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光合作用代谢调控
杨文强 研究员
2000年和2003年在东北农业大学分别获学士和硕士学位,2008年在中国科学院遗传与发育生物学研究所获博士学位。2009年2月至2017年1月在美国斯坦福卡内基研究所植物生物学系从事博士后研究和研究助理工作。期间于2009年在美国科罗拉多再生能源国家实验室(NREL)访问研究。2017年入选国家青年引进人才,2017年2月到中国科学院植物研究所工作,目前任中国科学院大学岗位教授、中科院光生物学重点实验室副主任、中国藻类学会理事、中国植物生理与植物分子生物学学会光合作用专业委员会委员、中国细胞生物学会青年工作委员会委员、中国细胞生物学会WLLA青年PI培训委员等职。担任The Plant Cell等多个国际期刊的审稿人。担任《热带作物学报》副主编、《土壤学报》编委、Frontier in Plant Science review editor。主要从事光合作用调控、叶绿体蛋白转运和质量控制以及豆科植物高光效相关研究。主持国家青年人才项目、基金委面上项目、科技部国家重点研发计划课题、中科院先导A项目子课题和任务等课题。在PNAS, Small Methods, Plant Cell, Plant J, Mol Plant, Plant Physiol, New Phytol等期刊发表论文30余篇,参编著作5本。荣获2021年中国科学院大学教学优秀奖。培养学生中多人次获得国家奖学金,毕业后出国深造、在国内大学、科研机构或者著名公司工作。
电话:010-62836945
邮箱:wqyang@ibcas.ac.cn

 
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  • 发表论文
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研究方向: 光合作用是世界上最重要的化学反应,与人类生存息息相关。实验室致力于光合作用代谢调控机制研究。以衣藻和大豆等豆科植物为研究对象,运用遗传学、生理学、细胞学、分子生物学、生物化学、生物物理学和组学等多学科的理论与技术,挖掘关键因子、揭示分子机理,更好的理解光合作用调控机制,为农业科技发展提供理论指导和技术支持。研究方向包括: (1)光合作用调控机制 (2)光合作用与碳代谢互作网络 (3)叶绿体蛋白转运与蛋白质量控制 (4)大豆、苜蓿等豆科植物光合作用及高光效机理
  • 杨志攀

    副研究员

    yangzp@ibcas.ac.cn

    010-62836193

  • 王美美

    工程师

    meimeiwang@ibcas.ac.cn

    010-62836193

  • 邢家乐

    博士后

    xingjiale@ibcas.ac.cn

    010-62836193

  • 扆珩

    2017级 博士

    yiheng@ibcas.ac.cn

    010-62836193

  • 杨换玲

    2016级 博士

    yanghuanling@ibcas.ac.cn

    010-62836193

  • 潘俊廷

    2018级 博士

    panjunting@ibcas.ac.cn

    010-62836193

  • 吕英

    2019级 博士

    lvying@nsfc.gov.cn

    010-62836193

  • 李瑞姿

    2019级 博士

    liruizi@ibcas.ac.cn

    010-62836193

  • 徐勤朕

    2019级 博士

    xuqz2020@foxmail.com

    010-62836193

  • 王月

    2020级 博士

    wangyue0220@ibcas.ac.cn

    010-62836193

  • 韩菲

    2021级 博士

    hanfei@ibcas.ac.cn

  • 刘潇

    2018级 硕士

    liuxiao@ibcas.ac.cn

    010-62836193

  • 王娇娇

    2019级 硕士

    wangjiaojiao1631@163.com

    010-62836193

  • 张春阳

    2020级 直博

    zcy971110@163.com

    010-62836193

  • 吕康

    2020级 硕士

    lvkang1122@163.com

    010-62836193

  • 董俊娜

    2021级 硕士

    djn18889601106@163.com

    010-62836193

  • 宾凇

    2021级 硕士

    binsong_cq@163.com

    010-62836193

Xing JL#, Pan JT#, Yi H, Lv K, Gan QL, Wang MM, Ge HT, Huang XH, Huang F, Wang YC, Rochaix J, Yang WQ* (2022). The plastid-encoded protein Orf2971 is required for protein translocation and chloroplast quality control. Plant Cell. doi: 10.1093/plcell/koac180. 

Lv Y#, Han F#, Liu M#, Zhang T, Cui GS, Wang J, Yang Y, Yang Y, Yang W* (2022). Characteristics of N6-methyladenosine modification during sexual reproduction of Chalmydomonas reinhardtii. Genomics Proteomics & Bioinformatics. doi:10.1016/j.gpb.2022.04.004.

Li J, Yuan J, Li Y, Sun H, Ma T, Huai J, Yang W, Zhang W, Lin R (2022). The CDC48 complex mediates ubiquitin-dependent degradation of intra-chloroplast proteins in plants. Cell Reports. DOI:https://doi.org/10.1016/j.celrep.2022.110664 

Han C, Hua W, Li J, Qiao Y, Yao L, Hao W, Li R, Fan M, Jaeger GD, Yang W and Bai M* (2022). TOR promotes guard cell starch degradation by regulating the activity of β-AMYLASE1 in Arabidopsis. The Plant Cell. doi: 10.1093/plcell/koab307. 

Gao Z#, Chen Z#, Cui Y#, Ke M#, Xu H, Xu Q, Chen J, Li Y, Huang L, Zhao H, Huang D, Mai S, Xu T, Liu X, Li S, Guan Y, Yang W, Friml J, Petrášek J, Zhang J, Chen X (2021). GmPIN-dependent polar auxin transport is involved in soybean nodule development. The Plant Cell. 33(9):2981-3003.

Wang Y#, Yang H#, Zhang X, Han F, Tu W* and Yang W* (2020). Microalgal hydrogen production. Small Methods. 4: 1900514

Tu W, Wu L, Zhang C, Sun R, Wang L, Yang W, Yang C and Liu C (2020). Neoxanthin affects the stability of the C2S2M2-type photosystem II supercomplexes and the kinetics of state transition in Arabidopsis. Plant Journal. 104(6):1724-1735. 

Grossman AR, Luque ES, Yi H, Yang W* (2019). Building the GreenCut2 suite of proteins to unmask photosynthetic function and regulation. Microbiology. 165(7):697-718.

Li Z, Mo W, Jia L, Xu Y, Tang W, Yang W, Guo Y, Lin R* (2019). Rice FLUORESCENT1 is involved in the regulation of chlorophyll. Plant & Cell Physiology . 60(10):2307-2318.

Liu J*, Sun Z, Mao X, Gerken H, Wang X, Yang W (2019). Multiomics analysis reveals a distinct mechanism of oleaginousness in the emerging model alga Chromochloris zofingiensis. Plant Journal. doi: 10.1111/tpj.14302

Wittkopp TM, Saroussi S, Yang W, Johnson X, Kim RG, Heinnickel ML, Russell JJ, Phuthong W, Dent RM, Broeckling CD, Peers G, Lohr M, Wollman FA, Niyogi KK, Grossman AR (2018). GreenCut protein CPLD49 of Chlamydomonas reinhardtii associates with thylakoid membranes and is required for cytochrome b6 f complex accumulation. Plant Journal. 94(6):1023-1037 

Heinnickel M, Kim R, Wittkopp T, Yang W, Walters K, Herbert S, Grossman A (2016). Tetratricopeptide repeat protein protects photosystem I from oxidative disruption during assembly. PNAS. pii: 201524040

Yang W*#, Wittkopp TM#, Li X, Warakanont J, Dubini A, Catalanotti C, Kim RG, Nowack EC, Mackinder LC, Aksoy M, Page MD, D'Adamo S, Saroussi S, Heinnickel M, Johnson X, Richaud P, Alric J, Boehm M, Jonikas MC, Benning C, Merchant SS, Posewitz MC, Grossman AR (2015). Critical role of Chlamydomonas reinhardtii ferredoxin-5 in maintaining membrane structure and dark metabolism. PNAS. 112(48): 14978-14983 

Yang W*, Catalanotti C, Wittkopp TM, Posewitz MC, Grossman AR (2015). Chlamydomonas and the life of an algal transitioning from light to dark. Coming of age of Chlamydomonas as a model alga. Plant Journal. 82(3):481-503 

Yang W*, Catalanotti C, D'Adamo S, Wittkopp TM, Ingram-Smith CJ, Mackinder L, Miller TE, Heuberger AL, Peers G, Smith KS, Jonikas MC, Grossman AR, Posewitz MC (2014). Alternative acetate production pathways in Chlamydomonas reinhardtii during dark anoxia and the dominant role of chloroplasts in fermentative acetate production. The Plant Cell. 26(11): 4499-4518 

Duanmu D, Rockwell NC, Dent RM, Niyogi KK, Yang W, Grossman AR, Lagarias C (2013). Bilins are necessary for the transition to photoautotrophic growth in Chlamydomonas reinhardtii. PNAS.110(9): 3621-6 

Catalanotti C, Yang W, Posewitz MC, Grossman AR (2013). Understanding the anoxia in Chlamydomonas reinhardtii. Frontiers in Plant Science. doi: 10.3389/fpls.2013.00150. 

Heinnickel ML, Alric J, Wittkopp T, Yang W, Catalanotti C, Dent RM, Niyogi KK, Wollman FA, Grossman AR (2013).novel thylakoid membrane greencut protein cpld38 impacts accumulation of the cytochrome b6f complex and associated regulatory processes. Journal of Biological Chemistry. 288(10): 7024-36 

Catalanotti C, Dubini A, Subramanian V, Yang W, Magneschi L, Mus F, Seibert M, Posewitz MC, Grossman AR (2012). Altered fermentative metabolism in Chlamydomonas reinhardtii mutants lacking pyruvate formate lyase and both pyruvate formate lyase and alcohol dehydrogenase. The Plant Cell. 24: 692-707 

Magneschi L, Catalanotti C, Subramanian V, Dubini A, Yang W, Mus F, Posewitz MC, Seibert M, Perata P, Grossman AR (2012). A mutant in the ADH1 gene of Chlamydomonas reinhardtii elicits metabolic restructuring during anaerobiosis. Plant Physiology. 158(3): 1293-305 

Meuser JE, D'Adamo S, Jinkerson RE, Mus F, Yang W, Ghirardi ML, Seibert M, Grossman AR, Posewitz MC (2012). Genetic disruption of both Chlamydomonas reinhardtii [FeFe]-Hydrogenases: insight into the role of HYDA2 in H2 Production. Biochemical and Biophysical Research Communications. 417(2): 704-9 

Gonzalez-Ballester D, Pootakham W, Mus F, Yang W, Catalanotti C, Magneschi L, de Montaigu A, Higuera JJ, Prior M, Galván A, Fernandez E, Grossman AR (2011). Reverse Genetics in Chlamydomonas: A moderate throughput platform for isolating insertional mutants. Plant Methods. 7:24. doi:10.1186/1746-4811-7-24 

Grossman AR, Catalanotti C, Yang W, Dubini A, Magneschi L, Subramanian V, Posewitz MC, Seibert M (2011). Multiple facets of anoxic metabolism and hydrogen production in the unicellular green alga Chlamydomonas reinhardtii. New Phytologist. 190(2): 279-88 

Xu W, Yang R, Li M, Xing Z, Yang W, Chen G, Guo H, Gong X, Du Z, Zhang Z, Hu X, Wang D, Qian Q, Wang T, Su Z, Xue Y (2011). Transcriptome analysis of diurnal genes in seedling and flag leaves of rice. PLoS One. 6(3): e17613 

Yang W, Lai Y, Li M, Xu W, Xue Y (2008). A Novel C2-domain-containing phospholipid binding protein, OsPBP1, is involved in pollen fertility in rice (Oryza sativa L.). Molecular Plant. 1: 770-785 

Yang W, Kong Z, Omo-Ikerodah E, Xu W, Li Q, Xue Y (2008). A Calcineurin B-Like interacting protein kinase oscipk23 functions in pollination and drought stress responses in rice. Journal of Genetics and Genomics.35: 531-543  

Li M, Xu W, Yang W, Kong Z, Xue Y (2007). Genome-wide gene expression profiling reveals conserved and novel molecular functions of the stigma in rice (Oryza sativa L.). Plant Physiology. 144: 1797-1812 

Kong Z, Li M, Yang W, Xu W, Xue Y, Xue Y (2006). A novel nuclear-localized CCCH-type zinc finger protein, OsDOS, is involved in delaying leaf senescence in rice (Oryza sativa L.). Plant Physiology. 141: 1376-1388 

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