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CURRICULUM VITAE

日期:2017-11-10

Zhonghua Ma


Professor

Director of Biotechnology Institute, Zhejiang University

Hangzhou 310029

P. R.China.

Tel: 0086 571 88982268

Email: zhma@zju.edu.cn

  

马忠华+浙江大学+教授.jpg


  

Education:

Ph. D. degree: 1997, Department of Plant Protection, Nanjing  Agricultural University

B. S. degree:1992, Department of Plant Protection, Nanjing Agricultural University

  

Professional and Research Experiences:

2005.10-: present: Institute of Biotechnology, Professor, Zhejiang University, China.

2005.06-2005.09:     Dept. of Plant Pathology, University of California, Davis, Project Scientist.

2004.03-2005.05:    Department of Plant Pathology, Center for Microbial Ecology, Michigan State University, Postdoctoral Research Associate.

1999.07- 2004.03:    Dept. of Plant Pathology, University of California, Davis, Kearney Agriculture  Center, Postdoctoral Research Associate.

1997.08 -1999.06:    School of Life Science, Fudan University.

Areas of Specialization

Fungicide development and resistance management

Mycotoxin management

  

Rewards

Young and Middle-aged Talents of science and technology 2013

National Science Foundation for Distinguished Young Scholar 2015

Outstanding Talent in the National Agricultural Science and Technology 2015

National High-level personnel of special support program 2016

Most Cited Chinese Researchers, 2015 and 2016

Journal Editorial Boards

Editorial Board Member of Pesticide Biochemistry and Physiology (2016-)

Editorial Board Member of Journal of Phytopathology (2013-)

Editorial Board Member of Journal of Zhejiang Univ. (C) (2012-)

  

Research Interests and Summary

In the last decade, my laboratory has made contributions to understanding mode actions of antifungal compounds and molecular mechanisms of fungicide resistance. 1) We found for the first time that the fungicide phenamacril targets the myosin I of F. graminearum species-specifically, and the fungal myosin I is a novel drug target. 2) We found that different demethylation inhibitor fungicides (DMIs) target different Cyp51 proteins in fungal pathogens. A mixture of DMI fungicides can result in synergistic effects significantly against fungal diseases. Based on this finding, more than 60 DMI combinations have been developed and used extensively. 3) We identified two novel natural products that exhibit highly activity against Fusarium head blight and mycotoxin biosynthesis. These products are being commercialized. 4) We monitored fungicide resistance in Fusarium populations nationally, and developed an integrated strategy for management of Fusarium head blightof small grain cereal crops in China.

  

Publications

1.Y Chen, X Han, Q Gu, Y Yin, Z Ma. 2017. The microtubule end-binding protein FgEB1 regulates polar growth and fungicide sensitivity via different interactors in Fusarium graminearum. Environmental Microbiology. 19:1791-1807

2.Zunyong Liu, Zhihui Wang, Mengmeng Huang, Leiyan Yan, and Zhonghua Ma, Yanni Yin. 2017.The FgSsb-FgZuo-FgSsz complex regulates multiple stress responses and mycotoxin production via folding the soluble SNARE Vam7 and β2-tubulin in Fusarium graminearum. Environmental Microbiology. In press

3.Z Liu, X Zhang, X Liu, C Fu, X Han, Y Yin, Z Ma. 2016. The chitin synthase FgChs2 and other FgChss co-regulate vegetative development and virulence in F.graminearum. Scientific reports, 2016

4.Ye Liu, Na Liu, Yanni Yin, Yun Chen, Jinhua Jiang, Zhonghua Ma. 2015. Histone H3K4 methylation regulates hyphal growth, secondary metabolism and multiple stress responses in Fusarium graminearum. Environmental Microbiology17:4615-4630.

5.Yun,Yinzi, Liu, Zunyong, Yin,Yanni, Jiang, JinhuaMa, Zhonghua*. 2015. Functional analysis of the Fusarium graminearum phosphatome. New Phytologist207:119-134.

6.Qin Gu, Chengqi Zhang, Fangwei Yu, Yanni Yin, Won-Bo Shim and Zhonghua Ma*. 2015. Protein kinase FgSch9 serves as a mediator of the TOR and HOG pathways and regulates multiple stress responses and secondary metabolism in Fusarium graminearum. Environmental Microbiology,17:2661-2676.

7.Qin Gu, Yun Chen, Ye Liu, Chengqi Zhang and Zhonghua Ma*. 2015. The transmembrane protein FgSho1 regulates fungal development and pathogenicity via the MAPK module Ste50-Ste11-Ste7 in Fusarium graminearum. New Phytologist206:315-328

8.Chengqi Zhang, Yun Chen, Yanni Yin, Huanhong Ji, Won-Bo Shim, Yiping Hou, Mingguo Zhou*, Xiang-dong Li*, and Zhonghua Ma*. 2015. A small molecule species-specifically inhibits Fusarium myosin I. Environmental Microbiology, 18:2735-2746

9.Yun Chen, Qixun Gao, Mengmeng Huang, Ye Liu, Zunyong Liu, Xin Liu & Zhonghua Ma. 2015.Characterization of RNA silencing components in the plant pathogenic fungus Fusarium graminearum. Sci. Rep. 5, 12500.

10.Qianqian Yang, Dafang Yin, Yanni Yin, Yi Cao, Zhonghua Ma*. 2015. The response regulator BcSkn7 is required for vegetative differentiation and adaptation to oxidative and osmotic stresses in Botrytis cinerea. Molecular Plant Pathology. 16(3):276-87

11.Qin Gu, Chengqin Zhang, Xin Liu, Zhonghua Ma*. 2015. A transcription factor FgSte12 is required for pathogenicty in Fusarium graminearum. Molecular Plant Pathology, 16:1-13.

12.Yin Dafang, Chen Xiang, Hamada M.S., Yu Menghao, Yin Yanni, Ma Zhonghua. 2015. Multiple resistance to QoIs and other classes of fungicides in Botrytis cinerea populations form strawberry inZhejiang Province, China. European Journal of Plant Pathology, 141:169-177.

13.Hu Weiqun, Zhang Xiaoping, Chen Xiang, Zheng Jingwu, Yin Yanni, Zhonghua Ma. 2015. The α1-tubulin FaTuA1 plays crucial roles in vegetative growth and conidiation in Fusarium asiaticum. Research in Microbiology, 166:132-142.

14.Zhang Xiaoping, Chen Xiang, Jiang Jinhua, Yu Menghao, Yin Yanni, Ma Zhonghua. 2015. The tubulin cofactor A is involved in hyphal growth, conidiation and cold sensitivity in Fusarium asiaticum. BMC Microbiology, 15:35.

15.Yu Fangwei, Zhang Xiaoping Yu Menghao, Yin Yanni, Zhonghua Ma. 2015. The potential protein kinase A (Pka) phosphorylation site is required for the function of FgSge1 in Fusarium graminearum.World Journal of Microbiology and Biotechnology, 31:1419-1430.

16.Yang C,Liu HQ,Li GT, Liu MG, Yun YZ,; Wang CF, Ma Z,Xu JR. 2015. The MADS-box transcription factor FgMcm1 regulates cell identity and fungal development in Fusarium graminearum. Environmental Microbiology, 17:2762-2776.

17.Yinzi Yun; Zunyong Liu; Jize Zhang; Wonbo Shim; Zhonghua Ma* (2014). The MAPKK FgMkk1 of Fusarium graminearum regulates vegetative differentiation, multiple stress response, and virulence via the cell wall integrity and high-osmolarity glycerol signaling pathwaysEnvironmental Microbiology, 16:2023-2037.

18.Fangwei Yu; Qin Gu; Yanni Yin; Jinrong Xu; Wonbo Shim; Zhonghua Ma* (2014) The TOR signaling pathway regulates vegetative development and virulence in Fusarium graminearum. New Phytologist, 203:219-232.

19.Liu, Y, Chen, X, Jiang, J, Hamada, M S, Yin, Y, Ma, Z*. (2014) Detection and dynamics of different carbendazim-resistance conferring beta-tubulin variants of Gibberella zeae collected from infected wheat heads and rice stubble in China. Pest Management Science, 70: 1228-1236.

20.Ying, Z, Yin, D, Dawood D H, Liu, X, Chen, Y, Ma, Z. (2014) Functional characterization of FgERG3 and FgERG5 associated with ergosterol biosynthesis, vegetative differentiation and virulence of Fusarium graminearum. Fungal Genetics and Biology, 68: 60-70.

21.Weiqun Hu, Qixun Gao, Mohamed Sobhy Hamada, Dawood Hosni Dawood, Jingwu Zheng,Yun Chen, Zhonghua Ma (2014) Potential of Pseudomonas chlororaphis subsp. aurantiaca strain Pcho10 as a biocontrol agent against Fusarium graminearum. Phytopathology. 104(12): 1289-1297.

22.Jing Fu, Xiaoping Zhang, Xiang Chen, Yanni Yin, Zhonghua Ma (2014) Serine O-acetyltransferase is important, but not essential for cysteine–methionine synthesis in Fusarium graminearum. World Journal of Microbiology and Biotechnology 30 (4), 1219-1228.

23.Ya Li, Xiaofeng Yue, Yawei Que, Xia Yan, Zhonghua Ma, NJ Talbot, Zhengyi Wang (2014) Characterisation of four LIM protein-encoding genes involved in infection-related development and pathogenicity by the rice blast fungus Magnaporthe oryzae. PloS one 9 (2), e88246.

24.Qianqian Yang; JinhuaJiang; Christiane Mayr; Matthias Hahn; Zhonghua Ma (2013) Involvement of two type 2C protein phosphatases BcPtc1 and BcPtc3 in the regulation of multiple stress tolerance and virulence of Botrytis cinerea. Environmental Microbiology, 15: 2696-2711.

25.Yang, Qianqian; Yu, Fangwei; Yin, Yanni, Ma, Zhonghua* (2013) Involvement of protein tyrosine phosphatases BcPtpA and BcPtpB in regulation of vegetative development, virulence and multi-stress tolerance in Botrytis cinerea. PLoS ONE, 8.

26.Qianqian Yang; Yanfen Chen; Zhonghua Ma* (2013) Involvement of BcVeA and BcVelB in regulating conidiation, pigmentation and virulence in Botrytis cinerea. Fungal Genetics and Biology, 50: 63-71.

27.Xin Liu; Jinhua Jiang; Yanni Yin; Zhonghua Ma* (2013) Involvement of FgERG4 in ergosterol biosynthesis, vegetative differentiation and virulence in Fusarium graminearum. Molecular Plant Pathology, 14: 71-83

28.Fu, Jing; Wu, Jianbing; Jiang, Jinhua; Wang, Zhengyi; Ma, Zhonghua* (2013) Cystathionine gamma-synthase is essential for methionine biosynthesis in Fusarium graminearum. Fungal Biology, 117: 13-21.

29.Ye Liu, Xiang Chen, Jinhua Jiang, MS Hamada, Yanni Yin, Zhonghua Ma (2013) Detection and dynamics of different carbendazim-resistance conferring β-tubulin variants of Gibberella zeae collected from infected wheat heads and rice stubble in China. Pest management science, 70(8):1228-1236.

30.Xia Yan, Yawei Que, Hong Wang, Congcong Wang, Ya Li, Xiaofeng Yue, Zhonghua Ma, NJ Talbot, ZhengyiWang (2013) The MET13 methylenetetrahydrofolate reductase Gene Is essential for infection-related morphogenesis in the rice blast fungus Magnaporthe oryzae. PloS one 8 (10), e76914.

31.Jiang Jinhua, Yun Yinzi, Ma Zhongua* (2012) FgVELB is associated with vegetative differentiation, secondary metabolism and virulence in Fusarium graminearum, Fungal Genetics and Biology, 49: 653-662.

32.Yang Qianqian, Yan Leiyan, Gu Qing, Ma Zhonghua* (2012) The mitogen-activated protein kinase kinase kinase BcOs4 is required for vegetative differentiation and pathogenicity in Botrytis cinerea. Applied Microbiology and Biotechnology, 96: 481-492.

33.Yan L.; Chen Y.; Yang Q.; Ma Zhonghua* (2012) Heterologous Expression of the Blumeria graminis CYP51 Gene in Botrytis cinereaJournal of Eukarotic Microbiology, 59: 88-92.

34.Yinzi Yun, Fangwei Yu, Ning Wang, Huaigu Chen, Yanni Yin, Zhonghua Ma* (2012) Sensitivity to silthiofam, tebuconazole and difenoconazole of Gaeumannomyces graminis var. tritici isolates from China. Pest management science 68 (8), 1156-1163

35.Xin Liu; Fangwei Yu; Guido Schnabel; Jianbing Wu; Zhengyi Wang; Zhonghua Ma* (2011) Paralogous cyp51 genes in Fusarium graminearum mediate differential sensitivity to sterol demethylation inhibitors, Fungal Genetics and Biology, 48: 113-123.

36.Jinhua Jiang; Xin Liu; Yanni Yin; Zhonghua Ma* (2011)Involvement of a velvet protein FgVeA in the regulation of asexual development, lipid and secondary metabolisms and virulence in Fusarium graminearumPLoS ONE, 6.

37.Jinhua Jiang; Yingzi Yun; Qianqian Yang; Won-Bo Shim; Zhonghua Ma* (2011)A type 2C protein phosphatase FgPtc3 IS involved in cell wall integrity, lipid metabolism and virulence in Fusarium graminearumPLoS ONE, 6.

38.Liu X.; Fu J.; Yun Y.; Yin Y.; Ma Zhongua* (2011) A sterol C-14 reductase encoded by FgERG24B is responsible for the intrinsic resistance of Fusarium graminearum to amine fungicidesMicrobiology-SGM, 157: 1665-1675.

39.Jiang J., Yun Y., Fu J., Shim W., Ma Zhonghua* (2011) Involvement of a putative response regulator FgRrg-1 in osmotic stress response, fungicide resistance, and virulence in Fusarium graminearumMolecular Plant Pathology, 12: 425-436.

40.Yan L., Yang Q., Jiang J., MichailidesT., Zhonghua Ma* (2011) Involvement of a putative response regulator Brrg-1 in the regulation of sporulation, sensitivity to fungicides, and osmotic stress in Botrytis cinereaApplied Microbiology and Biotechnology, 90(2), pp 215-226, 2011/02/20 SCI

41.Xia Yan, Ya Li, Xiaofeng Yue, Congcong Wang, Yawei Que, D Kong, Zhonghua Ma, NJ Talbot, Zhengyi Wang (2011) Two novel transcriptional regulators are essential for infection-related morphogenesis and pathogenicity of the rice blast fungus Magnaporthe oryzae. PLoS pathogens 7 (12), e1002385.

42.MS Hamada, Yanni Yin, Huaigu Chen, Zhonghua Ma (2011) The escalating threat of Rhizoctonia cerealis, the causal agent of sharp eyespot in wheat. Pest management science 67 (11), 1411-1419.

43.MS Hamada, Yanni Yin, Zhonghua Ma (2011) Sensitivity to iprodione, difenoconazole and fludioxonil of Rhizoctonia cerealis isolates collected from wheat in China. Crop Protection 30 (8), 1028-1033.

44.Xuepeng Sun, Jiye Wang, Dan Feng, Zhonghua Ma, Hongye Li (2011) PdCYP51B, a new putative sterol 14α-demethylase gene of Penicillium digitatum involved in resistance to imazalil and other fungicides inhibiting ergosterol synthesis. Applied microbiology and biotechnology 91 (4), 1107-1119.

45.Xia Yan, Weibing Ma, Ya Li, Hong Wang, Yawei Que, Zhonghua Ma, NJ Talbot, Zhengyi Wang (2011) A sterol 14α-demethylase is required for conidiation, virulence and for mediating sensitivity to sterol demethylation inhibitors by the rice blast fungus Magnaporthe oryzae. Fungal Genetics and Biology 48 (2), 144-153.

46.Yan, Leiyan; Yang, Qianqian; Sundin, George W.; Li, Hongye; Ma, Zhonghua* (2010) The mitogen-activated protein kinase kinase BOS5 is involved in regulating vegetative differentiation and virulence in Botrytis cinerea. Fungal Genetics and Biology, 47: 753-760.

47.Yin, Yanni; Liu, Xin; Shi, Zhiqi; Ma, Zhonghua* (2010) A multiplex allele-specific PCR method for the detection of carbendazim-resistant Sclerotinia sclerotiorum. Pesticide Biochemistry and Physiology, 97: 36-42.

48.Liu, Xin; Jiang, Jinhua; Shao, Jiaofang; Yin, Yanni; Ma, Zhonghua* (2010) Gene transcription profiling of Fusarium graminearum treated with an azole fungicide tebuconazole. Applied Microbiology and Biotechnology, 85: 1105-1114.

49.Xin Liu, Yanni Yin, Jianbing Wu, Jinhua Jiang, Zhonghua Ma* (2010) Identification and characterization of carbendazim-resistant isolates of Gibberella zeae.Plant Disease 94 (9), 1137-1142.

50.Yun Chen, Wenzhi Zhang, Xin Liu, Zhonghua Ma, Bo Li, C Allen, Jianhua Guo (2010) A real-time PCR assay for the quantitative detection of Ralstonia solanacearum in the horticultural soil and plant tissues. Journal of microbiology and biotechnology 20 (1), 193-201.

51.Yin, Y.; Lou, T.; Yan, L.; Michailides, T. J.; Ma, Zhonghua* (2009) Molecular characterization of toxigenic and atoxigenic Aspergillus flavus isolates, collected from peanut fields in China. Journal of Applied Microbiology, 107: 1857-1865.

52.Liu, Xin; Yin, Yanni; Yan, Leiyan; Michailides, Themis J.; Ma, Zhonghua* (2009) Sensitivity to iprodione and boscalid of Sclerotinia sclerotiorum isolates collected from rapeseed in China. Pesticide Biochemistry and Physiology, 95:106-112

53.Jiang, Jinhua; Yan, Leiyan; Ma, Zhonghua* (2009) Molecular characterization of an atoxigenic Aspergillus flavus strain AF051. Applied Microbiology and Biotechnology, 83: 501-505.

54.Yin, Y.; Liu, X.; Ma, Zhonghua* (2009) Simultaneous detection of Fusarium asiaticum and Fusarium graminearum in wheat seeds using a real-time PCR method. Letters in Applied Microbiology, 48: 680-686

55.Yan, Leiyan; Yang, Qianqian; Zhou, Yilin; Duan, Xiayu; Ma, Zhonghua* (2009) A real-time PCR assay for quantification of the Y136F allele in the CYP51 gene associated with Blumeria graminis f.sp tritici resistance to sterol demethylase inhibitors. Crop Protection, 28: 376-380.

56.Yin, Y.; Liu, X.; Li, B.; Ma, Zhonghua* (2009) Characterization of Sterol Demethylation Inhibitor-Resistant Isolates of Fusarium asiaticum and F. graminearum Collected from Wheat in China. Phytopathology, 99: 487-497

57.Zhang, C. Q.; Liu, Y. H.; Ma, X. Y.; Feng, Z.; Ma, Zhonghua* (2009) Characterization of sensitivity of Rhizoctonia solani, causing rice sheath blight, to mepronil and boscalid. Crop Protection, 28: 381-386

58.Jiang, Jinhua; Ding, Laisong; Michailides, Themis J.; Li, Hongye; Ma, Zhonghua* (2009) Molecular characterization of field azoxystrobin-resistant isolates of Botrytis cinerea. Pesticide Biochemistry and Physiology, 93: 72-76

59.Fang, Minyan; Yan, Leiyan; Wang, Zhengyi; Zhang, Degang; Ma, Zhonghua* (2009) Sensitivity of Magnaporthe grisea to the sterol demethylation inhibitor fungicide propiconazole. Journal of Phytopathology, 157: 568-572.

60.Yin, Yanni; Ding, Laisong; Liu, Xin; Yang, Jinghui; Ma, Zhonghua* (2009) Detection of Sclerotinia sclerotiorum in planta by a real-time PCR assay. Journal of Phytopathology, 157: 465-469.

61.Zhifang Zhang, Zengrong Zhu, Zhonghua Ma, Hongye Li. (2009). A molecular mechanism of azoxystrobin resistance in Penicillium digitatum UV mutants and a PCR-based assay for detection of azoxystrobin-resistant strains in packing-or store-house isolates. International journal of food microbiology 131 (2), 157-161.

62.Yin, Y., Yan, L., Jiang, J., Ma, Z.* 2008. Biological control of aflatoxin contamination of crops. Journal of Zhejiang Univ. Science B. 9:787-792.

63.Hu, W., Yan, L. Ma, Z.* 2008. Cloning and Expression Analysis of a Putative ABC Transporter Gene BgABC1 from the Biotrophic Pathogenic Fungus Blumeria graminis f.sp. tritici. Journal of Phytopathology.156:120-124. 

64.Yan, L., Zhang, C., Ding, L., Ma, Z.* 2008. A real-time PCR assay developed based on a microsatellite region for sensitive detection of Cladosporium fulvum in tomato leaves. J. of Applied Microbiology, 104:1417-1424.

65.Yan, L., Chen, J., Zhang, C., Ma, Z.* 2008. Molecular characterization of benzimidazole-resistant isolates of Cladosporium fulvum. FEMS Microbiology Letts, 278:242-248.

66.Ma, Z., Smith, J.J. Zhao, Y. et al. 2007. Phylogenetic Analysis of the pPT23A Plasmid Family of Pseudomonas syringae. Applied and Environmental Microbiology 73:1287-1295.

67.Ma, Z., Michailides, TJ. 2007. Approaches for eliminating PCR inhibitors and designing PCR primers for the detection of phytopathogenic fungi. Crop Protection, 26:145-161.

68.Ma, Z., Yan, L., Luo, Y., Michailides, T.J. 2007. Sequence variation in the two-component histidine kinase gene of Botrytis cinerea associated with resistance to dicarboximide fungicides. Pesticide Biochemistry and Physiology 88:300-306.

69.Luo, Y., Ma, Z., Michailides, T. J.2007. Using real-time PCR to survey frequency of azoxystrobin-resistant allele G143A in Alternaria populations from almond and pistachio orchards in California. Pesticide Biochemistry and Physiology, 88:328-336.

70.Luo, Y., Ma, Z., Michailides, T. J.2007. Quantification of allele E198A in beta-tubulin conferring benzimidazole resistance in Monilinia fructicola using real-time PCR. Pest Management Science, 63: 1178-1184.

71.Luo, Y., Ma, Z., Michailides, T. J.2007. Quantification of Airborne Spores of Monilinia fructicola in Stone Fruit Orchards of California Using Real-Time PCR. European Journal of Plant Pathology, 118:145-154.

72.Patricia S. McManus,  Tyre J. Proffer, Raffaele Berardi, Barrett R. Gruber, James E. Nugent, Gail R. Ehret, Zhonghua Ma, George W. Sundin. (2007). Integration of Copper-Based and Reduced-Risk Fungicides for Control of Blumeriella jaapii on Sour Cherry. Plant Disease 91 (3), 294-300.

73.Ma, Z., Luo, Y., and Michailides, TJ. 2006. Molecular characterization of the two-component histidine kinase gene from Monilinia fructicola. Pest Management Science,62:991-998.

74.Ma, Z., Proffer, TJ, Jacobs, JL, Sundin, G. 2006. Overexpression of the 14α-Demethylase Target Gene (CYP51) Mediates Fungicide Resistance in Blumeriella jaapii. Applied and Environmental Microbiology. 2581-2585

75.Proffer, T. J., Berardi, R., Ma, Z, et al. 2006. Occurrence, distribution, and PCR-based detection of resistance to sterol demethylation inhibiting fungicides in populations of Blumeriella jaapii in Michigan. Phytopathology 96:709-717.

76.Ma, Z., and Michailides, T.J. 2005. Advances in understanding molecular mechanisms of fungicide resistance and molecular diagnosis of resistant genotypes of phytopathogenic fungi. Crop Protection 24:853-863.

77.Ma, Z., Yoshimura, M.A., and Michailides T. J. 2005. PCR-based assays for detection of benzimidazole resistant isolates of Monilinia laxa. Pest Management Science 61:449-457.

78.Ma Z., and Michailides T.J. 2005. Genetic population structure of Botrytis cinerea from different hosts in California. Plant Disease 89:1083-1089.

79.Zhao, Y., Ma, Z., and Sundin, G. W. 2004. Comparative genomic analysis of the pPT23A plasmid family of Pseudomonas syringae.Journal of Bacteriology 187: 2113-2126.

80.Ma, Z. and Michailides, T. J. 2004. A real-time PCR assay for detection of Azoxystrobin resistant Alternaria populations in pistachio orchards. Crop Protection 23:1259-1263.

81.Ma, Z. and Michailides, T. J. 2004. Molecular characterization of Iprodione-resistant Alternaira from pistachio in California.  Pesticide Biochemistry and Physiology 80:75-84.

82.Ma, Z., Luo, Y., and Michailides, T. J. 2004. Spatiotemporal changes in the population structure of Botryosphaeria dothidea from California pistachio orchards. Phytopathology 94:326-332.

83.Ma, Z., and Michailides, T. J. 2004. An allele-specific PCR assay for detecting of strobilurin-resistant Alternaria isolates from pistachio in California. J. Phytopathology 152:118-121.

84.Yoshimura, M. A., Luo, Y., Ma, Z., and Michailides, T. J. 2004. Sensitivity of Monilinia fructicola from stone fruit to thiophanate-methyl, iprodione, and tebuconazole. Plant Disease 88:373-378.

85.Ma, Z., Felts, D., and Michailides, T. J. 2003. Resistance to azoxystrobin in Alternaria isolates from pistachio in California. Pesticide Biochemistry and Physiology, 77:66-74.

86.Ma, Z., Yoshimura, M. A., and Michailides, T. J. 2003. Identification and characterization of benzimidazole resistance in Monilinia fructicola from stone fruit orchards in California. Applied and Environmental Microbiology, 69:7145-7152.

87.Ma, Z. Luo, Y., and Michailides, T. J. 2003. Nested PCR assays for detection of Monilinia fructicola in stone fruit orchards and Botryosphaeria dothidea from pistachios in California. J. Phytopathology, 151:312-322.

88.Ma, Z., Morgan, P., Felts, D. and Michailides, T. J. 2002. Sensitivity of Botryosphaeria dothidea from California pistachio to tebuconazole. Crop Protection 21:829-835.

89.Ma, Z. and Michailides. 2002 A PCR-based technique for identification of Fusococcum sp. from pistachio and various hosts in California. Plant Dis. 86:515-520.

90.Ma, Z. and Michailides. 2002. Characterization of Botryosphaeria dothidea isolates collected from pistachio and other plant hosts in California. Phytopathology 92:519-526.

91.Ma, Z., Boehm, E. W. A., Luo Y, and Michailides T. J. 2001. Population structure of Botryosphaeria dothidea from pistachio and other hosts in California. Phytopathology 91:665-672.

92.Ma, Z., Luo, Y. and Michailides, T. J. 2001. Resistance of Botryosphaeria dothidea to iprodione. Plant Disease. 85: 183-188.

93.Ma, Z., Morgan, P. and Michailides, T. J. 2001. Effects of water stress on Botryosphaeria panicle and shoot blight of pistachio. Plant Disease.85: 745-749.

94.Boehm, E. W. A., Ma Z., and Michailides, T. J. 2001. Species-specific detection and quantification of Monilinia fructicola from stone fruits and flowers. Phytopathology 91:428-439.

95.Luo, Y., Ma, Z., and Michailides. 2001. Analysis of factors affecting latent infection and sporulation of Monilinia fructicola on prune fruit. Plant Dis. 85: 999-1003.




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