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New Zealand Journal of Agricultural Research Volume 13, 1970 - Issue 4
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Original Articles

Drippy gill: A bacterial disease of cultivated mushrooms caused by Pseudomonas agarici n.sp.

J. M. Young Department of Scientific and Industrial Research, Plant Diseases Division, P.B., Auckland, New Zealand
Pages 977-990 | Received 15 May 1970, Published online: 14 Feb 2012

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J. M. Young, D. W. Dye, J. F. Bradbury, C. G. Panagopoulos & C. F. Robbs. (1978) A proposed nomenclature and classification for plant pathogenic bacteria. New Zealand Journal of Agricultural Research 21:1, pages 153-177.
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Articles from other publishers (39)

Takumi Suzuki, Yugo Kitazawa, Tomohiro Neil Motohashi, Hiroaki Koinuma, Kan Kimura, Minaho Nishikawa, Kensaku Maejima, Kazunori Ichikawa, Shigetou Namba & Yasuyuki Yamaji. (2023) First report of bacterial brown root rot in pea sprouts (Pisum sativum L.) caused by a Pseudomonas species. Journal of General Plant Pathology 89:6, pages 347-351.
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Afsaneh Moslemi Mehni, Mohammad Rahnamaeian, Nader Hassanzadeh & Hamid Forootan Far. (2023) Pseudomonas tolaasii, the causal agent of mushroom brown blotch, is susceptible to insect cecropins. Journal of Plant Pathology 105:3, pages 817-824.
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Mozhde Hamidizade, S. Mohsen Taghavi, Mahsa Moallem, Milad Aeini, Amal Fazliarab, Hamid Abachi, Rachel A. HerschlagKevin L. HockettCarolee T. Bull & Ebrahim Osdaghi. (2023) Ewingella americana : An Emerging Multifaceted Pathogen of Edible Mushrooms . Phytopathology® 113:2, pages 150-159.
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Zhenghui Liu, Yitong Zhao, Frederick L. Sossah, Benjamin A. Okorley, Daniel G. Amoako, Peibin Liu, Hongyan ShengDan Li & Yu Li. (2022) Characterization, Pathogenicity, Phylogeny, and Comparative Genomic Analysis of Pseudomonas tolaasii Strains Isolated from Various Mushrooms in China . Phytopathology® 112:3, pages 521-534.
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Nienke Braat, Margot C. Koster & Han A.B. Wösten. (2022) Beneficial interactions between bacteria and edible mushrooms. Fungal Biology Reviews 39, pages 60-72.
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Hongyu Bu, Yajie Hu & Tungalag Dong. (2021) Changes in postharvest physiology, biochemistry, sensory properties and microbiological population of Allium mongolicum Regel regulated by adjusting the modified atmosphere inside the package during storage . Journal of Food Processing and Preservation 46:1.
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Tanvi Taparia, Marjon Krijger, Edward Haynes, John G. Elphinstone, Ralph Noble & Jan van der Wolf. (2020) Molecular characterization of Pseudomonas from Agaricus bisporus caps reveal novel blotch pathogens in Western Europe. BMC Genomics 21:1.
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Nathaniel Storey, Mojgan Rabiey, Benjamin W. Neuman, Robert W. Jackson & Geraldine Mulley. (2020) Genomic Characterisation of Mushroom Pathogenic Pseudomonads and Their Interaction with Bacteriophages. Viruses 12:11, pages 1286.
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Tanvi Taparia, Marjon Krijger, Jennifer Hodgetts, Marc Hendriks, John G. Elphinstone & Jan van der Wolf. (2020) Six Multiplex TaqManTM-qPCR Assays for Quantitative Diagnostics of Pseudomonas Species Causative of Bacterial Blotch Diseases of Mushrooms. Frontiers in Microbiology 11.
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Mozhde Hamidizade, S. Mohsen Taghavi, Samuel J. MartinsRachel A. HerschlagKevin L. Hockett, Carolee T. Bull & Ebrahim Osdaghi. (2020) Bacterial Brown Pit, a New Disease of Edible Mushrooms Caused by Mycetocola sp. . Plant Disease 104:5, pages 1445-1454.
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Dejana Kosanovic, Gerard Sheehan, Helen Grogan & Kevin Kavanagh. (2019) Characterisation of the interaction of Pseudomonas putida and Pseudomonas tolaasii with Trichoderma aggressivum. European Journal of Plant Pathology 156:1, pages 111-121.
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Qing Wang, Mengpei Guo, Ruiping Xu, Jingcheng Zhang, Yinbing Bian & Yang Xiao. (2019) Transcriptional Changes on Blight Fruiting Body of Flammulina velutipes Caused by Two New Bacterial Pathogens. Frontiers in Microbiology 10.
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Ebrahim Osdaghi, Samuel J. MartinsLaura Ramos-SepulvedaFabrício Rocha VieiraJohn A. PecchiaDavid Meigs BeyerTerrence H. Bell, Yinong YangKevin L. HockettCarolee T. Bull. (2019) 100 Years Since Tolaas: Bacterial Blotch of Mushrooms in the 21 st Century . Plant Disease 103:11, pages 2714-2732.
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Wanwei Qiu, Ying Huang, Chao Zhao, Zhenshan Lin, Wenxing Lin & Zejin Wang. (2019) Microflora of fresh white button mushrooms ( Agaricus bisporus ) during cold storage revealed by high‐throughput sequencing and MALDI‐TOF mass spectrometry fingerprinting . Journal of the Science of Food and Agriculture 99:9, pages 4498-4503.
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Tahereh Bahrami, Samira Zarvandi, René De Mot, Harald Gross, Majid Changi-Ashtiani, Tina Shahani & Hassan Rokni-Zadeh. (2018) Draft Genome Sequence of Pseudomonas gingeri Strain LMG 5327, the Causative Agent of Ginger Blotch in Agaricus bisporus. Genome Announcements 6:13.
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Sarah J. Araldi-Brondolo, Joseph Spraker, Justin P. Shaffer, Emma H. Woytenko, David A. Baltrus, Rachel E. Gallery & A. Elizabeth Arnold. 2017. The Fungal Kingdom. The Fungal Kingdom 981 1004 .
Sarah J. Araldi-Brondolo, Joseph Spraker, Justin P. Shaffer, Emma H. Woytenko, David A. Baltrus, Rachel E. Gallery & A. Elizabeth Arnold. (2017) Bacterial Endosymbionts: Master Modulators of Fungal Phenotypes. Microbiology Spectrum 5:5.
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Norberto J. Palleroni. 2015. Bergey's Manual of Systematics of Archaea and Bacteria. Bergey's Manual of Systematics of Archaea and Bacteria 1 1 .
Chan-Jung Lee, Ji-Won Moon, Young-Mi Yoo, Ju-Yeon Han, Jong-Chun Cheong & Won-Sik Kong. (2015) Optimum cultivation conditions for mass production of antagonistic bacterium Pseudomonas azotoformans HC5 effective in antagonistic of brown blotch disease caused by Pseudomonas tolaasii. Journal of Mushroom 13:2, pages 97-102.
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Chan-Jung Lee, Young-Mi Yoo, Ju-Yeon Han, Chang-Sung Jhune, Jong-Chun Cheong, Ji-Won Moon, Won-Sik Gong, Jang-Sun Suh, Hye-Su Han & Jae-Soon Cha. (2014) Pseudomonas azotoformans HC5 Effective in Antagonistic of Mushrooms Brown Blotch Disease Caused by Pseudomonas tolaasii. The Korean Journal of Mycology 42:3, pages 219-224.
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Marcella D. Henkels, Teresa A. Kidarsa, Brenda T. Shaffer, Neal C. Goebel, Peter Burlinson, Dmitri V. Mavrodi, Michael A. Bentley, Lorena I. Rangel, Edward W. DavisIIII, Linda S. Thomashow, T. Mark Zabriskie, Gail M. Preston & Joyce E. Loper. (2014) Pseudomonas protegens Pf-5 Causes Discoloration and Pitting of Mushroom Caps Due to the Production of Antifungal Metabolites . Molecular Plant-Microbe Interactions® 27:7, pages 733-746.
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Chan-Jung Lee, Young-Mi Yoo, Ju-Yeon Han, Chang-Sung Jhune, Jong-Chun Cheong, Ji-Won Moon, Won-Sik Kong, Jang-Sun Suh, Hye-Su Han & Jae-Soon Cha. (2014) Cultivation conditions for mass production of detoxifying bacterium Pseudomonas sp. HC1 of tolaasin produced by Pseudomonas tolaasii. Journal of Mushroom 12:1, pages 35-40.
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Xia Hu, Jiamin Yu, Chunyan Wang & Hui Chen. (2014) Cellulolytic Bacteria Associated with the Gut of Dendroctonus armandi Larvae (Coleoptera: Curculionidae: Scolytinae). Forests 5:3, pages 455-465.
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Chan-Jung Lee, Young-Mi Yoo, Ju-Yeon Han, Chang-Sung Jhune, Jong-Chun Cheong, Ji-Won Moon, Jang-Sun Suh, Hye-Su Han & Jae-Soon Cha. (2013) Isolation of the Bacterium Pseudomonas sp. HC1 Effective in Inactivation of Tolaasin Produced by Pseudomonas tolaasii. The Korean Journal of Mycology 41:4, pages 248-254.
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Svetlana Milijašević-Marčić, Biljana Todorović, Ivana Potočnik, Miloš Stepanović & Emil Rekanović. (2012) First report of Pseudomonas tolaasii on Agaricus bisporus in Serbia. Phytoparasitica 40:3, pages 299-303.
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Ping Sheng, Shengwei Huang, Qi Wang, Ailing Wang & Hongyu Zhang. (2012) Isolation, Screening, and Optimization of the Fermentation Conditions of Highly Cellulolytic Bacteria from the Hindgut of Holotrichia parallela Larvae (Coleoptera: Scarabaeidae). Applied Biochemistry and Biotechnology 167:2, pages 270-284.
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Shengwei Huang, Ping Sheng & Hongyu Zhang. (2012) Isolation and Identification of Cellulolytic Bacteria from the Gut of Holotrichia parallela Larvae (Coleoptera: Scarabaeidae). International Journal of Molecular Sciences 13:3, pages 2563-2577.
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Enikő Sajben, László Manczinger, Adrienn Nagy, László Kredics & Csaba Vágvölgyi. (2011) Characterization of pseudomonads isolated from decaying sporocarps of oyster mushroom. Microbiological Research 166:4, pages 255-267.
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Jean-Marie Meyer. 2010. Pseudomonas. Pseudomonas 201 233 .
A. Obradović, K. Gašić & M. Ivanović. 2008. Pseudomonas syringae Pathovars and Related Pathogens – Identification, Epidemiology and Genomics. Pseudomonas syringae Pathovars and Related Pathogens – Identification, Epidemiology and Genomics 427 430 .
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U. Behrendt. (2003) Fluorescent pseudomonads associated with the phyllosphere of grasses; Pseudomonas trivialis sp. nov., Pseudomonas poae sp. nov. and Pseudomonas congelans sp. nov.. INTERNATIONAL JOURNAL OF SYSTEMATIC AND EVOLUTIONARY MICROBIOLOGY 53:5, pages 1461-1469.
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Patricia Munsch & Tapani Alatossava. (2002) Several pseudomonads, associated with the cultivated mushrooms Agaricus bisporus or Pleurotus sp., are hemolytic. Microbiological Research 157:4, pages 311-315.
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Patricia Munsch & Tapani Alatossava. (2002) The white-line-in-agar test is not specific for the two cultivated mushroom associated pseudomonads, Pseudomonas tolaasii and Pseudomonas “reactans”. Microbiological Research 157:1, pages 7-11.
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Warwick Gill & Tony Cole. (2000) Aspects of the pathology and etiology of 'drippy gill' disease of the cultivated mushroom Agaricus bisporus . Canadian Journal of Microbiology 46:3, pages 246-258.
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W F FettJ M WellsP CescuttiC Wijey. (1995) Identification of exopolysaccharides produced by fluorescent pseudomonads associated with commercial mushroom (Agaricus bisporus) production. Applied and Environmental Microbiology 61:2, pages 513-517.
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P.B. Rainey, A.L.J. Cole, T.R. Fermor & D.A. Wood. (1990) A model system for examining involvement of bacteria in basidiome initiation of Agaricus bisporus. Mycological Research 94:2, pages 191-195.
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P.B. Rainey & A.L.J. Cole. (1988) A new bacterial disease of the cultivated mushroom, Agaricus bisporus. Transactions of the British Mycological Society 90:1, pages 122-125.
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Alan E. Bessette, R. W. Kerrigan & D. C. Jordan. (1985) Yellow Blotch of Pleurotus ostreatus . Applied and Environmental Microbiology 50:6, pages 1535-1537.
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