一、个人情况

潘洪玉：博士，吉林大学唐敖庆教授领军岗位，博士生导师，全国宝钢优秀教师，吉林省教学名师，享受国务院政府特殊津贴。现为吉林省第四批高级专家、吉林省第十三批有突出贡献的中青年专家、第五批吉林省拔尖创新人才、吉林省玉米产业技术体系岗位科学家、长春市第五批有突出贡献专家等。

2004年8月-2012年12月任吉林大学植物科学学院首任院长,创建植物科学学院,实现了学院“跨越式”发展。兼任吉林大学学术委员会副主任委员。现任教育部农艺类教学指导委员会副主任、吉林省高校农学类教学指导委员会委员、吉林省学位委员会第三届和第四届农学学科评议组成员、玉米国家工程实验室（联合）主任、吉林省资源微生物工程研究中心主任、吉林省现代农业国际科技合作基地主任、植物保护国家级一流本科专业建设负责人、主讲的《普通植物病理学》国家级一流本科课程建设负责人、植物病理学吉林省重点学科带头人、吉林省特色高水平专业首席负责人、植物保护吉林省优秀教学团队与植物病理吉林省优秀教学团队带头人、第一批吉林省重大科技研发人才团队带头人、吉林省高校创新团队负责人、农作物重大真菌病害成灾机制与防控新途径研究教育部创新培养团队带头人、吉林省植保学会副理事长。

主要从事植物病原真菌分子生物学与抗病基因工程、以及植物病害生物防治的研究。重点研究核盘菌（Sclerotinia sclerotiorium）和玉米大斑病菌（Setospharia turcica）等重要植物病原真菌的生长发育与生殖机制及其生物防治机理。

二、学习与工作经历

1980～1984年在吉林农业大学植保系本科学习，获学士学位。

1984～1987年在吉林农业大学植保系任教，助教。

1987～1990年在东北农业大学植物保护系读研究生，获硕士学位。

1990～2004年在解放军军需大学植物保护系工作，讲师、 副教授、教授，历任教研室主任、党支部书记、系党委委员。

2003～2006年在南京农业大学植物病理学学科学习，并获得博士学位。

2002～2004年在中国农业大学农业部分子植物病理学实验室作访问学者。

2004年～至今 在吉林大学工作，首任植物科学学院院长，教授、博士生导师。

2006年 到美国的 University of California Berkeley 、University of

Missouri-Columbia 和 University of Washington 进行短期访问与学术交流。

2007.10～2008.10在美国University of Illinois玉米抗病育种实验室与USDA

大豆病害实验室作访问学者。

2014.11～ 2015.5在加拿大University of Manitoba作高级研究专家。

2017年2月4日—2017年3月3日到美国University of Florida做短期合作研究。

三、科研项目：

（一）主持项目

1. 主持“十四五”国家重点研发计划课题-玉米叶斑病菌关键致病因子鉴定与机制解析（2023YFD1400101， 2023.12-2027.12）

2. 主持“十四五”国家重点研发计划课题任务-东北春大豆全程绿色防控技术体系的集成示范（2023YFD1401003， 2023.12-2027.12）

3. 主持“十四五”国家重点研发计划课题任务-油菜和花生主要病虫害绿色防控技术体系集成和示范（2024YFD1400805， 2024.12-2027.12）

4. 主持国家重点研发计划政府间国际科技创新合作重点专项-核盘菌子实体发育调控机制及大豆菌核病智能预警防控技术研究（2019YFE0114200, 2020.12.01-2023.11.30，318万）

5. 主持国家自然科学基金项目-核盘菌转录因子SsFoxE2调控细胞自噬促子囊盘发育机制研究（32272484, 2023.01.01-2026.12.31）

6. 主持吉林省科技发展计划重点研发项目-黑土地农药面源污染防控及其环境生物修复技术研究与示范（20230203014SF，2023.1-2026.12；20万）

7. 主持吉林省发改委创新能力建设产业技术研究与开发项目-黑土地农药面源污染微生物修复及其防治关键技术研究与示范（20231036-3，2023.1-2024.12）

（二）带领的创新团队

 1．带头人，2010年《农作物重大真菌病害成灾机制与防控新途径的探索》研究团队被批准为教育部创新培养团队；

 2．带头人，2015年《作物重大病虫害成灾机制与绿色综合防控技术研究》团队被列入吉林省高校创新团队发展计划；

 3．带头人，2016年《作物重大病害流行预警及其绿色综合防控关键技术研究》团队被列入第一批吉林省重大科技研发人才团队发展计划。  

四、获奖成果

(一)科研成果奖

1. 吉林省科技进步一等奖

潘洪玉、刁春玲、刘金亮、闫洪睿、张世宏、张祥辉、王庆钰、张雷、李桂华、刘宝林、秦建春、张艳华、林冬香、王岩、张鑫生，《核盘菌子实体形成机制及大豆菌核病综合防控技术研究与应用》，吉林省科技进步奖，一等奖，2013；

2. 原解放军军需部与吉林省科技进步二等奖

[1] 潘洪玉，叶勇，陈振开、丁利，张浩，席景会，宋东宝，杜红军，陶正平.《保护地黄瓜番茄主要病害抗药性及药剂防治对策的研究》,军队科技进步二等奖，2000；

[2] 潘洪玉、张祥辉、王凤婷、刘金亮、贾承国、张艳华、余刚、李敬涛，《植物抗逆新基因与诱导型启动子生物学功能解析》，吉林省自然科学二等奖，2020.11。

[3]赵明、潘洪玉、张鑫生、原亚萍、杨振明、王庆钰、杨旭光、陈燕、丁一、金明华、李勇军、王洪预、贾玉峰、李景文.《优质高产抗逆玉米新品种军单8号的选育及推广》, 吉林省科技进步二等奖，2010；

[4]都兴林、王云福、潘洪玉、姜文洙、李景文、陈丹、董礼华、王英、王庆吉、高宝庆、王伟华、王成志、邵金锋.《高产、抗病、优质、广适水稻新品种吉大3、吉大6选育与推广》, 吉林省科技进步二等奖，2011；

[5]刘惠涛、王其存、潘洪玉、张玉山、高玉山、王永军、张玉斌、孙云云、王孟雪、窦金刚、沙洪林、陈宝玉、王洪君，《松嫩平原瘠薄农田水土调控关键技术研究与示范》，吉林省科技进步二等奖，2013；

[6]王庆钰、王英、李景文、孙宾成、刘雅婧、田中艳、王洪育、李绪彦、潘洪玉等，《大豆优异种质资源创制理论、技术与新品种选育及应用》，吉林省科技进步奖，二等奖，2014；

 3.吉林省科技进步三等奖

[1] 潘洪玉，杨军，丁利，席景会，张浩，刘波.《昆虫病原线虫大量培养及其在害虫防治中应用的研究》.吉林省科技进步三等奖，2000。

[2] 秦建春，张雅梅，李想，潘洪玉，郎辰用.《植物及其内生真菌活性次生代谢物质的发现及生物合成等研究》.吉林省科技进步三等奖，2016。

（二）教学成果奖与教育技术获奖成果

[1]刘淑艳，李玉，孙文献，潘洪玉等，“楷模引领、铸魂培根、重需强能”植物保护类创新型人才培养体系改革与实践,2023，国家级教学成果二等奖

[2]韩文瑜，曾凡勤，张乃生，潘洪玉，刘静波，丁洪浩，梅士伟. 综合性大学涉农专业人才培养体系的构建与实践，2014，吉林省教学成果一等奖；

[3]潘洪玉，刘金亮，席景会，张祥辉等，植物保护卓越人才培养模式探索与实践，2018，吉林省教学成果三等奖；

[4]潘洪玉，刘金亮，席景会，张世宏，张祥辉，潘怡欧，李桂华.“植物保护卓越人才培养模式的探索与实践”，2017，吉林大学教学成果一等奖；

[5]潘洪玉，席景会，张世宏，刘金亮，张炬红，王岩. 国家级特色专业-植物保护核心课程教学质量提升的探讨与实践，2013，吉林大学教学成果一等奖；

[6]韩文瑜，曾凡勤，张乃生，潘洪玉，刘静波，丁洪浩，梅士伟. 综合性大学涉农专业人才培养体系的构建与实践，2013，吉林大学教学成果特等奖。

[7]潘洪玉，李传华，刘金亮，韦军，赵玉山.《植物病理学》获14届全国多媒体教育网络课大赛三等奖,2005；

[8]侯友谊，潘洪玉等《农业昆虫学》获首届全国教育技术成果一等奖，2002。

五、近年发表论文

[1] Xiao Kunqin, Feng Yang, Wenjing Cui, Anmo Li, Jeffrey A. Rollins, Jinxin Guo, Xinhua Sun, Fengting Wang, Xiaojie Wang, Xun Xu, Yanhua Zhang, Xianghui Zhang, Jinliang Liu*, Hongyu Pan*. A fungal effector promotes infection via stabilizing a negative regulatory factor of chloroplast immunity, Nature Communications (2025)16: 6970. https://doi.org/10.1038/s41467-025-62326-4.

[2] Huilin Yu, Jiyue Zhang, Longhao Su, Mengjiao Jia, Yuanyuan Tian, Hongyu Pan*,Xianghui Zhang*. ChCpc1, a bZIP transcription factor, coordinates amino acid synthesis and autophagy and modulates conidiation and virulence in Cochliobolus heterostrophus, mBio, 2025, doi: 10.1128/mbio.00845-25

[3] Jiao Wenli, Dongmeng Ma, Hongyu Sun, Yalan Li, Xingming Lv, Qi Zuo, Sirui Liu, Hongyu Pan*. The SsSmk1-SsSom1-SsMsb2 Pathway Regulates Infection Cushion Formation and Pathogenicity in Sclerotinia sclerotiorum. Molecular Plant Pathology, 2025,26:e70127, https://doi.org/10.1111/mpp.70127.

[4] Kunqin Xiao, Yalan Li, Songyang Gu, Ling Liu, Guiping Zhang, Yanhua Zhang, Xianghui Zhang,Jinliang Liu,* and Hongyu Pan*. Transcription Repressor SsGATA2 Regulates Broad-Spectrum Resistance to Fungicides and Pathogenicity in Sclerotinia sclerotiorum, Journal of Agricultural and Food Chemistry, 2025, https://doi.org/10.1021/acs.jafc.5c04925.

[5] Zhu Genglin, Qi Zuo, Sirui Liu, Peiyi Zheng, Yanhua Zhang, Xianghui Zhang, Jeffrey A. Rollins,Jinliang Liu and Hongyu Pan*, New Phytologist, 2025, doi: 10.1111/nph.70151.

[6] Kunqin Xiao , Ling Liu, Ruonan He, Jeffrey A. Rollins, Anmo Li, Guiping Zhang, Xiaoyue He, Rui Wang, Jinliang Liu, Xianghui Zhang, Yanhua Zhang* and Hongyu Pan*. The Snf5-Hsf1 transcription module synergistically regulates stress responses and pathogenicity by maintaining ROS homeostasis in S. sclerotiorum. New Phytologist, 2024, 241: 1794–1812.

[7] Jiao Wenli, Dongmeng Ma, Qi Zuo, Yalan Li, Jun Hu, Dongmei Jia, Yanhua Zhang, Jinliang Liu, Xianghui Zhang, Hongyu Pan*. SsPtc3 Modulating SsSmk1‐MAPK and Autophagy to Facilitate Growth and Pathogenicity in Sclerotinia sclerotiorum, Molecular Plant Pathology, 2024; 25:e70037, https://doi.org/10.1111/mpp.70037.

[8] Yu Huilin, Longhao Su, Wantong Jia, Mengjiao Jia, Hongyu Pan,* and Xianghui Zhang*. Molecular Mechanism Underlying Pathogenicity Inhibition by Chitosan in Cochliobolus heterostrophus, J. Agric. Food Chem. 2024, 72, 3926-3936.

[9] Yu Huilin, Jiyue Zhang, Jinyu Fan, Wantong Jia, Yanan Lv, Hongyu Pan*, Xianghui Zhang*. Infection-specific transcriptional patterns of the maize pathogen Cochliobolus heterostrophus unravel genes involved in asexual development and virulence, Mol Plant Pathol. 2024;25:e13413, https://doi.org/10.1111/mpp.13413.

[10] Xiao Kunqin, Anmo Li, Xun Xu, Yalan Li, Ling Liu, Songyang Gu, Jeffrey A. Rollins, Rui Wang, Hongyu Pan*, Jinliang Liu*. A GATA transcription factor contributes to the multidrug resistance and pathogenicity though mediating the transcription of hydrolases and xenobiotic detoxification genes in Sclerotinia sclerotiorum, Journal of Integrative Agriculture, 2024, Available online.

[11] Wenli Jiao, Maoxiang Li, Tianyi Lei, Xiaoli Liu, Junting Zhang, Jun Hu, Xianghui Zhang, Jinliang Liu, Shusen Shi, Hongyu Pan,* and Yanhua Zhang*. The APSES Transcription Factor SsStuA Regulating Cell Wall Integrity Is Essential for Sclerotia Formation and Pathogenicity

in Sclerotinia sclerotiorum, J. of Fungi, 2024, 10, 238. https://doi.org/10.3390/jof10040238

[12] Jiao Wenli, Weichen Ding, Jeffrey A. Rollins, Jinliang Liu, Yanhua Zhang, Xianghui Zhang, Hongyu Pan*. Cross-Talk and Multiple Control of Target of Rapamycin (TOR) in Sclerotinia sclerotiorum, Microbiology Spectrum, 2023, 11(2), doi//10.1128/spectrum.00013-23.

[13] Jia Wantong, Huilin Yu, Jinyu Fan, Jiyue Zhang, Hongyu Pan* and Xianghui Zhang*. The histidine kinases regulate allyl-isothiocyanate sensitivity in Cochliobolus heterostrophus, Pest Manag Sci, 2023, DOI 10.1002/ps.7777.

[14] Jiao Wenli, Huilin Yu, Xueting Chen, Kunqin Xiao, Dongmei Jia, Fengting Wang, Yanhua Zhang*and Hongyu Pan*. The SsAtg1 Activating Autophagy Is Required for Sclerotia Formation and Pathogenicity in Sclerotinia sclerotiorum. Journal of Fungi, 2022, 8, 1314.

[15] Lu Zhou, Zhiguang Hou, Hongyu Pan*, Degradation of anthranilic diamide insecticide tetrachlorantraniliprole in water: Kinetics, degradation pathways, product identification and toxicity assessment, Science of the Total Environment, 2022, 836 (2022) 155448.

[16] Yu Huilin, Wantong Jia, Zhongxiang Li, Chaofeng Gao, Hongyu Pan* and Xianghui Zhang*. The Sorting Nexin Genes ChSNX4 and ChSNX41 Are Required for Reproductive Development, Stress Adaption and Virulence in C. heterostrophus, Journal of Fungi, 2022,  https://doi.org/10.3390/jof8080855.

[17] Zhang, Junting, Kunqin Xiao, Maoxiang Li, Hanlong Hu, Xianghui Zhang, Jinliang Liu1,Hongyu Pan1^*, Yanhua Zhang^*. SsAGM1-mediated UDP-GlcNAc synthesis is essential for development,stress response, and pathogenicity of Sclerotinia sclerotiorum. Frotiers in Microbiology, 2022, 13:938784. doi: 10.3389/fmicb.2022.938784.

[18] Cong, Jie, Kunqin Xiao, Wenli Jiao, Cheng Zhang, Xianghui Zhang, Jinliang Liu, Yanhua Zhang and Hongyu Pan*，The Coupling Between Cell Wall Integrity Mediated by MAPK Kinases and SsFkh1 Is Involved in Sclerotia Formation and Pathogenicity of Sclerotinia sclerotiorum. Frotiers in Microbiology, 2022, doi: 10.3389/fmicb.2022.816091.

[19] Liu, L., X. Lv, Z. Pan, Q. Wang，W. Mu, U. Benny, J. Rollins and H., Pan*, The C2H2 transcription factor SsZFH1 regulates the size, number and development of apothecia in Sclerotinia sclerotiorum. Phytopathology,2022,112(7):1476-1485.

[20] Jiao, W., Yu, H., Cong, J., Xiao, K., Zhang, X., Liu, J., Zhang, Y. Pan* H., Transcription factor SsFoxE3 activating SsAtg8 is critical for sclerotinia, compound appressoria formation, and pathogenicity in Sclerotinia sclerotiorum. Molecular Plant Pathology, 2022, 23(2): 204-217.

[21] Yu, H., W., Jia, K., Xiao, W., Jiao, X., Zhang*, and H. Pan*, The autophagy genes ChATG4 and ChATG8 are required for reproductive development, virulence, and septin assembly in Cochliobolus heterostrophus, Phytopathology, https://doi.org/10.1094/PHYTO-06-21-0271-R.

[22] Pan Shuai-qun, Qiao Jing-fen, Wang Rui, Yu Hui-lin, Wang Cheng, K. Talor, Pan Hong-yu. Intelligent diagnosis of northern corn leaf blight with deep learning model, Journal of Integrative Agriculture, 2022, 21(4): 1094–1105.

[23] Xu Feng, Peng Feng, Huilin Yu, Hongyu Pan* Xiaodong Ding*, GsSnRK1 interplays with transcription factor GsERF7 from wild soybean to regulate soybean stress resistance. Plant Cell Environ., 2020, 43:1192–1211.

[24] Zhu,Genglin, Gang Yu, Xianghui Zhang, Jinliang Liu, Yanhua Zhang, Jeffrey A. Rollins, Jingtao Li, Hongyu Pan*, The Formaldehyde Dehydrogenase SsFdh1 Is Regulated by and Functionally Cooperates with the GATA Transcription Factor SsNsd1 in Sclerotinia sclerotiorum. mSystems, 2019, 4:5, e00397-19.

[25] Ling Liu, Qiaochu Wang, Xianghui Zhang, Jinliang Liu, Yanhua Zhang, Hongyu Pan*, Ssams2, a gene encoding GATA transcription factor, is required for appressoria formation and chromosome segregation in S. sclerotiorum. Frontiers in Microbiology, 2018,doi: 10.3389/fmicb.2018. 418172.

[26]Tingtao Xu, Jingtao Li, Baodong Yu, Ling Liu, Xianghui Zhang, Jinliang Liu, Hongyu Pan* and Yanhua Zhang, Transcription Factor SsSte12 Was Involved in Mycelium Growth and Development in S. sclerotiorum. Frontiers in Microbiology,2018,doi: 10.3389/fmicb.2018.02476.

[27]Jingtao Li, Xianghui Zhang, Le Li, Jinliang Liu, Yanhua Zhang, and Hongyu Pan*, Proteomics Analysis of SsNsd1-Mediated Compound Appressoria Formation in Sclerotinia sclerotiorum. IJMS, 2018, 19(10), 2946 (https://doi.org/10.3390/ijms19102946).(IF=4.183)

[28] Jingtao Li, Yanhua Zhang, Yucheng Zhang, Pei-Ling Yu, Hongyu Pan, and Jeffrey A. Rollins, Introduction of large sequence inserts by CRISPR-Cas9 to create pathogenicity mutants in the multinucleate filamentous pathogen Sclerotinia sclerotiorum. mBio, mBio00567-18, 2018.

[29] Ling Liu, Qiaochu Wang, Ying Sun, Yanhua Zhang, Xianghui Zhang, Jinliang Liu, Gang Yu, and Hongyu Pan*. Sssfh1, a gene encoding a putative component of the RSC chromatin remodeling complex, regulates hyphal growth, reactive oxygen species accumulation, and pathogenicity in Sclerotinia sclerotiorum. Frontiers in Microbiology, doi: 10.3389/fmicb.2018.01828.

[30]Xinhua Sun, Gang Yu, Jingtao Li, Jinliang Liu, Xueliang Wang, Genglin Zhu, Xianghui Zhang, Hongyu Pan*, AcERF2, an ethylene-responsive factor of Atriplex canescens, positively modulates osmotic and disease resistance in Arabidopsis thaliana.Plant Science, 2018, 274:32–43.

[31]Jingtao Li, Wenhui Mu, Selvakumar Veluchamy, Yanzhi Liu, Yanhua Zhang, Hongyu Pan* and J. Rollins*, The GATA-type IVb zinc-finger transcription factor SsNsd1 regulates asexual-sexual development and appressoria formation in Sclerotinia sclerotiorum. Molecular Plant Pathology, 2018, 19(7): 1679–1689.

[32] Qian Du, Xiangdong Yang , Jinhua Zhang , Yingshan Dong , Hongyu Pan. Over-expression of the Pseudomonas syringae harpinencoding gene hrpZm confers enhanced tolerance to Phytophthora root and stem rot in transgenic soybean, Transgenic Res, 2018, doi.org/10.1007/s11248-018-0071-4.

[33] Gang Yu, Jingtao Li, Xinhua Sun, Yanzhi Liu, Xueliang Wang, Hao Zhang , and Hongyu Pan. Exploration for the Salinity Tolerance-Related Genes from Xero-Halophyte Atriplex canescens Exploiting Yeast Functional Screening System, International Journal of Molecular Sciences, 2017, 18, 2444; doi:10.3390/ijms18112444.

[34] Huidong Fan, Gang Yu, Yanzhi Liu, Xianghui Zhang, Jinliang Liu, Yanhua Zhang, Jeffery A. Rollins, Fengjie Sun, and Hongyu Pan, An atypical forkhead containing transcription factor SsFkh1 is involved in sclerotial formation and is essential for pathogenicity in Sclerotinia sclerotiorum, Molecular Plant Pathology, 2017, 18(7), 963–975.

[35] Jingtao Li, Gang Yu, Xinhua Sun, Xianghui Zhang, Jinliang Liu and Hongyu Pan, AcEBP1, an ErbB3-Binding Protein (EBP1) from halophyte Atriplex canescens, negatively regulates cell growth and stress responses in Arabidopsis, Plant Science, 2016, 248：64-74.

[36] Lu Wang, Yanzhi Liu, Jinliang Liu, Yanhua Zhang, Xianghui Zhang, and Hongyu Pan, The Sclerotinia sclerotiorum FoxE2 Gene Is Required for Apothecial Development. Phytopathology, 2016, 106(5):484-490.

[37] Wei Zhou, Cheng-Guo Jia, Xian Wu, Rui-Xue Hu, Gang Yu, Xiang-Hui Zhang, Jin-Liang Liu , Hong-Yu Pan, ZmDBF3, a Novel Transcription Factor from Maize(Zea mays L.), Is Involved in Multiple Abiotic Stress Tolerance. Plant Mol Biol Rep, 2016, 34(1): 353-362.

[38] Hao Zhang, Yamei Zhang, Zhiguang Hou, Xiaomei Wang, Jing Wang, Zhongbin Lu, Xiaofeng Zhao, Fengjie Sun, Hongyu Pan, Biodegradation potential of deltamethrin by the Bacillus cereus strain Y1 in both culture and contaminated soil. International Biodeterioration & Biodegradation, 2016, 106: 53-59.

[39] Jinliang Liu, Fengting Wang, Gang Yu, Xianghui Zhang, Chengguo Jia, Jianchun Qin and Hongyu Pan, Functional Analysis of the Maize C-Repeat/DRE Motif-Binding Transcription Factor CBF3 Promoter in Response to Abiotic Stress. Int. J. Mol. Sci. 2015, 16, 12131-12146.

[40] Jingtao Li, Gang Yu, Xinhua Sun, Yanzhi Liu, Jinliang Liu, Xianghui Zhang, Chengguo Jia and Hongyu Pan, AcPIP2, a plasma membrane intrinsic protein from halophyte Atriplex canescens, enhances plant growth rate and abiotic stress tolerance when overexpressed in Arabidopsis thaliana. Plant Cell Reports, 2015, 34(8) :1401-1415.

[41] Can Zhao, J.Jurat-Fuentes, H. Abdelgaffar, Hongyu Pan, Fuping Song and Jie Zhang, Identification of a new cry1I-type gene as candidate for gene pyramiding in corn to control Ostrinia spp. Larvae. Applied and Environmental Microbiology, 2015, 81(2): 3699-3705

[42] Gang Yu, Jingtao Li, Xinhua Sun, Xianghui Zhang, Jinliang Liu, Hongyu Pan, Overexpression of AcNIP5;1, a Novel Nodulin-Like Intrinsic Protein from Halophyte Atriplex canescens, Enhances Sensitivity to Salinity and Improves Drought Tolerance in Arabidopsis. Plant Mol Biol Rep, 2015,33(6): 1864-1875.

[43] G. Yu, L.Q. Xie, J.T. Li, X.H. Sun, H. Zhang, Q. Du, Q.Y. Li, S.H. Zhang and H.Y. Pan, Isolation, partial characterization, and cloning of an extracellular chitinase from the entomopathogenic fungus Verticillium lecanii. Genetics and Molecular Research 2015, 14 (1): 2275-2289.

[44] Sun, G., Liu, J., Li, G., Zhang, X., Chen, T., Chen, J., Zhang, H., Wang, D., Sun, F., and Pan,H.Y., Quick and accurate detection and quantification of Magnaporthe oryzae in rice using Real-Time Quantitative Polymerase Chain Reaction. Plant Dis., 2015, 99:219-224.

[45] Zhenzhong Pan, Bo Cui, Zhanghua Zeng, Lei Feng, Guoqiang Liu,Haixin Cui, and Hongyu Pan, Lambda-Cyhalothrin Nanosuspension Prepared by the Melt Emulsification-High Pressure Homogenization Method. Journal of Nanomaterials, Doi.org/10.1155/2015/123496..

[46] Yan Wang, Hejun Rena, Hongyu Pan, Jinliang Liu, Lanying Zhang, Enhanced tolerance and remediation to mixed contaminates of PCBs and 2,4-DCP by transgenic alfalfa plants expressing the 2,3-dihydroxybiphenyl-1,2-dioxygenase, Journal of Hazardous Materials, 2015, 286: 269–275.

[47] Wang,Weiwei, Dongliang Wu, Hongyu Pan, B. Gillian Turgeon, Vel2 and Vos1 hold essential roles in ascospore and asexual spore development of the heterothallic maize pathogen Cochliobolus heterostrophus, Fungal Genetics and Biology, 2014, 70：113–124.

[48] Sun Xin-Hua , Gang Yu , Jing-Tao Li, Pan Jia, Ji-Chao Zhang, Cheng-Guo Jia,Yan-Hua Zhang  and Hong-Yu Pan *, A Heavy Metal-Associated Protein (AcHMA1) from the Halophyte, Atriplex canescens (Pursh) Nutt., Confers Tolerance to Iron and Other Abiotic Stresses When Expressed in Saccharomyces cerevisiae, Int. J. Mol. Sci.,2014, 15, 14891-14906.

[49] Li Jingtao, Xinhua Sun, Gang Yu, Chengguo Jia, Jinliang Liu and Hongyu Pan *, Generation and Analysis of Expressed Sequence Tags (ESTs) from Halophyte Atriplex canescens to Explore Salt-Responsive Related Genes, Int. J. Mol. Sci.,2014, 15, 11172-11189.

[50] Wang Fengting, Jinliang Liu, Jingtao Li, Shihong Zhang, Hongyu Pan. Functional analyses of the maize CKS2 gene promoter in response to abiotic stresses and hormones, Acta Physiol Plant, 2014, 36:1867-1878.

[51] Tao Ye, Fengting Wang, Dongmei Jia,Jingtao Li,Yamei Zhang, Chengguo Jia,Dongping Wang, Hongyu Pan, Cloning and Functional Analysis of the Promoter of a Stress-inducible Gene (ZmRXO1) in Maize, Plant Mol Biol Rep., 2015, 33:200-2008.

[52] J.T. Li, G. Yu, X.H. Sun, C.G. Jia, Q. Du, Q.Y. Li and H.Y. Pan, Modification of vectors for functional genomic analysis in plants. Genetics and Molecular Research, 2014, 13 (3): 7815-7825

[53] Qu Xiaoyan, Baodong Yu, Jinliang Liu, Xianghui Zhang, Guihua Li, Dongjing Zhang, Le Li, Xueliang Wang, Lu Wang, Jingyuan Chen, Wenhui Mu, Hongyu Pan,* and Yanhua Zhang*, MADS-Box Transcription Factor SsMADS Is Involved in Regulating Growth and Virulence in Sclerotinia sclerotiorum, Int. J. Mol. Sci., 2014, 15, 8049-8062.

[54] Zhang,H., Y, Zhang, Z. Hou, F. Sun, Pan,H.Y.*, Biodegradation of triazine herbicide metribuzin by the strain Bacillus sp. N1, Journal of Environmental Science and Health, Part B, 2014, 49:79–86

[55] Xianghui Zhang, Jianming Fu, Yasuaki Hiromasa, Hongyu, PanGuihua Bai*. Differentially Expressed Proteins Associated with Fusarium Head Blight Resistance in Wheat. PlOS one, 2013,8(12), e82079

[56] Zhang Guizhen, Fengting Wanga, Jianchun Qin, Di Wanga, Jingying Zhang, Yanhua Zhang, Shihong Zhang, Hongyu Pan. Efficacy assessment of antifungal metabolites from Chaetomium globosum No.05, a new biocontrol agent, against Setosphaeria turcica. Biological Control, 2013, 64:90–98.

[57] Zhang Guizhen, Yanhua Zhang, Jianchun Qin, Xiaoyan Qu, Jinliang Liu, Xiang Li, Hongyu Pan. Antifungal Metabolites Produced by Chaetomium globosum No.04, an Endophytic Fungus Isolated from Ginkgo biloba. Indian J Microbiol, 2013, 53(2), 175-180.

[58] Zhang Xianghui, Hongyu Pan, Guihua Bai. Quantitative trait loci responsible for Fusarium head blight resistance in Chinese landrace Baishanyuehuang. Theor Appl Genet,2012, 125:495–502.

[59] Zhang Xianghui, Guihua Bai, Willium Bockus, Xiaojia Ji, and Hongyu Pan. Quantitative Trait Loci for Fusarium Head Blight Resistance in U.S. Hard Winter Wheat Cultivar Heyne. CROP SCIENCE, 2012, 52:1187–1194.

[60] Yu Gang, Jin-Liang Liu, Li-Qin Xie, Xue-Liang Wang, Shi-Hong Zhang, and Hong-Yu Pan. Characterization, Cloning, and Heterologous Expression of a Subtilisin-Like Serine Protease Gene VlPr1 from Verticillium lecanii. The Journal of Microbiology, 2012, 50(6): 939–946.

[61] Zhu Lin, Jisen Zhang, Youqiang Chen, Hongyu Pan, and Ray Ming. Identification and genes expression analysis of ATP-dependent phosphofructokinase family members among three Saccharum species. Functional Plant Biology, 2013,40:369-378.

[62] Wang D. D., X. Y. Cheng, Y. S. Wang, H. Y. Pan and B. Y. Xie, Characterization and expression of daf-9 and daf-12 genes in the pinewood nematode, Bursaphelenchus xylophilus, Forest Pathology, 2013, 43(2):144-152.

[63] Zhang,H., Mu,W., Hou,Z., Wu,X., Zhao,W., Zhang,X., Pan,H.Y., and Zhang,S.Z.. Biodegradation of nicosulfuron by the Bacterium Serratia marcescens N80. Journal of environmental Science and Health, Part B. 2012, 47(3),153-160.

[64] Zhang, H., Zhang X., Mu W., Wang J.X., Pan H.Y. . Biodegradation of Chlorimuron-ethyl by the Bacterium Klebsiella jilinsis 2N3. Journal of Environmental Science and Health Part B. 2010, 45: 501-507.

[65] Zhang, H., Sun G., Li X., Pan H., Zhang Y. A New Geldanamycin Analogue from Streptomyces hygroscopicus, Molecules. 2010, 15: 1161-1167.

[66] Li, X., GAO M. J., Pan H. Y., Cui D. J., Gruber M. Y.. Purple Canola: Arabidopsis PAP1 Increases Antioxidants and Phenolics in Brassica napus Leaves J. Agric. Food Chem, 2010, 58: 1639-1645.

[67] Ruan, C., Zhang H., Zhang L., Liu Z., Sun G.Z., Lei J., Qin Y.X., Zheng Y., Li X., Pan H. Y. Biotransformation of Ginsenoside Rf to Rh1 by Recombinant β-Glucosidase. Molecules, 2009, 14: 2043-2048.

[68] Zhang S. H, Wei Y., Pan H. Y. Transgenic rice plants expressing a novel antifreeze glycopeptide possess resistance to cold and disease.Z Naturforsch [C]. 2007,  62: 583-591.

[69] Pan H. Y., Wei Y., Xina F., Zhou M., Zhang S. Expression, characterization and antifungal activity of a fusion chitinase in Escherichia coli carrying a novel chitinase cDNA from the mycoparasitic fungus Trichothecium roseum. Journal of Bioscience （Zeitschrift Fur Naturforschung）2006, 61: 397-404.

[70] Zhang S. H., Pan H. Y., Wei Y., and Bhadauria V. Selective methylation of one of the two promoters residing in T-DNA inserted in a retroelement of rice，Russian Journal of Plant Physiology, 2006, 53: 266-273.

六、代表授权发明专利

1. 潘洪玉;余刚;李敬涛;孙新华;贾承国;刘金亮;张祥辉. 四翅滨藜半胱氨酸蛋白酶基因克隆及其应用. LZ201410497324.0

2. 潘洪玉;余刚;李敬涛;孙新华;张祥辉;贾承国;刘金亮. 四翅滨藜锌指蛋白基因克隆及其应用. 专利号：LZ201410497473.7

3．潘洪玉等，一种植物抗逆蛋白AcTPR及其编码基因的应用，专利号：201110401466.9,IPC: C07K 14/415

4．潘洪玉等，包含脱水素功能域的基因及其抗旱抗碱基因工程应用，专利号：201110401136.X, IPC: C07K.

5．潘洪玉等，一种植物抗逆蛋白AcLRR及其编码基因的应用，专利号：201110401194.2 IPC: C12N9/12

6. 潘洪玉等，一种植物水通道蛋白及其编码基因的应用，专利号：201110401450.8 IPC: C07K14/415

7. 潘洪玉等，一种植物抗逆蛋白AcNAD及其编码蛋白的应用，专利号：201110401191.9, IPC: C12N

8. 潘洪玉等，包含DREB功能域的四翅滨藜基因及抗逆基因工程应用，专利号：201110401161.8

七、教学改革研究

（一）吉林省教学团队

1. 潘洪玉 主持，“植物病理教学团队”吉林省教学优秀团队，2012；

2. 潘洪玉 主持，“植物保护教学团队”吉林省教学优秀团队，2010。

（二）吉林省精品课程

1. 潘洪玉 主持，《普通植物病理学》吉林省精品课程，2010；

2. 潘洪玉 主持，《昆虫学》吉林省精品课程，2006。

（三）国家级教改项目

1．潘洪玉等，主持，“普通植物病理学”国家级一流本科课程建设，2020；

2．潘洪玉等，主持，“植物保护专业”国家级一流本科专业建设，2019；

3. 潘洪玉等，主持，教育部复合应用型植物保护专业“卓越计划”人才培养试点项目，2014，

4．潘洪玉等，主持，国家二类植物保护特色专业建设项目，2008。

八、编著

1．潘洪玉 主编，《昆虫学》网络课程，高等教育出版社， 2003年

2．潘洪玉等 副主编，《普通植物病理学》教育部“十二五”规划教材，2021，中国农业出版社，

3. 潘洪玉等 副主编，《农业植物病理学》教育部“十二五”规划教材，2015，中国农业出版社，

4．潘洪玉等 副主编，《植物病理学》教育部“十二五”规划教材，2015，高等教育出版社，

九、作物新品种培育:

1．主持培育玉米新品种：平安169，吉大糯2号；

2．参加培育大豆新品种：吉大豆1、2、3、5号；

3．参加水稻新品种：吉大3、6、7；

十、个人荣誉称号

2016年享受国务院政府特殊津贴专家； 2016年被评为吉林省教学名师； 2014年吉林省第四批高级专家；2014年吉林省第十三批有突出贡献的中青年专家； 2015年吉林省第五批拔尖创新人才；2011年长春市第五批有突出贡献专家； 2011年吉林省玉米产业技术体系岗位科学家；2006年获吉林省师德先进个人称号； 2000年获吉林省青年科技奖； 2000年获全军育才奖银奖；2000年获长春市科技助民先进个人；1997年和2000年分别荣立一次三等功。