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周绍群课题组

周绍群课题组

Shaoqun (Simon) Zhou Lab

  课题组长

周绍群,所聘研究员,深圳市海外高层次人才,主要研究领域为植物特异化代谢合成调控机制解析及其在植物病虫害抗性育种方面的应用。课题组通过结合多组学数据分析、作物遗传学方法与分子生物学实验手段鉴定植物病虫害抗性相关的特异化代谢产物及其遗传调控网络。目前在国际学术期刊共发表论文二十余篇,其中以第一或通讯作者(含共同)在Plant Cell, New Phytologist, Plant Physiology等国际学术期刊上发表学术论文11篇,累计被引700余次。

  

  工作经历

  2019.7-至今                  中国农业科学院深圳农业基因组研究所                课题组长

  2018.10-2019.6            美国Elo Life Systems                                         博士后副研究员

  

  教育经历

  2012.8-2018.8     美国康奈尔大学植物生物学系   博士

  2009.9-2012.6     美国华盛顿大学生物学系          学士  

  

  团队研究方向

本团队研究方向为作物中生物胁迫抗性相关的特异化代谢合成调控基因鉴定与应用。团队当前的主要研究课题包括茄科植物中晚疫病非寄主抗性的遗传机制及玉米广谱病虫害抗性的代谢遗传机制。

  

        PI

Shaoqun (Simon) Zhou leads the Plant Metabolism and Biochemical Defense Group in the Ecological Genomics Center of AGIS. Simon’s graduate training at Cornell University focused on maize metabolic genetics and biotic stress resistance. After a brief industry post-doctoral fellowship at Elo Life Systems in Durham, NC, he joined AGIS as a research professor in July, 2019. His past work includes the identification of novel fungal pathogen resistance factors and the establishment of metabolome-scale genome-wide association resources in maize using multi-omics analytics and quantitative genomics approaches.


     Working Experience

  Agricultural Genomics Institute at Shenzhen-CAAS Research Professor     2019.7–Present

  Elo Life Systems Associate Scientist – Postdoctoral Fellow                         2018.10–2019.6

  Cornell University     Graduate Research & Teaching Assistant                   2013.8-2018.8         

 

Education

  Cornell University                        Ph.D                         2012.8-2018.8

  University of Washington            B.Sci.                        2009.8–2012.6

 

  Research Interests

The Plant Metabolism and Biochemical Defense Group works on the discovery and application of critical genetic elements that influence biotic stress resistance by regulating plant specialized metabolism. We currently focus on two specific systems of interests: non-host resistance against Phytophthora infestans in the Solanaceae family, and metabolic genetics of broad-spectrum pest and disease resistance in maize.

  

  研究成果(*:共同第一作者;†: 通讯作者)

  Selected Publications (* Equal contribution; † Corresponding author)

1. Zhou S, Kremling KA, Bandillo N, Richter A, Zhang YK, Ahern KR, Artyukhin AB, Hui JX, Younkin GC, Schroeder FC, Buckler ES, and Jander G. (2019) Metabolome-scale genome-wide association studies reveal chemical diversity and genetic control of maize specialized metabolites. The Plant Cell. 31(5): 937-955.

2. Zhou S, Zhang YK, Kremling KA, Ding Y, Bennett JS, Bae JS, Kim DK, Ackerman HH, Kolomiets MV, Schmelz EA, Schroeder FC, Buckler ES, and Jander G. (2019) Ethylene signaling regulates natural variation in the abundance of antifungal acetylated diferuloylsucroses and Fusarium graminearum resistance in maize seedling roots. New Phytologist. 221(4): 2096-2111.

3. Zhou S (周绍群) and Jander G. (2021) Engineering insect resistance using plant specialized metabolites. Current Opinion in Biotechnology. 70: 115-121

4. Zhou S (周绍群) and Jander G. (2021) Molecular ecology of plant volatiles in interactions with insect herbivores. Journal of Experimental Botany. 73(2): 449-462.

5. Zhou S, Richter A, and Jander G. (2018) Beyond defense: multiple functions of benzoxazinoids in maize metabolism. Plant and Cell Physiology. 59(8): 1528-1537.

6. Zhou S*, Lou YR*, Tzin V*, and Jander G. (2015) Alteration of plant primary metabolism in response to insect herbivory. Plant Physiology. 169(3): 1488-1498.



  

  

  周绍群课题组更新于2023年2月

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