罗小金

发布时间:2021-08-01浏览次数:7201

教师基本信息Basic information

姓名Name罗小金Xiaojin Luo

职称Title研究员Professor

职务Duties基因技术教育部工程研究中心副主任Deputy Director of MOE Engineering Research Center of Gene Technology

电子邮箱Emailluoxj@fudan.edu.cn

办公地点Office location复旦大学江湾校区生科楼C409

C409, Life Science Building, Jiangwan Campus, Fudan University

办公电话Office Phone021-31246573

个人网页/课题组主页Personal webpage/research group homepage

研究方向Research Interests

水稻遗传改良:利用分子遗传学、细胞生物学、基因组学和生物信息学等手段,以野生稻染色体片段置换系为材料,挖掘、研究水稻野生资源中的高产、优质基因,并利用现代生物技术协同改良产量与品质、培育水稻新品种。

Genetic improvement of rice: mining and studying high-yield and high-quality genes in rice, and cultivating new rice varieties.

个人简介Personal profile

男,博士,研究员,博士生导师,遗传工程国家重点实验室独立PI2006年获中国农业大学农学博士学位;2006-2008年在复旦大学生科院从事博士后研究;2009年至今,复旦大学生命科学学院,讲师、副研究员、研究员。长期从事水稻种质资源与分子遗传育种工作。担任Crop Design杂志编委,兼任上海遗传学会、作物学会及农学会理事,中国遗传学会标准化技术委员会委员。主持课题有:上海市“东方英才”拔尖人才项目,江西省“千人计划”创新领军人才项目,科技创新2030-农业生物育种重大项目,国家自然科学基金面上项目,上海市教委科研创新计划重大项目等。联合培育水稻新品种三个:申优27、申优42及申优R2,培育获得环境释放基因编辑新品系两个:T025-1CGHC-1。先后获得上海市科技进步一等奖、江西省科技进步二等奖。

Xiaojin Luo received the Ph.D. degree from College of Agriculture, China Agricultural University, China, in 2006. He is currently a professor with School of Life Science, Fudan University, Shanghai, China. He has been engaged in rice germplasm resources and molecular genetic breeding for a long time.

授课情况Teaching讲授《基因组学》Genomics

招生专业Enrollment major植物遗传学Plant Genetics

科研项目Projects

[1]上海市东方英才(乡村振兴)拔尖人才项目,水稻高产与优质性状的形成及协同改良的分子机制,2024/01/01-2026/12/31,主持

[2]科技创新2030-农业生物育种”重大项目,2023ZD04066,资源高效与耐盐碱水稻新品种设计与培育,2023/12-2025/12,子课题负责人

[3]上海市教委科研创新计划重大项目,2023ZKZD05水稻高产优质基因的挖掘与应用,2023/01/01-2027/12/31,主持

[4]国家自然科学基金面上项目,32172043RBP-A-J-K复合体对水稻粒重和粒型的转录后调控,2022/01-2025/12,主持

[5]国家自然科学基金面上项目,31971918TGW3/OsSK41负调水稻籽粒大小的分子机制与应用,2020/01-2023/12,主持

[6]江西省“千人计划”创新领军人才项目(2019年),负调OsPDCD5基因改良水稻产量,2020/01-2022/12,主持

[7]上海市“科技创新行动计划”项目,19391900400,利用现代分子育种技术培育优质稳产粳稻新品种,2019/11-2022/10,主持

[8]国家重点研发计划,2016YFD0100902,水稻功能基因组研究与应用,2016/9-2021/6,子课题负责人

[9]国家自然科学基金面上项目,31671655Anti-OsPDCD5/Cas9-OsPDCD5提高水稻生物量、增加产量的分子机制2017/01-2020/12,主持

[10]转基因重大专项,2016ZX08001004001-006,高产转基因水稻新品种培育,2016/01-2020/12子课题负责人

[11]国家自然科学基金面上项目,31471461,东乡野生稻OsEBS基因增加穗粒数以及提高生物量的机理,2015/01-2018/12,主持

[12]上海市科技兴农重点攻关项目,沪农科攻字(2014)第7-1-2号,水稻籼粳杂种育性基因的遗传基础及其种质创新研究,2014/10-2019/09任务负责人

[13]山东省农业良种工程项目,水稻产量与品质特异性种质材料的创新与利用,2014/06-2017/06任务负责人

[14]转基因重大专项,2014ZX08001004001-009,高光效与理想株型高产转基因水稻新品种培育,2014/01-2015/12子课题负责人

[15]上海市自然科学基金,13ZR1402800,江西东乡野生稻控制株型及穗粒数基因OsEBS的克隆及应用研究,2013/07-2016/06,主持

[16]转基因重大专项,2013ZX08001004001-009,高光效与理想株型高产转基因水稻新品种培育,2013/01-2013/12子课题负责人

[17]国家自然科学青年基金,30900881,水稻穗粒数及叶宽窄变化的遗传及细胞分子机制研究,2010/01-2012/12,主持

[18]教育部博士点新教师基金,20090071120034,江西东乡野生稻增产QTL qGY2-1区域的比较基因组,2010/01-2012/12,主持

[19]转基因重大专项,2009ZX08001-028B,水稻反义程序性死亡基因转基因耐盐新品系的培育,2009/06-2010/12任务负责人

[20]转基因重大专项,2009ZX08009-047B,水稻抗褐飞虱基因的克隆及功能验证,2009/06-2010/12任务负责人

[21]中国博士后基金首批特别资助,20080117,东乡野生稻穗粒数QTL的克隆及利用,2008/12,主持

[22]中国博士后基金一等资助,20060400160,东乡野生稻穗粒数QTL的定位及克隆,2006/12-2008/12,主持

获奖情况Award

1.上海市科技进步一等奖R52023First Prize of Shanghai Science and Technology Progress Award (2023)

2.复旦大学研究生教材二等奖(3/32021Second Prize in Graduate Textbooks of Fudan University (2021)

3.复星医药奖教金(201220142018Fosun Medical Scholarship (2012, 2014, 2018)

4.江西省科学技术进步二等奖R72007Second Prize of Jiangxi Province Science and Technology Progress Award (2007)

5.中国农业大学优秀博士学位论文(校十佳,2006Excellent Doctoral Dissertation from China Agricultural University (2006)

代表性论文和论著Selected Publications

1. Ren D#, Liu H#, Sun XJ#, Zhang F#, Jiang L, Wang Y, Jiang N, Yan PW, Cui JH, Yang JS, Li ZK*, Lu PL*and Luo XJ*(2023).Post-transcriptional regulation of grain weight and shape by the RBP A-J-K complex in rice.Integr Plant BiolDOI: 10.1111/ jipb.13583.

2. Hu ZJ#, Niu FA#, Yan PW#, Wang K, Zhang LX, Yan Y, Zhu Y, Dong SQ, Ma FY, Lan DY, Liu SW, Xin XY, Wang Y, Yang JS, Cao LM*, Wu SJ*, Luo XJ*(2023). The kinase OsSK41/OsGSK5 negatively regulates amylose content in rice endosperm by affecting the interaction between OsEBP89 and OsBP5. Integr Plant Biol65(7): 1782-1793

3. Ma FY#, Zhang F#, Zhu Y#, Lan DY, Yan PW, Wang Y, Hu ZJ, Zhang XW, Hu J, Niu FA, Liu MY, He SC, Cui JH, Yuan XY, Yan Y, Wu SJ, Cao LM, Bian HW, Yang JS, Li ZK*. Luo XJ*(2023). Auxin signaling module OsSK41-OsIAA10-OsARF regulates grain yield traits in rice. Integr Plant Biol, 65(7): 1753-1766

4. Lan DY#, Cao LM#, Liu MY, Ma FY, Yan PW, Zhang XW, Hu J, Niu FA, He SC, cui JH, Yuan XY, Yang JS, Wang Y*, Luo XJ*(2023). The identification and characterization of a plant height and grain length related gene hfr131 in rice. Front Plant Sci, 14DOI: 10.3389/fpls.2023.1152196.

5. Jiang L, Jiang N, Hu ZJ, Sun XJ, Xiang X, Liu YH, Wu MW, Liu CM*, Luo XJ* (2023). TATA-box binding protein-associated factor 2 regulates grain size in rice. Crop J, 11(2):438-446.

6. Wang Y, Li XY, Ishikawa R, Luo XJ*(2023). Editorial: Mining andutilization of favorable generesources in rice.Front Plant Sci, DOI 10.3389/fpls.2023.1289069

7.Yan PW#, Zhu Y#, Wang Y, Ma FY, Lan DY, Niu FA, Dong SQ, Zhang XW, Hu J, Liu SW, Guo T, Xin XY, Zhang SY, Yang JS, Cao LM*Luo XJ*(2022). A new RING finger protein, PLANT ARCHITECTURE and GRAIN NUMBER 1, affects plant architecture and grain yield in rice. Int J Mol Sci, 23(2)824, doi.org/10.3390/ijms 23020824.

8. Dong SQ#, Dong XX#, Han XK, Zhang F, Zhu Y, Xin XY, Wang Y, Hu YY, Yuan DY, Wang JP, Huang Z, Niu FA, Hu ZJ, Yan PW, Cao LM, He HH, Fu JR, Xin YY, Tan YN, Mao BG, Zhao BR*, Yang JS*, Yuan LP, Luo XJ* (2021).OsPDCD5 negatively regulates plant architectureand grain yield in rice. Proc Natl Acad Sci USA, 118: 1-11, doi.org/10.1073/pnas.2018799118

9. Liu H#, Ren D#, Jiang L, Li XJ, Yao Y, Mi LM, Chen WL, Mo AW, Jiang N, Yang JS, Chen P, Ma H, Luo XJ*, Lu PL*(2020). A Natural Variation in PLEIOTROPIC DEVELOPMENTAL DEFECTS Uncovers a Crucial Role for Chloroplast tRNA Modification in Translation and Plant Development. Plant cell, 32: 2345-2366

10. Liu YH, Zhu Y, Xu XD, Sun F, Yang JS, Cao LM*, Luo XJ*(2019). OstMAPKKK5, a truncated mitogen-activated protein kinase 5, positively regulates plant height and yield in rice. Crop J, 7(5):707-714

11. Hu ZJ#, Lu SJ#, Wang MJ#, He HH, Sun L, Wang HR, Liu XH, Jiang L, Sun JL, Xin XY, Kong W, Chu CC, Xue HW, Yang JS, Luo XJ*, Liu JX* (2018). A Novel QTL qTGW3 Encodes the GSK3/SHAGGY-Like Kinase OsGSK5/OsSK41 that Interacts with OsARF4 to Negatively Regulate Grain Size and Weight in Rice. Mol Plant, 11(5): 736-749

12. Wang YCao LMZhang YXCao CXLiu FHuang FK, Qiu YF, Li RB*, Luo XJ* (2015). Map-based cloning and characterization of BPH29, a B3 domain-containing recessive gene conferring brown planthopper resistance in rice.J Exp Bot66(19)6035-6045

13. Dong XXWang XYZhang LSYang ZTXin XYWu SSun CQLiu JXYang JSLuo XJ* (2013). Identification and characterization of OsEBS, a gene involved in enhanced plant biomass and spikelet number in rice. Plant Biotechnol J, 11(9): 1044-1057

14. Yang MF, Sun F, Wang SY, Qi WW, Wang QJ, Dong XX, Yang JS*, Luo XJ*(2013). Down-regulation of OsPDCD5, a homolog of the mammalian PDCD5, increases rice tolerance to salt stress. Mol Breeding,31(2): 333-346.

15. Hu ZJ#He HH#Zhang SYSun FXin XYWang WX, Qian X, Yang JS, Luo XJ*(2012). A Kelch Motif-Containing Serine/Threonine Protein Phosphatase Determines the Large Grain QTL Trait in Rice. Integr Plant Biol, 54(12): 979-990. 52

16. Luo XJ#Wu S#Tian F #Xin XYZa XJDong XXFu YCWang XKYang JS*Sun CQ*(2011). Identification heterotic loci associated with yield-related traits derived from Chinese common wild rice (Oryza rufipogon Griff.). Plant Sci, 181(1): 14-22. 38

17. Qi WWSun FWang QJChen MLHuang YQFeng YQLuo XJ, Yang JS†*(2011). Rice Ethylene-Response AP2/ERF Factor OsEATB Restricts Internode Elongation by Down-Regulating a Gibberellin Biosynthetic Gene. Plant Physiol, 157(1): 216-228

18. Liang F#Xin XY#Hu ZJXu JDWei GQian XYYang JS, He HH*, Luo XJ*(2011). Genetic Analysis and Fine Mapping of a Novel Semidominant Dwarfing Gene LB4D in Rice. J Integr Plant Biol,53(4): 312-323

19. Luo XJ, Fu YC, Zhang PJ, Wu S, Tian F, Liu JY, Zhu ZF, Yang JS, Sun CQ*(2009). Additive and Over-dominant Effects Resulting from Epistatic Loci Are the Primary Genetic Basis of Heterosis in Rice. J Integr Plant Biol, 51(4): 393-408.

20. He GM#, Luo XJ#, Tian F, Li KG, Zhu ZF, Su W, Qian XY, Fu YC, Wang XK, Sun CQ*, Yang JS* (2006). Haplotype variation in structure and expression of a gene cluster associated with a quantitative trait locus for improved yield in rice. Genome Res, 16: 618-626