一、基本信息

潘亚婕，女，中共党员，博士，副教授，硕士生导师。

二、联系方式

通讯地址：哈尔滨市香坊区和兴路26号williamhill中文逸夫实验楼209，邮编150040

E-mail: Panyajie@nefu.edu.cn

三、科研工作经历

2026.01-至今  williamhill中文  食品与健康学院  副教授   

2025.11-2026.01  williamhill中文  williamhill英国  副教授   

2022.05-2024.04  华大生命科学研究院  生物技术副研究员 

2020.03-2022.05  南方科技大学  博士后 

四、教育经历

2013.09-2019.06  williamhill中文  植物学  理学博士

2009.09-2013.06  williamhill中文  生命科学与技术  理学学士

五、所在学科

生物学一级学科（植物生物学，学硕）

药学一级学科（植物药用资源，专硕）

六、主要研究方向

研究方向以多组学整合为研究特色，综合运用基因组、转录组（单细胞/空间转录组）、sRNA、翻译组及代谢组等技术，系统解析植物逆境响应与细胞命运决定、药用植物次生代谢调控两大关键科学问题，为植物抗逆改良与药用植物资源高效利用提供理论基础。

七、主持科研项目

1.国家自然科学基金青年科学基金项目（C类），热激诱导CrGL2调控长春花生物碱积累的机制研究，2026.01-2028.12, 30万元, 主持

2.williamhill中文成栋优秀青年人才项目，2025.11-2030.01，主持

3.中国博士后科学基金面上项目，22-nt siRNA抑制HSP70-1翻译并增强植物耐热性的机制研究，2020.11-2023.03, 8万元，主持

八、代表性学术论文

[1] Pan YJ, Yu BF, Wei X, Qiu YP, Mao X, Liu YL, Yan W, Linghu QY, Li WY, Guo HW, Tang ZH. Suppression of SMXL4 and SMXL5 confers enhanced thermotolerance through promoting HSFA2 transcription in Arabidopsis. The Plant Cell, 2024. (IF:10)

[2] Pan YJ, Lin Y, Yu BF, Zu YG, Yu F, Tang ZH. Transcriptomics comparison reveals the diversity of ethylene and methyl-jasmonate in roles of TIA metabolism in Catharanthus roseus. BMC Genomics, 2018. (IF:3.5)

[3] Pan YJ, Liu L, Lin YC, Zu YG, Li LP, Tang ZH. Ethylene antagonizes salt-induced growth retardation and cell death process via transcriptional controlling of ethylene-, BAG- and senescence-associated genes in Arabidopsis. Frontiers in Plant Science, 2016. (IF:4.3)

[4] Pan YJ, Liu J, Guo XR, Zu YG, Tang ZH. Gene transcript profiles of the TIA biosynthetic pathway in response to ethylene and copper reveal their interactive role in modulating TIA biosynthesis in Catharanthus roseus. Protoplasma, 2014. (IF:2.6)

[5] Wang ZY, Yang QH, Zhang D, Lu Y, Wang YC, Pan YJ, Qiu YP, Men Y, Yan W, Xiao ZN, Sun RX, Li W, Huang HD, Guo HW. A cytoplasmic osmosensing mechanism mediated by molecular crowding-sensitive DCP5. Science, 2024. (IF:44.8)

[6] Wu HH, Li BS, Iwakawa H, Pan YJ, Tang XL, Linghu QY, Liu Y, Sheng SX, Feng L, Zhang H, Zhang X, Tang ZH, Xia X, Zhai J, Guo HW. Plant 22-nt siRNAs mediate translational repression and stress adaptation. Nature, 2020. (IF:49.9)

[7] Liu YL, Feng L, Wang C, Yan W, Linghu QY, Tan H, Pan YJ, Yan S, Zhai J, Du J, Guo HW. Molecular basis of plant DCL4 action that outcompetes DCL2. Nature Plants, 2026. (IF:13.6)

[8] Yan Y, Xie YP, Gao Q, Pan YJ, Tang XL, Liu YL, Li W, Guo HW. Distinct regulation of mRNA decay pathways by ABA enhances nitrate reductase 1/2-derived siRNAs production and stress adaptation. Molecular Plant, 2025. (IF:24.1)

[9] Feng L, Yan W, Tang X, Wu H, Pan YJ, Lu D,  Linghu QY, Liu Y, Liu Y, Song X, Ali M, Fang L, Guo H, Li B. Multiple factors and features dictate the selective production of ct-siRNA in Arabidopsis. Communications Biology, 2024. (IF:5.2)

[10]Xi YL, Yang Y, Yang J, Zhang X, Pan YJ, Guo HW. IAA3-mediated repression of PIF proteins coordinates light and auxin signaling in Arabidopsis. PLOS Genetics, 2021. (IF:6.0)

[11]Yu BF, Pan YJ, Liu Y, Chen Q, Guo XR, Tang ZH. A comprehensive analysis of transcriptome and phenolic compound profiles suggests the role of flavonoids in cotyledon greening in Catharanthus roseus seedling. Plant Physiology and Biochemistry, 2021. (IF:5.4)

[12]Chen Q, Lu X, Guo X, Pan YJ, Yu BF, Tang ZH, Guo QR. Differential responses to Cd stress induced by exogenous application of Cu, Zn or Ca in the medicinal plant Catharanthus roseus. Ecotoxicology and Environmental Safety, 2018. (IF:4.5)

[13]Yu BF, Liu Y, Pan YJ, Liu J, Wang H, Tang ZH. Light enhanced the biosynthesis of terpenoid indole alkaloids to meet the opening of cotyledons in process of photomorphogenesis of Catharanthus roseus. Plant Growth Regulation, 2018. (IF:2.5)

[14]Zhao XJ, Pan YJ, Chen HF, Tang ZH. Influence of holoparasitic plant Cuscuta japonica on growth and alkaloid content of its host shrub Catharanthus roseus: a field experiment. Arabian Journal for Science and Engineering, 2018. (IF:1.5)

[15]Wang X, Pan YJ, Chang BW, Hu YB, Guo XR, Tang ZH. Ethylene-induced vinblastine accumulation is related to activated expression of downstream TIA pathway genes in Catharanthus roseus. BioMed Research International, 2016. (IF:2.5)

[16]Li XL, Pan YJ, Chang BW, Wang Y, Tang ZH. NO promotes seed germination and seedling growth under high salt may depend on EIN3 protein in Arabidopsis. Frontiers in Plant Science, 2016. (IF:4.3)

[17]Liu J, Liu Y, Pan YJ, Zu YG, Tang ZH. Determination of alkaloids in Catharanthus roseus and Vinca minor by high-performance liquid chromatography–tandem mass spectrometry. Analytical Letters, 2016. (IF:1.1)