钟晋顺(Jinshun Zhong)
教授、博士生导师
籍贯和出生地:广东梅州
js4399金沙线
广东省广州市天河区五山路483号
College of Life Sciences
South China Agricultural University
Wushan Rd. 483, Tianhe District
Guangzhou, 510642, Guangdong, PRC
Email:jinshun.zhong@scau.edu.cn
个人简介
2005年中山大学理学学士;2009年中科院西双版纳热带植物园理学硕士;2013年美国密苏里大学圣路易斯分校哲学博士;2014-2017美国佛蒙特大学植物学系博士后;2017-2021德国马普植物育种研究所植物发育生物学系和杜塞尔多夫大学植物遗传学系博士后和洪堡学者;2021年11月入职js4399金沙线教授;2022年4月双聘岭南现代农业科学与技术广东省实验室独立PI。
近年来主要从事大豆的重要产量性状形成的遗传、发育、和演化规律等研究工作,具体包括叶腋分生组织命运决定、分枝和花序结构塑形、心皮发育进化、以及环境适应等。以(共同)第一作者或通讯作者身份在PNAS (2篇), Trends in Plant Science, New Phytologist (3篇), Plant Physiology等杂志发表研究和综述论文11篇。担任遗传学杂志Journal of Genetics and Genomics青年编委,植物学期刊Annals of Botany副主编。获得2021年国家自然科学基金优秀青年科学基金项目(海外)。
研究领域:
本课题组主要研究解析大豆重要性状形成的分子机理和进化机制。目前整合时空转录组等多组学数据和基因编辑技术,主要开展如下工作:1)解析大豆叶腋分生组织细胞的命运决定和分化即大豆理想株型塑造的分子机理;2)揭示大豆花序形态建成的分子机理和遗传调控网络;尤其是酰基化和去酰基化等表观遗传调控在高产多花多荚大豆性状形成中的分子机理解析;3)阐明大豆花荚发育的生物学基础和分子机理;4)基于比较和功能基因组学探究豆科植物心皮多样化的分子遗传进化机制。
Our group are interested in the genetic dissection of key agronomic and novel traits in legumes, soybean in particular. Currently, we use soybean and other legumes as the study system to 1) understand the fate determination and differentiation of axillary meristems that shape the unique plant architecture of soybean in which branches/inflorescences are formed in each node; 2) elucidate molecular mechanisms and genetic regulatory network on the regulation of inflorescence morphogenesis; we are particularly interested in how acetylation and deacetylation, among other epigenetic regulation, determine the multi-florus and multi-podded high-yielding traits in soybean; 3) reveal the fundamental biological basis underlying source-sink balance that controls legume grain filling, and thereby reproductive success; 4) study evolutionary developmental mechanisms on the phenotypical diversification of carpels and pods in legumes using comparative and multi-omics tools.
近期代表性论文:
1. Li J#, Yao X#, Lai H, Zhang X and Zhong J* (2024)The diversification of the shoot branching system: a quantitative and comparative perspective in meristem determinacy. (invited review in Current Opinion in Plant Biology, in revision)
2. Wang Y#, Bi X#, and Zhong J* (2022) Revisiting the origin and identity specification of the spikelet: a structural innovation in grasses (Poaceae). Plant Physiology 190: 60-71.
3. Zhong J*, and Kong F* (2022) The control of compound inflorescences: insights from grasses and legumes. Trends Plant Sci.27 (6): 564-576.
4. Zhong J*, van Esse G, Bi X, Lan T, Walla A, Sang Q, Franzen R, and von Korff M* (2021) INTERMEDIUM-M encodes an HvAP2L-H5 ortholog and is required for inflorescence indeterminacy and spikelet determinacy in barley. Proc. Natl. Acad. Sci. USA 118(8): e2011779118.
5. Zhong J, Robbett M, Poire A, and Preston J* (2018) Successive evolutionary steps drove Pooideae grasses from tropical to temperate regions. New Phytol. 217(2): 925-938.
6. Zhong J*, and Kellogg E (2015) Duplication and expression of CYC2-like genes in the origin and maintenance of corolla zygomorphy in Lamiales. New Phytol. 205(2): 852-868.
7. Zhong J, and Preston J* (2015) Bridging the gaps: evolution and development of perianth fusion. New Phytol. 208(2): 330-335.
8. Li K, Debernardi J, Li C, Lin H, Zhang C, Jernstedt J, von Korff M, Zhong J, and Dubcovsky J* (2021) Interactions between SQUAMOSA and SHORT VEGETATIVE PHASE MADS-box proteins regulate meristem transitions during wheat spike development. Plant Cell 33(12): 3621-3644.
9. Estep M#, McKain M#, Diaz D#, Zhong J#, Hodge J, Hodkinson T, Layton D, Malcomber S, Pasquet R, and Kellogg E* (2014) Allopolyploidy, diversification, and the Miocene grassland expansion. Proc. Natl. Acad. Sci. USA 111(42): 15149-15154.