{"title":"补充神经孢子虫参考书目:菊花引文","authors":"Craig Wilson","doi":"10.4148/1941-4765.1129","DOIUrl":null,"url":null,"abstract":"David Perkins pointed out to me that research articles dealing with Neurospora do not always include the word Neurospora. There are instances where the fungus is named Chrysonilia sp. (usually C. sitophila), referring to the imperfect stage. Here follows a list of such citations, with a few caveats. In many cases, the journals in which these articles appeared are not available to me, so I generally have not confirmed these citations. Some may be only single-page abstracts. I have not attempted to find all citations using Monilia sitophila, a name in use before Chrysonilia. Creative Commons License This work is licensed under a Creative Commons Attribution-Share Alike 4.0 License. This bibliography is available in Fungal Genetics Reports: http://newprairiepress.org/fgr/vol52/iss1/10 Supplement to Neurospora bibliographies: Chrysonilia citations Craig Wilson – Northwest Fisheries Science Center, Seattle WA 98112 David Perkins pointed out to me that research articles dealing with Neurospora do not always include the word Neurospora. There are instances where the fungus is named Chrysonilia sp. (usually C. sitophila), referring to the imperfect stage. Here follows a list of such citations, with a few caveats. In many cases, the journals in which these articles appeared are not available to me, so I generally have not confirmed these citations. Some may be only single-page abstracts. I have not attempted to find all citations using Monilia sitophila, a name in use before Chrysonilia. 1. Abdel-Rahman, T. M. A., M. Salama A-A, M. I. A. Ali, and N. A. H. Tharwat. 1990. Fibrinolytic activity of some fungi isolated from self-heated composted fertilizer. Botanical Magazine Tokyo 103:313-324. 2. Ahmad, M. S., and M. A. Malik. 1997. Formulation of a synthetic medium for the production of antifungal antibiotic from Bacillus subtilis AECL 69. Pakistan Journal of Zoology 29:15-21. 3. Aidoo, K. E., A. Anderton, and K. A. Milligan. 1995. A 2-year survey of the airborne mycoflora in a hospital environment. International Journal of Environmental Health Research 5:223-228. 4. Alvarez-Rodriguez, M. L., L. Lopez-Ocana, J. M. Lopez-Coronado, E. Rodriguez, M. J. Martinez, G. Larriba, and J.-J. R. Coque. 2002. Cork taint of wines: Role of the filamentous fungi isolated from cork in the formation of 2,4,6-trichloroanisole by O methylation of 2,4,6-trichlorophenol. Applied and Environmental Microbiology 68:58605869. 5. Anaissie, E. J., S. L. Stratton, M. C. Dignani, C.-K. Lee, R. C. Summerbell, J. H. Rex, T. P. Monson, and T. J. Walsh. 2003. Pathogenic molds (including Aspergillus species) in hospital water distribution systems: A 3-year prospective study and clinical implications for patients with hematologic malignancies. Blood 101:2542-2546. 6. Birbir, M., O. Ozyaral, C. Johansson, and A. Ilgaz. 1994. Mold strains isolated from unfinished and finished leather goods and shoes. Journal of the American Leather Chemists Association 89:14-19. 7. Bollen, G. J., and M. M. Verf. 1978. Steamed potting soil as a source of Aspergillus fumigatus spores in the air of greenhouses. Acta Botanica Neerlandica 27:152. 8. Campos, V., E. Salas, N. Duran, J. Rodriquez, and J. Baeza. 1986. Isolation of cellulolytic Chrysonilia sitophila from Tribolium ferrugineum. Boletín micológico (Chile) 2:161. 9. Carranco, P. D., A. Hernandez, P. Rivera, and I. Rosas. 1984. Soil and aquatic fungi in a waste-stabilization pond system of the state of Mexico Mexico. Water Air and Soil Pollution 23:249-256. Published by New Prairie Press, 2017 10. Carvalho, S. M. D., M. F. S. Teixeira, E. Esposito, A. Machuca, A. Ferraz, and N. Duran. 1992. Amazonian lignocellulosic materials.1. Fungal screening from decayed laurel and cedar trees. Applied Biochemistry and Biotechnology 37:33-41. 11. Centeno, S., and M. A. Calvo. 2001. Enzymatic activity of microorganisms isolated from cork wine stoppers. Microbios 106:69-73. 12. Chapman, J., and H. Burge. 1987. Monilia and Candida are not the same. Annals of Allergy 58:286. 13. Chapman, J., and H. Burge. 1987. Monilia and Candida two very different fungi. Journal of Allergy and Clinical Immunology 79:207. 14. Cox, L. J., B. Caicedo, V. Vanos, E. Heck, S. Hofstaetter, and J. L. Cordier. 1987. A catalogue of some Ecuadorean fermented beverages with notes on their microflora. MIRCEN Journal of Applied Microbiology and Biotechnology 3:143-154. 15. Danesh, P., F. M. V. Caldas, J. J. F. Marques, and M. V. S. Romao. 1997. Mycobiota in Portuguese 'normal' and 'green' cork throughout the manufacturing process of stoppers. Journal of Applied Microbiology 82:689-694. 16. de Lillo, E. 1997. Observations on the host preferences of Pediculaster mesembrinae (Canestrini) (Acari: Siteroptidae). Entomologica (Bari) 31:7-12. 17. Dezotti, M., L. H. Innocentini-Mei, and N. Duran. 1995. Silica immobilized enzyme catalyzed removal of chlorolignins from eucalyptus kraft effluent. Journal of Biotechnology 43:161-167. 18. Dorozhkin, N. A., and V. N. Fedorov. 1987. Study of the mycoflora of cankerous formations in the Norway spruce. Mikologiya i Fitopatologiya 21:347-352. 19. Dragoni, I. 1979. Monilia sitophila, Rhizopus nigricans and Penicillium frequentans Westling. Industrie Alimentari 18:374-376. 20. Duran, N., N. Bromberg, and A. Kunz. 2001. Kinetic studies on veratryl alcohol transformation by horseradish peroxidase. Journal of Inorganic Biochemistry 84:279286. 21. Duran, N., M. Dezotti, and J. Rodriguez. 1991. Biomass photochemistry.15. Photobleaching and biobleaching of kraft effluent. Journal of Photochemistry and Photobiology A-Chemistry 62:269-279. 22. Duran, N., I. Ferrer, and J. Rodriguez. 1987. Ligninases from Chrysonilia sitophila (Tfb-27441 strain). Applied Biochemistry and Biotechnology 16:157-167. 23. Duran, N., J. L. Reyes, J. Baeza, and V. Campos. 1988. Biomass Photochemistry XII. Chemical and photochemical pretreatment of rice hull and its fungal degradation. Biotechnology and Bioengineering 32:564-568. http://newprairiepress.org/fgr/vol52/iss1/10 DOI: 10.4148/1941-4765.1129 24. Duran, N., J. Rodriguez, V. Campos, A. Ferraz, J. L. Reyws, J. Amaya-Farfan, E. Esposito, F. Adao, and J. Baeza. 1994. Single cell protein quality produced from lignocellulosic materials by the ascomycete Chrysonilia sitophila (TFB-27441 strain). Revista de Microbiologia 25:31-36. 25. Duran, N., J. Rodriguez, E. Gomez, V. Campos, and J. Baeza. 1988. Biomass photochemistry XI. Photochemical pretreatment of cellulose and its fungal degradation. Biotechnology and Bioengineering 31:215-219. 26. Febre, N., V. Silva, E. A. S. Medeiros, P. Godoy, E. Reyes, E. Halker, and O. Fischman. 1999. Contamination of peritoneal dialysis fluid by filamentous fungi. Revista Iberoamericana de Micologia 16:238-239. 27. Ferraz, A., J. Baeza, and N. Duran. 1991. softwood biodegradation by an ascomycete Chrysonilia sitophila (Tfb 27441-Strain). Letters in Applied Microbiology 13:82-86. 28. Ferraz, A., and N. Duran. 1989. Effect of various conditions on the growth of Chrysonilia sitophila Tfb 27441. Revista de Microbiologia 20:240-245. 29. Ferraz, A., and N. Duran. 1995. Lignin degradation during softwood decaying by the ascomycete Chrysonilia sitophila. Biodegradation 6:265-274. 30. Ferraz, A., E. Esposito, R. E. Bruns, and N. Durán. 1998. The use of principal component analysis (PCA) for pattern recognition in Eucalyptus grandis wood biodegradation experiments. World Journal of Microbiology and Biotechnology 14:487490. 31. Ferrer, I., E. Esposito, and N. Duran. 1992. Lignin peroxidase from Chrysonilia sitophila Heat-denaturation kinetics and pH stability. Enzyme and Microbial Technology 14:402-406. 32. Freer, J., G. Palma, J. Baeza, V. Campos, E. Salas, A. Ferraz, and N. Duran. 1990. Production of microbial protein from forest products. Biomass 23:155-162. 33. Gonzalez, H. H. L., S. L. Resnik, and A. M. Pacin. 2002. Mycoflora of freshly harvested flint corn from northwestern provinces in Argentina. Mycopathologia 155:207211. 34. Heinemann, S., and N. Nolard. 2002. Fungal thermotolerant flora in Belgian hospitals. Mycoses 45:23. 35. Herrera, T., and M. Ulloa. 1975. Antagonism of pozol and Agrobacterium azotophilum on diverse species of bacteria and fungi some of them pathogenic to man. Revista Latinoamericana de Microbiologia 17:143-147. 36. Hidalgo, P. J., J. L. Ubera, J. A. Santos, F. LaFont, C. Castellanos, A. Palomino, and M. Roman. 2002. Essential oils in Calamintha sylvatica Bromf. ssp ascendens (Jordan) P.W. Ball: Wild and cultivated productions and antifungal activity. Journal of Essential Oil Research 14:68-71. Published by New Prairie Press, 2017 37. Hirsch, S. R., and J. A. Sosman. 1976. A 1 year survey of mold growth inside 12 homes. Annals of Allergy 36:30-38. 38. Il'Ina, R. M., and O. A. Stepanova. 1978. The production of cellulase by fungi from various ecological and taxonomic groups. Mikologiya i Fitopatologiya 12:484-490. 39. Jamal, A., and A. Ghaffar. 1974. Mycoflora of poultry feeds. Pakistan Journal of Botany 6:165. 40. Kanevskaya, I. G., and Y. P. Mikhailova. 1969. Fungal degradation of synthetic papers derived from polyethylene polypropylene and vinyl fibers. Mikologiya i Fitopatologiya 3:65-66. 41. Kanwar, Z. S., and P. K. Khanna. 1979. Laboratory studies on seed-borne fungi of Castor ricinus-communis in central India. Zeitschrift fuer Pflanzenkrankheiten und Pflanzenschutz 86:274-280. 42. Kemp, P. C., H. G. Neumeister-Kemp, B. Esposito, G. Lysek, and F. Murray. 2003. Changes in airborne fungi from the outdoors to indoor air; large HVAC systems in nonproblem buildings in two different climates. AIHA J. 64:269-275. 43. Lacey, J. 1973. The air spora of a Portuguese cork factory. Annals of Occupational Hygiene 16:223-230. 44. Lavermicocca, P., F. Valerio, A. Evidente, S. Lazzaroni, A. Corsetti, and M. Gobbetti. 2000. Purification and characterization of novel antifungal compounds from the sourdough Lactobacillus plantarum strain 21B. Applied And Environmental Microbiology 6","PeriodicalId":12490,"journal":{"name":"Fungal Genetics Reports","volume":"15 1","pages":"10"},"PeriodicalIF":0.0000,"publicationDate":"2005-12-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Supplement to Neurospora bibliographies: Chrysonilia citations\",\"authors\":\"Craig Wilson\",\"doi\":\"10.4148/1941-4765.1129\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"David Perkins pointed out to me that research articles dealing with Neurospora do not always include the word Neurospora. There are instances where the fungus is named Chrysonilia sp. (usually C. sitophila), referring to the imperfect stage. Here follows a list of such citations, with a few caveats. In many cases, the journals in which these articles appeared are not available to me, so I generally have not confirmed these citations. Some may be only single-page abstracts. I have not attempted to find all citations using Monilia sitophila, a name in use before Chrysonilia. Creative Commons License This work is licensed under a Creative Commons Attribution-Share Alike 4.0 License. This bibliography is available in Fungal Genetics Reports: http://newprairiepress.org/fgr/vol52/iss1/10 Supplement to Neurospora bibliographies: Chrysonilia citations Craig Wilson – Northwest Fisheries Science Center, Seattle WA 98112 David Perkins pointed out to me that research articles dealing with Neurospora do not always include the word Neurospora. There are instances where the fungus is named Chrysonilia sp. (usually C. sitophila), referring to the imperfect stage. Here follows a list of such citations, with a few caveats. In many cases, the journals in which these articles appeared are not available to me, so I generally have not confirmed these citations. Some may be only single-page abstracts. I have not attempted to find all citations using Monilia sitophila, a name in use before Chrysonilia. 1. Abdel-Rahman, T. M. A., M. Salama A-A, M. I. A. Ali, and N. A. H. Tharwat. 1990. Fibrinolytic activity of some fungi isolated from self-heated composted fertilizer. Botanical Magazine Tokyo 103:313-324. 2. Ahmad, M. S., and M. A. Malik. 1997. Formulation of a synthetic medium for the production of antifungal antibiotic from Bacillus subtilis AECL 69. Pakistan Journal of Zoology 29:15-21. 3. Aidoo, K. E., A. Anderton, and K. A. Milligan. 1995. A 2-year survey of the airborne mycoflora in a hospital environment. International Journal of Environmental Health Research 5:223-228. 4. Alvarez-Rodriguez, M. L., L. Lopez-Ocana, J. M. Lopez-Coronado, E. Rodriguez, M. J. Martinez, G. Larriba, and J.-J. R. Coque. 2002. Cork taint of wines: Role of the filamentous fungi isolated from cork in the formation of 2,4,6-trichloroanisole by O methylation of 2,4,6-trichlorophenol. Applied and Environmental Microbiology 68:58605869. 5. Anaissie, E. J., S. L. Stratton, M. C. Dignani, C.-K. Lee, R. C. Summerbell, J. H. Rex, T. P. Monson, and T. J. Walsh. 2003. Pathogenic molds (including Aspergillus species) in hospital water distribution systems: A 3-year prospective study and clinical implications for patients with hematologic malignancies. Blood 101:2542-2546. 6. Birbir, M., O. Ozyaral, C. Johansson, and A. Ilgaz. 1994. Mold strains isolated from unfinished and finished leather goods and shoes. Journal of the American Leather Chemists Association 89:14-19. 7. Bollen, G. J., and M. M. Verf. 1978. Steamed potting soil as a source of Aspergillus fumigatus spores in the air of greenhouses. Acta Botanica Neerlandica 27:152. 8. Campos, V., E. Salas, N. Duran, J. Rodriquez, and J. Baeza. 1986. Isolation of cellulolytic Chrysonilia sitophila from Tribolium ferrugineum. Boletín micológico (Chile) 2:161. 9. Carranco, P. D., A. Hernandez, P. Rivera, and I. Rosas. 1984. Soil and aquatic fungi in a waste-stabilization pond system of the state of Mexico Mexico. Water Air and Soil Pollution 23:249-256. Published by New Prairie Press, 2017 10. Carvalho, S. M. D., M. F. S. Teixeira, E. Esposito, A. Machuca, A. Ferraz, and N. Duran. 1992. Amazonian lignocellulosic materials.1. Fungal screening from decayed laurel and cedar trees. Applied Biochemistry and Biotechnology 37:33-41. 11. Centeno, S., and M. A. Calvo. 2001. Enzymatic activity of microorganisms isolated from cork wine stoppers. Microbios 106:69-73. 12. Chapman, J., and H. Burge. 1987. Monilia and Candida are not the same. Annals of Allergy 58:286. 13. Chapman, J., and H. Burge. 1987. Monilia and Candida two very different fungi. Journal of Allergy and Clinical Immunology 79:207. 14. Cox, L. J., B. Caicedo, V. Vanos, E. Heck, S. Hofstaetter, and J. L. Cordier. 1987. A catalogue of some Ecuadorean fermented beverages with notes on their microflora. MIRCEN Journal of Applied Microbiology and Biotechnology 3:143-154. 15. Danesh, P., F. M. V. Caldas, J. J. F. Marques, and M. V. S. Romao. 1997. Mycobiota in Portuguese 'normal' and 'green' cork throughout the manufacturing process of stoppers. Journal of Applied Microbiology 82:689-694. 16. de Lillo, E. 1997. Observations on the host preferences of Pediculaster mesembrinae (Canestrini) (Acari: Siteroptidae). Entomologica (Bari) 31:7-12. 17. Dezotti, M., L. H. Innocentini-Mei, and N. Duran. 1995. Silica immobilized enzyme catalyzed removal of chlorolignins from eucalyptus kraft effluent. Journal of Biotechnology 43:161-167. 18. Dorozhkin, N. A., and V. N. Fedorov. 1987. Study of the mycoflora of cankerous formations in the Norway spruce. Mikologiya i Fitopatologiya 21:347-352. 19. Dragoni, I. 1979. Monilia sitophila, Rhizopus nigricans and Penicillium frequentans Westling. Industrie Alimentari 18:374-376. 20. Duran, N., N. Bromberg, and A. Kunz. 2001. Kinetic studies on veratryl alcohol transformation by horseradish peroxidase. Journal of Inorganic Biochemistry 84:279286. 21. Duran, N., M. Dezotti, and J. Rodriguez. 1991. Biomass photochemistry.15. Photobleaching and biobleaching of kraft effluent. Journal of Photochemistry and Photobiology A-Chemistry 62:269-279. 22. Duran, N., I. Ferrer, and J. Rodriguez. 1987. Ligninases from Chrysonilia sitophila (Tfb-27441 strain). Applied Biochemistry and Biotechnology 16:157-167. 23. Duran, N., J. L. Reyes, J. Baeza, and V. Campos. 1988. Biomass Photochemistry XII. Chemical and photochemical pretreatment of rice hull and its fungal degradation. Biotechnology and Bioengineering 32:564-568. http://newprairiepress.org/fgr/vol52/iss1/10 DOI: 10.4148/1941-4765.1129 24. Duran, N., J. Rodriguez, V. Campos, A. Ferraz, J. L. Reyws, J. Amaya-Farfan, E. Esposito, F. Adao, and J. Baeza. 1994. Single cell protein quality produced from lignocellulosic materials by the ascomycete Chrysonilia sitophila (TFB-27441 strain). Revista de Microbiologia 25:31-36. 25. Duran, N., J. Rodriguez, E. Gomez, V. Campos, and J. Baeza. 1988. Biomass photochemistry XI. Photochemical pretreatment of cellulose and its fungal degradation. Biotechnology and Bioengineering 31:215-219. 26. Febre, N., V. Silva, E. A. S. Medeiros, P. Godoy, E. Reyes, E. Halker, and O. Fischman. 1999. Contamination of peritoneal dialysis fluid by filamentous fungi. Revista Iberoamericana de Micologia 16:238-239. 27. Ferraz, A., J. Baeza, and N. Duran. 1991. softwood biodegradation by an ascomycete Chrysonilia sitophila (Tfb 27441-Strain). Letters in Applied Microbiology 13:82-86. 28. Ferraz, A., and N. Duran. 1989. Effect of various conditions on the growth of Chrysonilia sitophila Tfb 27441. Revista de Microbiologia 20:240-245. 29. Ferraz, A., and N. Duran. 1995. Lignin degradation during softwood decaying by the ascomycete Chrysonilia sitophila. Biodegradation 6:265-274. 30. Ferraz, A., E. Esposito, R. E. Bruns, and N. Durán. 1998. The use of principal component analysis (PCA) for pattern recognition in Eucalyptus grandis wood biodegradation experiments. World Journal of Microbiology and Biotechnology 14:487490. 31. Ferrer, I., E. Esposito, and N. Duran. 1992. Lignin peroxidase from Chrysonilia sitophila Heat-denaturation kinetics and pH stability. Enzyme and Microbial Technology 14:402-406. 32. Freer, J., G. Palma, J. Baeza, V. Campos, E. Salas, A. Ferraz, and N. Duran. 1990. Production of microbial protein from forest products. Biomass 23:155-162. 33. Gonzalez, H. H. L., S. L. Resnik, and A. M. Pacin. 2002. Mycoflora of freshly harvested flint corn from northwestern provinces in Argentina. Mycopathologia 155:207211. 34. Heinemann, S., and N. Nolard. 2002. Fungal thermotolerant flora in Belgian hospitals. Mycoses 45:23. 35. Herrera, T., and M. Ulloa. 1975. Antagonism of pozol and Agrobacterium azotophilum on diverse species of bacteria and fungi some of them pathogenic to man. Revista Latinoamericana de Microbiologia 17:143-147. 36. Hidalgo, P. J., J. L. Ubera, J. A. Santos, F. LaFont, C. Castellanos, A. Palomino, and M. Roman. 2002. Essential oils in Calamintha sylvatica Bromf. ssp ascendens (Jordan) P.W. Ball: Wild and cultivated productions and antifungal activity. Journal of Essential Oil Research 14:68-71. Published by New Prairie Press, 2017 37. Hirsch, S. R., and J. A. Sosman. 1976. A 1 year survey of mold growth inside 12 homes. Annals of Allergy 36:30-38. 38. Il'Ina, R. M., and O. A. Stepanova. 1978. The production of cellulase by fungi from various ecological and taxonomic groups. Mikologiya i Fitopatologiya 12:484-490. 39. Jamal, A., and A. Ghaffar. 1974. Mycoflora of poultry feeds. Pakistan Journal of Botany 6:165. 40. Kanevskaya, I. G., and Y. P. Mikhailova. 1969. Fungal degradation of synthetic papers derived from polyethylene polypropylene and vinyl fibers. Mikologiya i Fitopatologiya 3:65-66. 41. Kanwar, Z. S., and P. K. Khanna. 1979. Laboratory studies on seed-borne fungi of Castor ricinus-communis in central India. Zeitschrift fuer Pflanzenkrankheiten und Pflanzenschutz 86:274-280. 42. Kemp, P. C., H. G. Neumeister-Kemp, B. Esposito, G. Lysek, and F. Murray. 2003. Changes in airborne fungi from the outdoors to indoor air; large HVAC systems in nonproblem buildings in two different climates. AIHA J. 64:269-275. 43. Lacey, J. 1973. The air spora of a Portuguese cork factory. Annals of Occupational Hygiene 16:223-230. 44. Lavermicocca, P., F. Valerio, A. Evidente, S. Lazzaroni, A. Corsetti, and M. Gobbetti. 2000. Purification and characterization of novel antifungal compounds from the sourdough Lactobacillus plantarum strain 21B. 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引用次数: 0
摘要
David Perkins向我指出,关于神经孢子虫的研究文章并不总是包含神经孢子虫这个词。有些情况下,真菌被命名为Chrysonilia sp.(通常是C. sitophila),指的是不完美的阶段。以下是这些引用的列表,并附有一些注意事项。在很多情况下,这些文章发表的期刊对我来说是不可用的,所以我通常没有确认这些引用。有些可能只有单页摘要。我并没有试图找到所有使用Monilia sitophila的引文,这个名字在Chrysonilia之前就已经使用了。本作品采用知识共享署名-相同方式共享4.0许可协议。这个参考书目可在真菌遗传学报告:http://newprairiepress.org/fgr/vol52/iss1/10补充神经孢子虫参考书目:金丝虫引文克雷格·威尔逊-西北渔业科学中心,西雅图华盛顿州98112大卫·珀金斯向我指出,研究文章处理神经孢子虫并不总是包括神经孢子虫这个词。有些情况下,真菌被命名为Chrysonilia sp.(通常是C. sitophila),指的是不完美的阶段。以下是这些引用的列表,并附有一些注意事项。在很多情况下,这些文章发表的期刊对我来说是不可用的,所以我通常没有确认这些引用。有些可能只有单页摘要。我并没有试图找到所有使用Monilia sitophila的引文,这个名字在Chrysonilia之前就已经使用了。Abdel-Rahman, t.m.a., M. Salama A-A, M. i.a. Ali和N. a.h. Tharwat, 1990。自热堆肥中分离真菌的纤溶活性。植物杂志东京103:313-324。2. Ahmad, m.s.和m.a. Malik. 1997。从枯草芽孢杆菌aecl69生产抗真菌抗生素的合成培养基的配方。巴基斯坦动物学杂志29:15-21。3.Aidoo, k.e., A. Anderton和K. A. Milligan, 1995。医院环境中空气传播菌群的2年调查。国际环境卫生研究杂志(5):223-228。4. 阿尔瓦雷斯-罗德里格斯,M. L.洛佩斯-奥卡纳,J. M.洛佩斯-科罗纳多,E.罗德里格斯,M. J.马丁内斯,G.拉里巴和J. J.。科克,2002。葡萄酒的软木污染:从软木中分离的丝状真菌在2,4,6-三氯苯酚O甲基化形成2,4,6-三氯苯甲醚中的作用。应用与环境微生物学68:58605869。5. 阿纳西,E. J., S. L. Stratton, M. C. Dignani, c - k。李,R. C. Summerbell, J. H. Rex, T. P. Monson和T. J. Walsh. 2003。医院配水系统中的病原菌(包括曲霉菌种类):一项为期3年的前瞻性研究及其对血液恶性肿瘤患者的临床意义血101:2542 - 2546。6. M. Birbir, O. Ozyaral, C. Johansson和A. Ilgaz. 1994。从未完成和完成的皮革制品和鞋子中分离出霉菌菌株。美国皮革化学家协会杂志89:14-19。7. 波伦,g.j.和m.m. Verf. 1978。温室空气中作为烟曲霉孢子来源的蒸盆栽土壤。荷兰植物学报27:152。8. 坎波斯,V., E. Salas, N. Duran, J. Rodriquez和J. Baeza. 1986。从铁三角菌中分离分离纤维素水解菌。Boletín micológico(智利)2:1619. P. D. Carranco, A. Hernandez, P. Rivera和I. Rosas, 1984。墨西哥州废物稳定池系统中的土壤和水生真菌。水、空气与土壤污染(23):249-256。新草原出版社2017年出版。卡瓦略,M. M. D., M. F. S.特谢拉,E.埃斯波西托,A.马丘卡,A.费拉兹和N.杜兰,1992。亚马逊木质纤维素材料。腐烂月桂树和雪松的真菌筛选。应用生物化学与生物技术37:33-41。11. ceneno, S.和M. A. Calvo. 2001。葡萄酒软木塞中分离微生物的酶活性。Microbios 106:69 - 73。12. 查普曼,J.,和H. Burge. 1987。Monilia和Candida不一样。过敏年鉴58:286。13. 查普曼,J.,和H. Burge. 1987。念珠菌和念珠菌是两种非常不同的真菌。变态反应与临床免疫学杂志79:207。14. 考克斯,L. J., B. Caicedo, V. Vanos, E. Heck, S. Hofstaetter, J. L. Cordier. 1987。一些厄瓜多尔发酵饮料的目录,附有其微生物区系的注释。中国生物医学工程学报(英文版)(3):143-154。15. P. Danesh, F. M. V. Caldas, J. J. F. Marques和M. V. S. Romao, 1997。葡萄牙“正常”软木塞和“绿色”软木塞生产过程中的真菌群。应用微生物学报82:689-694。16. de Lillo, E. 1997。膜马虱寄主偏好的观察(蜱螨亚纲:拟螨科)。昆虫学(巴里)31:7-12。17. Dezotti, M., L. H. Innocentini-Mei, N. Duran. 1995。二氧化硅固定化酶催化桉叶废液中氯木质素的去除。生物技术学报43(3):161-167。18. 多罗日金和费多罗夫。 1987. 挪威云杉溃疡病菌群的研究。医学病理学杂志,21:347-352。19. 德拉戈尼,I. 1979。嗜黑念珠菌、黑根霉和常青霉。工业食品,18:37 74-376。20.杜兰,n.n .布朗伯格和A.昆兹,2001。辣根过氧化物酶转化戊曲醇的动力学研究。无机生物化学学报84:279286。21. 杜兰,N., M. Dezotti, J. Rodriguez, 1991。生物质photochemistry.15。硫酸盐废水的光漂白和生物漂白。光化学与光生物学报[a](2):269-279。22. N.杜兰、I.费雷尔和J.罗德里格斯1987。嗜sitophila (Tfb-27441菌株)木质素酶。应用生物化学与生物技术(16):157-167。23. 杜兰,N., J. L. Reyes, J. Baeza和V. Campos, 1988。生物质光化学12稻壳化学光化学预处理及其真菌降解。生物技术与生物工程32:564-568。http://newprairiepress.org/fgr/vol52/iss1/10 DOI: 10.4148/1941-4765.1129杜兰,N., J. Rodriguez, V. Campos, A. Ferraz, J. L. Reyws, J. Amaya-Farfan, E. Esposito, F. Adao和J. Baeza. 1994。由木质纤维素材料生产的单细胞蛋白质量的子囊菌嗜sitonilia (TFB-27441菌株)。微生物学刊25:31-36。25. 杜兰,N., J. Rodriguez, E. Gomez, V. Campos和J. Baeza. 1988。生物质光化学11。纤维素光化学预处理及其真菌降解。生物技术与生物工程(31:15 -219)。26. 2月,N. V. Silva, E. A. S. Medeiros, P. Godoy, E. Reyes, E. Halker和O. Fischman, 1999。丝状真菌对腹膜透析液的污染。Iberoamericana de Micologia 16:38 -239。27. Ferraz, A., J. Baeza和N. Duran, 1991。子囊菌嗜sitonilia (Tfb 27441)对软木的生物降解。应用微生物学快报13:82-86。28. Ferraz, A.和N. Duran, 1989。不同生长条件对亲黄菊花Tfb 27441生长的影响。微生物学报,20:240-245。29. Ferraz, A.和N. Duran. 1995。软木材腐烂过程中子囊菌对木质素的降解。生物降解6:265 - 274。30.Ferraz, A. E. Esposito, R. E. Bruns和N. Durán。1998. 主成分分析(PCA)在巨桉木材生物降解实验中的模式识别。微生物学与生物工程学报,14(4):448 - 449。31. 费雷尔,I. E.埃斯波西托和N.杜兰1992。木素过氧化物酶热变性动力学及pH稳定性研究。酶与微生物技术(14:42 -406)。32. 弗利尔,J., G.帕尔马,J. Baeza, V. Campos, E. Salas, A. Ferraz和N. Duran. 1990。从林产品中生产微生物蛋白。生物质23:155 - 162。33. H. H. L. Gonzalez, S. L. Resnik和A. M. Pacin, 2002。从阿根廷西北省份新收获的燧石玉米的菌群。Mycopathologia 155:207211。34. Heinemann, S.和N. Nolard. 2002。比利时医院的耐热真菌菌群。真菌病45:23。35. Herrera, T.和M. Ulloa. 1975。恶唑和嗜氮农杆菌对多种细菌和真菌的拮抗作用,其中部分细菌和真菌对人有致病性。拉丁美洲微生物学进展(17):143-147。36. P. J. Hidalgo, J. L. Ubera, J. A. Santos, F. LaFont, C. Castellanos, A. Palomino和M. Roman. 2002。菖蒲精油。P.W. Ball:野生和栽培产品和抗真菌活性。精油研究学报(14):68-71。新草原出版社,2017年出版。赫希,S. R.和J. A.索斯曼1976。对12个家庭的霉菌生长进行了为期1年的调查。过敏年鉴36:30-38。38. Il'Ina, r.m.和O. A. Stepanova. 1978。来自不同生态和分类类群的真菌生产纤维素酶。医学病理学杂志,12:484-490。39. 贾马尔,A.和A.加法尔,1974。家禽饲料中的菌群。巴基斯坦植物学杂志(6):165。40. 卡内夫斯卡娅,i.g.和y.p.米哈伊洛娃,1969。聚乙烯、聚丙烯和乙烯基纤维合成纸的真菌降解。《病理学杂志》3:65-66。41. Kanwar, Z. S.和P. K. Khanna, 1979。印度中部蓖麻种子真菌的实验室研究。《科学与技术》86:274-280。42. 肯普,P. C., H. G. Neumeister-Kemp, B. Esposito, G. Lysek和F. Murray. 2003。空气中真菌从室外到室内的变化;在两种不同气候条件下的无问题建筑中安装大型暖通空调系统。雅64:269-275。43. 莱西,J. 1973。葡萄牙软木工厂的空气孢子。职业卫生年鉴(16):223-230。44. Lavermicocca, P., F. Valerio, A. Evidente, S. Lazzaroni, A. Corsetti和M. Gobbetti. 2000。酵母植物乳杆菌21B株新型抗真菌化合物的纯化与鉴定。 应用与环境微生物学
Supplement to Neurospora bibliographies: Chrysonilia citations
David Perkins pointed out to me that research articles dealing with Neurospora do not always include the word Neurospora. There are instances where the fungus is named Chrysonilia sp. (usually C. sitophila), referring to the imperfect stage. Here follows a list of such citations, with a few caveats. In many cases, the journals in which these articles appeared are not available to me, so I generally have not confirmed these citations. Some may be only single-page abstracts. I have not attempted to find all citations using Monilia sitophila, a name in use before Chrysonilia. Creative Commons License This work is licensed under a Creative Commons Attribution-Share Alike 4.0 License. This bibliography is available in Fungal Genetics Reports: http://newprairiepress.org/fgr/vol52/iss1/10 Supplement to Neurospora bibliographies: Chrysonilia citations Craig Wilson – Northwest Fisheries Science Center, Seattle WA 98112 David Perkins pointed out to me that research articles dealing with Neurospora do not always include the word Neurospora. There are instances where the fungus is named Chrysonilia sp. (usually C. sitophila), referring to the imperfect stage. Here follows a list of such citations, with a few caveats. In many cases, the journals in which these articles appeared are not available to me, so I generally have not confirmed these citations. Some may be only single-page abstracts. I have not attempted to find all citations using Monilia sitophila, a name in use before Chrysonilia. 1. Abdel-Rahman, T. M. A., M. Salama A-A, M. I. A. Ali, and N. A. H. Tharwat. 1990. Fibrinolytic activity of some fungi isolated from self-heated composted fertilizer. Botanical Magazine Tokyo 103:313-324. 2. Ahmad, M. S., and M. A. Malik. 1997. Formulation of a synthetic medium for the production of antifungal antibiotic from Bacillus subtilis AECL 69. Pakistan Journal of Zoology 29:15-21. 3. Aidoo, K. E., A. Anderton, and K. A. Milligan. 1995. A 2-year survey of the airborne mycoflora in a hospital environment. International Journal of Environmental Health Research 5:223-228. 4. Alvarez-Rodriguez, M. L., L. Lopez-Ocana, J. M. Lopez-Coronado, E. Rodriguez, M. J. Martinez, G. Larriba, and J.-J. R. Coque. 2002. Cork taint of wines: Role of the filamentous fungi isolated from cork in the formation of 2,4,6-trichloroanisole by O methylation of 2,4,6-trichlorophenol. Applied and Environmental Microbiology 68:58605869. 5. Anaissie, E. J., S. L. Stratton, M. C. Dignani, C.-K. Lee, R. C. Summerbell, J. H. Rex, T. P. Monson, and T. J. Walsh. 2003. Pathogenic molds (including Aspergillus species) in hospital water distribution systems: A 3-year prospective study and clinical implications for patients with hematologic malignancies. Blood 101:2542-2546. 6. Birbir, M., O. Ozyaral, C. Johansson, and A. Ilgaz. 1994. Mold strains isolated from unfinished and finished leather goods and shoes. Journal of the American Leather Chemists Association 89:14-19. 7. Bollen, G. J., and M. M. Verf. 1978. Steamed potting soil as a source of Aspergillus fumigatus spores in the air of greenhouses. Acta Botanica Neerlandica 27:152. 8. Campos, V., E. Salas, N. Duran, J. Rodriquez, and J. Baeza. 1986. Isolation of cellulolytic Chrysonilia sitophila from Tribolium ferrugineum. Boletín micológico (Chile) 2:161. 9. Carranco, P. D., A. Hernandez, P. Rivera, and I. Rosas. 1984. Soil and aquatic fungi in a waste-stabilization pond system of the state of Mexico Mexico. Water Air and Soil Pollution 23:249-256. Published by New Prairie Press, 2017 10. Carvalho, S. M. D., M. F. S. Teixeira, E. Esposito, A. Machuca, A. Ferraz, and N. Duran. 1992. Amazonian lignocellulosic materials.1. Fungal screening from decayed laurel and cedar trees. Applied Biochemistry and Biotechnology 37:33-41. 11. Centeno, S., and M. A. Calvo. 2001. Enzymatic activity of microorganisms isolated from cork wine stoppers. Microbios 106:69-73. 12. Chapman, J., and H. Burge. 1987. Monilia and Candida are not the same. Annals of Allergy 58:286. 13. Chapman, J., and H. Burge. 1987. Monilia and Candida two very different fungi. Journal of Allergy and Clinical Immunology 79:207. 14. Cox, L. J., B. Caicedo, V. Vanos, E. Heck, S. Hofstaetter, and J. L. Cordier. 1987. A catalogue of some Ecuadorean fermented beverages with notes on their microflora. MIRCEN Journal of Applied Microbiology and Biotechnology 3:143-154. 15. Danesh, P., F. M. V. Caldas, J. J. F. Marques, and M. V. S. Romao. 1997. Mycobiota in Portuguese 'normal' and 'green' cork throughout the manufacturing process of stoppers. Journal of Applied Microbiology 82:689-694. 16. de Lillo, E. 1997. Observations on the host preferences of Pediculaster mesembrinae (Canestrini) (Acari: Siteroptidae). Entomologica (Bari) 31:7-12. 17. Dezotti, M., L. H. Innocentini-Mei, and N. Duran. 1995. Silica immobilized enzyme catalyzed removal of chlorolignins from eucalyptus kraft effluent. Journal of Biotechnology 43:161-167. 18. Dorozhkin, N. A., and V. N. Fedorov. 1987. Study of the mycoflora of cankerous formations in the Norway spruce. Mikologiya i Fitopatologiya 21:347-352. 19. Dragoni, I. 1979. Monilia sitophila, Rhizopus nigricans and Penicillium frequentans Westling. Industrie Alimentari 18:374-376. 20. Duran, N., N. Bromberg, and A. Kunz. 2001. Kinetic studies on veratryl alcohol transformation by horseradish peroxidase. Journal of Inorganic Biochemistry 84:279286. 21. Duran, N., M. Dezotti, and J. Rodriguez. 1991. Biomass photochemistry.15. Photobleaching and biobleaching of kraft effluent. Journal of Photochemistry and Photobiology A-Chemistry 62:269-279. 22. Duran, N., I. Ferrer, and J. Rodriguez. 1987. Ligninases from Chrysonilia sitophila (Tfb-27441 strain). Applied Biochemistry and Biotechnology 16:157-167. 23. Duran, N., J. L. Reyes, J. Baeza, and V. Campos. 1988. Biomass Photochemistry XII. Chemical and photochemical pretreatment of rice hull and its fungal degradation. Biotechnology and Bioengineering 32:564-568. http://newprairiepress.org/fgr/vol52/iss1/10 DOI: 10.4148/1941-4765.1129 24. Duran, N., J. Rodriguez, V. Campos, A. Ferraz, J. L. Reyws, J. Amaya-Farfan, E. Esposito, F. Adao, and J. Baeza. 1994. Single cell protein quality produced from lignocellulosic materials by the ascomycete Chrysonilia sitophila (TFB-27441 strain). Revista de Microbiologia 25:31-36. 25. Duran, N., J. Rodriguez, E. Gomez, V. Campos, and J. Baeza. 1988. Biomass photochemistry XI. Photochemical pretreatment of cellulose and its fungal degradation. Biotechnology and Bioengineering 31:215-219. 26. Febre, N., V. Silva, E. A. S. Medeiros, P. Godoy, E. Reyes, E. Halker, and O. Fischman. 1999. Contamination of peritoneal dialysis fluid by filamentous fungi. Revista Iberoamericana de Micologia 16:238-239. 27. Ferraz, A., J. Baeza, and N. Duran. 1991. softwood biodegradation by an ascomycete Chrysonilia sitophila (Tfb 27441-Strain). Letters in Applied Microbiology 13:82-86. 28. Ferraz, A., and N. Duran. 1989. Effect of various conditions on the growth of Chrysonilia sitophila Tfb 27441. Revista de Microbiologia 20:240-245. 29. Ferraz, A., and N. Duran. 1995. Lignin degradation during softwood decaying by the ascomycete Chrysonilia sitophila. Biodegradation 6:265-274. 30. Ferraz, A., E. Esposito, R. E. Bruns, and N. Durán. 1998. The use of principal component analysis (PCA) for pattern recognition in Eucalyptus grandis wood biodegradation experiments. World Journal of Microbiology and Biotechnology 14:487490. 31. Ferrer, I., E. Esposito, and N. Duran. 1992. Lignin peroxidase from Chrysonilia sitophila Heat-denaturation kinetics and pH stability. Enzyme and Microbial Technology 14:402-406. 32. Freer, J., G. Palma, J. Baeza, V. Campos, E. Salas, A. Ferraz, and N. Duran. 1990. Production of microbial protein from forest products. Biomass 23:155-162. 33. Gonzalez, H. H. L., S. L. Resnik, and A. M. Pacin. 2002. Mycoflora of freshly harvested flint corn from northwestern provinces in Argentina. Mycopathologia 155:207211. 34. Heinemann, S., and N. Nolard. 2002. Fungal thermotolerant flora in Belgian hospitals. Mycoses 45:23. 35. Herrera, T., and M. Ulloa. 1975. Antagonism of pozol and Agrobacterium azotophilum on diverse species of bacteria and fungi some of them pathogenic to man. Revista Latinoamericana de Microbiologia 17:143-147. 36. Hidalgo, P. J., J. L. Ubera, J. A. Santos, F. LaFont, C. Castellanos, A. Palomino, and M. Roman. 2002. Essential oils in Calamintha sylvatica Bromf. ssp ascendens (Jordan) P.W. Ball: Wild and cultivated productions and antifungal activity. Journal of Essential Oil Research 14:68-71. Published by New Prairie Press, 2017 37. Hirsch, S. R., and J. A. Sosman. 1976. A 1 year survey of mold growth inside 12 homes. Annals of Allergy 36:30-38. 38. Il'Ina, R. M., and O. A. Stepanova. 1978. The production of cellulase by fungi from various ecological and taxonomic groups. Mikologiya i Fitopatologiya 12:484-490. 39. Jamal, A., and A. Ghaffar. 1974. Mycoflora of poultry feeds. Pakistan Journal of Botany 6:165. 40. Kanevskaya, I. G., and Y. P. Mikhailova. 1969. Fungal degradation of synthetic papers derived from polyethylene polypropylene and vinyl fibers. Mikologiya i Fitopatologiya 3:65-66. 41. Kanwar, Z. S., and P. K. Khanna. 1979. Laboratory studies on seed-borne fungi of Castor ricinus-communis in central India. Zeitschrift fuer Pflanzenkrankheiten und Pflanzenschutz 86:274-280. 42. Kemp, P. C., H. G. Neumeister-Kemp, B. Esposito, G. Lysek, and F. Murray. 2003. Changes in airborne fungi from the outdoors to indoor air; large HVAC systems in nonproblem buildings in two different climates. AIHA J. 64:269-275. 43. Lacey, J. 1973. The air spora of a Portuguese cork factory. Annals of Occupational Hygiene 16:223-230. 44. Lavermicocca, P., F. Valerio, A. Evidente, S. Lazzaroni, A. Corsetti, and M. Gobbetti. 2000. Purification and characterization of novel antifungal compounds from the sourdough Lactobacillus plantarum strain 21B. Applied And Environmental Microbiology 6
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