1. Wang S, Alseekh S, Fernie A. R*, Luo J*. Thestructure and function of major plant metabolite modifications.Mol Plant, 2019, 12:899-919.
2. Ying S#, Su M#, Fu R, Li Y, Guo H, Luo J,Wang S*, Zhang Y*. Trichome regulator SlMX1 directly manipulates primary metabolism in tomato fruit. Plant Biotechnol J, 2019, 1-10.
3. Zhu G#,Wang S#, Huang Z, Zhang S, Liao Q, Zhang C, Lin T, Qin M, Peng M, Yang C, Cao X, Han X, Wang X, Knaap E, Zhang Z, Cui X, Klee K, Fernie AR, Luo J*, Huang S*. Rewiring of the fruit metabolome in tomato breeding.Cell, 172, 249-261.
4. Wang S, Yang C, Tu H, Zhou J, Liu X, Cheng Y, Luo J, Deng X, Zhang H*, & Xu J*. Characterization andmetabolic diversity of flavonoids in citrus species.Sci Rep-UK, 2017, 7(1), 10549.
5. Wang S, Tu H, Wan J, Chen W, Liu X, Luo J, Xu J*, Zhang H*. Spatio-temporal distribution and natural variation of metabolites in citrus fruits.Food Chem, 2016, 199, 8-17.
6. Fang C, Luo J,Wang S*. Thediversity of nutritional metabolites: origin, dissection, and application in crop breeding.Front Plant Sci, 2019, 10:1028 doi: 10.3389/fpls.2019.01028.
7. 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 doi: 10.1038/ncomms12767.
8. 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.
9. 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 byOsSRT1 in rice.Mol Plant, 2016, doi: 10.1016/j.molp.2016.07.007.
10. Jin C, Fang C, Yuan H,Wang S, Wu Y, Liu X, Zhang Y, Luo J*. Interaction between carbon metabolism and phosphate accumulation is revealed by a mutation of a cellulose synthase-like protein, CSLF6.J Exp Bot, 2015, 66 (9): 2557-2567.
11. Jin M#, Zhang X#, Zhao M, Deng M, Du Y, Zhou Y,Wang S, Tohge T, Fernie A. R, Willmitzer L, Brotman Y, Yan J, & Wen W*. Integrated genomics-based mapping reveals the genetics underlying maize flavonoid biosynthesis.BMC Plant Biol, 2017, 17(1), 17.
12. Peng M#, Gao Y#, Chen W#, Wang W, Shen S, Shi J, Wang C, Zhang Y, Zou L,Wang S, Wan J, Liu X, Gong L, Luo J*. Evolutionarily distinct BAHDN-acyltransferases are responsible for natural variation of aromatic amine conjugates in rice.Plant Cell, 2016, 28:1533 - 1550.
13. 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(1), 1975.
14. Zhou Y, Tang Q, Wu M, Mou D, Liu H,Wang S, Zhang C, Ding L, Luo J*. Comparative transcriptomics provides novel insights into the mechanisms of selenium tolerance in the hyperaccumulator plantCardamine hupingshanensis.Sci Rep-UK, 2018, 8, 2789.
15. Zhang X#, Ding X#, Ji Y,Wang S, Chen Y, Luo J, Shen Y*, Peng L*. Measurement of metabolite variations and analysis of related gene expression in Chinese liquorice (Glycyrrhiza uralensis) plants under UV-B irradiation.Sci Rep-UK, 2018, 8, 6144.
16. Zhang F#, Zhang P#, Zhang Y,Wang S, Qu L, Liu X, Luo J*. Identification of a peroxisomal-targeted aldolase involved in chlorophyll biosynthesis and sugar metabolism in rice.Plant Sci, 2016, 250: 205-215.
(#Co-first authors, *Corresponding author)
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海南大学
