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“水稻高产优质性状形成的分子机理及品种设计”项目荣获2017...

已有 2491 次阅读 2018-1-11 17:47 |系统分类:科研笔记

2018年1月8日,由国家最高科学技术奖获得者李振声院士推荐的“水稻高产优质性状形成的分子机理及品种设计”项目荣获2017年度国家自然科学一等奖。这项成果是李家洋、韩斌、钱前、王永红、黄学辉为代表的研究团队历时逾20年合作完成,给予了品种设计育种研究领域新的启迪,将极大推动作物传统育种向高效、精准、定向的分子设计育种转变。


该项目围绕“水稻理想株型与品质形成的分子机理”这一核心科学问题,鉴定、创制和利用水稻资源,创建了直接利用自然品种材料进行复杂性状遗传解析的新方法;揭示了影响水稻产量的理想株型的分子基础,发现了理想株型形成的关键基因;阐明了稻米食用品质精细调控网络,用于指导优质稻米品种培育;示范了高产优质为基础的设计育种,攻克了水稻高产优质协同改良的科学难题。研究成果引领了水稻遗传学的发展,实现了“绿色革命”新突破。


左起黄学辉、韩斌、李家洋、钱前、王永红五位获奖人合影


部分代表作如下(文末附下载链接):

1,Song X, Lu Z, Yu H, Shao G, Xiong J, Meng X, Jing Y, Liu G, Xiong G, Duan J, Yao XF, Liu CM, Li H, Wang Y, and Li J (2017). IPA1 functions as a downstream transcription factor repressed by D53 in strigolactone signaling in rice. Cell Res 27, 1128-1141.


2,Meng X, Yu H, Zhang Y, Zhuang F, Song X, Gao S, Gao C, and Li J (2017). Construction of a Genome-Wide Mutant Library in Rice Using CRISPR/Cas9. Mol Plant 10, 1238-1241.


3,Ma H, Duan J, Ke J, He Y, Gu X, Xu TH, Yu H, Wang Y, Brunzelle JS, Jiang Y, Rothbart SB, Xu HE, Li J, and Melcher K (2017). A D53 repression motif induces oligomerization of TOPLESS corepressors and promotes assembly of a corepressor-nucleosome complex. Sci adv 3, e1601217.


4,Hu X, Meng X, Liu Q, Li J, and Wang K (2017). Increasing the efficiency of CRISPR-Cas9-VQR precise genome editing in rice. Plant Biotechnol J https://doi.org/10.1111/pbi.12771


5,Zhang L, Yu H, Ma B, Liu G, Wang J, Wang J, Gao R, Li J, Liu J, Xu J, Zhang Y, Li Q, Huang H, Xu J, Li J, Qian Q, Han B, He Z & Li J (2017) A natural tandem aray alleviates epigenetic repression of PA1 and leads to superior yielding in rce. Nat Commun 8, 14789.


6,Zeng D, Tian Z, Rao Y, Dong G, Yang Y, Huang L, Leng Y, Xu J, Sun C, Zhang G, Hu J, Zhu L, Gao Z, Hu X, Guo L, Xiong G, Wang Y, Li J, Qian Qian (2017) Rational design of high-yield and superior-quality rice. Nat Plants 3, 17031.


7,Wang J, Yu H, Xiong G, Lu Z, Jiao J, Meng X, Liu G, Chen X, Wang Y and Li J (2017) Tissue-specific Ubiquitination by IPA1 INTERACTING PROTEIN 1 Modulates IPA1 Protein Levels to Regulate Plant Architecture in Rice.The Plant Cell 29, 697-707.


8,Zhou H, Wang L, Liu G, Meng X, Jing Y, Shu X, Kong X, Sun J, Yu H, Smith SM, Wu D and Li J (2016)Critical roles of soluble starch synthase SSIIIa and granule-bound starch synthase Waxy in synthesizing resistant starch in rice. PNAS USA 113, 12844–12849.


9,Li J, Meng X, Zong Y, Chen K, Zhang H, Liu J, Li J and Gao C (2016) Gene replacement and insertions in rice by intron targeting using CRISPR/Cas9. Nat Plants DOI: 10.1038/NPLANTS.2016.139.


10,Huang S, Weigel D, Beachy RN, and Li J. (2016) A proposed regulatory framework for genome-edited crops. Nat Genet 48, 109-111.


11,Ke J, Ma H, Gu X, Thelen A, Brunzelle J, Li J, Xu H, and Melcher K. (2015). Structural basis for recognition of diverse transcriptional repressors by the TOPLESS family of corepressors. Science Adv 1, e1500107.


12,Hu J, Wang Y, Fang Y, Zeng,L, Xu J, Yu H, Shi Z, Pan J, Zhang D, Kang S, Zhu L, Dong G, Guo L, Zeng D, Zhang G, Xie L, Xiong G, Li J, and Qian Q. (2015). A Rare Allele of GS2 Enhances Grain Size and Grain Yield in Rice. Molecular Plant 8, 1455-1465.


13,Liu L, Tong H, Xiao Y, Che R, Xu F, Hu B, Liang C, Chu J, Li J, and Chu C. (2015). Activation of Big Grain1 significantly improves grain size by regulating auxin transport in rice. Proc Natl Acad Sci USA 112, 11102-11107.


14,Zhao L, Zhou X, Yi W, Wu Z, Liu Y, Kang Y, Hou L, de Waal P, Li S, Jiang Y, Scaffidi A, Flematti G, Smith S, Lam V, Griffin P, Wang Y, Li J, Melcher K, and Xu H (2015). Destabilization of strigolactone receptor DWARF14 by binding of ligand and E3-ligase signaling effector DWARF3. Cell Res 25, 1219-1236.


15,Wang Y, Xiong G, Hu J, Jiang L, Yu H, Xu J, Fang Y, Zeng L, Xu E, Xu J, Ye W, Meng X, Liu R, Chen H, Jing Y, Wang Y, Zhu X, Li J, Qian Q. (2015) Copy number variation at the GL7 locus contributes o grain size diversity in rice. Nat Genet 47, 944-948.


16,Jing H, Yang X, Zhang J, Liu X, Zheng H, Dong G, Nian J, Feng J, Xia B, Qian Q, Li J, and Zuo, J (2015). Peptidyl-prolyl isomerization targets rice Aux/IAAs for proteasomal degradation during auxin signalling. Nat Commun 6, 7395.


17,Lu Z, Shao G, Xiong J, Jiao Y, Wang J, Liu G, Meng X, Liang Y, Xiong G, Wang Y, and Li J (2015)MONOCULM 3, ortholog of WUSCHEL in rice, is required for tiller bud formation. J Genet Genomics 42. 71-78.


18,Huang X, Yang S, Gong J, Zhao Y, Feng Q, Gong Hao, Li W, Zhan Q, Cheng B, Xia J, Chen N, Hao Z, Liu K, Zhu C, Huang T, Zhao Q, Zhang L, Fan D, Zhou C, Lu Y, Weng Q, Wang Z, Li J & Han B (2015)Genomic analysis of hybrid rice varieties reveals numerous superior alleles that contribute to heterosis. Nat Commun 6, 6258.


19,Sang D, Chen D, Liu G, Liang Y, Huang L, Meng X, Chu J, Sun X, Dong G, Yuan Y, Qian Q, Li J, and Wang Y. (2014). Strigolactones regulate rice tiller angle by attenuating shoot gravitropism through inhibiting auxin biosynthesis. Proc Natl Acad Sci USA 111, 11199-11204.


20,Cardoso C, Zhang Y, Jamil M, Hepworth J, Charnikhova T, Dimkpa S, Meharg C, Wright M, Liu J, Meng X, Wang Y, Li J, McCouch S, Leyser O, Price A, Bouwmeester H and Ruyter-Spira C (2014) Natural variation of rice strigolactone biosynthesis is associated with the deletion of two MAX1 orthologs. Proc Natl Acad Sci USA 111: 2379–2384.


21,Jiang L, Liu X, Xiong G, Liu H, Chen F, Wang L, Meng X, Liu G, Yu H, Yuan Y, Yi W, Zhao L, Ma H, He Y, Wu Z, Melcher K, Qian Q, Xu H, Wang Y and Li J (2013) DWARF 53 acts as a repressor of strigolactone signaling in rice. Nature 504: 401-405.


22,Lu Z, Yu H, Xiong G, Wang J, Jiao Y, Guifu Liu G, Jing Y, Meng X, Hu X, Qian Q, Fu X, Wang Y and Li J (2013) Genome-wide binding analysis of the transcription activator IPA1 reveals a complex network regulating rice plant architecture. Plant Cell 25: 3743-3759.


23,Gao Z, Zhao S, He W, Guo L, Wang J, Peng Y, Guo X, Zhang X, Rao Y, Zhang C, Dong G, Zheng F, Lu C, Hu J, Zhou Q, Liu H,Hu X, Xu J, Zeng D, Liu D, Tian P, Gong L, Li Y, Zhang G, Wang J, Tian F, Xue D, Liao Y, Chen M,Li J, Cheng S, Zhang G, WangJ, Qian Q (2013) Dissecting yield-associated loci in super hybrid rice by resequencing recombinant inbred lines and improving parental genome sequences. Proc Natl Acad Sci USA110: 14492-14497.


24,Liu L, Shang-Guan K, Zhang B, Liu X, Yan M, Lanjun Zhang L, Shi Y, Zhang M, Qian Q, Li J and Zhou Y (2013) Brittle Culm1, a COBRA-Like Protein, Functions in Cellulose Assembly through Binding Cellulose Microfibrils. PLoS Genet 9: e1003704.


25,Zhao L, Zhou X, Wu Z, Yi W, Xu Y, Li S, Xu T, Liu Y, Chen R, Kovach A, Kang Y, Hou L, He Y, Xie C, Song W, Zhong D, Xu Y, Wang Y, Li J, Zhang C, Melcher K and Xu H (2013) Crystal structures of two phytohormone signal-transducing α/β hydrolases: karrikin-signaling KAI2 and strigolactonesignaling DWARF14. Cell Res 23:436-439.


26,Chen L, Xiong G, Cui X, Yan Y, Xu T, Qian Q, Xue Y, Li J and Wang Y (2013) OsGRAS19 may be a novel component involved in the brassinosteroid signaling pathway in rice. Mol Plant 6: 988-991.


27,Zhang X, Wang J, Huang J, Lan H, Wang C, Yin C, Wu Y, Tang H, Qian Q, Li J, and Zhang H (2012)Rare allele of OsPPKL1 associated with grain length causes extra-large grain and a significant yield increase in rice. Proc Natl Acad Sci USA 109: 21534-21539.


28,Huang X, Kurata N, Wei X, Wang Z, Wang A, Zhao Q, Zhao Y, Lu H, Li W, Guo Y, Lu Y, Liu K, Zhou C, Fan D, Weng Q, Zhu C, Huang T, Zhang L, Wang Y, Feng L, Furuumi H, Kubo T, Miyabayashi T, Yuan X, Xu Q, Dong G, Zhan Q, Li C, Fujiyama A, Toyoda A, Lu T, Feng Q, Qian Q, Li J and Han B (2012) A map of rice genome variation reveals the origin of cultivated rice and domestication-associated genes. Nature 490: 497-502.


29,Xu C, Wang Y, Yu Y, Duan J, Liao L, Xiong G, Meng X, Liu G, Qian Q and Li J (2012) Degradation of MONOCULM 1 (MOC1) by APC/CTAD1regulates rice tillering. Nat Commun DOI: 10.1038/ncomms1743.


30,Huang X, Zhao Y, Wei X, Li C, Wang A, Zhao Q, Li W, Guo Y, Deng L, Zhu C, Fan D, Lu Y, Weng Q, Liu K, Zhou T, Jing Y, Si L, Dong G, Huang T, Lu T, Feng Q, Qian Q, Li J and Han B (2012) Genome-wide association study of flowering time and grain yield traits in a worldwide collection of rice germplasm. Nat Genet 44: 32-39.


31,Huang X, Wei X, Sang T, Zhao Q, Feng Q, Zhao Y, Li C, Zhu C, Lu T, Zhang Z, Li M, Fan D, Guo Y, Wang A, Wang L, Deng L, Li W, Lu Y, Weng Q, Liu K, Huang T, Zhou T, Jing Y, Li W, Lin Z, Bucker ES, Qian Q, Zhang Q, Li J and Han B (2010) Genome-wide association studies of 14 agronomic traits in rice landraces. Nat Genet 42: 961-967.


32,Jiao Y, Wang Y, Xue D, Wang J, Yan M, Liu G, Dong G, Zeng D, Lu Z, Zhu X, Qian Q and Li J (2010)Regulation of OsSPL14 by OsmiR156 defines ideal plant architecture in rice. Nat Genet 42, 541-544.


33,Lin H, Wang R, Qian Q, Yan M, Meng X, Fu Z, Yan C, Jiang B, Su Z, Li J, and Wang Y (2009).DWARF27, an iron-containing protein required for the biosynthesis of strigolactones, regulates rice tiller bud outgrowth. Plant Cell 21: 1512-1525.


34,Huang X, Qian Q, Liu Z, Sun H, He S, Luo D, Xia G, Chu C, Li J, and Fu X. (2009) Natural variation at the DEP1 locus enhances grain yield in rice. Nat Genet 41: 494-497.


35,Li S, Qian Q, Fu Z, Zeng D, Meng X, Kyozuka J, Maekawa M, Zhu X, Zhang J, Li J and Wang Y (2009)Short panicle1 encodes a putative PTR transporter and determines rice panicle size. Plant J 58: 592-605.


36,Zhou Y, Li S, Qian Q, Zeng D, Zhang M, Guo L, Liu XL, Zhang B, Deng L, Liu XF, Luo G, Wang X and Li J (2009) BC10, a DUF266-containing and golgi-located type II membrane protein, is required for cell wall biosynthesis in rice (Oryza sativa L.) Plant J 57: 446-462.


37,Tian Z, Qian Q, Liu Q, Yan M, Liu X, Yan C, Liu G, Gao Z, Tang S, Zeng D, Wang Y, Yu J, Gu M and Li J (2009) Allelic diversities in rice starch biosynthesis lead to a diverse array of rice eating and cooking qualities. Proc Natl Acad Sci USA 106: 21760–21765.


38,Yu Y, Tang T, Qian Q, Wang Y, Yan M, Zeng D, Han B, Wu Chung-I, Shi S and Li J (2008)Independent losses of function in a polyphenol oxidase in rice: differentiation in grain discoloration between subspecies and the role of positive selection under domestication. Plant Cell 20: 2946-2959.


39,Li P, Wang Y, Qian Q, Fu Z, Wang M, Zeng D, Li B, Wang X, and Li J (2007) LAZY1 controls rice shoot gravitropism through regulating polar auxin transport. Cell Res 17: 402-410.


40,Xiong G, Hu X, Jiao Y, Yu Y, Chu C, Li J, Qian Q and Wang Y (2006) LEAFY HEAD2, which encodes a putative RNA-binding protein, regulates shoot development of rice. Cell Res 16: 267-276.


41,Li Y, Qian Q, Zhou Y, Yan M, Sun L, Zhang M, Fu Z, Wang Y, Han B, Pang X, Chen M and Li J (2003)BRITTLE CULM 1, which encodes a COBRA-like protein, affects the mechanical properties of rice plants. Plant Cell 15: 2020-2031.


42,Li X, Qian Q, Fu Z, Wang Y, Xiong G, Zeng D, Wang X, Liu X, Teng S, Hiroshi F, Yuan M, Luo D, Han B and Li J (2003) Control of tillering in rice. Nature 422: 618-621.


43,Feng Q, Zhang Y, Hao P, Wang S, Fu G, Huang Y, Li Y, Zhu J, Liu Y, Hu X, Jia P, Zhang Y, Zhao Q, Ying K, Yu S, Tang Y, Weng Q, Zhang L, Lu Y, Mu J, Lu Y, Zhang LS, Yu Z, Fan D, Liu X, Lu T, Li C, Wu Y, Sun T, Lei H, Li T, Hu H, Guan J, Wu M, Zhang R, Zhou B, Chen Z, Chen L, Jin Z, Wang R, Yin H, Cai Z, Ren S, Lv G, Gu W, Zhu G, Tu Y, Jia J, Zhang Y, Chen J, Kang H, Chen X, Shao C, Sun Y, Hu Q, Zhang X, Zhang W, Wang L, Ding C, Sheng H, Gu J, Chen S, Ni L, Zhu F, Chen W, Lan L, Lai Y, Cheng Z, Gu M, Jiang J, Li J, Hong G, Xue Y and Han B (2002) Sequence and analysis of rice chromosome 4. Nature 420: 316-320.






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