张智胜
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学习工作经历
2014年12月获华南农业大学生物化学与分子生物学博士学位(2013-2014年在香港中文大学联合培养);
2015-2018年于湖南农业大学生物科学技术院任职;
2018年引进至6165cc金沙总站检测中心光合作用与植物逆境生物学研究中心工作。
主要研究领域
1.植物光呼吸代谢调控及其与H2O2信号的关联互作:植物光呼吸核心代谢途径现已十分清楚,然而有关光呼吸代谢的调控机制研究仍进展缓慢;我们目前主要通过翻译后修饰分析、互作蛋白筛选、代谢组学分析等揭示光呼吸调控相关分子机制。
2.植物高光效机理与应用:采用合成生物学策略构建低光呼吸代谢模块,并将其在C3植物中进行适配,旨在提高作物光合效率、生物量及产量。
近年主要科研课题
1.国家自然科学基金面上项目,OsMAPK6调控水稻光呼吸代谢的机制及其功能研究(32070265,2021.01-2024.12),主持。
2.国家重点研发计划子课题子项目,植物高光效回路的设计与系统优化-新型高效固碳回路的设计与优化(2020YFA0907603,2021.01-2025.12),项目骨干。
3.广东省自然科学基金,MAPK6介导的光呼吸H2O2信号在水稻抗逆中的作用及其机理研究(2019A1515011438,2019.10-2022.09),主持。
4.国家自然科学基金青年项目,糖基化调控水稻乙醇酸氧化酶与过氧化氢酶互作及过氧化氢信号发生的机理研究(31600193,2017.01-2019.12),主持。
5.湖南省自然科学基金,磷酸化调控水稻乙醇酸氧化酶与过氧化氢酶互作以及乙醇酸-H2O2代谢的机理研究(2017JJ3109,2017.01-2019.12),主持。
6.湖南省教育厅科学研究项目,水稻光呼吸乙醇酸-H2O2代谢的磷酸化调控机理研究(17B123,2017.01-2019.12),主持。
7.亚热带农业生物资源保护与利用国家重点实验室开放课题,水稻乙醇酸氧化酶磷酸化修饰在调控光呼吸H2O2信号发生中的作用及其机理研究(SKLCUSA-b201714,2018.01-2019.12),主持。
发表的主要研究论文
(1) Xu Z, Guo WD, Mo BQ, Pan Q, Lu JT, Wang ZW, Peng XX*, Zhang ZS*. Mitogen-Activated Protein Kinase 2 specifically regulates photorespiration in rice. Plant Physiology, 2023, 00: 1-14.
(2) Li XY, Chen LR, Zeng XY, Wu KX, Huang JY, Liao MM, Xi Y, Zhu GH, Zeng XY, Hou XW, Zhang ZS*, Peng XX*. Wounding induces a peroxisomal H2O2 decrease via glycolate oxidase-catalase switch dependent on glutamate receptor-like channel-supported Ca2+ signaling in plants. The Plant Journal, 2023, doi: 10.1111/tpj.16427
(3) Li XY, Liao MM, Huang JY, Chen LR, Huang HY, Wu KX, Pan Q, Zhang ZS*, Peng XX*. Dynamic and fluctuating generation of hydrogen peroxide via photorespiratory metabolic channeling in plants. The Plant Journal, 2022, 112: 1429-1446.
(4) Li XY, Liao MM, Huang JY, Xu Z, Lin ZQ, Ye NH, Zhang ZS*, Peng XX. Glycolate oxidase-dependent H2O2 production regulates IAA biosynthesis in rice. BMC Plant Biology, 2021, 21:326.
(5) Zhang ZS, Liang X, Lu L, Xu Z, Huang JY, He H, Peng XX*. Two glyoxylate reductase isoforms are functionally redundant but required under high photorespiration conditions in rice. BMC Plant Biology, 2020, 20:357.
(6) Zhang ZS, Li XY, Cui LL, Meng S, Ye NH, Peng XX*. Catalytic and functional aspects of different isozymes of glycolate oxidase in rice, BMC Plant Biology, 2017, 17:135.
(7) Zhang ZS, Xu YY, Xie ZW, Li XY, He ZH*, Peng XX*. Association-dissociation of glycolate oxidase with catalase in rice: a potential switch to modulate intracellular H2O2 levels, Molecular Plant, 2016, 9:737-748.
(8) Zhang ZS, Mao XX, Ou JY, Ye NH, Zhang JH, Peng XX*. Distinct photorespiratory reactions are preferentially catalyzed by glutamate:glyoxylate and serine:glyoxylate aminotransferases in rice, Journal of Photochemistry and Photobiology B: Biology, 2015, 142:110-117.
(9) Zhang ZS, Lu YS, Zhai LG, Deng RS, Jiang J, Li Y, He ZH*, Peng XX*. Glycolate Oxidase Isozymes Are Coordinately Controlled by GLO1 and GLO4 in Rice, PLoS ONE, 2012, 7(6).
(10) Zhang CL, Zhong XF, Lin DG, Wu KX, Wu Z, Zhang ZS, Peng XX*. Grain Quality Affected by Introducing Photorespiratory Bypasses into Rice. Agronomy, 2022, 12: 566.
(11) Cui LL, Zhang CL, Li ZC, Xian T, Wang LM, Zhang ZS, Zhu GH*, Peng XX*. Two chloroplastic PLGG1 isoforms function together to transport photorespiratory glycolate and glycerate in rice. Journal of Experimental Botany, 2021; erab020.
(12) Wang LM, Shen BR, Li BD, Zhang CL, Lin M, Tong PP, Cui LL, Zhang ZS, Peng XX*. A Synthetic Photorespiratory Shortcut Enhances Photosynthesis to Boost Biomass and Grain Yield in Rice. Molecular Plant, 2020, 13:1802-1815.
(13) Liu JZ, Cui LL, Xie ZW, Zhang ZS, Liu Ee, Peng XX*. Two NCA1 isoforms interact with catalase in a mutually exclusive manner to redundantly regulate its activity in rice, BMC Plant Biology, 2019, 19:105.
(14) Lu YS, Li Y, Yang QS, Zhang ZS, Chen Y, Zhang S, Peng XX*. Suppression of glycolate oxidase causes glyoxylate accumulation that inhibits photosynthesis throughdeactivating Rubisco in rice, Physiologia Plantarum, 2014, 150 (3): 463-476
(15)张智胜,彭新湘*。光呼吸的功能及其平衡调控,植物生理学报,2016, 52:1692-1702。
(16)张智胜,朱国辉,彭新湘*。优化碳同化实现作物高光效研究进展,华南农业大学学报,2022,43:71-79。