Details

Title

Some evidence for skewed mating type distribution in Iranian populations of Rhynchosporium commune, the cause of barley scald disease

Journal title

Journal of Plant Protection Research

Yearbook

2016

Numer

No 3

Publication authors

Divisions of PAS

Nauki Biologiczne i Rolnicze

Publisher

Committee of Plant Protection PAS ; Polish Society of Plant Protection ; Institute of Plant Protection – National Research Institute

Date

2016

Identifier

eISSN 1899–007X ; ISSN 1427–4345

References

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Möller (1992), A simple and efficient protocol for isolation of high molecular weight DNA from filamentous fungi , fruit bodies , and infected plant tissues, Nucleic Acids Research, 20, 6115, doi.org/10.1093/nar/20.22.6115 ; Caldwell (1937), Rhynchosporiumscald of barley , rye , and other grasses, Journal of Agricultural Research, 55, 175. ; Stefansson (2013), Local adaptation and evolutionary potential along a temperature gradient in the fungal pathogenRhynchosporium commune, Evolutionary Applications, 6, 524, doi.org/10.1111/eva.12039 ; Salamati (2000), The genetic structure of field populations ofRhynchosporium secalisfrom three continents suggests moderate gene flow and regular recombination, Phytopathology, 90, 901, doi.org/10.1094/PHYTO.2000.90.8.901 ; Everitt (1977), The Analysis of Contingency Tables New York, USA, 168. ; Goodwin (2002), The barley scald pathogenRhynchosporium secalisis closely related to the discomycetesTapesiaandPyrenopeziza, Mycological Research, 106, 645, doi.org/10.1017/S0953756202006007 ; Shipton (1974), Scald of barley, Review of Plant Pathology, 53, 839. ; Arzanlou (2015), Multigene phylogeny reveals three new records ofColletotrichumspp and several new host records for the mycobiota of Iran of Plant Protection, Journal Research, 55, 198. ; Zhan (2008), Resistance , epidemiology and sustainable management ofRhynchosporium secalispopulations on barley, Plant Pathology, 57, 1. ; Kiros (2005), Amplified fragment length polymorphism amongRhynchosporium secalisisolates collected from a single barley field in Syria, Annals of Applied Biology, 146, 389, doi.org/10.1111/j.1744-7348.2005.040139.x ; Brunner (2007), The origin and colonization history of the barley scald pathogenRhynchosporium secalis, Journal of Evolutionary Biology, 20, 1311, doi.org/10.1111/j.1420-9101.2007.01347.x ; Turgeon (1998), Application of mating type gene technology to problems in fungal biology, Annual Review of Phytopathology, 36, 115, doi.org/10.1146/annurev.phyto.36.1.115 ; Turgeon (1993), Cloning and analysis of the mating - type genes fromCochliobolus heterostrophus, Molecular and General Genetics, 238. ; Waalwijk (2002), de Isolation and characterization of the mating type idiomorphs from the wheat septoria leaf blotch fungusMycosphaerella graminicola, Fungal Genetics and Biology, 35, 277, doi.org/10.1006/fgbi.2001.1322 ; Beigi (2013), Genetic diversity of Iranian isolates of barley scald pathogen ( Rhynchosporium secalis ) making use of molecular markers, Journal of Agricultural Science and Technology, 15, 843. ; Fountaine (2010), The role of seeds and airborne inoculums in the initiation of leaf blotch ( Rhynchosporium secalis ) epidemics in winter barley, Plant Pathology, 59, 330, doi.org/10.1111/j.1365-3059.2009.02213.x ; Foster (2003), Isolation and characterisation of the mating - type ( MAT ) locus fromRhynchosporium secalis, Current Genetics, 44, 277, doi.org/10.1007/s00294-003-0445-9 ; Abang (2006), Differential selection onRhynchosporium secalisduring parasitic and saprophytic phases in the barley scald disease cycle, Phytopathology, 96, 1214, doi.org/10.1094/PHYTO-96-1214 ; Zaffarano (2008), Rapid speciation following recent host shifts in the plant pathogenic fungusRhynchosporium, Evolution, 62, 1418, doi.org/10.1111/j.1558-5646.2008.00390.x ; Consolo (2005), Mating - type distribution and fertility status inMagnaporthe griseapopulations from Argentina, Mycopathologia, 160. ; Arzanlou (2014), Multiplex PCR for specific identification and determination of mating type inTogninia minima ( anamorphPhaeoacremonium aleophilum , a causal agent of esca disease of grapevine, Phytopathologia Mediterranea, 53, 240. ; King (2013), Evolutionary relationships betweenRhynchosporium loliisp nov and otherRhynchosporiumspecies on grasses, PLoS ONE, 8, 72536, doi.org/10.1371/journal.pone.0072536 ; Zhan (2002), Distribution of mating type alleles in the wheat pathogenMycosphaerella graminicolaover spatial scales from lesions to continents, Fungal Genetics and Biology, 36, 128, doi.org/10.1016/S1087-1845(02)00013-0 ; King (2015), Differences in MAT gene distribution and expression betweenRhynchosporiumspecies on grasses, Plant Pathology, 64, 344, doi.org/10.1111/ppa.12265 ; Burdon (1994), Genetic structure of the scald pathogen ( Rhynchosporium secalis ) in South East Australia implications for control strategies, Australian Journal of Agricultural Research, 45, 1445, doi.org/10.1071/AR9941445 ; Arzanlou (2010), Evolutionary dynamics of mating - type loci ofMycosphaerellaspp occurring on banana, Eukaryotic Cell, 9, 164, doi.org/10.1128/EC.00194-09 ; Korff (2004), Genetic variation amongRhynchosporium secalispopulations of west Asia and North Africa as revealed by RAPD and AFLP analysis, von Journal of Phytopathology, 152, 106, doi.org/10.1111/j.1439-0434.2003.00809.x

DOI

10.1515/jppr-2016-0033

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