蒋才富 - 中国农业大学

个人简介

蒋才富博士，教授。2001年在华中师范大学获得理学学士学位，2008年在中国科学院遗传所获得理学博士学位。2008-2013年在牛津大学从事博士后研究。2018年入选中国农业大学“高层次人才”引进计划。近年来在Genome Research, Current Biology等国际杂志上发表研究论文十余篇。学习与工作经历 1997/09－2001/06，华中师范大学，理学学士学位 2001/09－2004/06，华中师范大学，农学学士学位 2004/09－2008/10，中科院遗传所，理学博士学位 2008/10－2013/11，牛津大学，博士后 2018/08－至今，中国农业大学生物学院，教授 2014年入选中国农业大学“高层次人才”引进计划

研究领域

我国玉米年产量超过2亿吨，是我国总产最大的作物，因此玉米生产的可持续发展关乎国家粮食安全。黄淮海平原夏播玉米区和北方春播玉米区是我国玉米生产的主要基地，占全国玉米总产量的~77%，而这两个玉米主产区盐碱化耕地分布十分广泛且有日趋加剧的趋势，因此耕地盐碱化已然成为制约我国玉米生产可持续发展的主要因素之一。为了合理应对耕地盐碱化对玉米生产的负面影响，本课题组综合应用遗传学、生物信息学、分子生物学、细胞生物学等多学科理论和方法，挖掘玉米抗盐QTL基因，研究相关分子机制，开发抗盐分子标记，培育抗盐遗传材料，从而为培育玉米抗盐品种提供理论支撑和遗传资源

近期论文

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Zhou X, Li J, Wang Y, Liang X, Zhang M, Lu M, Guo Y, Qin F, Jiang C*. (2022) The classical SOS pathway confers natural variation of salt tolerance in maize. New Phytologist doi: 10.1111/nph.18278. Wang Y, Cao Y, Liang X, Zhuang J, Wang X, Qin F, Jiang C*. (2022) A dirigent family protein confers variation of Casparian strip thickness and salt tolerance in maize. Nature Communications 13, 2222. Vogel C, Balázsi G, Löwer A, Jiang C, Schmid AK, Sommer M, Yang L, Münch C, Wang A, Israni-Winger K, Mühlhaus T, Des Marais DL, Oster H, Socolovsky M. (2022) What differentiates a stress response from responsiveness in general? Cell Systems 13, 195-200. Zeng R, Li Z, Shi Y, Fu D, Yin P, Cheng J, Jiang C, Yang S*. (2021) Natural variation in a type-A response regulator confers maize chilling tolerance. Nature Communications 12, 4713. Liu B, Zhang B, Yang Z, Liu Y, Yang S, Shi Y, Jiang C, Qin F*. (2021). Manipulating ZmEXPA4 expression ameliorates the drought-induced prolonged anthesis and silking interval in maize. Plant Cell 33, 2058-2071. Cao Y, Wang Y, Jiang C*. (2021) Recent advancement of molecular understanding for combating salinity stress in maize. in: Hossain MA, Alam M, Seneweera S, Rakshit S, Henry R, eds. Molecular breeding in wheat, maize and sorghum: strategies for improving abiotic stress tolerance and yield. Oxfordshire, UK: CABI, 247-266. (Book chapter) Liang X, Liu S, Wang T, Li F, Cheng J, Lai J, Qin F, Li Z*, Wang X*, Jiang C*. (2021) Metabolomics-driven gene mining and genetic improvement of tolerance to salt-induced osmotic stress in maize. New Phytologist 230, 2355-2370. Cao Y, Zhang M, Liang X, Li F, Shi Y, Yang X, and Jiang C*. (2020). Natural Variation of an EF-hand Ca2+-binding-protein coding gene confers saline-alkaline tolerance in maize. Nature Communications. 11, 186. Zhang M, Liang X, Wang L, Cao Y, Song W, Shi J, Lai J, and Jiang C*. (2019) A HAK family Na+ transporter confers natural variation of salt tolerance in maize. Nature Plants 5, 1297-1308. Cao Y, Liang X, Yin P, Zhang M, and Jiang C*. (2019) A domestication-associated reduction in K+ -preferring HKT transporter activity underlies maize shoot K+ accumulation and salt tolerance. New Phytologist 222, 301-317. Zhang M, Cao Y, Wang Z, Wang Z, Shi J, Liang X, Song W, Chen Q, Lai J, and Jiang C*. (2018). A retrotransposon in an HKT1 family sodium transporter causes variation of leaf Na+ exclusion and salt tolerance in maize. New Phytologist 217, 1161-1176. Zhang M, Smith JA*, Harberd NP*, Jiang C*. (2016). The regulatory roles of ethylene and reactive oxygen species (ROS) in plant salt stress responses. Plant Molecular Biology 91, 651-659. Jiang C*, Mithani A, Belfield EJ, Mott R, Hurst LD, Harberd NP*. (2014). Environmentally responsive genome-wide accumulation of de novo Arabidopsis thaliana mutations and epimutations. Genome Research 24, 1821-1829. (# equal contribution). Jiang C, Belfield EJ, Cao Y, Smith JA, Harberd NP*. (2013) An Arabidopsis soil-salinity-tolerance mutation confers ethylene-mediated enhancement of sodium/potassium homeostasis. Plant Cell 25, 3535-3552. Jiang C, Belfield EJ, Mithani A, Visscher A, Ragoussis J, Mott R, Smith JA, Harberd NP*. (2012) ROS-mediated vascular homeostatic control of root-to-shoot soil Na delivery in Arabidopsis. EMBO Journal 31, 4359-4370. Jiang C, Mithani A, Gan X, Belfield EJ, Klingler JP, Zhu JK, Ragoussis J, Mott R, Harberd NP*. (2011) Regenerant Arabidopsis lineages display a distinct genome-wide spectrum of mutations conferring variant phenotypes. Current Biology 21, 1385-1390. Jiang C, Gao X, Liao L, Harberd NP, Fu X*. (2007) Phosphate starvation root architecture and anthocyanin accumulation responses are modulated by the gibberellin-DELLA signaling pathway in Arabidopsis. Plant Physiology 145, 1460-1470. Jiang C, Fu X*. (2007) GA action: turning on de-DELLA repressing signaling. Current Opinion in Plant Biology 10, 461-465.