosstalk between Photoperiod and Temperature on the Heading-Date in Rice. PLoS ONE, 2009, 4(6): e5891. doi:10.1371/journal.pone.0005891
21.Luo Xiaojin, Tian Feng, Fu Yongcai, Yang Jinshui, Sun Chuanqing*. Mapping quantitative trait loci influencing panicle-related traits from Chinese common wild rice (Oryza rufipogon) using introgression lines. Plant Breed, 2009, 128(6): 559—567
22.Luo Xiaojin, Fu Yongcai, Zhang Peijiang, Wu Shuang, Tian Feng, Liu Jiayong, Zhu Zuofeng, Yang Jinshui, Sun Chuanqing*. Additive and over-dominant effects resulting from epistatic loci are the primary genetic basis of heterosis in rice. J Integr Plant Biol. 2009, 51(4): 393-408
23.Garcia-Oliveira Ana Luisa, Tan Lubin, Fu Yongcai and Sun Chuanqing*. Genetic identification of quantitative trait loci for contents of mineral nutrients in rice grain. J Integr Plant Biol. 2009, 51(1): 84-92
24.Li Xianran, Tan Lubin, Wang Liguo,Hu Songnian, Sun Chuanqing*. Isolation and characterization of conserved non-coding sequences among rice (Oryza sativa L.) paralogous regions. Mol Genet Genomics, 2009,281:11-18
25.Tan Lubin, Xianran Li, Liu Fengxia, Sun Xianyou, Li Chenggang, Zhu Zuofeng, Fu Yongcai, Cai Hongwei, Wang Xiangkun, Xie Daoxin, Sun Chuanqing*. Control of a key transition from prostrate to erect growth in rice domestication. Nat Genet, 2008,40(11): 1360-1364
26.Tan Lubin, Zhang Peijiang, Liu Fengxia, Wang Guijuan, Ye Sheng, Zhu Zuofeng, Fu Yongcai, Cai Hongwei, and Sun Chuanqing*. Quantitative trait loci underlying domestication and yield-related traits in Oryza rufipogon × Oryza sativa advanced backcross population. Genome, 2008, 51(1): 692-704
27.Li Xianran, Tan Lubin, Huang Haiyan, Zhu Zuofeng, Hu Songnian, Sun Chuanqing*. Construction of the physical map of the gpa7 locus reveals that a large segment was deleted during rice domestication. Plant Cell Rep, 2008, 27: 1087-1092
28.Liu Fengxia, Xu Wenying, Tan Lubin, Xue Yongbiao, Sun Chuanqing, Su Zhen. Case study for identification of potentially indel-caused alternative expression isoforms in the rice subspecies japonica and indica by integrative genome analysis. Genomics, 2008, 91: 186-194
29.Li Xianran, Tan Lubin, Huang Haiyan, Zhu Zuofeng, Li Chenji, Hu Songnian, Sun Chuanqing*. Construction of a bacterial artificial chromosome (BAC) library of common wild rice (Oryza rufipogon Griff.) for map-based cloning of genes selected during the domestication of rice. Biotechnol Lett. 2008, 30(3): 555-561
30.Yu Baisheng, Lin Zhongwei, Li Haixia; Li Xiaojiao, Li Jiayang, Wang Yonghong, Zhang Xia; Zhu Zuofeng, Zhai Wenxue, Wang Xiangkun, Xie Daoxin, Sun Chuanqing*. TAC1, a major quantitative trait locus controlling tiller angle in rice. Plant J. 2007,52 (5): 891-898
31.Tan Lubin,Liu Fengxia, Xue Wei, Wang Guijuan, Ye Sheng, Zhu Zuofeng, Fu Yongcai, Wang Xiangkun and Sun Chuanqing*. Development of Oryza rufipogon and Oryza sativa introgression lines and assessment for yield-related quantitative trait loci. J Integr Plant Biol. 2007, 49:871-884
32.Lin Zhongwei, Griffith M. E., Li Xianran, Zhu Zuofeng, Tan Lubing, Fu Yongcai, Zhang Wenxu, Wang Xiangkun, Xie Daoxin and Sun Chuanqing*. Origin of seed shattering in rice (Oryza sativa L.). Planta. 2007, 226(1):11-20
33.Tian Feng, Zhu Zuofeng, Zhang Boshen, Tan Lubin, Fu Yongcai, Wang Xiangkun and Sun Chuanqing*,Fine mapping of a quantitative trait locus for grain number per panicle from wild rice (Oryza rufipogon Griff.). Theor Appl Genet. 2006,113:619-629
34.Zhang Xia, Zhou Shaoxia, Fu Yongcai, Su Zhen, Wang Xiangkun and Sun Chuanqing*. Identification of a drought tolerant introgression line derived from Dongxiang common wild rice (O. rufipogon Griff.). Plant Mol Biol. 2006, 62 (1-2): 247-259
35.He Guangming, Luo Xiaojin, Tian Feng, Li Kegui, Su Wei, Zhu Zuofeng, Qian Xiaoyin, Fu Yongcai, Wang Xiangkun, Sun Chuanqing* and Yang Jinshui*. Haplotype variation in structure and expression of a gene cluster associated with a quantitative trait locus for improved yield in rice. Genome Res. 2006, 16:618-626
36.Tian Feng, Li Dejun, Fu Qiang, Zhu Zuofeng, Fu Yongcai, Wang Xiangkun and Sun Chuanqing* .Construction of introgression lines carrying wild rice (Oryza rufipogon Griff.) segments in cultivated rice (O. sativa L.) background and characterization of introgressed segments associated with yield-related traits. Theor Appl Genet. 2006,112:570-580
37.Liu Fengxia, Sun Chuanqing*, Tan Lubin, Fu Yongcai, Li Dejun \u0026 Wang Xiangkun Identification and mapping of quantitative trait loci controlling cold-tolerance of Chinese common wild rice (O. rufipogon Griff.) at booting to flowering stages. Chinese Sci Bull. 2003, 48(19 ): 2068-2071
38.Li Dejun, Sun Chuanqing*, Fu Yongcai, Li Cheng, Zhu Zuofeng, Chen Liang, Cai Hongwei, and Wang Xiangkun, Identification and mapping of genes for improving yield from Chinese common wild rice (O.rufipogon Griff.) using advanced backcross QTL analysis. Chinese Sci Bull. 2002, 47 (18): 1533-1537
39.Sun C. Q*., T. B. Jiang, Y. C. Fu, X. K. Wang, Indica-Japonica differentiation of paddy rice (Oryza sativa L.) and its relationship with heterosis. Plant Breeding, 2002,121: 330-337
40.Sun C.Q*., X. K. Wang, A. Yoshimura, K. Doi , Genetic differentiation for nuclear, mitochondrial and chloroplast genomes in common wild rice (O. rufipogon Griff.) and cultivated rice (O. sativa L.). Theor Appl Genet, 2002, 104:1335-1345
41.Sun C. Q *, X. K. Wang, Z. C. Li, A. Yoshimura, N. Iwata. Comparison on the genetic diversity of common wild rice (Oryza rufipogon Griff.) and cultivated rice (O. sativa L. ) using RFLP markers, Theor Appl Genet, 2001, 102: 157-162
参考资料
孙传清.中国农业大学农学院.2024-08-13
孙传清.中国农业大学.2024-08-13
孙传清.中国农业大学农学院.2024-08-12