Main
王鹏飞
华中农业大学植科院博士研究生,中共党员
华中农业大学植物科学技术学院在读研究生。作物遗传育种专业,油菜基因组学方向。主要研究内容为甘蓝型油菜高效遗传转化受体材料小芸(Xiaoyun)的基因组组装及早花和高遗传转化效率遗传机制。同时负责本实验室生物信息学分析工作。曾从事油菜千粒重QTL定位、紫杆QTL定位等工作。
EDUCATION
华中农业大学
植物科学技术学院 农学学士学位
湖北-武汉
2012
华中农业大学
植物科学技术学院 硕士研究生
湖北-武汉
2016
华中农业大学
植物科学技术学院 博士研究生
湖北-武汉
2019
SCHOOL HONORS
三好研究生
n.a.
HZAU
2016-2017
三好研究生
n.a.
HZAU
2017-2018
优秀研究生干部
n.a.
HZAU
2017-2018
CONFERENCE
多组学数据分析新方法研讨会
participant
湖北-武汉
2019
第二十一届全国植物基因组学大会
participant
广西-南宁
2022
PUBLICATIONS
OTHER PUBLICATIONS
Fine mapping and candidate gene analysis of a seed glucosinolate content QTL, qGSL-C2, in rapeseed (Brassica napus L.).
Theor Appl Genet. 2020;133(2):479-490.
N/A
2020
Liu, Y., Zhou, X., Yan, M., Wang, P., Wang, H., Xin, Q., Yang, L., Hong, D., & Yang, G.
Genetic dissection of thousand-seed weight and fine mapping of cqSW.A03-2 via linkage and association analysis in rapeseed (Brassica napus L.).
Theor Appl Genet. 2020;133(4):1321-1335.
N/A
2020
Wang, H., Yan, M., Xiong, M., Wang, P., Liu, Y., Xin, Q., Wan, L., Yang, G., & Hong, D.
Mining favorable alleles for five agronomic traits from the elite rapeseed cultivar Zhongshuang 11 by QTL mapping and integration.
Crop J. 2021;9(6):1449-1459.
N/A
2021
Zhou X., Dai L., Wang P., Liu Y., Xie Z., Zhang H., Xin Q., Wan L., Yang L., Yang G., and Hong D.
A 24,482-bp deletion is associated with increased seed weight in Brassica napus L.
Theor Appl Genet. 2021;134(8):2653-2669.
N/A
2021
Zhang, X., Huang, Q., Wang, P., Liu, F., Luo, M., Li, X., Wang, Z., Wan, L., Yang, G., & Hong, D.
BnaC7.ROT3, the causal gene of cqSL-C7, mediates silique length by affecting cell elongation in Brassica napus.
J Exp Bot. 2022;73(1):154-167.
N/A
2022
Zhou, X., Zhang, H., Wang, P., Liu, Y., Zhang, X., Song, Y., Wang, Z., Ali, A., Wan, L., Yang, G., & Hong, D.
Comprehensive speed breeding: a high-throughput and rapid generation system for long-day crops.
Plant Biotechnol J. 2022;20(1):13-15.
N/A
2022
Song, Y., Duan, X., Wang, P., Li, X., Yuan, X., Wang, Z., Wan, L., Yang, G., & Hong, D.
Quantitative trait locus mapping and improved resistance to sclerotinia stem rot in a backbone parent of rapeseed (Brassica napus L.).
Front Plant Sci. 2022;13:1056206.
N/A
2022
Zhang, X., Li, X., Li, H., Wang, Z., Xia, R., Hu, J., Wang, P., Zhou, X., Wan, L., Hong, D., & Yang, G.
Heterosis Derived From Nonadditive Effects of the BnFLC Homologs Coordinates Early Flowering and High Yield in Rapeseed ( Brassica napus L.)
Front Plant Sci. 2022;12:798371.
N/A
2022
Fang C, Wang Z, Wang P, Song Y, Ahmad A, Dong F, Hong D, Yang G.
Natural variation and artificial selection at the BnaC2.MYB28 locus modulate Brassica napus seed glucosinolate.
Plant Physiol. 2023;191(1):352-368.
N/A
2023
Zhou, X., Zhang, H., Xie, Z., Liu, Y., Wang, P., Dai, L., Zhang, X., Wang, Z., Wang, Z., Wan, L., Yang, G., & Hong, D.
Pyramiding of multiple genes generates rapeseed introgression lines with clubroot and herbicide resistance, high oleic acid content, and early maturity
Crop J. 2023;11(3):895-903
N/A
2023
Wang, Z., Wang, F., Yu, Z., Shi, X., Zhou, X., Wang, P., Song, Y., Hong, D., & Yang, G.
Linkage and association mapping of ovule number per ovary (ON) in oilseed rape ( Brassica napus L.)
Mol Breed. 2023;43(2):11
N/A
2023
Ahmad, A., Li, W., Zhang, H., Wang, H., Wang, P., Jiao, Y., Zhao, C., Yang, G., & Hong, D.
A stable quantitative trait locus on chromosome A10 improves the oil content of a backbone parent in Brassica napus L.,
Ind Crops Prod. 2023;202:0926-6690
N/A
2023
Zhang, X., Li, H., Hu, J., Liu, Y., Huang, Q., Li, X., Wang, P., Zhou, X., Yang, G.,