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彭玉全-讲师

一、个人简介

彭玉全,男,汉族,19943月生,湖北荆州人。博士,bat365中文官方网官网讲师。研究方向为蔬菜逆境生理与分子生物学。近五年共发表相关学术论文12篇,其中以第一或共同第一作者发表SCI论文6篇。

电子邮箱:pengyuquan@yangtzeu.edu.cn

二、学习和工作经历

2024.07-至今,bat365中文官方网官网,讲师;

2020.09-2024.06,华中农业大学园艺林学学院,设施园艺学,博士;

2017.09 - 2020.06,bat365中文官方网官网,园艺植物资源与利用,硕士;

2013.09 - 2017.06,bat365中文官方网官网,园艺,本科。

三、参与的项目

1. 参与在研面上项目1项:南瓜CmoNAC1调控嫁接黄瓜耐盐性的分子机制 (32372794)

2. 参与重点研发项目1项:嫁接提高黄瓜对盐胁迫适应性的机制 (2018YFD1000803-01)(已结题)。

四、代表性论文

1. Peng, Y. Q., Cui, L. J., Wang Y., Wei, L. X., Geng, S. Y., Chen, H., Chen, G. Y., Yang, L., Bie, Z. L. (2024). Pumpkin CmoDREB2A enhances salt tolerance of grafted cucumber through interaction with CmoNAC1 to regulate H2O2 and ABA signaling and K+/Na+ homeostasis. Horticulture Research, uhae057. https://doi.org/10.1093/hr/uhae057(中科院1区,2023-IF=8.7

2. Peng, Y. Q., Cao, H. S., Cui, L. J., Wang, Y., Wei, L. X., Geng, S. Y., Yang, L., Huang, Y., Bie, Z. L. (2023). CmoNAC1 in pumpkin rootstocks improves salt tolerance of grafted cucumbers by binding to the promoters of CmoRBOHD1, CmoNCED6, CmoAKT1;2 and CmoHKT1;1 to regulate H2O2, ABA signaling and K+/Na+homeostasis.HorticultureResearch,10(9),uhad157.https://doi.org/10.1093/hr/uhad157 (中科院1区,2023-IF=8.7

3. Peng, Y. Q., Chen, L., Zhu, L., Cui, L., Yang, L., Wu, H. H., Bie, Z. L. (2022). CsAKT1 is a key gene for the CeO2 nanoparticle's improved cucumber salt tolerance: a validation from CRISPR-Cas9 lines. Environmental Science: Nano, 9(12), 4367-4381. https://doi.org/10.1039/D2EN00688J (中科院1区,2021-IF=9.4

4. Peng, Y. Q., Zhu, J., Li, W. J., Gao, W., Shen, R. Y., Meng, L. J. (2020). Effects of grafting on root growth, anaerobic respiration enzyme activity and aerenchyma of bitter melon under waterlogging stress. Scientia Horticulturae, 261, 108977. https://doi.org/10.1016/j.scienta.2019.108977 (中科院2区,2020-IF=2.7

5. Peng, Y. Q., Cao, H. S., Peng, Z. W., Zhou, L. J., Sohail, H., Cui, L. J., Yang, L., Huang, Y., Bie, Z. L. (2023). Transcriptomic and functional characterization reveals CsHAK5;3 as a key player in K+ homeostasis in grafted cucumbers under saline conditions. Plant science, 326, 111509. hts://doi.org/10.1016/j.plantsci.2022.111509 (中科院2区,2022-IF=5.3

6. Chen, L. L.1, Peng, Y. Q.1, Zhu, L., Huang, Y., Bie, Z. L., Wu, H. H. (2022). CeO2 nanoparticles improved cucumber salt tolerance is associated with its induced early stimulation on antioxidant system. Chemosphere, 299, 134474. https://doi.org/10.1016/j.chemosphere.2022.134474 (共一,中科院2区,2022-IF=7.0