储成才
99岁的杨振宁语重心长寄语研究生
2021-4-26 07:48
阅读:2876

99岁的杨振宁在清华大学110年校庆时寄语研究生,语重心长。

“对于一个研究生,对他将来影响最大的,不是学会一两个技术或是怎么做实验的方法,而是要找到一个将来有发展的领域。这是他们一生最重要的事情。

我看过上千个博士生,有的10年以后非常成功,有的却失败了。不是因为成功的比不成功的聪明多少、努力多少,就是非常简单一句话:有人找到了正确方向,有人却走进了穷途末路,费了很多时间得不出结果。所以,我给研究生一句话:要清楚方向,选对方向

实验室招聘

        储成才团队现向海内外公开招聘博士后, 优秀博后出站可转为正式研究人员。
        研究组以水稻为材料, 重点解析水稻营养高效吸收利用的分子基础。实验室倡导 “快乐科学 (Happy Science)”理念, 以兴趣为导向, 不鼓励加班, 不追求文章, 将基础研究和应用实践相结合, 欢迎优秀青年学者加入团队。      

        我们的理念 “building a stage for each dreamer!” 

        你带着梦想而来,我们亦师亦友,携手前行,在你离开的时候,人们会发现一个全新的你!

        让我们带着梦想一起走向未来!

     实验室在包括NatureNature GeneticsNature BiotechnologyNature Plants, Nature CommunicationsGenome ResearchPNASPlant Cell 等刊物发表通讯/共同通讯论文100多篇。发表论文中8篇入选杂志封面文章,18篇入选高被引论文,总引用13000多次(Google Scholar 数据),连续入选2019、2020年度Clarivate Analytics(科睿唯安)“高被引科学家”。多次应邀在Nat PlantsTrends Plant SciCurr Opin Plant BiolMol PlantNew PhytolJ Exp Bot, Theor Appl GenetPlant Cell PhysiolCrop J. 等杂志撰写综述、趋势和评论;申请专利40多项,其中国际专利8项,与育种单位合作培育水稻新品种5个,其中秀水134累积推广面积1300多万亩。实验室"本土培养(无出国研究经历)" 2 位同学入选国家基金委优秀青年。

      实验室研究工作详情请访问实验室网站(http://chulab.genetics.ac.cn/)。
      阅读实验室发表文章全文请访问 ResearchGate-Chengcai Chu
  
一、应聘条件
  1、热爱科研, 具有高度责任心和团队精神, 勇于探索, 敢于创新。
  2、具有农学、遗传学、分子生物学、生物信息学或相关学科博士学位, 有生物信息学分析、植物营养相关领域研究经验者优先考虑。
  3、具有很强的科研能力, 能够独立完成相关研究课题。
  4、具有较好的英语听说能力, 能熟练阅读专业文献, 并具有较强的中英文写作能力, 在国际期刊以主要作者身份发表过研究论文者优先考虑。
  
二、材料投递
  有意者请将申请材料(博士后工作申请表、简历、研究工作经历、发表论文情况及代表性论文PDF、2-3位推荐人的姓名及电话号码)发至: ccchu@genetics.ac.cn。我们将对申请者进行资格审查, 并与初审合格者进行联系, 资格审查未通过者, 不再另行告知。招聘启事长期有效, 实验室对优秀人才永远敞开大门!
  
三、薪酬福利
  具体工资依据聘用人员背景双方协商, 优秀者待遇从优, 并据工作成绩动态调整。
       

        优秀的团队决定未来, 你的选择......


实验室发表的营养方面代表性研究论文(*Corresponding authors)

1. Wang X#, Feng C#, Tian L#, Hou C, Tian W, Hu B, Zhang Q, Ren Z, Niu Q, Song J, Kong D, Liu L, He Y, Ma L, Chu C*, Luan S*, Li L* (2021) A transceptor-channel complex couples nitrate sensing to calcium signaling in Arabidopsis. Mol. Plant. doi: 10.1016/j.molp.2021.02.005.

Spotlighted by Liu C-W* and Tan S (2021) Nitrate Signaling: A Translator between Nitrate Perception and Calcium Signature. Mol. Plant. Doi: 10.1016/j.molp.2021.04.002.

2. Liu Y#, Wang H#, Jiang Z, Wang W, Xu R, Wang Q, Zhang Z, Li A, Liang Y, Ou S, Liu X, Cao S, Tong H, Wang Y, Zhou F, Liao H, Hu B*, and Chu C* (2021) Genomic basis of geographical adaptation to soil nitrogen in riceNature 590(7847): 600-605.

Highlighted by Li W (2021) Adaptation to Nitrogen. Nat. Genet. 53(2): 127.

Spotlighted by Wang B and Li J (2021) Rice Geographic Adaption to Poor Soil: Novel Insight in Sustainable Agriculture. Mol. Plant. 14: 369-371.

Featured by Fernie A (2021) Using landrace transcription factor alleles to increase yield in modern rice under low input agriculture. J. Plant Physiol. 258-259: 153362.

Commented by Li X and Yu J (2021) Retrofitting elites with ancestral alleles for sustainable agriculture. Sci. China Life Sci. doi:10.1007/s11427-021-1923-0.

Mini-reviewed by Wang F, Yashida H and Matsuoka M (2021) Making the “Green Revolution” Truly Green: improving crop nitrogen use efficiency. Plant Cell Physiol. doi: 10.1093/pcp/pcab051.

热点评述: 宣伟, 徐国华(2021). 植物适应土壤氮素环境的基因选择: 以水稻为例. 植物学报. 56(1): 1-5.

Selected by F1000Prime by Jian Feng Ma, Jiming Jiang.

3. Zhang Z#, Li Z#, Wang W, Jiang Z, Guo L, Wang X, Qiang Y, Huang X, Liu Y, Liu X, Qiu Y, Li A, Yan Y, Xie J, Cao S, Kopriva S, Li L, Kong F, Liu B, Wang Y, Hu B*, Chu C*. (2021) Modulation of nitrate-induced phosphate response by RLI1/HINGE1 in nucleusMol. Plant DOI: 10.1016/j.molp.2020.12.005. 

4. Fang J#*, Zhang F#, Wang H, Wang W, Zhao F, Li Z, Sun C, Chen F, Xu F, Chang S, Wu L, Bu Q, Wang P, Xie J, Chen F, Huang X, Zhang Y, Zhu X, Han B, Deng X*, and Chu C* (2019) Ef-cd locus shortens rice maturity duration without yield penalty. Proc. Natl. Acad. Sci. USA 116(37): 18717-18722.

Highlighted in in this issue (2019) Rice maturity time and yieldProc. Natl. Acad. Sci. USA 116(37): 18149-18151.

Spotlighted by Yang Y and Qian Q (2019) Rice breeding: A long noncoding locus with great potential. Mol. Plant 12(11): 1431-1433.

热点评述:张硕, 吴昌银 (2019)长链非编码RNA基因Ef-cd调控水稻早熟与稳产. 植物学报. 54(5): 550-553.

5. Zhang J#, Liu Y-X#, Zhang N#, Hu B#, Jin T#, Xu H, Qin Y, Yan P, Zhang X, Guo X, Hui J, Cao S, Wang X, Wang C, Wang H, Qu B, Fan G, Yuan L, Garrido-Oter R, Chu C*, and Bai Y* (2019) NRT1.1B is associated with root microbiota composition and nitrogen use in field-grown rice. Nat. Biotechnol. 37: 676-684. [高被引论文

Cover story.

Featured by Wang X and Wang E (2019) NRT1.1B connects root microbiota and nitrogen use in rice. Chin. Bull. Bot. 54(3): 285-287.

6. Hu B#*, Jiang Z#, Wang W#, Qiu Y#, Zhang Z, Liu Y, Gao X, Liu L, Qian Y, Huang X, Yu F, Li A, Kang S, Wang Y, Xie J, Cao S, Zhang L, Wang Y, Xie Q, Kopriva S, and Chu C* (2019) Nitrate-NRT1.1B-SPX4 cascade integrates nitrogen and phosphorus signaling networks in plants. Nat. Plants 5: 401–413. [高被引论文

Featured by Carrión C Paz-Ares J (2019) When nitrate and phosphate sensors meet. Nat. Plants 5: 339–340.

Recommended by F1000Prime twice. Doi: 10.3410/f.735399180.793560575 and Doi: 10.3410/f.735399180.793560581.

7. Wang W#, Hu B#, Yuan D, Liu Y, Che R, Hu Y, Ou S, Zhang Z, Wang H, Li H, Jiang Z, Zhang Z, Gao X, Qiu Y, Meng X, Liu Y, Bai Y, Liang Y, Wang Y, Zhang L, Li L, Mergen S, Jing H, Li J, and Chu C* (2018) Expression of the nitrate transporter OsNRT1.1A/OsNPF6.3 confers high yield and early maturation in rice. Plant Cell  30(3): 638-651. [高被引论文]

Featured by Mach J (2018) The Real Yield Deal? Nitrate Transporter Expression Boosts Yield and Accelerates MaturationPlant Cell 30(3): 520-521.

Highlighted in Science Daily on February 23, 2018 by Mach J: New approach to improve nitrogen use, enhance yield, and promote flowering in rice.

Recommended by F1000Prime Doi: 10.3410/f.732773314.793543251.

8. Wang H#, Xu X#, Vieira FG, Xiao Y, Li Z, Wang J, Nielsen R*, and Chu C* (2016) The power of inbreeding: NGS based GWAS of rice reveals convergent evolution during rice domestication. Mol. Plant 9(7):975-985 

Cover Story. 

Featured by Huang X (2016) From genetic mapping to molecular breeding: Genomics have paved the highwayMol. Plant 9(7): 959-960.

9. Che R#, Tong H#, Shi B, Liu Y, Fang S, Liu D, Xiao Y, Hu B, Liu L, Wang H, Zhao M*, Chu C* (2016) Control of grain size and rice yield by GL2-mediated brassinosteroid responses. Nat. Plants 2: 15195. [高被引论文]

Featured by Tsukaya H (2016) Yield increase: GRFs provide the key. Nat. Plants 2: 15210.

10. Hu B, Wang W, Ou S, Tang J, Li H, Che R, Zhang Z, Chai X, Wang H, Wang Y, Liang C, Liu L, Piao Z, Deng Q, Deng K, Xu C, Liang Y, Zhang L, Li L, Chu C* (2015) Variation in NRT1.1B contributes to nitrate-use divergence between rice subspecies. Nat. Genet. 47(7): 834-838. 

Featured by Chao DY & Lin HX (2015) Nitrogen-use efficiency: Transport solution in rice variationsNat. Plants 1: 15096.

Highlighted by Chen ZC & Ma JF (2015) Improving nitrogen use efficiency in rice through enhancing root nitrate uptake mediated by a nitrate transporter, NRT1.1B. J. Genet. Genomics. 42(9): 463-465.

Highlighted by Duan D & Zhang H (2015) A single SNP in NRT1.1B has a major impact on nitrogen use efficiency in rice. Sci. China Life Sci. 58(8): 827-828.

Recommended by F1000 Prime. Doi: 10.3410/f.725540326.793508312.

11. Liang C#, Wang Y#, Zhu Y, Tang J, Hu B, Liu L, Ou S, Wu H, Sun X, Chu J, and Chu C* (2014) OsNAP connects abscisic acid and leaf senescence by fine tuning abscisic acid biosynthesis and directly targeting senescence-associated genes in rice. Proc. Natl. Acad. Sci. USA. 111(27): 10013-10018. [高被引论文]

Selected for F1000 Prime. doi: 10.3410/f.718460121.793520007.

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