蔡晓薇博士

邮箱：vera8472@163.com

教育经历

2010.09-2014.06山东大学 本科

2015.09-2018.12广西大学 硕士

2020.09-2024.12贵州大学 博士

工作经历

2025.12--至今贵阳康养职业大学

主要研究领域：植物抗逆调控机制解析及遗传体系的构建，植物杂交育种及优良品种的选育推广，康养产品研发等。

科研项目

[1]《火龙果HmbHLH1转录因子调控抗旱的分子机制研究》，贵州省研究生科研基金项目，（黔教合YJSKYJJ〔2021〕057）2022.03-2023.03，主持。

[2]《Hpo-miR396靶向抑制HpGRF家族在火龙果干旱响应中的作用机理解析》，国家自然科学基金地区科学基金项目，（32060663）2022.01-2025.12，参与（第三）。

[3]《HubHLH1转录因子调控火龙果抗旱性的分子机制解析》，国家自然科学基金地区科学基金项目，（32160681）2020.01-2024.12，参与。

[4]《真菌通讯系统的揭示和调控机理》，国家973计划项目子课题，2015.01-2019.12，参与。

代表性论文

[1]CaiX, Xiao L, Nie X, Hou Q, Wen S, Yang K*, & Wen X*. HpFBH3 transactivatesHpCO7via binding to the E-boxes in the promoter and may accelerate flower formation in pitaya. Journal of Integrative Agriculture, 2025, 24(2), 575-593. (SCI一区)

[2]Cai X, Xiao L, Wang A, Qiao G, Wen Z, Wen X*, & Yang K*. Drought-inducibleHpbHLH70enhances drought tolerance and may accelerate floral bud induction in pitaya. International Journal of Biological Macromolecules, 2024, 277, 134189. (SCI一区)

[3]Cai X, Zhang L, Xiao L, Wen Z, Hou Q, & Yang K*. Genome-wide identification of GRF gene family and their contribution to abiotic stress response in pitaya (Hylocereus polyrhizus). International Journal of Biological Macromolecules, 2022, 223, 618-635.（SCI一区）

[4]蔡晓薇,余梅,何媛媛,陈保善,李茹*.甘蔗黑穗病菌RNA干扰相关基因ssdcl的功能研究[J].基因组学与应用生物学,2020,39(03):1113-1119.（中文核心）

[5] Xiao L,Cai X, Yu R, Nie X, Wang A H, Yang K*, & Wen X*. Genome-Wide Identification of Pitaya (Hylocereus polyrhizus) TCPs and their Involvement in Flower Development and Abiotic Stress Response. Tropical Plant Biology, 2025, 18(1), 9. (SCI四区)（共一）

[6] Wen S,Cai X, Zhou K, Min Y, Shang C, Shen L, Deng L, Liu D, Qiao G*, & Shen X*. Metabolome and comparative genome provide insights into secondary metabolites generation of a rare karst-growing Rhododendron in vitro culture. The Plant Journal, 2025, 121(3), e17235. (SCI一区)

[7] Wen S,Cai X, Yang K, Hong Y, Fan F, Wang Q, Zhang B, Hou Q, Leng Y, Qiao G*, & Shen, X*. Chromosome-level genome assembly of a rare karst-growing Rhododendron species provides insights into its evolution and environmental adaptation. Journal of Systematics and Evolution, 2025, 63(2), 245-267. (SCI一区)

[8] Yang Z,Cai X, Shang C, Hou Q, Xiao L, & Wen X*. Heat-inducedHpbHLH43involves in promoting floral bud induction via activatingHpSOC1in pitaya. Scientia Horticulturae, 2024, 338, 113773. (SCI二区)

[9] Xiao L,Cai X, Yu R, Nie X, Yang K*, & Wen X*. Functional analysis of HpMYB72 showed its positive involvement in high-temperature resistance via repressing the expression ofHpCYP73A. Scientia Horticulturae, 2024, 338, 113741. (SCI二区)