尹伟伦

[发布日期:2012-04-19 点击数: ]
 

尹伟伦,中国工程院院士,原北京林业大学校长,教授,博士生导师。我国著名的林学家、生物学家,林业教育家。

邮箱:yinwl@bjfu.edu.cn

联系电话:010-62338080

 
 
 

 

研究方向

 

主要从事树木栽培生理学、植物抗逆生理及分子机制、植物生长发育调控机制的研究。

 

 

学习、工作经历


1981年6月北京林学院获植物生理学硕士学位。

1981年至1993年任北京林业大学生理教研室副主任、讲师、副教授。

1993年至2010年北京林业大学副校长、常务副校长、校长、研究生院院长、教授、博士生导师。

2005年12月当选为中国工程院院士, 2010年当选为中国工程院农业学部主任,2012年当选北京科协副主席

2008年至今连续当选为第十一届、第十二届全国政协委员。

 

学术与社会任职


    现任中国工程院农业学部主任,北京市科学技术协会副主席,教育部科技委农林学部常务副主任,中国林学会副理事长,国际杨树委员会执委,中国杨树委员会主席,亚太地区林业培训中心理事,第十一届全国政协委员,中国植物学会常务理事,教育部科学技术委员会生命学部委员、生命学二部常务副主任,北京市学位委员会委员,《北京林业大学学报》主编,《林业科学》编委、副主编,《中国林学(英文版)》主编,北京市、天津市政府顾问等职,是国家级重点学科植物学科带头人,被聘为国家中长期科技发展战略研究专家、中国可持续发展林业战略研究的首席专家、中国标准化专家委员会专家、国务院应急管理专家组专家、国家环境咨询委员会委员、国家减灾委员会专家、全国荒漠化和沙化监测专家顾问、国家森林防火指挥部森林防火专家组专家。兼任中科院植物所“植被与环境变化”国家重点实验室学术委员会主任。

成果与奖励

 

多年在林学和生物学学科交叉领域开展科研与教学工作,其成果集中在植物光合性能对生长潜力发挥的调节功能;植物抗旱、抗盐机理及抗逆能力定量评价技术;林木开花结实机理及若干促进种子丰产技术;按照植物需水状况进行精准节水灌溉技术等。为选育速生、抗逆良种,提高林地生长潜力,推进造林良种化的进程做出贡献。获国家发明三等奖1项,国家科技进步二等奖4项、三等奖1项,国家级教学成果奖2项,省部级科技奖15项。获国家级和省部级突出贡献专家、政府特殊津贴、全国优秀科技工作者、全国优秀教师、全国模范教师、首都劳动奖章、全国优秀林业科技工作者、宝钢优秀教师特等奖、北京市优秀教育工作者、北京市有突出贡献的科学技术管理人才、北京市教育创新标兵等十余项荣誉。

 

承担项目

主持或参加“六五”~“十二五”国家攻关、“863”、“973”、“948”、国家自然科学基金及省部级重点课题40余项。

发表文章情况

 

1. Bosheng Li, HuiDuan , Jigang Li, Xing Wang Deng, Weilun Yin, Xinli Xia. Global identification of miRNAs and targets in Populuseuphratica under salt stress. Plant Mol Biol., 2013, 81:525–539.
2. Hechen Zhang, FulingLv, Xiao Han, Xinli Xia, Weilun Yin. The calcium sensor PeCBL1, interacting with PeCIPK24/25 and PeCIPK26, regulates Na+/K+ homeostasis in Populuseuphratica.Plant Cell Rep., 2013, 32:611-621.
3. Ying Zhao, ShivegowdaThammannagowda, Margaret Staton, Sha Tang, Xinli Xia, Weilun Yin, Haiying Liang. An EST dataset for Metasequoiaglyptostroboides buds: the first EST resource for molecular genomics studies in Metasequoia. Planta, 2013, 237:755–770.
4. DongchaoZheng, Xiao Han, Yi An, HongweiGuo, Xinli Xia, Weilun Yin. The nitrate transporter NRT2.1functions in the ethylene response to nitrate deficiency in Arabidopsis. Plant, Cell and Environment, 2013, 36:1328-1337.
5. Dong-Hui Yan, Xinli Xia, Weilun Yin. NF-YB Family Genes Identified in a Poplar Genome-wide Analysis and Expressed inPopuluseuphratica Are Responsive to Drought Stress.Plant MolBiol Rep., 2013,31:363–370.
6. Dandan Li, Xinli Xia, Weilun Yin, Hechen Zhang. Two poplar calcineurin B-like proteins confer enhanced tolerance to abiotic stresses in transgenic Arabidopsis thaliana. BiologiaPlantarum, 2013, 57 (1): 70-78.
7. Chu-Yu Ye, Xiaohan Yang, Xinli Xia, Weilun Yin. Comparative analysis of cation/proton antiporter superfamily in plants. Gene, 2013,521:245-251.
8. Tao Pang, Chu-Yu Ye, Xinli Xia, Weilun Yin. De novo sequencing and transcriptome analysis of the desert shrub, Ammopiptanthusmongolicus, during cold acclimation using Illumina/Solexa. BMC Genomics, 2013, 14:488.
9. Chu-Yu Ye, Xinli Xia, Weilun Yin. Evolutionary analysis of CBL-interacting protein kinase gene family in plants. Plant Growth Regul., 2013,71:49–56.
10. PengShuai, Dan Liang, Zhoujia Zhang, Weilun Yin, Xinli Xia. Identification of drought-responsive and novel Populustrichocarpa microRNAs by highthroughput sequencing and their targets using degradome analysis. BMC Genomics, 2013, 14:233.
11. Xiao Han, Sha Tang, Yi An, Dong-Chao Zheng, Xin-Li Xia, Wei-Lun Yin. Overexpression of the poplar NF-YB7 transcription factor confers drought tolerance and improves water-use efficiency in Arabidopsis. Journal of Experimental Botany, 2013, 64(14): 4589-4601.
12. Sha Tang, Haiying Liang, Donghui Yan, Ying Zhao, Xiao Han, John E. Carlson, Xinli Xia, Weilun Yin. Populuseuphratica: the transcriptomic response to drought stress. Plant Mol Biol., 2013, 83(6): 539-557.
13. Jinhuan Chen, Bin Xue, Xinli Xia, Weilun Yin. A novel calcium-dependent protein kinase gene from Populuseuphratica, confers both drought and cold stress tolerance. Biochemical and Biophysical Research Communications, 2013, 441: 630–636
14. Chao Liu, Xiangping Wang, Xian Wu, Shuang Dai, Jin-Sheng He, Weilun Yin. Relative effects of phylogeny, biological characters and environments on leaf traits in shrub biomes across central Inner Mongolia, China. Journal of Plant Ecology, 2013, 6(3):220-231.
15. Dong-Hui Yan, Trevor Fenningc, ShaTanga, Xinli Xia, Weilun Yin. Genome-wide transcriptional response of Populuseuphratica to long-term drought stress. Plant Science, 2012, 195: 24-35.
16. Dandan Li, Shuyu Song, Xinli Xia, Weilun Yin. Two CBL genes from Populuseuphratica confer multiple stress tolerance in transgenic triploid white poplar. Plant Cell Tiss Organ Cult. 2012, 109: 477–489
17. Jinhuan Chen, Xinli Xia, Weilun Yin. A poplar DRE-binding protein gene, PeDREB2L, is involved in regulation of defense response against abiotic stress. Gene, 2011, 483:36-42.
18. Yurong Qin, ZhongxinDuan, Xinli Xia, Weilun Yin. Expression profiles of precursor and mature microRNAs under dehydration and high salinity shock in Populuseuphratica. Plant Cell Rep.,2011,30:1893–1907.
19. ShuangHao, Teng Zhao, Xinli Xia,Weilun Yin. Genome-wide comparison of two poplar genotypes with different growth rates. Plant Molecular Biology, 2011,76:575–591.
20. Bosheng Li, Yurong Qin, HuiDuan, Weilun Yin, Xinli Xia.Genome-wide characterization of new and drought stress responsive microRNAs in Populuseuphratica. Journal of Experimental Botany, 2011, 62(11):3765–3779.
21. Haitao Xing, PengGuo, Xinli Xia,Weilun Yin. PdERECTA, a leucine-rich repeat receptor-like kinase of poplar, confers enhanced water use effciency in Arabidopsis. Planta, 2011, 234:229-241.
22. Xiaohan Yang, Chu-Yu Ye, ZongMing Cheng, Timothy J. Tschaplinski ? Stan D. Wullschleger, Weilun Yin, Xinli Xia, Gerald A. Tuskan. Genomic aspects of research involving polyploid plants. Plant Cell Tissue Organ Cult., 2011, 104, 387-397.
23. Jinhua Chen, Jinhuan Chen, Yan Su, Fang Sun, Xinli Xia, Weilun Yin. Tobacco plants ectopically expressing the Ammopiptanthusmongolicus AmCBL1 gene display enhanced tolerance to multiple abiotic stresses. Plant Growth Regul., 2011, 63:259–269.
24. Hongshuang Ma, Dan Liang, PengShuai, Xinli Xia, Weilun Yin. The salt- and drought-inducible poplar GRAS protein SCL7 confers salt and drought tolerance in Arabidopsis thaliana, Journal of Experimental Botany,2010, 61(14): 4011–4019.
25. Hechen Zhang, Weilun Yin, Xinli Xia. Shaker-like potassium channels in Populus, regulated 3 by the CBL–CIPK signal transduction pathway, increase tolerance to low-K+ stress. Plant Cell Rep., 2010, 29:1007–1012.
26. Lily Guo, Yanhua Yu, Xinli Xia, Weilun Yin. Identification and functional characterisation of the promoter of the calcium sensor gene CBL1 from the xerophyte Ammopiptanthusmongolicus. BMC Plant Biology, 2010, 10:18.
27. Bosheng Li, Weilun Yin, Xinli Xia. Identification of microRNAs and their targets from Populuseuphratica. Biochem. Biophys. Res. Commun., 2009, 388: 272-277.
28. Chuyu Ye, Hechen Zhang, Jinhuan Chen, Xinli Xia, Weilun Yin. Molecular characterization of putative vacuolar NHX-type Na+/H+ exchanger genes from the salt-resistant tree Populuseuphratica. Physiologiaplantarum, 2009, 137: 166-174.
29. Jinhuan Chen, Xinli Xia, Weilun Yin. Expression profiling and functional characterization of a DREB2-type gene from Populuseuphratica. Biochem. Biophys. Res. Commun., 2009, 378(3): 483-487.
30. Hechen Zhang, Weilun Yin, Xinli Xia.Calcineurin B-Like family in Populus: comparative genome analysis and expression pattern under cold, drought and salt stress treatment. Plant Growth Regul., 2008, 56:129-140.
31. Junying Wang, Xinli Xia, Junping Wang, WeilunYin.Stress Responsive Zinc-finger Protein Gene of Populuseuphraticain Tobacco Enhances Salt Tolerance. Journal of Integrative Plant Biology, 2008, 50(1):56–61.
32. Yanhua Yu, Xinli Xia, Weilun Yin. Comparative genomic analysis of CIPK gene family in Arabidopsis and Populus. Plant Growth Regulation, 2007, 52:101-110.
33. Cuiqiong Liu, Xinli Xia, Weilun Yin, Lichun Huang, Jianghong Zhou. Direct somatic embryogenesis from leaves, cotyledons and hypocotyls of Hippophaerhamnoides. BiologiaPlantarum, 2007, 51 (4): 635-640.
34. Cuiqiong Liu, Xinli Xia, Weilun Yin, Lichun Huang, Jianghong Zhou, Shoot regeneration and somatic embryogenesis from needlesof redwood (Sequoia sempervirens (D.Don.) Endl.). Plant Cell Rep.,2006, 25(7): 621-628.