同升s8s线路检测中心 - 同升s8s线路检测

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学院教师简介

雷贵杰研究员

姓名：雷贵杰

导师资格：作物学（学硕）、农艺与种业（专硕）、保护生物学（学博）、资源与环境（专博）

Email: leigj@ynu.edu.cn

地址：云南省昆明市呈贡区大学城同升s8s线路检测中心，邮编650504

教育背景

2014.10-2017.9，日本冈山大学，资源植物科学研究所，农业与生命科学，博士

2011.9-2014.6，浙江大学，生命科学学院，植物学，硕士

2007.9-2011.6，吉林大学，植物科学学院，农业资源与环境，学士

工作经历

2021.3-至今，同升s8s线路检测中心，资源植物研究院/同升s8s线路检测中心，研究员

2017.10-2020.12，日本冈山大学，资源植物科学研究所，特聘助理研究员

研究方向和成果

从事作物矿质元素高效利用与抗逆方面的研究，探讨植物（水稻和荞麦）对有害元素（镉和铝等）和营养元素（锌和磷等）转运、解毒、稳态调控的生理和分子机制，以期培育高抗逆、绿色、安全、营养的粮食作物品种。

发现了植物协同调控种子和新生组织理想积累镉、锌和磷等元素的重要基因和分子机制，创制了低镉富锌养分高效的作物新品系（Nature Food, 2020; Molecular Plant, 2020; New Phytologist, 2023, 2021; Journal of Integrative Plant Biology, 2020; Plant Cell and Environment, 2014）；发现了植物耐铝毒和高积累铝的重要基因和分子机制（New Phytologist, 2017; Plant and Cell Physiology, 2017）。

在植物和农业科学领域的权威期刊上发表了15篇论文（含中科院大类1区期刊论文12篇），其中通讯或一作论文8篇（含中科院大类1区期刊论文7篇）。

项目和奖励

主持国家自然科学基金项目（面上项目、地区项目）、云南省科技厅项目（优秀青年项目、同升s8s线路检测中心联合重点项目、青年项目）、同升s8s线路检测中心高层次人才引进项目等。

获得云南省“兴滇英才支持计划”青年人才称号、云南省“基础研究计划”优秀青年称号等；任中国植物营养与肥料学会-植物营养分子生理专业委员会委员（2022-2027）。

代表论文

通讯/一作论文

1. Ning M, Liu SJ, Deng F, Huang L, Li H, Che J, Yamaji N, Hu F, Lei GJ*. (2023). A vacuolar transporter plays important roles in zinc and cadmium accumulation in rice grain. New Phytologist 239: 1919-1934. (5Y-IF = 10.5，中科院大类1区)

2. Lei GJ, Yamaji N, Ma JF*. (2021). Two metallothionein genes highly expressed in rice nodes are involved in distribution of Zn to the grain. New Phytologist 229: 1007-1020. (5Y-IF = 10.5，中科院大类1区)

3. Lei GJ, Fujii-Kashino M, Wu DZ, Hisano H, Saisho D, Deng F, Yamaji N, Sato K, Zhao F-J, Ma JF*. (2020). Breeding for low cadmium barley by introgression of a Sukkula-like transposable element. Nature Food 1: 489-499. (5Y-IF = 23.2，中科院大类1区)

4. Ding G^#, Lei GJ^#, Yamaji N, Yokosho K, Mitani-Ueno N, Huang S, Ma JF*. (2020). Vascular cambium-localized AtSPDT mediates xylem-to-phloem transfer of phosphorus for its preferential distribution in Arabidopsis. Molecular Plant 13: 99-111.（^#共同一作）(5Y-IF = 22.6，中科院大类1区)

5. Lei GJ, Sun L, Sun Y, Zhu XF, Li GX, Zheng SJ*. (2020). Jasmonic acid alleviates cadmium toxicity in Arabidopsis via suppression of cadmium uptake and translocation. Journal of Integrative Plant Biology 62: 218-227. (5Y-IF = 10.1，中科院大类1区)

6. Lei GJ, Yokosho K, Yamaji N, Fujii-Kashino M, Ma JF*. (2017). Functional characterization of two half-size ABC transporter genes in aluminium-accumulating buckwheat. New Phytologist 215: 1080-1089. (5Y-IF = 10.5，中科院大类1区)

7. Lei GJ, Yokosho K, Yamaji N, Ma JF*. (2017). Two MATE transporters with different subcellular localization are involved in Al tolerance in buckwheat. Plant and Cell Physiology 58: 2179-2189. (5Y-IF = 5.7，中科院大类2区)

8. Lei GJ^#, Zhu XF^#, Wang ZW, Dong F, Dong NY, Zheng SJ*. (2014). Abscisic acid alleviates iron deficiency by promoting root iron reutilization and transport from root to shoot in Arabidopsis. Plant Cell and Environment 37: 852-863.（^#共同一作）(5Y-IF = 8.1，中科院大类1区)

合作论文

1. Okada S, Lei GJ, Yamaji N, Huang S, Ma JF, Mochida K, Hirayama T*. (2022). FE UPTAKE-INDUCING PEPTIDE1 maintains Fe translocation by controlling Fe deficiency response genes in the vascular tissue of Arabidopsis. Plant Cell and Environment 45: 3322-3337.

2. Hirayama T*, Lei GJ, Yamaji N, Nakagawa N, Ma JF. (2018). The putative peptide gene FEP1 regulates iron deficiency response in Arabidopsis. Plant and Cell Physiology 59: 1739-1752.

3. Zhu XF, Lei GJ, Wang ZW, Shi YZ, Braam J, Li GX, Zheng SJ*. (2013). Coordination between apoplastic and symplastic detoxification confers plant aluminum resistance. Plant Physiology 162: 1947-1955.

4. Zhu XF, Wang ZW, Dong F, Lei GJ, Shi YZ, Li GX, Zheng SJ*. (2013). Exogenous auxin alleviates cadmium toxicity in Arabidopsis thaliana by stimulating synthesis of hemicellulose 1 and increasing the cadmium fixation capacity of root cell walls. Journal of Hazardous Materials 263: 398-403.

5. Zhu XF, Shi YZ, Lei GJ, Fry SC, Zhang BC, Zhou YH, Braam J, Jiang T, Xu XY, Mao CZ, Pan YJ, Yang JL, Wu P, Zheng SJ* (2012). XTH31, encoding an in vitro XEH/XET-active enzyme, regulates aluminum sensitivity by modulating in vivo XET action, cell wall xyloglucan content, and aluminum binding capacity in Arabidopsis. Plant Cell 24: 4731-4747.

6. Zhu XF, Lei GJ, Jiang T, Liu Y, Li GX, Zheng SJ*. (2012). Cell wall polysaccharides are involved in P-deficiency-induced Cd exclusion in Arabidopsis thaliana. Planta 236: 989-997.

7. Zhu XF, Jiang T, Wang ZW, Lei GJ, Shi YZ, Li GX, Zheng SJ*. (2012). Gibberellic acid alleviates cadmium toxicity by reducing nitric oxide accumulation and expression of IRT1 in Arabidopsis thaliana. Journal of Hazardous Materials 239-240: 302-307.

2023年9月更新