基本信息
姓名:朱攀攀
职称:讲师、硕导
专业:生物学
研究方向:药用植物分子生物学
开设课程:
电邮:zhupanpan012@gzy.edu.cn
个人简介
朱攀攀,男,博士。毕业于重庆大学生物工程学院,博士期间主要从事植物病原菌致病机理研究。现就职于贵州中医药大学,主要从事根瘤菌调控血人参生长发育及品质形成分子机理研究。研究重点主要在:筛选参与血人参结瘤优良促生菌并探究其调控血人参品质形成的分子机制;利用基因组、转录组及代谢组等手段筛选血人参品质形成关键调控基因,解析其介导的分子机制。现主持国家自然科学基金地区基金1项、校级项目2项。以第一(含共一)作者发表学术论文8篇,其中SCI论文6篇;获授权发明专利4项。
科研项目
1.苗药血人参慢生根瘤菌多样性与药材成因机理研究,国家自然科学基金地区科学基金项目,2024.1-2027.12,在研,主持。
授权发明专利
[1] 赵爱春; 朱攀攀; 张帅; 李若兰; 刘长英; 范伟; 马舒煜; 向仲怀; 沉默桑实杯盘菌关键致病基因CsGPA1的沉默载体及其应用和方法, 2023-09-15, 中国, CN202111016908.8
[2] 赵爱春; 朱攀攀; 李若兰; 张帅; 刘长英; 范伟; 周玉平; 向仲怀; 沉默桑实杯盘菌G蛋白α亚基编码基因CsGPA3的沉默载体及其应用和方法, 2023-09-15, 中国, CN202111016893.5
[3] 赵爱春; 朱攀攀; 张帅; 李若兰; 刘长英; 范伟; 夏中强; 马舒煜; 向仲怀; 沉默桑实杯盘菌G蛋白β亚基编码基因CsGβ2的沉默载体及其应用和方法, 2023-09-15, 中国, CN202111016902.0
[4] 赵爱春; 朱攀攀; 张帅; 李若兰; 刘长英; 范伟; 马舒煜; 夏中强; 向仲怀; 沉默桑实杯盘菌G蛋白γ亚基编码基因CsGγ的沉默载体及其应用和方法, 2023-09-15, 中国, CN202111016895.4
发表的论文及著作
[1] Zhu P, Li R, Fan W, Xia Z, Li J, Wang C, Zhao A. A mulberry 9-cisepoxycarotenoid dioxygenase gene MaNCED1 is involved in plant growth regulation and confers salt and drought tolerance in transgenic tobacco, Frontiers in Plant Science, 2023, 14:1228902.
[2] Zhu P, Chen G, Liu Y, Wang Q, Wang M, Hu T. Microcystin-leucine arginine exhibits adverse effects in human aortic vascular smooth muscle cells via impairing cytoskeleton by integrin-mediated FAK/ROCK signaling pathway and promoting apoptosis by the mitochondrial signaling pathway. Toxicology in Vitro. 2022, 84:105450.
[3] Zhu P, Zhang S, Li R, Liu C, Fan W, Hu T, Zhao A. Host-induced gene silencing of a G protein α subunit gene CsGpa1 involved in pathogen appressoria formation and virulence improves tobacco resistance to Ciboria shiraiana. J Fungi (Basel). 2021, 7(12): 1053.
[4] Zhu P, Kou M, Liu C, Zhang S, Lü R, Xia Z, Yu M, Zhao A. Genome sequencing of ciboria shiraiana provides insights into the pathogenic mechanisms of hypertrophy sorosis scleroteniosis. Mol Plant Microbe Interact. 2021, 34(1):62-74.
[5] Zhu P, Cai Y, Yu J, Zhao A, Liang Y, Liu C, Wang C, Yu M. Characterization and expression of genes involved in the ABA signal transduction during ripening of mulberry fruit. Acta Physiologiae Plantarum. 2017,39:149.
[6] Xia Z, Fan W, Liu D, Chen Y, Lv J, Xu M, Zhang M, Ren Z, Chen X, Wang X, Li L, Zhu P, Liu C, Song Z, Huang C, Wang X, Wang S, Zhao A. Haplotype-resolved chromosomal-level genome assembly reveals regulatory variations in mulberry fruit anthocyanin content. Horticulture Research, 2024, uhae120, https://doi.org/10.1093/hr/uhae120.
[7] Zhang S, Zhu P, Cao B, Ma S, Li R, Wang X, Zhao A. An APSES transcription factor Xbp1 is required for sclerotial development, appressoria formation, and pathogenicity in Ciboria shiraiana. Front. Microbiol. 2021, 12:739686.
