一、基本情况
职称:教授
邮箱:jie.luo@hainanu.edu.cn
研究领域:植物次生代谢调控及代谢组学
招生专业:作物遗传育种、农业生物技术
教育背景:
1998.09-2002.06,华中科技大学,博士学位
1994.09-1997.03,大连工业大学,硕士学位
1989.09-1994.06,湖北工业大学,学士学位
工作简历:
2019.04-至今 海南大学热带作物学院,教授
2018.04-2019.03 海南大学热带农林学院,教授
2008.12-2018.03 华中农业大学生命科学技术学院,教授
2005.08-2009.01 英国John Innes Centre, 博士后
2003.12-2004.12 英国John Innes Centre ,访问学者
1997.05-2008.11 华中科技大学生科院,助教、讲师、副教授
二、获奖情况
1. 水稻营养及逆境代谢组的遗传机制解析,海南省自然科学一等奖,排名:第一,2021年;
2. 全国先进工作者,2020;
3. 海南省先进工作者,2019年;
4. 湖北省第十六届自然科学优秀学术论文特等奖,排名:第一,2016年。
三、科研概况
科研项目:
1、海南省崖州湾种子实验室揭榜挂帅项目,B21HJ0903,椰子重要农艺性状遗传基础解析及新种质资源创制,2022-2026,220万(2022年经费),在研,主持;
2、海南省重点研发计划项目,ZDYF2020066, 热带稻作资源精准鉴定评价和稻米营养品质关键基因挖掘及应用,2020-2022,81万,在研,主持;
3、海南省重大科技项目子课题,ZDKJ202002-01.1,基于代谢组学鉴定农作物病虫害技术的开发,2020-2023,50万,在研,主持;
4、中国工程科技发展战略海南研究院2021年咨询研究项目,21-HN-ZT-06,南繁育制种信息共享机制研究,2021-2022,50万,在研,主持;
6、国家杰出青年科学基金,31625021,作物代谢组学,2017-2021,400万,已结题,主持;
7、国家自然科学基金重点项目,31530052,节律钟和光周期调控水稻代谢组及抽穗期的分子机理,2016- 2020,330万,已结题,主持;
8、“万人计划科技创新领军人才项目”,2018-2020,80万,已结题,主持;
9、国家“973”计划项目课题,2013CB127001,水稻和玉米等作物代谢谱数据库的建立和利用,2013-2017,590万,已结题,主持。
代表性成果:
1. Shen S, Zhan C, Yang C, Fernie AR, Luo J*. Metabolomics-centered mining of plant metabolic diversity and function: past decade and future perspectives. Mol Plant, 2022, (IF:21.949)
2. Cao K, Wang B, Fang W, Zhu G, Chen C, Wang X, Li Y, Wu J, Tang T, Fei Z, Luo J*, Wang L*. Combined nature and human selections reshaped peach fruit metabolome. Genome Biol, 2022, 23: 146(IF:17.906)
3. Zhan C#, Shen S#, Yang C, Liu Z, Fernie AR, Graham IA, Luo J*. Plant metabolic gene clusters in the multi-omics era. Trends Plant Sci, 2022(IF:22.012)
4. Zhou J#, Liu C#, Chen Q, Liu L, Niu S, Chen R, Li K, Sun Y, Shi Y, Yang C, Shen S, Li Y, Xing J, Yuan H, Liu X, Fang C, Fernie AR. Luo J*. Integration of rhythmic metabolome and transcriptome provides insights into the transmission of rhythmic fluctuations and temporal diversity of metabolism in rice. Sci China - Life Sci, 2022, 2022, 65(9)1794-1810 (IF:10.372)
5. Zhang F, Huang J, Guo H, Yang C, Li Y, Shen S, Zhan C, Qu L, Liu X, Wang S, Chen W, Luo J*. OsRLCK160 contributes to flavonoid accumulation and UV-B tolerance by regulating OsbZIP48 in rice. Sci China - Life Sci, 2022, 65(9), 1380-1394 (IF:10.372)
6. Fang H#, Shen S#, Wang D, Zhang F, Zhang C, Wang Z, Zhou Q, Wang R, Tao H, He F, Yang C, Peng M, Jing X, Hao Z, Liu X, Luo J*, Wang G*, Ning Y*. A monocot-specific hydroxycinnamoylputrescine gene cluster contributes to immunity and cell death in rice. Sci Bull, 2021, 66: 2381-2393. (IF:20.577)
7. Shen S#, Peng M#, Fang H, Wang Z, Zhou S, Jing X, Zhang M, Yang C, Guo H, Li Y, Lei L, Shi Y, Sun Y, Liu X, Xu C, Tohge T, Yuan M, Fernie AR, Ning Y, Wang G, Luo J*. An Oryza specific hydroxycinnamoyl tyramine gene cluster contributes to enhanced disease resistance. Sci Bull, 2021, 66(23): 2369-2380. (IF:20.577)
8. Wang S#, Xiao Y#, Zhou Z#, Yuan J#, Guo H#, Yang Z, Yang J, Sun P, Sun L, Deng Y, Xie W, Song J, Qamar MT, Xia W, Liu R, Gong S, Wang Y, Wang F, Liu X, Fernie AR, Wang X*, Fan H*, Chen L*, Luo J*. High-quality reference genome sequences of two coconut cultivars provide insights into evolution of monocot chromosomes and differentiation of fiber content and plant height. Genome Biol, 2021, 22: 304.(IF:17.906)
9. Yang C, Shen S, Zhou S, Li Y, Mao Y, Zhou J, Shi Y, An L, Zhou Q, Peng W, Lyu Y, Liu X, Chen W, Wang S, Qu L, Liu X, Femie AR, Luo J*. Rice metabolic regulatory network spanning its entire life cycle. Mol Plant, 2021, 15, 258-275. (IF:21.949)
10. Yuan H#, Cao G#, Hou X#, Huang M#, Du P#, Tan T, Zhang Y, Zhou H, Liu X, Liu L, Jiang F, Li Y, Liu Z, Fang C, Zhao L, Fernie AR, Luo J*. Development of a widely-targeted volatilomics method for profiling the volatilomes in plants. Mol Plant, 2021, 15:189-202. (IF:21.949)
11. Zhan C, Lei L, Liu Z, Shen Z, Yang C, Zhu X, Guo H, Zhang F, Peng M, Zhang M, Li Y, Yang Z, Sun Y, Shi Y, Li K, Liu L, Shen S, Wang X, Shao J, Jing X, Wang Z, Li Y, Czechowski T, Hasegewa M, Graham I, Tohge T, Qu L, Liu X, Fernie AR, Chen L, Yuan M, Luo J*. Selection of a subspecies-specific diterpene gene cluster implicated in rice disease resistance. Nat Plants, 2020, 6: 1447-1454. (IF:17.352)
12. Sun Y#, Shi Y#, Liu G, Yao F, Zhang Y, Yang C, Guo H, Liu X, Jin C*, Luo J*. Natural variation in the OsbZIP18 promoter contributes to branched‐chain amino acid levels in rice. New Phytol, 2020, 228: 1548-1558. (IF:10.323)
13. Zhang F, Guo H, Huang J, Yang C, Li Y, Wang X, Qu L, Liu X, Luo J*. A UV-B-responsive glycosyltransferase, OsUGT706C2, modulates flavonoid metabolism in rice. Sci China - Life Sci, 2020, 67: 1037-1052. (IF:10.372)
14. Zeng X#, Yuan H#, Dong X#, Peng M#, Jing X, Xu Q, Tang T, Wang Y, Zha S, Gao M, Li C, Shu C, Wei Z, Qimei W, Basang Y, Dunzhu J, Li Z, Bai L, Shi J, Zheng Z, Yu S, Fernie AR, Luo J*, Nyima T*. Genome-wide dissection of co-selected UV-B responsive pathway in the UV-B adaptation of qingke. Mol Plant, 2020, 13: 112-127. (IF:21.949)
15. Wang C, Alseekh H., Fernie AR* and Luo J*. The structure and function of major plant metabolite modifications. Mol Plant, 2019, 12: 899-919. (IF:21.949)
16. Li K, Wang D, Gong L, Lyu Y, Guo H, Chen W, Jin C, Liu X, Fang C*, Luo J*. Comparative analysis of metabolome of rice seeds at three developmental stages using a recombinant in bred line population. Plant J, 2019, 100: 908-922. (IF:7.091)
17. Jin C, Sun Y, Shi Y, Zhang Y, Chen K, Li K, Liu G, Yao F, Cheng D, Li J, Zhou J, Qu L, Liu X, Luo J*. Branched-chain amino acids regulate plant growth by affecting the homeostasis of mineral elements in rice. Sci China Life Sci, 2019, 62: 1107-1110. (IF:10.372)
18. Fang C, Fernie AR* and Luo J*. Exploring the diversity of plant metabolism. Trends Plant Sci, 2019, 24: 83-98.(IF:22.012)
19. Fang C, Luo J*. Metabolic GWAS-based dissection of genetic bases underlying the diversity of plant metabolism. Plant J, 2019, 97: 91-100. (IF:7.091)
20. Fang C, Li K, Wu Y, Wang D, Zhou J, Liu X, Li Y, Jin C, Liu X, Jose Mur L A, Luo J*. OSTSD2-mediated cell wall modification affects ion homeostasis and salt tolerance. Plant Cell Environ, 2019, 42: 1503-1512. (IF:7.947)
21. Chen J#, Wang J#, Chen W, Sun W, Peng M, Yuan Z, Shen S, Xie K, Sun Y, Liu X, Fernie AR, Yu S* and Luo J*. Metabolome analysis of multi-connected biparental chromosome segment substitution line population. Plant Physiol, 2018, 178: 612-625. (IF:8.005)
22. Zhu G#, Wang S#, Huang A, Zhang S, Liao Q, Zhang C, Lin T, Peng M, Yang C, Cao X, Han X, Wang X, Knaap E, Zhang Z, Cui X, Klee H, Fernie AR, Luo J*. Huang S*. Rewiring of the fruit metabolome in tomato breeding. Cell, 2018, 172: 249-261. (IF:66.85)
23. Peng M#, Shahzad R#, Gul A#, Subthain H#, Shen S, Lei L, Zheng Z, Zhou J, Lu D, Wang S, Nishawy E, Liu X, Tohge T, Fernie AR, Luo J*. Differentially evolved glucosyltransferases determine natural variation of rice flavone accumulation and UV-tolerance. Nat Commun, 2017, 8, 1975. (IF:17.694)
24. Chen W#, Wang W#, Peng M#, Gong L, Gao Y, Wan J, Wang S, Shi L, Zhou B, Li Z, Peng X, Yang C, Qu L, Liu X, Luo J*. Comparative and parallel genome-wide association studies for metabolic and agronomic traits in cereals. Nat Commun, 2016, 7, 12767. (IF:17.694)
25. Peng M, Gao Y, Chen W, Shen S, Shi J, Wang C, Zhang Y, Zou L, Wang S, Wan J, Liu X, Luo J*. Evolutionarily distinct BAHD N-acyltransferases are responsible for natural variation of aromatic amine conjugates in rice. Plant Cell, 2016, 28: 1533-1550. (IF:12.085)
26. Fang C, Zhang H, Wan J, Wu Y, Li K, Jin C, Chen W, Wang S, Wang W, Zhang H, Zhang P, Zhang F, Qu L, Liu X, Zhou D, Luo J*. Control of leaf senescence by a MeOH-jasmonates cascade that is epigenetically regulated by OsSRT1 in rice. Mol Plant, 2016, 9: 1366-1378. (IF:21.949)
27. Ewas M, Gao Y, Wang S, Liu X, Zhang H, Nishawy E, Ali F, Shahzad R, Ziaf K, Subthain H, Martin C, Luo J*. Manipulation of SlMXl for enhanced carotenoids accumulation and drought resistance in tomato. Sci Bull, 2016, 61(18): 1413-1418. (IF:20.577)
28. Luo J*. Metabolite-based genome-wide association studies in plants. Curr Opin Plant Biol, 2015, 24: 31-38. (IF:9.396)
29. Dong X, Gao Y, Chen W, Wang W, Gong L, Liu X, Luo J*. Spatiotemporal distribution of phenolamides and the genetics of natural variation of hydroxycinnamoyl spermidine in rice. Mol Plant, 2015, 8: 111-121. (IF:21.949)
30. Chen W, Gao Y, Xie W, Gong L, Lu K, Wang W, Li Y, Liu X, Zhang H, Dong H, Zhang W, Zhang L, Yu S, Wang G, Lian X*, Luo J*. Genome-wide association analyses provide genetic and biochemical insights into natural variation in rice metabolism. Nat Genet, 2014, 46: 714-721. (IF:41.307)
31. Wen W, Li D, Li X, Gao Y, Li W, Li H, Liu J, Liu H, Chen W, Luo J*, Yan J*. Metabolome-based genome-wide association study of maize kernel leads to novel biochemical insights. Nat Commun, 2014, 5: 3438-3447. (IF:17.694)
32. Gong L, Chen W, Gao Y, Liu X, Zhang H, Xu C, Yu S, Zhang Q*, Luo J*. Genetic analysis of the metabolome exemplified using a rice population. Proc Natl Acad Sci USA, 2013, 110: 20320-20325. (IF:12.779)
33. Chen W, Gong L, Guo Z, Wang W, Zhang H, Liu X, Yu S, Xiong L, Luo J*. A novel integrated method for large-scale detection, identification, and quantification of widely targeted metabolites: application in the study of rice metabolomics. Mol Plant, 2013, 6: 1769-1780. (IF:21.949)
备注:以上标注的IF均为2022年公布的版本。
四、教学及人才培养
1. 2022博士后沈双欠入选博新计划
2. 2021博士后占传松获博士后站前基金
3. 2019年指导的博士生彭梦入围“吴瑞奖”答辩
4. 2018指导的博士生彭梦获国家奖学金
5. 2018年指导的博士生王守创入围“吴瑞奖”答辩
6. 2017指导的博士生王守创获国家奖学金
7. 2017指导的博士生陈伟获省级优秀博士论文
8. 2016指导的博士生王文升获国家奖学金
9. 2016指导的博士生彭梦获国家奖学金
10. 2016指导的博士生房传营获国家奖学金
11. 2015指导的博士生陈伟获“吴瑞奖”
12. 2015指导的博士生金成获国家奖学金
13. 2014指导的博士生高彦强获国家奖学金
14. 2014指导的博士生董学奎获国家奖学金
15. 2013年主讲的“分子生物学”获批“国家级精品资源共享课”