1. 基本信息
张睿,男,陕西长安人,1982年生,博士、教授、博士生导师。
2000-2004年,维多利亚vic115优惠大厅,农学学士;
2004-2007年,中国农业大学农学与生物技术学院,农学硕士;
2008-2013年,中国科学院植物研究所,理学博士;
2013-2021年,中国科学院植物研究所,助理研究员;
2017-2018年,美国哈佛大学,访学学者;
2021年至今,维多利亚vic115优惠大厅,教授。
2. 研究方向
1) 花形态结构发育和多样化的分子机制;
2) 观赏植物种质资源开发与遗传改良。
3. 科研项目
1) 国家自然科学基金面上项目,2024-2027,32372750
2) 国家自然科学基金面上项目,2022-2025,32170235
3) 国家自然科学基金面上项目,2020-2023,31970247
4) 国家自然科学基金青年基金项目,2015-2017,31400204
5) 陕西省高层次人才引进计划区域青年项目,2022-2025
6) 陕西省秦创原引用高层次创新创业人才项目,2021–2024,2021QCYRC4-51
7) 维多利亚vic115优惠大厅引进人才科研启动项目,2021-2026
4. 主要学术论著
1) Zhang HH#, Xue F#, Guo LP#, Cheng J, Jabbour F, DuPasquier P, Xie YR, Zhang P, Wu YJ, Duan XS, Kong HZ, Zhang R*, 2024. The mechanism underlying asymmetric bending of lateral petals in Delphinium (Ranunculaceae). Current Biology, 34: 1-14(通讯)
2) Zhao HQ#, Liao H#, Li SX#, Zhang R, Dai J, Ma PR, Wang TP, Wang MM, Yuan Y, Fu XH, Cheng J, Duan XS, Xie YR, Zhang P, Kong HZ*, Shan HY*, 2023. Delphinieae flowers originated from the rewiring of interactions between duplicated and diversified floral organ identity and symmetry genes. The Plant Cell, 35: 994-1012
3) Guo LP, You C, Zhang HH, Wang YK*, Zhang R*, 2022. Genome-wide analysis of NBS-LRR genes in Rosaceae species reveals distinct evolutionary patterns. Frontiers in Genetics, 13:1052191.(通讯)
4) Zhang R#, Fu XH#, Zhao CY#, Cheng J#, Liao H, Wang PP, Yao X, Duan XS, Yuan Y, Xu GX, Kramer EM, Shan HY, Kong HZ*, 2020. Identification of the key regulatory genes involved in elaborate petal development and specialized character formation in Nigella damascena (Ranunculaceae). The Plant Cell, 32: 3095-3112.(一作)
5) Zhang R, Min Y, Holappa LD, Walcher-Chevillet CL, Duan XS, Donaldson E, Kong HZ, Kramer EM*, 2020. A role for the Auxin Response Factors ARF6 and ARF8 homologs in petal spur elongation and nectary maturation in Aquilegia. New Phytologist, 227: 1392-1405.(一作)
6) Jiang YC#, Wang MM#, Zhang R#, Xie JH, Duan XS, Shan HY, Xu, GX*; Kong HZ*, 2020. Identification of the target genes of AqAPETALA3-3 (AqAP3-3) in Aquilegia coerulea (Ranunculaceae) helps understand the molecular bases of the conserved and non-conserved features of petals. New Phytologist, 227: 1235-1248. (并列一作)
7) Duan XS#, Zhao CY#, Jiang YC#, Zhang R, Shan HY*, Kong HZ*, 2020. Parallel evolution of apetalous lineages within the buttercup family (Ranunculaceae): Outward expansion of AGAMOUS1, rather than disruption of APETALA3-3, The Plant Journal, 104: 1169-1181.
8) Liao H#, Fu XH#, Zhao HQ#, Cheng J, Zhang R, Yao X, Duan XS, Shan HY, Kong HZ*, 2020. The morphology, molecular development and ecological function of pseudonectaries on Nigella damascena (Ranunculaceae) petals. Nature Communications, 11: 1777.
9) Xie JH#, Zhao HF#, Li KP#, Zhang R, Jiang YC, Wang MM, Guo XL, Yu B, Kong HZ*, Jiao YN*, Xu GX*, 2020. A chromosome-scale reference genome of Aquilegia oxysepala var. kansuensis, Horticulture Research, 7: 113.
10) Shan HY, Cheng J, Zhang R, Yao X, Kong HZ*, 2019. Developmental mechanisms involved in the diversification of flowers. Nature Plants, 5: 917-923.
11) Wang HZ, Zhang R, Cheng J, Duan XS, Zhao HQ, Shan HY, Kong HZ*, 2019. Diversity of flowers in basic structure and its underlying molecular mechanisms. SCIENTIA SINICA Vitae, 49: 292-300.
12) Zhai W#, Duan XS#, Zhang R, Guo CC, Li L, Xu GX, Shan HY, Kong HZ*, Ren Y*, 2019. Chloroplast genomic data provide new and robust insights into the phylogeny and evolution of the Ranunculaceae. Molecular Phylogenetics and Evolution, 135: 12-21.
13) Yao X, Zhang WG, Duan XS, Yuan Y, Zhang R, Shan HY, Kong HZ*, 2019. The making of elaborate petals in Nigella through developmental repatterning. New Phytologist, 225: 385-396.
14) Liao IT#*, Shan HY#, Xu GX#, Zhang R#. 2016. Bridging evolution and development in plants. New Phytologist, 212: 827-830.(并列通讯)
15) Yu XX, Duan XS, Zhang R, Fu XH, Ye LL, Kong HZ, Xu GX*, Shan HY*, 2016. Prevalent exon-intron structural changes in the APETALA1/FRUITFULL, SEPALLATA, AGAMOUS-LIKE6, and FLOWERING LOCUS C MADS-box gene subfamilies provide new insights into their evolution, Frontiers in Plant Science, 7:598.
16) Wang PP, Liao H, Zhang WG, Yu XX, Zhang R, Shan HY, Duan XS, Yao X, Kong HZ*, 2015. Flexibility in the structure of spiral flowers and its underlying mechanisms, Nature Plants, 2: 15188.
17) Li L, Yu XX, Guo CC, Duan XS, Shan HY, Zhang R, Xu GX, Kong HZ*, 2015. Interactions among proteins of floral MADS-box genes in Nuphar pumila (Nymphaeaceae) and the most recent common ancestor of extant angiosperms help understand the underlying mechanisms of the origin of the flower. Journal of Systematics and Evolution, 53: 285-296.
18) Zhang R*, Guo CC, Shan HY, Kong HZ, 2014. Developmental repatterning and biodiversity. Biodiversity Science, 22(1), 66-71.(通讯)
19) Guo CC*, Zhang R, Shan HY, Kong HZ, 2014. Effects of regulatory evolution on morphological diversity. Biodiversity Science, 22(1), 72-79.
20) Zhang R#, Guo CC#, Zhang WG#, Wang PP, Li L, Duan XS, Du QG, Zhao L, Shan HY, Hodges SA, Kramer EM, Ren Y*, Kong HZ*, 2013. Disruption of the petal identity gene APETALA3-3 is highly correlated with loss of petals within the buttercup family (Ranunculaceae). Proceedings of the National Academy of Sciences USA, 110(13): 5074-5079.
21) 胡海姿,张睿,尚爱芹,赵梁军*,陆志敏. 2007. 金叶植物色素含量对光强的响应. 园艺学报,34 (3): 717-722.
5. 联系方式
通讯地址:陕西杨凌邰城路3号 维多利亚vic115优惠大厅
Email: ruizhang@nwafu.edu.cn