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Dean of College of Tropical Crops Hainan University in Haikou Hainan China
Tel:86-898-66276381; Fax: 86-898-66276381
E-mail: jie.luo@hainanu.edu.cn
http://www.hainanu.edu.cn/stm/rdzw/2019517/10537883.shtml
Area of Expertise: understanding the synthesis; regulation and the function of plant-derived natural products; genetic basis of the metabolic diversity and its role in adaptation and evolution; gene expression regulation, function diversification of enzymes; signal transduction of external/internal stimuli; interactions between different pathways
Selected Publications:
Zhan, C., Lei, L., Liu, Z., Zhou, S., 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., Hasegawa, M., Graham, I., Tohge, T., Qu, L., Liu, X., Fernie, A.R., Chen, L.L., Yuan, M., and Luo, J. (2020). Selection of a subspecies-specific diterpene gene cluster implicated in rice disease resistance. Nat. Plants. 6:1447–1454.
Wang, C., Alseekh, H., Fernie, A.R., and Luo, J. (2019). The structure and function of major plant metaboliter modifications. Mol. Plant. 12: 899–919.
Li, K., Wang, D., Gong, L., Lyu, Y., Guo, H., Chen, W., Jin, C., Liu, X., Fang, C., and Luo, J. (2019). Comparative analysis of metabolome of rice seeds at three developmental stages using a recombinant in bred line population. Plant J. 100: 908–922.
Fang, C., Fernie, A.R., and Luo, J. (2019). Exploring the diversity of plant metabolism. Trends Plant Sci. 24: 83–98.
Fang, C., and Luo, J. (2019). Metabolic GWAS-based dissection of genetic bases underlying the diversity of plant metabolism. Plant J. 97:91–100.
Chen, J., Wang, J., Chen, W., Sun, W., Peng, M., Yuan, Z., Shen, S., Xie, K., Sun, Y., Liu, X., Fernie, A.R., Yu, S., and Luo, J. (2018). Metabolome analysis of multi-connected biparental chromosome segment substitution line population. Plant Physiol. 178: 612–625.
Fang, C., Li, K., Wu, Y., Wang, D., Zhou, J., Liu, X., Li, Y., Jin, C., Liu, X., Jose, Mur. L. A., and Luo, J. (2019). OSTSD2-mediated cell wall modification affects ion homeostasis and salt tolerance. Plant Cell Environ. 42: 1503–1512.
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, A.R., Luo, J., and Huang, S. (2018). Rewiring of the fruit metabolome in tomato breeding. Cell. 172: 249–261.
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, A.R., and Luo, J. (2017). Differentially evolved glucosyltransferases determine natural variation of rice flavone accumulation and UV-tolerance. Nat. Commun. 8:1975.
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., and Luo, J. (2016). Comparative and parallel genome-wide association studies for metabolic and agronomic traits in cereals. Nat. Commun. 7:12767.
Peng, M., Gao, Y., Chen, W., Shen, S., Shi, J., Wang, C., Zhang, Y., Zou, L., Wang, S., Wan, J., Liu, X., and Luo, J. (2016). Evolutionarily distinct BAHD N-acyltransferases are responsible for natural variation of aromatic amine conjugates in rice. Plant Cell. 28: 1533–1550.
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., and Luo, J. (2016). Control of leaf senescence by a MeOH-jasmonates cascade that is epigenetically regulated by OsSRT1 in rice. Mol. Plant. 9: 1366–1378.
Qu, L., Wu, C., Zhang, F., Wu, Y., Fang, C., Jin, C., Liu, X., and Luo, J. (2016). Rice putative methyltransferase gene OsTSD2 is required for root development involving pectin modification. J. Exp. Bot. 67:5349–5362.
Luo, J. (2015). Metabolite-based genome-wide association studies in plants. Curr Opin Plant Biol. 24: 31–38.
Dong, X., Gao, Y., Chen, W., Wang, W., Gong, L., Liu, X., and Luo, J. (2015). Spatio-temporal distribution of phenolamides and the genetics of natural variation of hydroxycinnamoyl spermidine in rice. Mol. Plant. 8:111–121.
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., and Luo, J. (2014). Genome-wide association analyses provide genetic and biochemical insights into natural variation in rice metabolism. Nat. Genet. 46:714–721.
Jin, C., Fang, C., Yuan, H., Wang, S., Wu, Y., Liu, X., Zhang, Y., and Luo, J. (2015). Interaction between carbon metabolism and phosphate accumulation is revealed by a mutation of a cellulose synthase-like protein, CSLF6. J. Exp. Bot. 66: 2557–2567.
Gong, L., Chen, W., Gao, Y., Liu, X., Zhang, H., Xu, C., Yu, S., Zhang, Q., and Luo, J. (2013). Genetic analysis of the metabolome exemplified using a rice population. Proc. Natl. Acad. Sci. USA. 110: 20320–20325.
Chen, W., Gong, L., Guo, Z., Wang, W., Zhang, H., Liu X., Yu, S., Xiong, L., and Luo, J. (2013). A novel integrated method for large-scale detection, identification, and quantification of widely targeted metabolites: Application in the study of rice metabolomics. Mol. Plant. 6: 1769–1780.
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