{"id":1860,"date":"2017-12-03T03:45:06","date_gmt":"2017-12-02T19:45:06","guid":{"rendered":"http:\/\/www.pp.nchu.edu.tw\/?page_id=1860"},"modified":"2017-12-18T10:24:36","modified_gmt":"2017-12-18T02:24:36","slug":"%e7%9c%9f%e8%8f%8c%e9%81%ba%e5%82%b3%e7%a0%94%e7%a9%b6%e5%ae%a4-_%e8%8b%b1%e6%96%87%e7%89%88","status":"publish","type":"page","link":"https:\/\/www.pp.nchu.edu.tw\/?page_id=1860","title":{"rendered":"\u771f\u83cc\u907a\u50b3\u7814\u7a76\u5ba4 &#8212; _\u82f1\u6587\u7248"},"content":{"rendered":"<div style=\"display: inline-block; text-align: center; font-family: Tahoma,\u5fae\u8edf\u6b63\u9ed1\u9ad4;\"><a href=\"https:\/\/www.pp.nchu.edu.tw\/wp-content\/uploads\/2017\/01\/MHL.jpg\"><br \/> <\/a><img loading=\"lazy\" decoding=\"async\" class=\"alignnone size-full wp-image-207\" style=\"padding: 1px; border: 1px solid gray; background-color: white; border-radius: 50px;\" src=\"https:\/\/www.pp.nchu.edu.tw\/wp-content\/uploads\/2017\/01\/KRC.jpg\" alt=\"\" width=\"360\" height=\"499\" \/><\/p>\n<p><span style=\"font-size: 20pt;\">\u937e\u5149\u4ec1 \u6559\u6388<\/span><\/p>\n<\/div>\n<div style=\"margin-left: 15px; display: inline-block; vertical-align: top; font-family: Tahoma,\u5fae\u8edf\u6b63\u9ed1\u9ad4;\">\n<div style=\"display: inline-block; border-bottom-style: solid; border-width: 1px;\">\u91cd\u8981\u5b78\u7d93\u6b77<\/div>\n<p>\u7f8e\u570b\u80af\u5854\u57fa\u5927\u5b78 \u535a\u58eb 1996<br \/> \u570b\u7acb\u4e2d\u8208\u5927\u5b78\u690d\u7269\u75c5\u7406\u5b78\u7cfb \u78a9\u58eb 1989<\/p>\n<p>\u300e\u751f\u7269\u79d1\u6280\u767c\u5c55\u4e2d\u5fc3\u300f\u526f\u4e3b\u4efb(2016\u5e748\u6708\u8fc4\u4eca)<br \/> \u4e2d\u8208\u5927\u5b78\u690d\u75c5\u7cfb\u6559\u6388 (2014-\u8fc4\u4eca)<br \/> University of Florida, Associate Professor (2007 &#8211; 2014)<br \/> University of Florida, Assistant Professor (2000 &#8211; 2007)<br \/> North Carolina State University, Research Associate (1997 -2000)<\/p>\n<div style=\"display: inline-block; border-bottom-style: solid; border-width: 1px;\">\u806f\u7d61\u8cc7\u8a0a<\/div>\n<p>\u96fb\u8a71\uff1a04-22840780 #301 #316<br \/> \u4fe1\u7bb1\uff1akrchung@nchu.edu.tw<br \/>\u8fa6\u516c\u5ba4\uff1a\u8fb2\u74b0\u5927\u6a135A10<br \/> \u6559\u5e2b\u5c08\u9801\uff1a\u5efa\u7f6e\u4e2d<\/p>\n<\/div>\n<div class=\"collapseomatic \" id=\"id6a118572ed02f\"  tabindex=\"0\" title=\"\u570b\u969b\u671f\u520a\u7de8\u8f2f\u59d4\u54e1\"    >\u570b\u969b\u671f\u520a\u7de8\u8f2f\u59d4\u54e1<\/div><div id=\"target-id6a118572ed02f\" class=\"collapseomatic_content \">\n<ul>\n<li>Editor:: Applied and Environmental Microbiology (2012\u20132017)<\/li>\n<li>Editor: Physiological and Molecular Plant Pathology<br \/> (2014\u20132016)<\/li>\n<li>Editor: Austin Journal of Plant Biology (2014\u2013present)<\/li>\n<li>Editor: Journal of Fungi (2014\u2013present)<\/li>\n<li>Editor: Advances in Biology (2013\u2013present)<\/li>\n<li>Editor: The Scientific World Journal-Molecular Biology<br \/> (2013\u2013present)<\/li>\n<li>Associate Editor, Molecular Plant-Microbe Interactions<br \/> (2007\u20132009)<\/li>\n<\/ul>\n<\/div>\n<div class=\"collapseomatic \" id=\"id6a118572ed0e0\"  tabindex=\"0\" title=\"\u7814\u7a76\u9818\u57df\"    >\u7814\u7a76\u9818\u57df<\/div><div id=\"target-id6a118572ed0e0\" class=\"collapseomatic_content \">\n<ol>\n<li>Fungal Pathogenicity<\/li>\n<li>Plant-Fungal Interactions<\/li>\n<li>Fungal toxins; Plant Hormones<\/li>\n<li>Secondary Metabolites in Fungi<\/li>\n<li>Signal Transductions in Fungi<\/li>\n<\/ol>\n<\/div>\n<div class=\"collapseomatic \" id=\"id6a118572ed150\"  tabindex=\"0\" title=\"\u7814\u7a76\u65b9\u5411\u8207\u672a\u4f86\u767c\u5c55\"    >\u7814\u7a76\u65b9\u5411\u8207\u672a\u4f86\u767c\u5c55<\/div><div id=\"target-id6a118572ed150\" class=\"collapseomatic_content \">\n<p>My research centers on the understanding molecular and genetic mechanisms<br \/> involved in fungal pathogenicity or virulence. Current projects are aimed at the<br \/> investigation of the signaling pathways leading to ROS detoxification, cellular<br \/> resistance to osmotic stress and multidrug, fungicide sensitivity, spore<br \/> formation, iron acquisition and pathogenicity of the tangerine pathotype of <em><br \/> Alternaria alternata<\/em>. Research is also concentrated on the investigation of<br \/> the biosynthetic gene clusters and pathogenicity roles of cercosporin and<br \/> elsinochrome toxins produced by <em>Cercospora nicotianae<\/em> and <em>Esino\u00eb<br \/> fawcettii<\/em>, respectively.<\/p>\n<\/div>\n<div class=\"collapseomatic \" id=\"id6a118572ed1bc\"  tabindex=\"0\" title=\"\u6559\u6388\u8ab2\u7a0b\"    >\u6559\u6388\u8ab2\u7a0b<\/div><div id=\"target-id6a118572ed1bc\" class=\"collapseomatic_content \">\n<p>\u4e0a\u5b78\u671f :<br \/> \u5927\u56db\u5c08\u984c\u8a0e\u8ad6(\u4e00)<br \/> \u78a9\u4e00\u771f\u83cc\u907a\u50b3\u5b78\u7279\u8ad6(\u5168)<br \/> \u78a9\u4e00\u7576\u4ee3\u690d\u7269\u75c5\u7406\u5b78\u5c08\u8ad6<br \/> \u4e0b\u5b78\u671f :<br \/> \u78a9\u4e00\u771f\u83cc\u907a\u50b3\u5b78\u7279\u8ad6(\u5168)<br \/> \u78a9\u4e8c\u771f\u83cc\u5206\u5b50\u907a\u50b3\u6280\u8853<br \/> \u78a9\u535a\u73ed\u5c08\u984c\u8a0e\u8ad6\u3000<\/p>\n<\/div>\n<div class=\"collapseomatic \" id=\"id6a118572ed223\"  tabindex=\"0\" title=\"\u671f\u520a\u8ad6\u6587\"    >\u671f\u520a\u8ad6\u6587<\/div><div id=\"target-id6a118572ed223\" class=\"collapseomatic_content \">\n<ol>\n<li>Lin, T.-C., Hsieh, T.-Y., Lin, C.-L., Chung, W.-C., <strong>Chung, K.-R.<\/strong>, and Huang,<br \/> J.-W. 2016. Pathogenic fungal proteins-induced resistance and its effects on<br \/> vegetable diseases. Journal of Agricultural Science (revision)<\/li>\n<li>Chen, L.-H., Tsai, H.-C., and <strong>Chung, K.-R.<\/strong>* 2016. A major facilitator<br \/> superfamily transporter-mediated resistance to oxidative stress and fungicides<br \/> requires Yap1, Skn7, and MAP kinases in the citrus fungal pathogen <em>Alternaria<br \/> alternata<\/em>. PLoS One (in press)<\/li>\n<li>Wang, M., Sun, X., Yu, D., Xu, J., <strong>Chung, K.-R.<\/strong>, Li, H. 2016. Genomic and<br \/> transcriptomic analyses of the tangerine pathotype of <em>Alternaria alternata<\/em> in<br \/> response to oxidative stress. Scientific Reports 6:32437 DOI: 10.1038\/srep32437<\/li>\n<li>Yang, S.L, Yu, P.-L., and <strong>Chung, K.-R.<\/strong>* 2016. The glutathione peroxidase\u2013mediated<br \/> ROS resistance, fungicide sensitivity and cell wall construction in the citrus<br \/> fungal pathogen <em>Alternaria alternata<\/em>. Environmental Microbiology 18: 923-935.<\/li>\n<li>Yu, P.-L., L.-H. Chen, Chung K.-R.* 2016. How the pathogenic fungus<br \/> <em>Alternaria<br \/> alternata <\/em>copes with stress via the response regulators SSK1 and SHO1. PLoS One<br \/> 11(2): e0149153. Doi:10.137\/journal.pone.0149153<\/li>\n<li>Ma, H., Sun, X., Wang, M., Gai, Y., <strong>Chung, K.-R.<\/strong>, and Li, H. 2016. The citrus<br \/> postharvest pathogen <em>Penicillium digitatum<\/em> depends on the PdMpkB kinase for<br \/> developmental and virulent functions. International J Food Microbiology 236:<br \/> 167\u2013176.<\/li>\n<li>Hsieh, T.-Y., Lin, T.-C., Lin, C.-L., <strong>Chung, K.-R.<\/strong>, and Huang, J.-W. 2016.<br \/> Reduction of <em>Rhizoctonia<\/em> damping-off in Chinese cabbage seedlings by fungal<br \/> protein activators. Journal of Plant Medicine 58: 1\u20138.<\/li>\n<li>Wang, W., Wang, M., Wang, J., Zhu, C., <strong>Chung, K.-R.<\/strong>, and Li, H. 2016. Adenylyl<br \/> cyclase is required for cAMP production, growth, conidial germination, and<br \/> virulence in the citrus green mold pathogen <em>Penicillium digitatum<\/em>.<br \/> Microbiological Research 192: 11-20.<\/li>\n<li>Chang, S.-C., Deng, W.-L., Huang, H.-C., <strong>Chung, K.-R.<\/strong>, and Tzeng, K.-C. 2016.<br \/> Differential expression of pectolytic enzyme genes in <em>Xanthomonas citri <\/em>subsp.<br \/> <em>citri<\/em> and demonstration that pectate lyase Pel3 is required for the formation of<br \/> citrus canker. Microbiological Research 192: 1-10.<\/li>\n<li>Chen, P.-S., Peng, Y.-H., Chung, W.-C., <strong>Chung, K.-R.<\/strong>, Huang, H.-C., and Huang,<br \/> J.-W. 2016. Inhibition of <em>Penicillium digitatum<\/em> and citrus green mold by<br \/> volatile compounds produced by <em>Enterobacter cloacae<\/em>. J. Plant Pathol. Microbiol.<br \/> 7: 339. doi:10.4172\/2157-7471.1000339<\/li>\n<li>Chou, C.-M., F.-Y. Yu, P.-L. Yu, R. M. Bostock, <strong>K.-R. Chung<\/strong>, C.-Y. Chen, J.-W.<br \/> Huang, M.-H. Lee. 2015. Differential expression of five endopolygalacturonase<br \/> genes and demonstration that MgPG1 overexpression diminishes virulence in the<br \/> brown rot pathogen <em>Monilina fructicola<\/em>. PLoS One 10(6): e0132012. (June 29,<br \/> 2015)<\/li>\n<li><strong>Chung, K.-R.<\/strong> 2014. Reactive oxygen species in the citrus fungal pathogen<br \/> <em>Alternaria alternata<\/em>: The roles of NADPH oxidase. Physiological and Molecular<br \/> Plant Pathology 88: 10-17. (invited review)<\/li>\n<li>Lin, C.-H., and <strong>Chung K.-R.<\/strong>* 2014. Interactions of MAP kinases, histidine kinase<br \/> and YAP1 in the citrus fungal pathogen <em>Alternaria alternata<\/em>. Plant Pathology<br \/> Bulletin 23: 307-315.<\/li>\n<li><strong>Chung, K.-R.<\/strong>, and M.-H. Lee. 2014. Split marker-mediated transformation and<br \/> targeted gene disruption in filamentous fungi. In: M. van den Berg and K.<br \/> Maruthachalam (eds.) Genetic Transformation System in Fungi. Springer Publishes,<br \/> NY (in press) (invited contribution)<\/li>\n<li>Tsai, H.-C., and <strong>K.-R. Chung<\/strong>. 2014. Calcineurin phosphatase and phospholipase C<br \/> are required for developmental and pathological functions in the citrus fungal<br \/> pathogen <em>Alternaria alternata<\/em>. Microbiology 160: 1453-1465.<\/li>\n<li>Chen, L.-H., S.L. Yang and <strong>K.-R. Chung<\/strong>.<br \/> 2014. Resistance to oxidative stress via regulating siderophore-mediated<br \/> iron-acquisition by the citrus fungal pathogen <em>Alternaria<br \/> alternata<\/em>. Microbiology 160: 970-979.<\/li>\n<li>Kim, H.-K., N. Khorram, S. L. Yang, <strong>K.-R. Chung<\/strong> and T. A. Doherty. 2013.<br \/> Impaired induction of allergic lung inflammation by <em>Alternaria alternata<\/em> mutant<br \/> MAPK homologue FUS3. Experimental Lung Research 39(9): 399-409.<\/li>\n<li>Daub, M. E., S. Herrero and <strong>K.-R. Chung<\/strong>. 2013. Reactive oxygen species in plant<br \/> pathogenesis: the role of perylenequinone photosensitizers. Antioxidants and<br \/> Redox Signaling 19: 970-989. (invited review)<\/li>\n<li><strong>Chung, K.-R.<\/strong> 2013. Mitogen-activated protein kinase signaling pathways of the<br \/> tangerine pathotype of <em>Alternaria alternata<\/em>. MAP Kinase 2013; 2:e4<br \/> doi:10.4081\/mk.2013.e4 (invited review)<\/li>\n<li>Yang, S. L., and <strong>K.-R. Chung<\/strong>. 2013. Similar and distinct roles of NADPH oxidase<br \/> components in the tangerine pathotype of <em>Alternaria alternata<\/em>. Molecular Plant<br \/> Pathology 14: 543-556.<\/li>\n<li>Chen, L.-H., C.-H. Lin, and <strong>K.-R. Chung<\/strong>. 2013. A nonribosomal peptide synthetase<br \/> mediates siderophore production and virulence in the citrus fungal pathogen<br \/> <em>Alternaria alternata<\/em>. Molecular Plant Pathology 14: 497-505.<\/li>\n<li>Chiu, C.-M., C.-M. Chou, F.-Y. Yu, S.-M. Pan, P.-L. You, R. M. Bostock,<br \/> <strong>K.-R.<br \/> Chung<\/strong> and M.-H. Lee. 2013. Redox status-mediated regulation of gene expression<br \/> and fungal virulence in the brown rot pathogen <em>Monilina fructicola<\/em>. Plant<br \/> Pathology 62: 809-819.<\/li>\n<li>Tsai, H.-C., S. L. Yang, and <strong>K.-R. Chung<\/strong>. 2013. Cyclic AMP-dependent protein<br \/> kinase A negatively regulates conidia formation by the tangerine pathotype of<br \/> <em>Alternaria alternata<\/em>. World Journal of Microbiology and Biotechnology 29:<br \/> 289-300.<\/li>\n<li><strong>Chung, K.-R.<\/strong> 2012. Toxicity and biosynthesis of elsinochrome phytotoxin. Plant<br \/> Pathology Bulletin 21: 221-229. (invited review)<\/li>\n<li><strong>Chung, K.-R.<\/strong> 2012. Stress response and pathogenicity of the necrotrophic fungal<br \/> pathogen <em>Alternaria alternata<\/em>. Scientifica 2012, 635431<br \/> http:\/\/dx.doi.org\/10.6064\/2012\/635431 (invited review)<\/li>\n<li>You, B.-J., Chang, W.-T., <strong>Chung, K.-R.<\/strong>, Kuo, Y.-H., Yang, C.-S., Tien, N.,<br \/> Hsieh, H.-C., Lai, C.-C. &amp; Lee, H.-Z., 2012. Effect of solid-medium coupled with<br \/> reactive oxygen species on ganoderic acid biosynthesis and MAP kinase<br \/> phosphorylation in <em>Ganoderma lucidum<\/em>, Food Research International 49: 634-640.<\/li>\n<li>Chen, L.-H., C.-H. Lin, and <strong>K.-R. Chung<\/strong>. 2012. Roles for SKN7 response regulator<br \/> in stress resistance, conidiation and virulence in the citrus pathogen<br \/> <em>Alternaria alternata<\/em>. Fungal Genetics and Biology 49: 802-813.<\/li>\n<li><strong>Chung, K.-R.<\/strong> 2012. The non-host selective toxin cercosporin produced by<br \/> <em>Cercospora<\/em> species. Plant Pathology Bulletin 21: 199-212. (invited review)<\/li>\n<li>You, B.-J., H.-Z. Lee, <strong>K.-R. Chung<\/strong>, M.-H. Lee, M.-J. Huang, N. Tein, C.-W. Chen,<br \/> and Y.-H. Kuo. 2012. Enhanced production of ganoderic acids and cytotoxicity by<br \/> <em>Ganoderma lucidum<\/em> using solid-medium culture. Bioscience, Biotechnology, and<br \/> Biochemistry 76: 1529-1534.<\/li>\n<li>Yang, S. L., and <strong>K.-R. Chung<\/strong>. 2012. The NADPH oxidase-mediated production of<br \/> hydrogen peroxide (H2O2) and resistance to oxidative stress in the necrotrophic<br \/> pathogen<em> Alternaria alternata<\/em> of citrus. Molecular Plant Pathology 13: 900-914.<\/li>\n<li>Graham, J.H., G.C. Colburn, <strong>K.R. Chung<\/strong>, and J. Cubero. 2012. Protection of<br \/> citrus roots against infection by <em>Phytophthora<\/em> spp. by hypovirulent <em>P<\/em>.<br \/> <em>nicotianae<\/em> is not related to induction of systemic acquired resistance. Plant<br \/> and Soil 358: 39-49.<\/li>\n<li>Liao, C.-Y., M.-Y. Chen, Y.-K. Chen, Z.-M. Sheu, K.-C. Kuo, P.-F. Chang,<strong> K.-R.<br \/> Chung<\/strong>, and M.-H. Lee. 2012. Characterization of three<em> Colletotrichum acutatum<\/em><br \/> isolates from <em>Capsicum<\/em> spp. European Journal of Plant Pathology 133: 599\u2013608.<\/li>\n<li>Chen, P.-S., L.-Y. Wang, Y.-J. Chen, K.-C. Tzeng, <strong>K.-R. Chung<\/strong>, and M.-H. Lee.<br \/> 2012. Understanding cellular defence in kumquat and calamondin to citrus canker<br \/> caused by <em>Xanthomonas citri<\/em> subsp. <em>citri<\/em>. Physiological and Molecular Plant<br \/> Pathology 79: 1\u201312.<\/li>\n<li>Liao, C.-Y., M.-Y. Chen, Y.-K. Chen, K.-C. Kuo, <strong>K.-R. Chung<\/strong>, and M.-H. Lee.<br \/> 2012. Formation of highly branched hyphae by <em>Colletotrichum acutatum<\/em> within the<br \/> fruit cuticles of Capsicum spp. Plant Pathology 61: 262\u2013270.<\/li>\n<li>Yago, J.I. and <strong>K.-R. Chung<\/strong>. 2011. First report of twig blight disease of citrus<br \/> caused by<em> Haematonectria haematococca<\/em> in Philippines. Plant Disease 95 (12):<br \/> 1590<\/li>\n<li>Lee, M.-H., S.-M. Pan, T.-W. Ng, L.-Y. Wang, <strong>K.-R. Chung<\/strong>. 2011. Mutations of<br \/> beta tubulin codon 198 or 200 indicate resistance to thiabendazole among<br \/> isolates of <em>Penicillium digitatum<\/em> collected from citrus in Taiwan. International<br \/> Journal of Food Microbiology 150: 157\u2013163.<\/li>\n<li>Wang, N., S. L. Yang, C.-H., Lin, and <strong>K.-R. Chung<\/strong>. 2011. Gene inactivation in<br \/> the citrus pathogenic fungus <em>Alternaria alternata <\/em>defect at the Ku70 gene<br \/> associated with non-homologous end joining. World Journal of Microbiology and<br \/> Biotechnology 27: 1817\u20131826.<\/li>\n<li><strong>Chung, K.-R.<\/strong> 2011. <em>Elsino\u00eb fawcettii<\/em> and<br \/> <em>Elsino\u00eb australis<\/em>: the fungal pathogens<br \/> causing citrus scab. Molecular Plant Pathology 12: 123\u2013135.<\/li>\n<li>Yago, J.I., C.-H. Lin, and <strong>K.-R. Chung<\/strong>. 2011. The SLT2 MAP kinase-mediated<br \/> signalling pathway governs conidiation, morphogenesis, fungal virulence, and<br \/> production of toxin and melanin in the tangerine pathotype of <em>Alternaria<br \/> alternata<\/em>. Molecular Plant Pathology 12: 653\u2013665.<\/li>\n<li>Lin, C.-H., S. L. Yang, and <strong>K.-R. Chung<\/strong>. 2011. Cellular responses required for<br \/> oxidative stress tolerance, colonization and lesion formation by the<br \/> necrotrophic fungus <em>Alternaria alternata<\/em> in citrus. Current Microbiology 62:<br \/> 807\u2013815.<\/li>\n<li>Lin, C.-H., and <strong>K.-R. Chung<\/strong>. 2010. Specialized and shared functions of the<br \/> histidine kinase and HOG1 MAP kinase-mediated signaling pathways in the<br \/> filamentous fungus <em>Alternaria alternata<\/em> of citrus. Fungal Genetics and Biology<br \/> 47: 818\u2013827.<\/li>\n<li>Lin, C.-H., S. L. Yang, N. Wang, and <strong>K.-R. Chung<\/strong>. 2010. The FUS3 MAPK signaling<br \/> pathway of the citrus pathogen <em>Alternaria alternata <\/em>acts independently and<br \/> cooperatively with the fungal redox-responsive AP1 regulator for diverse<br \/> developmental, physiological and pathogenic functions. Fungal Genetics and<br \/> Biology 47: 381\u2013391.<\/li>\n<li>Achor, D.S., E. Etxeberris, N. Wang, S.Y. Folimonova,<br \/> <strong>K.R. Chung<\/strong> and L.G. Albrigo. 2010. Sequence of anatomical symptom observations in citrus affected<br \/> with Huanglongbing disease. Plant Pathology J. 9: 56-64.<\/li>\n<li>Wang, N., C.-H. Lin, and <strong>K.-R. Chung<\/strong>. 2010. A G\u03b1 subunit gene is essential for<br \/> conidiation and potassium efflux but dispensable for pathogenicity of <em>Alternaria<br \/> alternata<\/em> in citrus. Current Genetics 56: 43\u201351.<\/li>\n<li>Yang, S. L., and <strong>K.-R. Chung<\/strong>. 2010. Transcriptional regulation of elsinochrome<br \/> phytotoxin biosynthesis by an EfSTE12 activator from the citrus scab pathogen<br \/> Elsino\u00eb fawcettii. Fungal Biology 114: 64\u201373.<\/li>\n<li>Weiland, J. J., <strong>K.-R. Chung<\/strong>, and J. C. Suttle. 2010. The role of cercosporin in<br \/> the virulence of <em>Cercospora<\/em> spp. to plant hosts. In: Cercospora Leaf Spot of<br \/> Sugar Beet and Related Species. Ed. Lartey et al., pp. 109\u2013117, APS Press, St.<br \/> Paul, MN<\/li>\n<li>Yang, S.-L., Lin, C.-H., and <strong>K.-R. Chung<\/strong>. 2009. Coordinate control of oxidative<br \/> stress tolerance, vegetative growth, and fungal pathogenicity via the<br \/> AP1-mediated pathway in the rough lemon pathotype of <em>Alternaria alternata<\/em>.<br \/> Physiological and Molecular Plant Pathology (PMPP) 74: 100\u2013110.<\/li>\n<li><strong>Chung, K.-R.<\/strong> 2009. Citrus diseases: ecology and control. Encyclopedia of Pest<br \/> Management, 1:1, 1\u20135. CRC Press, Taylor &amp; Francis. DOI: 10.1081\/E-EPM-12004115<br \/> (invited review)<\/li>\n<li>Daub, M. E., and <strong>K.-R. Chung<\/strong>. 2009. Photoactivated perylenequinone toxins in<br \/> plant pathogenesis. In: The Mycota Volume V &#8211; Plant Relationships, 2nd Ed.<br \/> Spring-Verlag Press, Berlin Heidelberg, pp. 201\u2013218. (Chapter 11)<\/li>\n<li>Lin, C.-H., S. L. Yang and <strong>K.-R. Chung<\/strong>. 2009. The YAP1 homolog\u2013mediated<br \/> oxidative stress tolerance is crucial for pathogenicity of the necrotrophic<br \/> fungus <em>Alternaria alternata<\/em> to citrus. Molecular Plant\u2013Microbe Interactions<br \/> (MPMI) 22: 942\u2013952.<\/li>\n<li>You, B.-J., M.-H. Lee, and <strong>K.-R. Chung<\/strong>. 2009. Gene-specific disruption in the<br \/> filamentous fungus <em>Cercospora nicotianae<\/em> using a split marker approach. Archives<br \/> of Microbiology 191 (7): 615\u2013622.<\/li>\n<\/ol>\n<\/div>\n<div class=\"collapseomatic \" id=\"id6a118572ed29c\"  tabindex=\"0\" title=\"\u8ad6\u6587\u5c08\u66f8\"    >\u8ad6\u6587\u5c08\u66f8<\/div><div id=\"target-id6a118572ed29c\" class=\"collapseomatic_content \">\n<\/div>\n<div class=\"collapseomatic \" id=\"id6a118572ed2ee\"  tabindex=\"0\" title=\"\u7372\u734e\"    >\u7372\u734e<\/div><div id=\"target-id6a118572ed2ee\" class=\"collapseomatic_content \">\n<\/div>\n<div class=\"collapseomatic \" id=\"id6a118572ed33c\"  tabindex=\"0\" title=\"\u7814\u8a0e\u6703\u8ad6\u6587\"    >\u7814\u8a0e\u6703\u8ad6\u6587<\/div><div id=\"target-id6a118572ed33c\" class=\"collapseomatic_content \">\n<\/div>\n<div class=\"collapseomatic \" id=\"id6a118572ed389\"  tabindex=\"0\" title=\"\u5c08\u5229\"    >\u5c08\u5229<\/div><div id=\"target-id6a118572ed389\" class=\"collapseomatic_content \">\n<\/div>\n<div class=\"collapseomatic \" id=\"id6a118572ed3d6\"  tabindex=\"0\" title=\"\u6280\u8853\u8f49\u79fb\"    >\u6280\u8853\u8f49\u79fb<\/div><div id=\"target-id6a118572ed3d6\" class=\"collapseomatic_content \">\n<\/div>\n<div class=\"collapseomatic \" id=\"id6a118572ed422\"  tabindex=\"0\" title=\"\u5176\u4ed6\"    >\u5176\u4ed6<\/div><div id=\"target-id6a118572ed422\" class=\"collapseomatic_content \">\n<\/div>\n<div class=\"collapseomatic \" id=\"id6a118572ed480\"  tabindex=\"0\" title=\"\u6307\u5c0e\u7814\u7a76\u751f\u53ca\u7372\u734e\u60c5\u5f62\"    >\u6307\u5c0e\u7814\u7a76\u751f\u53ca\u7372\u734e\u60c5\u5f62<\/div><div id=\"target-id6a118572ed480\" class=\"collapseomatic_content \">\n<\/div>\n","protected":false},"excerpt":{"rendered":"<p>\u937e\u5149\u4ec1 \u6559\u6388 \u91cd\u8981\u5b78\u7d93\u6b77 \u7f8e\u570b\u80af\u5854\u57fa\u5927\u5b78 \u535a\u58eb 1996 \u570b\u7acb\u4e2d\u8208\u5927\u5b78\u690d\u7269\u75c5\u7406\u5b78\u7cfb \u78a9\u58eb 1989 \u2026<\/p>\n<p> <a class=\"continue-reading-link\" href=\"https:\/\/www.pp.nchu.edu.tw\/?page_id=1860\"><span>Continue reading<\/span><i class=\"crycon-right-dir\"><\/i><\/a> <\/p>\n","protected":false},"author":9,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"templates\/template-onecolumn.php","meta":{"footnotes":""},"class_list":["post-1860","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/www.pp.nchu.edu.tw\/index.php?rest_route=\/wp\/v2\/pages\/1860","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.pp.nchu.edu.tw\/index.php?rest_route=\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.pp.nchu.edu.tw\/index.php?rest_route=\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.pp.nchu.edu.tw\/index.php?rest_route=\/wp\/v2\/users\/9"}],"replies":[{"embeddable":true,"href":"https:\/\/www.pp.nchu.edu.tw\/index.php?rest_route=%2Fwp%2Fv2%2Fcomments&post=1860"}],"version-history":[{"count":1,"href":"https:\/\/www.pp.nchu.edu.tw\/index.php?rest_route=\/wp\/v2\/pages\/1860\/revisions"}],"predecessor-version":[{"id":1890,"href":"https:\/\/www.pp.nchu.edu.tw\/index.php?rest_route=\/wp\/v2\/pages\/1860\/revisions\/1890"}],"wp:attachment":[{"href":"https:\/\/www.pp.nchu.edu.tw\/index.php?rest_route=%2Fwp%2Fv2%2Fmedia&parent=1860"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}