何方

来源: 2020-09-08 15:43:57

姓名:何方

性别:

工作单位:77779193永利官网

导师类型:学硕导师

招生专业学硕:090701林木遗传育种,专硕:095400林业

◆个人简历

博士研究生,副教授(2020年),2020年被人才引进到77779193永利官网工作。本人博士毕业于北京林业大学,师从于尹伟伦院士和夏新莉教授,并且一直从事树木抗逆生理与分子机制研究。近三年,在 New Phytologist、Plant Biotechnology Journal、 Journal of Experimental Botany 、Tree Physiology、Frontiers in Plant Science、Science of the Total Environment等国际主流生物学、林学和生态学期刊上发表SCI论文18篇。

◆工作经历

(1)2020-12至现在,77779193永利官网,77779193永利官网,副教授

(2)2020-8至2020-11,77779193永利官网,77779193永利官网,讲师

(3)2020-9至2023-9,77779193永利官网,博士后,

◆教育经历

(1)2019-10至2020-4,美国加州大学戴维斯分校,植物科学,博士联合培养,导师:Georgia Drakakaki

(2)2015-9至2020-7,北京林业大学,植物学,博士(硕博连读),导师:尹伟伦

◆获奖荣誉

2021年11月1日获得 全国博士后论坛优秀墙报奖

2020年8月26日获得校级优秀博士论文

2020年6月20日获得北京市优秀毕业生

2019年The Almond Conference 2019,Sacramento, California;poster报告

2019年12月24日获得优秀研究生

2019年12月24日获得研究生学术创新奖

2019年12月12日获得研究生国家奖学金

2018年12月8日获得研究生学术创新奖

2018年11月20日获得研究生国家奖学金

2018年08月15日在长沙参加全国农业生物化学与分子生物学第十七次研讨会,获得全国农业生物化学与分子生物学第九届青年论坛特等奖

◆社会、学会及学术兼职

担任Tree Physiology, Journal of Hazardous Materials,Frontier In Plant Science,Environmental and Experimental Botany等SCI期刊的审稿人。

◆研究领域

林木逆境分子生物学(干旱,高盐,冷害,重金属等)

◆科研项目

(1)主持国家自然科学基金-青年基金(2021-2024);

(2)主持中国博士后基-金面上项目(2021-2023);

(3)主持“三区”人才支持计划科技人员专项计划(2021—2023);

(4)主持77779193永利官网引进人才启动金费项目(2020-2024);

(5)主持77779193永利官网2021年学科建设双支计划(第六层次);

(6)参与四川省“十四五”科技支撑计划项目专题2项(2021-2025);

(7)参与四川省科学技术厅应用基础项目1项(2020-2022)。

◆发表论文

1.Fang He , Yu-Jie Shi, Qian Zhao, Kuang-Ji Zhao, Xing-Lei Cui, Liang-Hua Chen, Han-Bo Yang, Fan Zhang, Jia-Xuan Mi, Jin-Liang Huang, Xue-Qin Wan*,Genome-wide analysis and expression profiling of Cation/H+ exchanger (CAX) family genes reveal likely functions in cadmium stress responses in poplar,International Journal of Biological Macromolecules,2022

2.Fang He , Yu-Jie Shi, Qian Zhao, Kuang-Ji Zhao, Xing-Lei Cui, Liang-Hua Chen, Han-Bo Yang, Fan Zhang, Jia-Xuan Mi, Jin-Liang Huang, Xue-Qin Wan*, Genome-wide investigation and expression profiling of polyphenoloxidase (PPO) family genes uncover likely functions in organ development and stress responses in populus trichocarpa,BMC Genomics, 2021.

3.He F, Zhao Q, Huang JL, Niu MX, Feng HC, Shi YJ, Zhao KJ, Cui XL, Wu XL, Mi JX et al: External application of N alleviates toxicity of Cd on poplars via starch and sucrose metabolism. Tree Physiol 2021.

4.He F*, Shi YJ, Mi JX, Zhao KJ, Cui XL, Chen LH, Yang HB, Zhang F, Zhao Q, Huang JL et al: Genome-Wide Investigation of the NF-X1 Gene Family in Populus trichocarpa Expression Profiles during Development and Stress. Int J Mol Sci 2021, 22(9).

5.He, F.; Niu, M. X.; Feng, C. H.; Li, H. G.; Su, Y.; Su, W. L.; Pang, H.; Yang, Y.; Yu, X.; Wang, H. L.; Wang, J.; Liu, C.; Yin, W.; Xia, X., PeSTZ1 confers salt stress tolerance by scavenging the accumulation of ROS through regulating the expression of PeZAT12 and PeAPX2 in Populus. Tree Physiol 2020.

6.He, F.; Li, H. G.; Wang, J. J.; Su, Y.; Wang, H. L.; Feng, C. H.; Yang, Y.; Niu, M. X.; Liu, C.; Yin, W.; Xia, X., PeSTZ1, a C2H2-type zinc finger transcription factor from Populus euphratica, enhances freezing tolerance through modulation of ROS scavenging by directly regulating PeAPX2. Plant Biotechnol J 2019.

7.He, F.; Wang, H. L.; Li, H. G.; Su, Y.; Li, S.; Yang, Y.; Feng, C. H.; Yin, W.; Xia, X., PeCHYR1, a ubiquitin E3 ligase from Populus euphratica, enhances drought tolerance via ABA-induced stomatal closure by ROS production in Populus. Plant Biotechnol J 2018.

8.TiantianLin#;JiayaoTang#;FangHe#;GangChen ;YujieShi ;XueguiWang ;ShanHan ;ShujiangLi ;TianhuiZhu ;LianghuaChen; 2021. Sexual differences in above- and belowground herbivore resistance between male and female poplars as affected by soil cadmium stress. Sci Total Environ 803: 150081.

9.Shen, C.; Zhang, Y.; Li, Q.; Liu, S.; He, F.; An, Y.; Zhou, Y.; Liu, C.; Yin, W.; Xia, X., PdGNC confers drought tolerance by mediating stomatal closure resulted from NO and H2 O2 production via the direct regulation of PdHXK1 expression in Populus. New Phytol 2021.

10.Hanbo Yang; Guangli Cao;Shijiao Jiang;Shan Han; Chunlin Yang; Xueqin Wan; Fan Zhang;Lianghua Chen;Jiujin Xiao; Peng Zhu;Danju Zhang; Fang He;Wenxi Xing;Identification of the anthracnose fungus of walnut (Juglans spp.) and resistance evaluation through physiological responses of resistant vs. susceptible hosts[J]. Plant Pathology, 2021, 70(5):1219-1229.

11.Yang, Y.; Li, H. G.; Wang, J.; Wang, H. L.; He, F.; Su, Y.; Zhang, Y.; Feng, C. H.; Niu, M.; Li, Z.; Liu, C.; Yin, W.; Xia, X., PeABF3 Enhances Drought Tolerance via Promoting ABA-induced Stomatal Closure by directly Regulating PeADF5 in Poplar. J Exp Bot 2020.

12.Su, W.; Bao, Y.; Lu, Y.; He, F.; Wang, S.; Wang, D.; Yu, X.; Yin, W.; Xia, X.; Liu, C., Poplar Autophagy Receptor NBR1 Enhances Salt Stress Tolerance by Regulating Selective Autophagy and Antioxidant System. Front Plant Sci 2020, 11, 568411.

13.Shao, Y.; Cheng, Y.; Pang, H.; Chang, M.; He, F.; Wang, M.; Davis, D. J.; Zhang, S.; Betz, O.; Fleck, C.; Dai, T.; Madahhosseini, S.; Wilkop, T.; Jernstedt, J.; Drakakaki, G., Investigation of Salt Tolerance Mechanisms Across a Root Developmental Gradient in Almond Rootstocks. Front Plant Sci 2020, 11, 595055.

14.Lu, Y.; Su, W.; Bao, Y.; Wang, S.; He, F.; Wang, D.; Yu, X.; Yin, W.; Liu, C.; Xia, X., Poplar PdPTP1 Gene Negatively Regulates Salt Tolerance by Affecting Ion and ROS Homeostasis in Populus. Int J Mol Sci 2020, 21, (3).

15.Pang, H.; Yan, Q.; Zhao, S.; He, F.; Xu, J.; Qi, B.; Zhang, Y., Knockout of the S-acyltransferase Gene, PbPAT14, Confers the Dwarf Yellowing Phenotype in First Generation Pear by ABA Accumulation. International Journal of Molecular Sciences 2019, 20, (24), 6347.

16.Su, Y.; Li, H. G.; Wang, Y.; Li, S.; Wang, H. L.; Yu, L.; He, F.; Yang, Y.; Feng, C. H.; Shuai, P.; Liu, C.; Yin, W.; Xia, X., Poplar miR472a targeting NBS-LRRs is involved in effective defence against the necrotrophic fungus Cytospora chrysosperma. J Exp Bot 2018, 69, (22), 5519-5530.

17.Huiguang Li, Yanli Yang, Houling Wang, Sha Liu, Fuli Jia, Yanyan Su, Shuang Li, Fang He, Conghua Feng, Mengxue Niu, Jie Wang, Chao Liu , Weilun Yin and Xinli Xia *. 2021. The Receptor-Like Kinase ERECTA Confers Improved Water Use Efficiency and Drought Tolerance to Poplar via Modulating Stomatal Density. Int J Mol Sci 22(14).

18.Kuangji Zhao1,2, Timothy J. Fahey3, Xiangzhen Wang2, Jie Wang2, Fang He2, Chuan Fan1, Zhongkui Jia2*and

Xianwei Li1*Effect of thinning intensity on the stem CO2efflux ofLarix principis-rupprechtiiMayr. Forest Ecosystems(2021) 8:63



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