邱杰

发布者:朱骏发布时间:2019-10-27浏览次数:10



1. 个人简介:

邱杰博士,副研究员。长期致力于植物基因组和群体遗传学研究,利用生物信息学和基因组学分析方法挖掘作物重要性状相关分子基础及植物适应性进化机制。近年来相关研究工作于Genome BiologyNature genetics、Nature CommunicationsTrends in Plant Science等期刊发表。作为主要完成人之一参与编写《生物信息学》、《植物基因组学》教材。(E-mail: qiujie@shnu.edu.cn; ResearchGate: https://www.researchgate.net/profile/Jie_Qiu7

   

教育经历:

2011-2016,博士,浙江大学

2007-2011,学士,扬州大学

工作经历:

2019.07-至今,上海师范大学副研究员

2018.03-2019.03,美国圣路易斯华盛顿大学访问学者

2016.07-2019.05,浙江大学博士后/助理研究员

   

2. 主要研究方向:

[1] 作物基因组及大数据育种技术研究

[2] 植物的驯化和野化基因组学

   

3. 代表性科研项目:

[1] 稗草多倍化过程中适应性进化的基因组机制研究,国家自然科学基金的青年项目,2020-2023

[2] 稻田稗草化感化合物丁布合成的基因组机制研究,中国博士后科学基金特别资助项目,2018-2019

[3] 杂草稻适应性进化的基因组学机制研究,中国博士后科学基金面上项目,2017-2019

   

4. 代表性论文及著作:

论文

  1. Wei X# , Qiu J#, Yong K, Fan J, Zhang Q, Hua H, Liu J, Wang Q, Olsen KM, Han  B, Huang X* 2021. A quantitative genomics map of rice provides genetic insights and guides breeding. Nat Genet. 53(2):243-253.

  2. Qiu J#, Jia L#, Wu D#, Weng X, Chen L, Sun J, Chen M, Mao L, Jiang B, Ye C, et al. 2020. Diverse genetic mechanisms underlie worldwide convergent rice feralization. Genome Biol. 21: 70.

  3. Qiu J#, Zhou Y#, Mao L, Ye C, Wang W, Zhang J, Yu Y, Fu F, Wang Y, Qian F, et al. 2017. Genomic variation associated with local adaptation of weedy rice during de-domestication. Nat. Commun.8:15323.

  4. Guo L#, Qiu J#, Ye C, Jin G, Mao L, Zhang H, Yang X, Peng Q, Wang Y, Jia L, et al. 2017. Echinochloa crus-galli genome analysis provides insight into its adaptation and invasiveness as a weed. Nat. Commun. 8:1031. (F1000推荐)

  5. Guo L#, Qiu J#, Li L-F, Lu B, Olsen K, Fan L. 2018. Genomic Clues for Crop–Weed Interactions and Evolution. Trends Plant Sci.23:1102–1115

  6. Sultana M, Liu F, Alamin M, Mao L…Qiu J*, Fan L. (2019) Gene Modules Co-regulated with Biosynthetic Gene Clusters for Allelopathy between Rice and Barnyardgrass. Int. J. Mol. Sci., 20, 3846. (通讯作者)

  7. Qiu J, Zhu J, Fu F, Ye C-Y, Wang W, Mao L, Lin Z, Chen L, Zhang H, Guo L, et al. 2014. Genome re-sequencing suggested a weedy rice origin from domesticated indica-japonica hybridization: a case study from southern China. Planta 240:1353–1363.

  8. Qiu J#, Wang Y#, Wu S, Wang Y-Y, Ye C-Y, Bai X, Li Z, Yan C, Wang W, Wang Z, et al. 2014. Genome re-sequencing of semi-wild soybean reveals a complex Soja population structure and deep introgression. PLoS One9:e108479.

  9. Guo L#, Qiu J#, Han Z#, Ye Z#, Chen C#, Liu C, Xin X, Ye C-Y, Wang Y-Y, Xie H, et al. 2015. A host plant genome (Zizania latifolia) after a century-long endophyte infection. Plant J. 83:600–609.

  10. Lv Q#, Qiu J#, Liu J#, Li Z, Zhang W, Wang Q, Fang J, Pan J, Chen Z, Chen W, et al. 2020. The Chimonanthus salicifolius genome provides insight into magnoliid evolution and flavonoid biosynthesis. Plant J. https://doi.org/10.1111/tpj.14874.

  11. Zou J#, Mao L#, Qiu J#, Wang, M., Jia, L., Wu, D., et al. (2019) Genome-wide selection footprints and deleterious variations in young Asian allotetraploid rapeseed. Plant Biotechnol. J.17: 1998–2010.

  12. #:共同第一作者;*:通讯作者