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易静

个人简历

科研成果

教学情况

研究方向

荣誉奖励

论文专著

个人简历

基本信息

职称:副教授

办公室地址:逸夫楼610

联系电话:0931-8912682

邮箱:yijing@lzu.edu.cn

学习经历

2009   美国俄克拉荷马大学化学与生物化学系,博士

2006   美国俄克拉荷马大学化学与生物化学系,硕士

1998   四川大学生命科学学院植物生理学专业,硕士

1995   四川大学生物系植物学专业,学士

工作经历

2010.01-目前:      兰州大学生命科学学院,副教授,硕士生导师

2009.01-2009.09:  美国俄克拉荷马大学化学与生物化学系,博士后

1998.7-2001.10: 成都中医药大学助教

社会工作

植物科学与植物生理所第一党支部支部书记

科研成果

2011年 主持“中央高校基本科研业务费专项资金”自由探索项目,拟南芥茎端分生组织发育调控的分子机理,项目编号:lzujbky-2011-40。

参与项目包括:国家自然科学基金面上项目《受体激酶CIKs调控拟南芥根端分生组织稳态的分子机理》(31770312)和《拟南芥珠被发育的信号网络与调控机理》(No.31270229)以及教育部科学技术项目《受体激酶SERKs调控拟南芥胚胎发育的信号通路(No.113058A)等。

教学情况

本科生教学:《分子生物学》、《分子生物学实验》(春季学期)

研究生教学:《基因组学》(秋季学期)

研究方向

植物分子生物学

荣誉奖项

2007年获得美国俄克拉荷马大学“Belle W. Goodman” 奖学金

1995年获得四川大学“优秀毕业生”称号

论文专著

1.     Cui Y, Hu C, Zhu Y, Cheng K, Li X, Wei Z, Xue L, Lin F, Shi H, Yi J, Hou S, He K, Li J, Gou X*. (2018). CIK receptor kinases determine cell fate specification during early anther development in Arabidopsis. Plant Cell, 30: 2383-2401. (Cover story)

2.     Hu C, Zhu Y, Cui Y, Cheng K, Liang W, Wei Z, Zhu M, Yin H, Zeng L, Xiao Y, Lv M,Yi J, Hou S, He K, Li J, Gou X*. (2018). A group of receptor kinases are essential for CLAVATA signalling to maintain stem cell homeostasis. Nature Plants, 4: 205-211. (Cover story)

3.      Shi T, Dimitrov I, Zhang Y, Tax FE, Yi J, Gou X, Li J*. (2015). Accelerated rates of protein evolution in barley grain and pistil biased genes might be legacy of domestication. Plant Molecular Biology, 89: 253-261.

4.      沈喜, 易静. (2014). 基础分子生物学实验教程. 兰州大学出版社。

5.      The Tomato Genome Consortium(Sato S Tabata S Hirakawa H Asamizu E Shirasawa K Isobe S Kaneko T Nakamura Y Shibata D Aoki K Egholm M Knight J Bogden R Li C Shuang Y Xu X Pan S Cheng S Liu X Ren Y Wang J Albiero A Dal Pero F Todesco S Van Eck J Buels RM Bombarely A Gosselin JR Huang M Leto JA Menda N Strickler S Mao L Gao S Tecle IY York T Zheng Y Vrebalov JT Lee J Zhong S Mueller LA Stiekema WJ Ribeca P Alioto T Yang W Huang S Du Y Zhang Z Gao J Guo Y Wang X Li Y He J Li C Cheng Z Zuo J Ren J Zhao J Yan L Jiang H Wang B Li H Li Z Fu F Chen B Feng Q Fan D Wang Y Ling H Xue Y Ware D McCombie WR Lippman ZB Chia JM Jiang K Pasternak S Gelley L Kramer M Anderson LK Chang SB Royer SM Shearer LA Stack SM Rose JK Xu Y Eannetta N Matas AJ McQuinn R Tanksley SD Camara F Guigó R Rombauts S Fawcett J Van de Peer Y Zamir D Liang C Spannagl M Gundlach H Bruggmann R Mayer K Jia Z Zhang J Ye Z Bishop GJ Butcher S Lopez-Cobollo R Buchan D Filippis I Abbott J Dixit R Singh M Singh A Pal JK Pandit A Singh PK Mahato AK Gaikwad VD Sharma RR Mohapatra T Singh NK Causse M Rothan C Schiex T Noirot C Bellec A Klopp C Delalande C Berges H Mariette J Frasse P Vautrin S Zouine M Latché A Rousseau C Regad F Pech JC Philippot M Bouzayen M Pericard P Osorio S Fernandez del Carmen A Monforte A Granell A Fernandez-Muñoz R Conte M Lichtenstein G Carrari F De Bellis G Fuligni F Peano C Grandillo S Termolino P Pietrella M Fantini E Falcone G Fiore A Giuliano G Lopez L Facella P Perotta G Daddiego L Bryan G Orozco M Pastor X Torrents D van Schriek MG Feron RM van Oeveren J de Heer P daPonte L Jacobs-Oomen S Cariaso M Prins M van Eijk MJ Janssen A van Haaren MJ Jungeun Kim SH Kwon SY Kim S Koo DH Lee S Hur CG Clouser C Rico A Hallab A Gebhardt C Klee K Jöcker A Warfsmann J Göbel U Kawamura S Yano K Sherman JD Fukuoka H Negoro S Bhutty S Chowdhury P Chattopadhyay D Datema E Smit S Schijlen EG van de Belt J van Haarst JC Peters SA van Staveren MA Henkens MH Mooyman PJ Hesselink T van Ham RC Jiang G Droege M Choi D Kang BC Kim BD Park M Kim S Yeom SI Lee YH Choi YD Li G Gao J Liu Y Huang S Fernandez-Pedrosa V Collado C Zuñiga S Wang G Cade R Dietrich RA Rogers J Knapp S Fei Z White RA Thannhauser TW Giovannoni JJ Botella MA Gilbert L Gonzalez R Goicoechea JL Yu Y Kudrna D Collura K Wissotski M Wing R Meyers BC Gurazada AB Green PJ Vyas SM Solanke AU Kumar R Gupta V Sharma AK Khurana P Khurana JP Tyagi AK Dalmay T Mohorianu I Walts B Chamala S Barbazuk WB Li J Guo H Lee TH Wang Y Zhang D Paterson AH Wang X Tang H Barone A Chiusano ML Ercolano MR D'Agostino N Di Filippo M Traini A Sanseverino W Frusciante L Seymour GB Elharam M Fu Y Hua A Kenton S Lewis J Lin S Najar F Lai H Qin B Qu C Shi R White D White J Xing Y Yang K Yi JYao Z Zhou L Roe BA Vezzi A D'Angelo M Zimbello R Schiavon R Caniato E Rigobello C Campagna D Vitulo N Valle G Nelson DR De Paoli E Szinay D de Jong HH Bai Y Visser RG Klein R Beasley H McLaren K Nicholson C Riddle C Gianese G). (2012).The tomato genome sequence provides insights into fleshy fruit evolution, Nature,485(7400): 635-641.

6.     Gou X#, Yin H#, He K#, Du J, Yi J, Xu S, Lin H, Clouse SD, Li J*. (2012). Genetic evidence for an indispensable role of somatic embryogenesis receptor kinases in brassinosteroid signaling. PLoS Genetics, 8: e1002452.

7.      Young ND, Debellé F, Oldroyd GE, Geurts R, Cannon SB, Udvardi MK, Benedito VA, Mayer KF, Gouzy J, Schoof H, Van de Peer Y, Proost S, Cook DR, Meyers BC, Spannagl M, Cheung F, De Mita S, Krishnakumar V, Gundlach H, Zhou S, Mudge J, Bharti AK, Murray JD, Naoumkina MA, Rosen B, Silverstein KA, Tang H, Rombauts S, Zhao PX, Zhou P, Barbe V, Bardou P, Bechner M, Bellec A, Berger A, Bergès H, Bidwell S, Bisseling T, Choisne N, Couloux A, Denny R, Deshpande S, Dai X, Doyle JJ, Dudez AM, Farmer AD, Fouteau S, Franken C, Gibelin C, Gish J, Goldstein S, González AJ, Green PJ, Hallab A, Hartog M, Hua A, Humphray SJ, Jeong DH, Jing Y, Jöcker A, Kenton SM, Kim DJ, Klee K, Lai H, Lang C, Lin S, Macmil SL, Magdelenat G, Matthews L, McCorrison J, Monaghan EL, Mun JH, Najar FZ, Nicholson C, Noirot C, O'Bleness M, Paule CR, Poulain J, Prion F, Qin B, Qu C, Retzel EF, Riddle C, Sallet E, Samain S, Samson N, Sanders I, Saurat O, Scarpelli C, Schiex T, Segurens B, Severin AJ, Sherrier DJ, Shi R, Sims S, Singer SR, Sinharoy S, Sterck L, Viollet A, Wang BB, Wang K, Wang M, Wang X, Warfsmann J, Weissenbach J, White DD, White JD, Wiley GB, Wincker P, Xing Y, Yang L, Yao Z, Ying F, Zhai J, Zhou L, Zuber A, Dénarié J, Dixon RA, May GD, Schwartz DC, Rogers J, Quétier F, Town CD, Roe BA.(2011). The Medicago genome provides insight into the evolution of rhizobial symbioses, Nature, 480(7378): 520-524.

8.      Wiley G , Macmil S, Yi J, et al. (2009). Methods for generating shotgun and mixed shotgun/paired end libraries for the 454 DNA sequencer titanium chemistry. Current Protocols in Human Genetics, John Wiley & Sons, Inc. 

9.      Wawrzynski A, Ashfield T, Chen WG, MammadovJ, Nguyen A, Podicheti R, Cannon SB, Thareau V, Ameline-Torregrosa C, Cannon E, Chacko B, Couloux A, Dalwani A, Denny R, Deshpande S, Egan AN, Glover N, Howell S, Ilut D, Lai HS, del Campo SM, Metcalf M, O'Bleness M, Pfeil BE, Ratnaparkhe MB, Samain S, Sanders I, Ségurens  B, Sévignac M, Sherman-Broyles S, Tucker DM, Yi J, Doyle JD, Geffroy V,  Roe BA, Maroof MA, Young ND and Innes RW. (2008). Replication of Nonautonomous Retroelements in Soybean Appears to Be Both Recent and Common. Plant Physiology 148:1760-1771

10.   Innes RW, Ameline-Torregrosa C, Ashfield T, Cannon E, Cannon SB, Chacko B, Chen NW, Couloux A, Dalwani A, Denny R, Deshpande S, Egan AN, Glover N, Hans CS, Howell S, Ilut D, Jackson S, Lai H, Mammadov J, Del Campo SM, Metcalf M, Nguyen A, O'Bleness M, Pfeil BE, Podicheti R, Ratnaparkhe MB, Samain S, Sanders I, Ségurens B, Sévignac M, Sherman-Broyles S, Thareau V, Tucker DM, Walling J, Wawrzynski A,Yi J, Doyle JJ, Geffroy V, Roe BA, Maroof MA, Young ND. (2008). Differential accumulation of retroelements and diversification of NB-LRR disease resistance genes in duplicated regions following polyploidy in the ancestor of soybean. Plant Physiology, 148(4): 1740-1759.

11.   Schlueter JA, Lin JY, Schlueter SD, Vasylenko-Sanders IF, Deshpande S, Yi J, et al. (2007).Gene duplication and paleopolyploidy in soybean and the implications for whole genome sequencing. BMC Genomics8:330

12.   Schlueter JA, Vasylenko-Sanders IF, Deshpande S, Yi J, et al. (2007). The FAD2 Gene Family of Soybean: Insights into the Structural and Functional Divergence of a Paleopolyploid Genome. Crop Sci 47:S-14-S-26

最新更新时间: 2022-10-19