Department of Plant Protection

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PAN Hongyu

Date:2021-01-12 14:48:18     Times:



PAN Hongyu



Doctor, professor, master's supervisor, doctoral supervisor, famous teaching teacher of Jilin Province, enjoy the special government allowance of the State Council



plant pathogenic fungi molecular biology and disease resistance genetic engineering, and the biological control of plant diseases

Academic career

From 1980 to 1984, he studied under the Plant Protection Department of Jilin Agricultural University and obtained a bachelor's degree.

From 1984 to 1987, he worked as a teaching assistant in the Plant Protection Department of Jilin Agricultural University.

From 1987 to 1990, he was a graduate student in the Department of Plant Protection of Northeast Agricultural University and obtained a master's degree.

From 1990 to 2004, he worked as a lecturer, associate professor, and professor in the Plant Protection Department of Quartermaster University of the People's Liberation Army, and served as the director of the teaching and research section, party branch secretary, and department party committee member.

From 2003 to 2006, he studied in the subject of plant pathology at Nanjing Agricultural University and obtained his doctorate degree.

From 2002 to 2004, he was a visiting scholar in the Agricultural Phytopathology Laboratory of China Agricultural University.

From 2004 to present, he worked at Jilin University and was the first dean, professor and doctoral supervisor of the School of Plant Science.

In 2006, he went to the University of California Berkeley, University of

Missouri-Columbia and University of Washington conducted short-term visits and academic exchanges.

From 2007.10 to 2008.10 in the United States University of Illinois Corn Disease Resistance Breeding Laboratory and USDA

Soybean Disease Laboratory is a visiting scholar.

2014.11 ~ 2015.5 as a senior research expert at the University of Manitoba in Canada.

From February 4, 2017 to March 3, 2017, I went to the University of Florida to do short-term cooperative research.



Work address

5333 Xi’an Road, Changchun City,

Jilin Province, China    



[1] 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.

[2]Genglin Zhu, 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.

[3] 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.

[4]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.

[5]Jingtao Li, Xianghui Zhang, Le Li, Jinliang Liu, Yanhua Zhang, and Hongyu Pan*, Proteomics Analysis of SsNsd1-Mediated Compound Appressoria Formation in Sclerotinia sclerotiorum. Int. J. Mol. Sci. 2018, 19(10), 2946(

[6]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.

[7] 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.

[8]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.

[9]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.

[10] 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,

[11] 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.

[12] 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.

[13] 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, 24864-74.

[14] 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.

[15]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.

[16] 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.

[17] 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.

[18] 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.

[19]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

[20] 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.

[21]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.

[22] 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.

[23] 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,

[24]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.

[25] 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, 70113–124.

[26] 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.

[27] 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.

[28] 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.

[29] 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.

[30] 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

[31] 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.

[32] 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

[33]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

[34]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.

[35]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.

[36]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.

[37]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.

[38]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.

[39]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.

[40]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.

[41]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.

[42]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.

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

[44]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.

[45] 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.

[46] 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.

[47] 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 Naturforschung2006, 61: 397-404.

[48] 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 riceRussian Journal of Plant Physiology, 2006, 53: 266-273.



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