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dc.contributor.authorAlmiman, Bandar F.en
dc.date.accessioned2018-08-28T10:11:32Z
dc.date.available2018-08-28T10:11:32Z
dc.date.issued2018-02
dc.identifier.citationAlmiman, B.F. (2018) 'Molecular genetic and genomic characterization of an emerging mycotoxigenic pathogen Fusarium proliferatum'. PhD thesis. University of Bedfordshire.en
dc.identifier.urihttp://hdl.handle.net/10547/622835
dc.description“A thesis submitted to the University of Bedfordshire, in partial fulfilment of the requirements for the degree of Doctor of Philosophy”.en
dc.description.abstractThis aim of this research was to elucidate the genotypic diversity of the mycotoxigenic species Fusarium proliferatum associated with diverse hosts and distributed in wide geographic locations to gain new insights into the biology of this emerging pathogen. This study developed a novel molecular genetic marker FG1056. Multilocus typing of F. proliferatum isolates (52) using F. verticillioides (2) and F. oxysporum (3) as references was carried out with FG1056 and a set of known genetic markers (ITS, TEF1, CAL and FUM1). This distinguished up to 10 genetic groups, 2 clusters and 23 haplotypes among the F. proliferatum isolates. FG1056 marker showed the highest number of SNPs (169), informative sites (89) and haplotypes (23) relative to other markers used and was comparable to the multi locus typing. Varying patterns of relationships were observed between isolates represented in the genetic groups and their host and geographic origin. Considerable biological variability was recorded among the F. proliferatum isolates in morphology, growth, sporulation and most notably fumonisin production (up to 140-fold differences) with reference to variable temperature, water activity and duration. De novo genome assemblies with the size ranging from 43.96 - 50 Mb have been developed for four diverse F. proliferatum isolates. In silico analysis led to the identification of 12,980 genes common to all isolates and up to 134 genes potentially unique to an isolate. Using these resources, FUM gene cluster (~45.3 Kb) was identified for the first time in F. proliferatum. Order and orientation of the 16 FUM genes and the complete flanking genes (MSF1 and ZCB1 at 5’; ANK1 and GAT1 at 3’) have been determined. This study has provided new insights into the genetic and biological diversity of F. proliferatum and also developed new genetic and genomic resources, which will serve as a solid platform for further research particularly to understand the regulation of fumonisins production in the laboratory and in the field.
dc.language.isoenen
dc.publisherUniversity of Bedfordshireen
dc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/4.0/*
dc.subjectgenomic characterizationen
dc.subjectemerging mycotoxigenic pathogenen
dc.subjectB220 Toxicologyen
dc.subjectpathogensen
dc.subjectgenomicsen
dc.titleMolecular genetic and genomic characterization of an emerging mycotoxigenic pathogen Fusarium proliferatumen
dc.typeThesis or dissertationen
dc.type.qualificationnamePhDen_GB
dc.type.qualificationlevelPhDen
dc.publisher.institutionUniversity of Bedfordshireen
html.description.abstractThis aim of this research was to elucidate the genotypic diversity of the mycotoxigenic species Fusarium proliferatum associated with diverse hosts and distributed in wide geographic locations to gain new insights into the biology of this emerging pathogen. This study developed a novel molecular genetic marker FG1056. Multilocus typing of F. proliferatum isolates (52) using F. verticillioides (2) and F. oxysporum (3) as references was carried out with FG1056 and a set of known genetic markers (ITS, TEF1, CAL and FUM1). This distinguished up to 10 genetic groups, 2 clusters and 23 haplotypes among the F. proliferatum isolates. FG1056 marker showed the highest number of SNPs (169), informative sites (89) and haplotypes (23) relative to other markers used and was comparable to the multi locus typing. Varying patterns of relationships were observed between isolates represented in the genetic groups and their host and geographic origin. Considerable biological variability was recorded among the F. proliferatum isolates in morphology, growth, sporulation and most notably fumonisin production (up to 140-fold differences) with reference to variable temperature, water activity and duration. De novo genome assemblies with the size ranging from 43.96 - 50 Mb have been developed for four diverse F. proliferatum isolates. In silico analysis led to the identification of 12,980 genes common to all isolates and up to 134 genes potentially unique to an isolate. Using these resources, FUM gene cluster (~45.3 Kb) was identified for the first time in F. proliferatum. Order and orientation of the 16 FUM genes and the complete flanking genes (MSF1 and ZCB1 at 5’; ANK1 and GAT1 at 3’) have been determined. This study has provided new insights into the genetic and biological diversity of F. proliferatum and also developed new genetic and genomic resources, which will serve as a solid platform for further research particularly to understand the regulation of fumonisins production in the laboratory and in the field.


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