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汪 海
装饰小图 汪 海博士、副研究员、硕士生导师
 
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汪海,男,博士,副研究员,2012年7月博士毕业后进入中国农业科学院生物技术研究所工作,研究方向包括:(1)利用群体遗传学和分子生物学技术解析玉米高产稳产的遗传基础,克隆控制玉米高产稳产的基因/QTL并解析其分子机制。(2)利用深度学习等最新的机器学习技术建立玉米的表达调控模型,并应用于玉米的表型预测和遗传改良。2016年,以“优秀青年科技人员”身份被评为副研究员;同年入选“科研英才培育工程”所级人才。近5年来,共发表SCI论文14篇,累计影响因子83.542;其中,以第一或并列第一作者发表SCI论文8篇,累计影响因子50.816。主持国家自然科学基金、国家重点研发计划“七大农作物育种”专项子项目、基础研究引导计划优青引导项目各1项。参加国家自然科学基金重点项目、转基因生物新品种培育重大专项、隆平高科科企合作项目各1项。

联系电话:82109857。

EMAIL:wanghai01@caas.cn。

主要履历及经历:

教育经历:                                                 
2006/09-2012/06 复旦大学,硕博连读
2002/09-2006/06 复旦大学,本科
2011/03-2012/06 Hong Kong Baptist University, Hong Kong, China,联合培养
2008/08-2011/03 Donald Danforth Plant Science Center, MO, USA,联合培养
工作经历:
2016/01-现在 中国农业科学院生物技术研究所,副研究员
2012/07-2015/12 中国农业科学院生物技术研究所,助理研究员

研究领域:

(1)利用群体遗传学和分子生物学技术解析玉米高产稳产的遗传基础。克隆控制玉米高产稳产的基因/QTL并解析其分子机制。
(2)利用深度学习等最新的机器学习技术建立玉米的表达调控模型,并应用于玉米的表型预测和遗传改良。

发表论文:

(1) Washburn JD, Guerra MKM, Ramstein G, Kremling KA, Valluru R, Buckler ES, Wang H (2018) Evolutionarily informed deep learning methods: Predicting transcript abundance from DNA sequence. bioRxiv
(2) Wang H#, Li S#, Teng S, Liang H, Xin H, Gao H, Huang D, Lang Z (2017) Transcriptome profiling revealed novel transcriptional regulators in maize responses to Ostrinia furnacalis and jasmonic acid. PLoS One 12: e0177739 (co-first)
(3) Wang H, Wu G, Zhao B, Wang B, Lang Z, Zhang C, Wang H (2016) Regulatory modules controlling early shade avoidance response in maize seedlings. BMC Genomics 17: 269
(4) Li S#, Wang H#, Li F, Chen Z, Li X, Zhu L, Wang G, Yu J, Huang D, Lang Z (2015) The maize transcription factor EREB58 mediates the jasmonate-induced production of sesquiterpene volatiles. Plant J 84: 296–308 (co-first)
(5) Wang H, Wang H (2015a) Phytochrome signaling: time to tighten up the loose ends. Mol Plant 8: 540–551
(6) Wang H, Wang H (2015b) Multifaceted roles of FHY3 and FAR1 in light signaling and beyond. Trends Plant Sci 20: 453–461
(7) Wang H, Wang H (2015c) The miR156/SPL Module, a Regulatory Hub and Versatile Toolbox, Gears up Crops for Enhanced Agronomic Traits. Mol Plant 8: 677–688
(8) Wang H#, Lu Y#, Jiang T, Berg H, Li C, Xia Y (2013a) The Arabidopsis U-box/ARM repeat E3 ligase AtPUB4 influences growth and degeneration of tapetal cells, and its mutation leads to conditional male sterility. Plant J 74: 511–523 (co-first)
(9) Wang H, Lu Y, Liu P, Wen W, Zhang J, Ge X, Xia Y (2013b) The ammonium/nitrate ratio is an input signal in the temperature-modulated, SNC1-mediated and EDS1-dependent autoimmunity of nudt6-2 nudt7. Plant J 73: 262–275
(10) Wang H, Wang S, Lu Y, Alvarez S, Hicks LM, Ge X, Xia Y (2012a) Proteomic analysis of early-responsive redox-sensitive proteins in Arabidopsis. J Proteome Res 11: 412–424
(11) Wang H, Wang S, Xia Y (2012b) Identification and Verification of Redox-Sensitive Proteins in Arabidopsis thaliana. In Z-Y Wang, Z Yang, eds, Plant Signalling Networks: Methods and Protocols. Humana Press, Totowa, NJ, pp 83–94
(12) Wang H, Liang Q, Cao K, Ge X (2011) Endogenous protein mono-ADP-ribosylation in Arabidopsis thaliana. Planta 233: 1287–1292
(13) Li S, Wang Z, Zhou Y, Li C, Wang G, Wang H, Zhang J, Liang G, Lang Z (2018) Expression of cry2Ah1 and two domain II mutants in transgenic tobacco confers high resistance to susceptible and Cry1Ac-resistant cotton bollworm. Sci Rep 8: 508
(14) Xie Y, Liu Y, Wang H, Ma X, Wang B, Wu G, Wang H (2017) Phytochrome-interacting factors directly suppress MIR156 expression to enhance shade-avoidance syndrome in Arabidopsis. Nat Commun 8: 348
(15) Liu Y, Xie Y, Wang H, Ma X, Yao W, Wang H (2017) Light and Ethylene Coordinately Regulate the Phosphate Starvation Response through Transcriptional Regulation ofPHOSPHATE STARVATION RESPONSE1. Plant Cell 29: 2269–2284
(16) Sun H, Zhou N, Wang H, Huang D, Lang Z (2017) Processing and targeting of proteins derived from polyprotein with 2A and LP4/2A as peptide linkers in a maize expression system. PLoS One 12: e0174804
(17) Pan Y-Y, Chen R, Zhu L, Wang H, Huang D-F, Lang Z-H (2016) Utilizing modified ubi1 introns to enhance exogenous gene expression in maize (Zea mays L.) and rice (Oryza sativa L.). J Integr Agric 15: 1716–1726
(18) Liu P, Zhang H, Wang H, Xia Y (2014) Identification of redox-sensitive cysteines in the Arabidopsis proteome using OxiTRAQ, a quantitative redox proteomics method. Proteomics 14: 750–762
(19) Lu Y, Li C, Wang H, Chen H, Berg H, Xia Y (2011) AtPPR2, an Arabidopsis pentatricopeptide repeat protein, binds to plastid 23S rRNA and plays an important role in the first mitotic division during gametogenesis and in cell proliferation during embryogenesis. Plant J 67: 13–25
(20) Wang X, Wang H, Li Y, Cao K, Ge X (2009) A rice lipid transfer protein binds to plasma membrane proteinaceous sites. Mol Biol Rep 36: 745–750
(21) Ge X, Wang H, Cao K (2008) Transformation by T-DNA integration causes highly sterile phenotype independent of transgenes in Arabidopsis thaliana. Plant Cell Rep 27: 1341–1348

 

 

 

 
   
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