Warianty tytułu
Języki publikacji
Abstrakty
Fusarium verticillioides is a common causal agent of maize ear rot in the Philippines. Eighty isolates were collected from healthy and infected maize cobs from Laguna province. Fifty isolates crossed with one of the mating type A testers. The ratio of MATA-l:MATA-2 is 27 : 23, which follows a Mendelian ratio of 1 : 1. The effective population number, Ne, was determined by mating type and male/hermaphrodite polymorphisms. The effective population number for mating type, Nₑ₍ₘₜ₎, is 81% of the count (total population), and that for male/hermaphrodite status, Nₑ₍f₎, is 36-42% of the count (total population). Sexual reproduction in Philippine isolates of F. verticillioides does not occur frequently, compared to F. verticillioides in other regions of the world.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Numer
Strony
123-126
Opis fizyczny
p.123-126,ref.
Twórcy
autor
- Crop Protection Cluster, College of Agriculture, University of the Philippines Los Bonos, Laguna 4031, Philippines
Bibliografia
- Burgess LW, Summerell BA, Bullock S, Gott KP, Backhouse D, 1994. Laboratory manual for Fusarium research, University of Sydney Press, Australia: 133.
- Caballero A, 1994. Developments in the prediction of effective population size. Heredity 73: 657-679.
- Chulze SN, Ramirez ML, Torres A, Leslie JF, 2000. Genetic variation in Fusarium section Liseola from no-till maize in Argentina. Appl Environ Microbiol 66: 5312-53215.
- Cumagun CJR, 2004. Molecular and phenotypic analyses of pathogenicity, aggressiveness, mycotoxin production, and colonization in the wheat- Gibberella zeae pathosystem. Verlag Grauer, Beuren, Stuttgart: 104.
- Danielsen S, Meyer UM, Funck Jensen D, 1998. Genetic characteristics of Fusarium verticillioides isolates from maize in Costa Rica. Plant Pathol 47: 615-622.
- Esteves LA, Bermundo RQ, Talplacido BB, de la Cruz MV, 1996. Survey of mycotoxigenic fungi in Philippine corn. In: Nakase T, Takeo K, eds. Proceedings Asian International Mycological Congress 96. Chiba University, Chiba, Japan: 151.
- Kerenyi Z, Zeller K, Hornok L, Leslie JF, 1999. Molecular standardization of mating type terminology in the Gibberella fujikuroi species complex. Appl Environ Microbiol 65: 4071-4076.
- Klittich CJR, Leslie JF, 1988. Nitrate reduction mutants of Fusarium moniliforme (Gibberella fujikuroi). Genetics 118: 417-423.
- Leslie JF, 1991. Mating populations in Gibberella fujikuroi (Fusarium section Liseola). Phytopathol 81: 1058-1060.
- Leslie JF, 1995. Gibberella fujikuroi: available populations and variable traits. Can J Bot 73: S282-S291.
- Leslie JF, 1999. Genetic status of the Gibberella fujikuroi species complex. Plant Pathol J 15: 259-269.
- Leslie JF, Doe FJ, Plattner RD, Schackelford DD, Jonz J, 1992. Fumonisin B₁ production and vegetative compatibility of strains of from Gibberella fujikuroi mating population A (Fusarium moniliforme). Mycopathol 117: 37-45.
- Leslie JF, Klein KK, 1996. Female fertility and mating type effects on effective population size and evolution in filamentous fungi. Genetics 144: 557-567.
- Mansuetus ASB, Odvody GN, Fredericksen RA, Leslie JF, 1997. Biological species in the Gibberella fujikuroi species complex (Fusarium section Liseola) recovered from sorghum in Tanzania. Mycol Res 101: 815-820.
- Marasas WFO, Nelson PE, Toussoun TA, 1984. Toxigenic Fusarium species: identity and mycotoxicology. The Pennsylvania State University Press, University Park.
- Miller JD, Savard ME, Sibilia A, Rapior S, 1993. Production of fumonisins and fusarins by Fusarium moniliforme from Southeast Asia. Mycologia 85: 385-391.
- Munkhold GP, Desjardins AE, 1997. Fumonisins in maize: Can we reduce their occurrence? Plant Dis 81: 556-565.
- Nash JM, Snyder WC, 1962. Quantitative estimation by plate count of propagules of the bean root rot Fusarium in field soil. Phytopathol 52: 567-572.
- Nelson PE, 1992. Taxonomy and biology of Fusarium moniliforme. Mycopathol 117: 19-36.
- Nelson PE, Plattner R, Shackel DD, Desjardins AE, 1991. Production of fumonisins by Fusarium moniliforme strains from various substrates and geographic areas. Appl Environ Microbiol 57: 2410-2412.
- Nelson PE, Desjardins AE, Plattner RD, 1993. Fumonisins, mycotoxins produced by Fusarium species: biology, chemistry and significance. Ann Rev Phytopathol 31: 233-252.
- Phinney BO, Spector C, 1967. Genetics and gibberellin production in the fungus Gibberella fujikuroi. Ann NY Acad Sci 144: 204-210.
- Rallos LEE, Dalmacio IF, 2004. Fumonisin production by a Philippine isolate of Fusarium moniliforme Sheldon and some of its phytotoxic and cytotoxic effects. Asia Life Sci 13: 53-69.
- Reinking OA, 1918. Philippine economic plant diseases. Phil J Sci 13: 165-274.
- Sharma RC, De Leon C, Payak MM, 1993. Diseases of maize in South and South East Asia: Problems and progress. Crop Prot 12: 414-422.
- Summerell BA, Burgess LW, Bullock S, Backhouse D, Tri ND, 1998. Occurrence of perithecia of Gibberella fujikuroi mating population A (Fusarium moniliforme) on maize stubble in northern Vietnam. Mycologia 90: 890-895.
- Yamashita A, Yoshizawa T, Aiura Y, Sanchez PC, Dizon EI, Arim RH, et al. 1995. Fusarium mycotoxins (fumonisins, nivalenol, and zearalenone) and aflatoxins in corn from Southeast Asia. Biosci Biotech and Biochem 59: 1804-1807.
Typ dokumentu
Bibliografia
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