Your search keyword '"Coetzee, Martin P. A."' showing total 70 results

51. Identification of the Causal Agent of Armillaria Root Rot of Pinus Species in South Africa

Author

Coetzee, Martin P. A., primary, Wingfield, Brenda D., additional, Coutinho, Teresa A., additional, and Wingfield, Michael J., additional

Published

2000

52. A practical approach to genome assembly and annotation of Basidiomycota using the example of Armillaria

Author

Narh Mensah, Deborah L, Wingfield, Brenda D, and Coetzee, Martin PA

Abstract

Technological advancements in genome sequencing, assembly and annotation platforms and algorithms that resulted in several genomic studies have created an opportunity to further our understanding of the biology of phytopathogens, including Armillariaspecies. Most Armillariaspecies are facultative necrotrophs that cause root- and stem-rot, usually on woody plants, significantly impacting agriculture and forestry worldwide. Genome sequencing, assembly and annotation in terms of samples used and methods applied in Armillariagenome projects are evaluated in this review. Infographic guidelines and a database of resources to facilitate future Armillariagenome projects were developed. Knowledge gained from genomic studies of Armillariaspecies is summarized and prospects for further research are provided. This guide can be applied to other diploid and dikaryotic fungal genomics.

Published

2023

53. Ganodermaspecies, including new taxa associated with root rot of the iconic Jacaranda mimosifoliain Pretoria, South Africa

Author

Coetzee, Martin, Marincowitz, Seonju, Muthelo, Vuledzani, and Wingfield, Michael

Abstract

Jacaranda mimosifoliatrees have been progressively dying due to Ganoderma root and butt rot disease in Pretoria (the “City of Jacarandas”) for many years. Ganoderma austroafricanumwas described from these trees previously but this was based on a single collection. This study treats a substantially expanded collection of isolates of Ganodermamade from all dying trees where basidiomes were present in a Pretoria suburb. DNA sequences were obtained from the ITS and LSU region for the isolates and compared against sequences on GenBank. Phylogenetic analyses were used to compare sequences with those for other Ganodermaspecies. Based on sequence comparisons and morphological characters, two new Ganodermaspecies were discovered and these are described here as G. enigmaticumand G. destructansspp. nov. Interestingly, the previously described G. austroafricanumwas not found, G. enigmaticumwas found on only one Ceratonia siliquatree and G. destructanswas found on all other trees sampled. The latter species appears to be the primary cause of root rot of J. mimosifoliain the area sampled.

Published

2015

54. Barcoding and microcoding using "identiprimers" with Leptographium species.

Author

Van Zuydam, Natalie R., Paciura, Dina, Jacobs, Karin, Wingfield, Michael J., Coetzee, Martin P. A., and Wingfield, Brenda D.

Subjects

LEPTOGRAPHIUM, POLYMERASE chain reaction, OLIGONUCLEOTIDES, MONILIALES, PLANT morphology

Abstract

Leptographium species provide an ideal model to test the applications of a PCR microcoding system for differentiating species of other genera of ascomycetes. Leptographium species are closely related and share similar gross morphology. Probes designed for a PhyloChip for Leptographium have been transferred and tested as primers for PCR diagnostic against Leptographium species. The primers were combined with complementary universal primers to identify known and suspected undescribed species of Leptographium. The primer set was optimized for 56 species, including the three varieties of L. wageneri, then blind-tested against 10 random DNA samples. The protocols established in this study successfully identified species from the blind test as well as eight previously undescribed isolates of Leptographium. The undescribed isolates were identified as new species of Leptographium with the aid of the microcoding PCR identification system established in this study. The primers that were positive for each undescribed isolate were used to determine close relatives of these species and some of their biological characteristics. The transfer of oligonucleotides from a micro-array platform to a PCR diagnostic was successful, and the identification system is robust for both known and unknown species of Leptographium. [ABSTRACT FROM AUTHOR]

Published

2010

55. Taxonomy of Armillaria in the Patagonian forests of Argentina.

Author

Pildain, María B., Coetzee, Martin P. A., Wingfield, Brenda D., Wingfield, Michael J., and Rajchenberg, Mario

Subjects

*ARMILLARIA, *FORESTS & forestry, *BIOTIC communities, *PATHOGENIC microorganisms

Abstract

The taxonomy of Armillaria in southern South America has received little attention since the work of Singer and others. In this study we examine the morphological traits and cultural features for taxa representing the lineages revealed based on molecular phylogenyi and we link them to previously described taxa based on morphology. Lineages I-IV were identified as Armillaria novae-zelandiae, A. montagnei, A. umbrinobrunnea comb. nov. and A. sparrei respectively. They could be differentiated morphologically based on dimension, features of the epicutis, annulus, stipe, hymenophoral trama and flavor and characteristics in culture. Furthermore there was no evidence of host preference for the species recognized. This is the first study integrating the phylogeny and morphology of Armillaria species from Patagonia, and it provides a foundation for future research on these fungi in South America. [ABSTRACT FROM AUTHOR]

Published

2010

56. Microsatellite discovery by deep sequencing of enriched genomic libraries

Author

Santana, Quentin C., Coetzee, Martin P. A., Steenkamp, Emma T., Mlonyeni, Osmond X., Hammond, Gifty N. A., Wingfield, Michael J., and Wingfield, Brenda D.

Abstract

Robust molecular markers such as microsatellites are important tools used to understand the dynamics of natural populations, but their identification and development are typically time consuming and labor intensive. The recent emergence of so-called next-generation sequencing raised the question as to whether this new technology might be applied to microsatellite development. Following this view, we considered whether deep sequencing using the 454 Life Sciences/Roche GS-FLX genome sequencing system could lead to a rapid protocol to develop microsatellite primers as markers for genetic studies. For this purpose, genomic DNA was sourced from three unrelated organisms: a fungus (the pine pathogen Fusarium circinatum), an insect (the pine-damaging wasp Sirex noctilio), and the wasp's associated nematode parasite (Deladenus siricidicola). Two methods, FIASCO (fast isolation by AFLP of sequences containing repeats) and ISSR-PCR (inter-simple sequence repeat PCR), were used to generate microsatellite-enriched DNA for the 454 libraries. From the resulting 1.2–1.7 megabases of DNA sequence data, we were able to identify 873 microsatellites that have sufficient flanking sequence available for primer design and potential amplification. This approach to microsatellite discovery was substantially more rapid, effective, and economical than other methods, and this study has shown that pyrosequencing provides an outstanding new technology that can be applied to this purpose.

Published

2010

57. Taxonomy of Armillariain the Patagonian forests of Argentina

Author

Pildain, María B., Coetzee, Martin P.A., Wingfield, Brenda D., Wingfield, Michael J., and Rajchenberg, Mario

Abstract

The taxonomy of Armillariain southern South America has received little attention since the work of Singer and others. In this study we examine the morphological traits and cultural features for taxa representing the lineages revealed based on molecular phylogeny, and we link them to previously described taxa based on morphology. Lineages I–IV were identified as Armillaria novaezelandiae, A. montagnei, A. umbrinobrunneacomb. nov. and A. sparreirespectively. They could be differentiated morphologically based on dimension, features of the epicutis, annulus, stipe, hymenophoral trama and flavor and characteristics in culture. Furthermore there was no evidence of host preference for the species recognized. This is the first study integrating the phylogeny and morphology of Armillariaspecies from Patagonia, and it provides a foundation for future research on these fungi in South America.

Published

2010

58. Phylogenetic relationships among Phialocephalaspecies and other ascomycetes

Author

Jacobs, Adriaana, Coetzee, Martin P. A., Wingfield, Brenda D., Jacobs, Karin, and Wingfield, Michael J.

Abstract

Phialocephalawas established for species in the Leptographiumcomplex that produce conidia from phialides at the apices of dark mononematous conidiophores. Some species previously included in Phialocephalawere re-allocated to Sporendocladiabecause they resembled Thielaviopsisin having ring-wall-building conidial development and conidia with two attachment points that emerge in false chains. Despite this significant realignment of the genus, a great deal of morphological heterogeneity remains in Phialocephala. The objective of this study was to consider the heterogeneity among Phialocephalaspp. based on comparisons of sequence data derived from the large and small subunits (LSU and SSU) of the rRNA operon of species in Phialocephala. Phialocephala dimorphospora, the type species of the genus, and P. fortiniigrouped with genera of the Helotiales in phylogenetic trees generated based on the LSU and SSU datasets. Phialocephala xalapensisand P. fuscaclearly are unrelated to Phialocephalasensu strictoand should represent a new genus in the Ophiostomatales. Phialocephala compactaresides with representatives of the Hypocreales, and we believe that it represents a distinct genus. Phialocephala scopiformisand P. repensare not closely related to the other Phialocephalaspecies and group within the Dothideales. The morphological heterogeneity among species of Phialocephalaclearly is reflected by phylogenetic analysis of sequence data from two conserved rRNA gene regions. Appropriate genera now need to be found to accommodate these fungi.

Published

2004

59. Molecular identification and phylogeny of Armillariaisolates from South America and Indo-Malaysia

Author

Coetzee, Martin P A, Wingfield, Brenda D, Bloomer, Paulette, Ridley, Geoff S, and Wingfield, Michael J

Abstract

Armillaria root rot is a serious disease, chiefly of woody plants, caused by many species of Armillariathat occur in temperate, tropical and subtropical regions of the world. Very little is known about Armillariain South America and Southeast Asia, although Armillaria root rot is well known in these areas. In this study, we consider previously unidentified isolates collected from trees with symptoms of Armillaria root rot in Chile, Indonesia and Malaysia. In addition, isolates from basidiocarps resembling A. novae-zelandiaeand A. limonea, originating from Chile and Argentina, respectively, were included in this study because their true identity has been uncertain. All isolates in this study were compared, based on their similarity in ITS sequences with previously sequenced Armillariaspecies, and their phylogenetic relationship with species from the Southern Hemisphere was considered. ITS sequence data for Armillariaalso were compared with those available at GenBank. Parsimony and distance analyses were conducted to determine the phylogenetic relationships between the unknown isolates and the species that showed high ITS sequence similarity. In addition, IGS-1 sequence data were obtained for some of the species to validate the trees obtained from the ITS data set. Results of this study showed that the ITS sequences of the isolates obtained from basidiocarps resembling A. novae-zelandiaeare most similar to those for this species. ITS sequences for isolates from Indonesia and Malaysia had the highest similarity to A. novae-zelandiaebut were phylogenetically separated from this species. Isolates from Chile, for which basidiocarps were not found, were similar in their ITS and IGS-1 sequences to the isolate from Argentina that resembled A. limonea. These isolates, however, had the highest ITS and IGS-1 sequence similarity to authentic isolates of A. luteobubalinaand were phylogenetically more closely related to this species than to A. limonea.

Published

2004

60. Molecular characterisation of <e1>Armillaria</e1> species from Zimbabwe

Author

MWENJE, Eddie, WINGFIELD, Brenda D., COETZEE, Martin P. A., and WINGFIELD, Michael J.

Abstract

Armillaria species are amongst the most important pathogens of trees and have a world-wide distribution. In recent years, the taxonomy of Northern Hemisphere Armillaria spp. has been extensively treated, but those occurring in Africa are poorly known. Previously, isolates of Armillaria from Zimbabwe have been grouped based on morphology and biochemical tests. In this study, six isolates representing the three previously characterized groups of Armillaria spp. occurring in Zimbabwe were analysed using DNA-based techniques. Three distinct clusters emerged from both PCR–RFLP and analysis of sequence data for the IGS-1 rRNA operon. The three groups corresponded to those previously identified based on morphology and biochemical tests. Differences in IGS-1 sequences strongly suggest that the Zimbabwean groups represent three distinct taxa. Isolates belonging to Group I, previously assumed to be to A. heimii, were similar to those identified as A. fuscipes from South Africa and La Reunion. Group II isolates resided in a clade apart from all other isolates and appear to represent A. heimii. The remaining isolates residing in Group III clustered with isolates from Zambia and Cameroon. These are different from A. heimii and A. fuscipes and apparently represent an undescribed taxon.

Published

2003

61. Identification of the causal agent of Armillaria root rot of Pinusspecies in South Africa

Author

Coetzee, Martin P. A., Wingfield, Brenda D., Coutinho, Teresa A., and Wingfield, Michael J.

Abstract

AbstractArmillaria root rot was reported on economically important Pinusand Eucalyptusspecies grown in plantations in South Africa since the early 1900s. Armillariaspecies have been well studied in North America and Europe, but have received minimal attention in South Africa. Most reports of Armillaria root rot in South Africa suggest that A. melleais the causal agent. The name A. heimiihas also been used in more recent reports, although these have not been based on mycological studies. The taxonomic disposition of Armillariain South Africa, therefore, remains unknown. The aim of this study was to identify and characterize Armillariaisolates from forest plantations in South Africa based on morphology, PCR-RFLP profiles and sequence data. Analysis of these characters revealed that the isolates originating from the plantations in South Africa are distinct from A. melleaand A. heimii.We believe that they represent A. fuscipes.

Published

2000

62. First fungal genome sequence from Africa: A preliminary analysis.

Author

Wingfield, Brenda D., Steenkamp, Emma T., Santana, Quentin C., Coetzee, Martin P. A., Bam, Stefan, Barnes, Irene, Beukes, Chrizelle W., Wai Yin Chan, de Vos, Lieschen, Fourie, Gerda, Friend, Melanie, Gordon, Thomas R., Herron, Darryl A., Holt, Carson, Korf, Ian, Kvas, Marija, Martin, Simon H., Osmond^Mlonyeni, X., Naidoo, Kershney, and Phasha, Mmatshepho M.

Subjects

*FUNGAL genomes, *LIFE sciences, *NUCLEOTIDE sequence, *GENOMICS

Abstract

Some of the most significant breakthroughs in the biological sciences this century will emerge from the development of next generation sequencing technologies. The ease of availability of DNA sequence made possible through these new technologies has given researchers opportunities to study organisms in a manner that was not possible with Sanger sequencing. Scientists will, therefore, need to embrace genomics, as well as develop and nurture the human capacity to sequence genomes and utilise the 'tsunami' of data that emerge from genome sequencing. In response to these challenges, we sequenced the genome of Fusarium circinatum, a fungal pathogen of pine that causes pitch canker, a disease of great concern to the South African forestry industry. The sequencing work was conducted in South Africa, making F. circinatum the first eukaryotic organism for which the complete genome has been sequenced locally. Here we report on the process that was followed to sequence, assemble and perform a preliminary characterisation of the genome. Furthermore, details of the computer annotation and manual curation of this genome are presented. The F. circinatum genome was found to be nearly 44 million bases in size, which is similar to that of four other Fusarium genomes that have been sequenced elsewhere. The genome contains just over 15 000 open reading frames, which is less than that of the related species, Fusarium oxysporum, but more than that for Fusarium verticillioides. Amongst the various putative gene clusters identified in F. circinatum, those encoding the secondary metabolites fumosin and fusarin appeared to harbour evidence of gene translocation. It is anticipated that similar comparisons of other loci will provide insights into the genetic basis for pathogenicity of the pitch canker pathogen. Perhaps more importantly, this project has engaged a relatively large group of scientists including students in a significant genome project that is certain to provide a platform for growth in this important area of research in the future. [ABSTRACT FROM AUTHOR]

Published

2012

63. Two distinct non-ribosomal peptide synthetase-independent siderophore synthetase gene clusters identified in Armillaria and other species in the Physalacriaceae.

Author

Narh Mensah DL, Wingfield BD, and Coetzee MPA

Subjects

Iron metabolism, Peptide Synthases genetics, Peptide Synthases metabolism, Multigene Family, Siderophores chemistry, Siderophores metabolism, Armillaria genetics, Armillaria metabolism

Abstract

Siderophores are important for ferric iron solubilization, sequestration, transportation, and storage, especially under iron-limiting conditions such as aerobic conditions at high pH. Siderophores are mainly produced by non-ribosomal peptide synthetase-dependent siderophore pathway, non-ribosomal peptide synthetase-independent siderophore synthetase pathway, or the hybrid non-ribosomal peptide synthetases/non-ribosomal peptide synthetases-independent siderophore pathway. Outcompeting or inhibition of plant pathogens, alteration of host defense mechanisms, and alteration of plant-fungal interactions have been associated with fungal siderophores. To understand these mechanisms in fungi, studies have been conducted on siderophore biosynthesis by ascomycetes with limited focus on the basidiomycetes. Armillaria includes several species that are pathogens of woody plants and trees important to agriculture, horticulture, and forestry. The aim of this study was to investigate the presence of non-ribosomal peptide synthetases-independent siderophore synthetase gene cluster(s) in genomes of Armillaria species using a comparative genomics approach. Iron-dependent growth and siderophore biosynthesis in strains of selected Armillaria spp. were also evaluated in vitro. Two distinct non-ribosomal peptide synthetases-independent siderophore synthetase gene clusters were identified in all the genomes. All non-ribosomal peptide synthetases-independent siderophore synthetase genes identified putatively encode Type A' non-ribosomal peptide synthetases-independent siderophore synthetases, most of which have IucA&#95;IucC and FhuF-like transporter domains at their N- and C-terminals, respectively. The effect of iron on culture growth varied among the strains studied. Bioassays using the CAS assay on selected Armillaria spp. revealed in vitro siderophore biosynthesis by all strains irrespective of added FeCl3 concentration. This study highlights some of the tools that Armillaria species allocate to iron homeostasis. The information generated from this study may in future aid in developing molecular based methods to control these phytopathogens., Competing Interests: Conflicts of interest The author(s) declare no conflict of interest., (© The Author(s) 2023. Published by Oxford University Press on behalf of The Genetics Society of America.)

Published

2023

64. Phenolic degradation by catechol dioxygenases is associated with pathogenic fungi with a necrotrophic lifestyle in the Ceratocystidaceae.

Author

Soal NC, Coetzee MPA, van der Nest MA, Hammerbacher A, and Wingfield BD

Subjects

Catechols metabolism, Gene Dosage, Ascomycota enzymology, Ascomycota genetics, Ascomycota pathogenicity, Dioxygenases genetics, Dioxygenases metabolism, Plants microbiology

Abstract

Fungal species of the Ceratocystidaceae grow on their host plants using a variety of different lifestyles, from saprophytic to highly pathogenic. Although many genomes of fungi in the Ceratocystidaceae are publicly available, it is not known how the genes that encode catechol dioxygenases (CDOs), enzymes involved in the degradation of phenolic plant defense compounds, differ among members of the Ceratocystidaceae. The aim of this study was therefore to identify and characterize the genes encoding CDOs in the genomes of Ceratocystidaceae representatives. We found that genes encoding CDOs are more abundant in pathogenic necrotrophic species of the Ceratocystidaceae and less abundant in saprophytic species. The loss of the CDO genes and the associated 3-oxoadipate catabolic pathway appears to have occurred in a lineage-specific manner. Taken together, this study revealed a positive association between CDO gene copy number and fungal lifestyle in Ceratocystidaceae representatives., (© The Author(s) 2022. Published by Oxford University Press on behalf of Genetics Society of America.)

Published

2022

65. Bradyrhizobium altum sp. nov., Bradyrhizobium oropedii sp. nov. and Bradyrhizobium acaciae sp. nov. from South Africa show locally restricted and pantropical nodA phylogeographic patterns.

Author

Avontuur JR, Palmer M, Beukes CW, Chan WY, Tasiya T, van Zyl E, Coetzee MPA, Stepkowski T, Venter SN, and Steenkamp ET

Subjects

DNA, Bacterial genetics, Nitrogen Fixation, Phylogeny, RNA, Ribosomal, 16S genetics, Root Nodules, Plant microbiology, Sequence Analysis, DNA, South Africa, Symbiosis genetics, Bradyrhizobium, Fabaceae genetics, Fabaceae microbiology

Abstract

Africa is known for its rich legume diversity with a significant number of endemic species originating in South Africa. Many of these legumes associate with rhizobial symbionts of the genus Bradyrhizobium, of which most represent new species. Yet, none of the Bradyrhizobium species from South Africa have been described. In this study, phylogenetic analysis of 16S rRNA gene sequences of fourteen strains isolated in southern Africa from root nodules of diverse legumes (i.e., from the tribes Crotalarieae, Acacieae, Genisteae, Phaseoleae and Cassieae) revealed that they belong to the Bradyrhizobium elkanii supergroup. The taxonomic position and possible novelty of these strains were further interrogated using genealogical concordance of five housekeeping genes (atpD, dnaK, glnII, gyrB and rpoB). These phylogenies consistently recovered four monophyletic groups and one singleton within Bradyrhizobium. Of these groups, two were conspecific with Bradyrhizobium brasilense UFLA 03-321 T and Bradyrhizobium ivorense CI-1B T , while the remaining three represented novel taxa. Their existence was further supported with genome data, as well as metabolic and physiological traits. Analysis of nodA gene sequences further showed that the evolution of these bacteria likely involved adapting to local legume hosts and environmental conditions through the acquisition, via horizontal gene transfer, of optimal symbiotic loci. We accordingly propose the following names Bradyrhizobium acaciae sp. nov. 10BB T (SARCC 730 T  = LMG 31409 T ), Bradyrhizobium oropedii sp. nov. Pear76 T (SARCC 731 T  = LMG 31408 T ), and Bradyrhizobium altum sp. nov. Pear77 T (SARCC 754 T  = LMG 31407 T ) to accommodate three novel species, all of which are symbionts of legumes in South Africa., (Copyright © 2021. Published by Elsevier Inc.)

Published

2022

66. Ceratocystidaceae exhibit high levels of recombination at the mating-type (MAT) locus.

Author

Simpson MC, Coetzee MPA, van der Nest MA, Wingfield MJ, and Wingfield BD

Subjects

Gene Order, Synteny, Ascomycota genetics, Genes, Mating Type, Fungal, Genetic Loci, Recombination, Genetic

Abstract

Mating is central to many fungal life cycles and is controlled by genes at the mating-type (MAT) locus. These genes determine whether the fungus will be self-sterile (heterothallic) or self-fertile (homothallic). Species in the ascomycete family Ceratocystidaceae have different mating strategies, making them interesting to consider with regards to their MAT loci. The aim of this study was to compare the composition of the MAT locus flanking regions in 11 species of Ceratocystidaceae representing four genera. Genome assemblies for each species were examined to identify the MAT locus and determine the structure of the flanking regions. Large contigs containing the MAT locus were then functionally annotated and analysed for the presence of transposable elements. Genes typically flanking the MAT locus in sordariomycetes were found to be highly conserved in the Ceratocystidaceae. The different genera in the Ceratocystidaceae displayed little synteny outside of the immediate MAT locus flanking genes. Even though species ofCeratocystis did not show much synteny outside of the immediate MAT locus flanking genes, species of Huntiella and Endoconidiophora were comparatively syntenic. Due to the high number of transposable elements present in Ceratocystis MAT flanking regions, we hypothesise that Ceratocystis species may have undergone recombination in this region., (Copyright © 2018 British Mycological Society. Published by Elsevier Ltd. All rights reserved.)

Published

2018

67. Armillaria Root-Rot Pathogens: Species Boundaries and Global Distribution.

Author

Coetzee MPA, Wingfield BD, and Wingfield MJ

Abstract

This review considers current knowledge surrounding species boundaries of the Armillaria root-rot pathogens and their distribution. In addition, a phylogenetic tree using translation elongation factor subunit 1-alpha ( tef -1α) from isolates across the globe are used to present a global phylogenetic framework for the genus. Defining species boundaries based on DNA sequence-inferred phylogenies has been a central focus of contemporary mycology. The results of such studies have in many cases resolved the biogeographic history of species, mechanisms involved in dispersal, the taxonomy of species and how certain phenotypic characteristics have evolved throughout lineage diversification. Such advances have also occurred in the case of Armillaria spp. that include important causal agents of tree root rots. This commenced with the first phylogeny for Armillaria that was based on IGS-1 (intergenic spacer region one) DNA sequence data, published in 1992. Since then phylogenies were produced using alternative loci, either as single gene phylogenies or based on concatenated data. Collectively these phylogenies revealed species clusters in Armillaria linked to their geographic distributions and importantly species complexes that warrant further research.

Published

2018

68. Architecture and Distribution of Introns in Core Genes of Four Fusarium Species.

Author

Phasha MM, Wingfield BD, Coetzee MPA, Santana QC, Fourie G, and Steenkamp ET

Subjects

Conserved Sequence, Fusarium genetics, Genes, Fungal, Introns

Abstract

Removal of introns from transcribed RNA represents a crucial step during the production of mRNA in eukaryotes. Available whole-genome sequences and expressed sequence tags (ESTs) have increased our knowledge of this process and revealed various commonalities among eukaryotes. However, certain aspects of intron structure and diversity are taxon-specific, which can complicate the accuracy of in silico gene prediction methods. Using core genes, we evaluated the distribution and architecture of Fusarium circinatum spliceosomal introns, and linked these characteristics to the accuracy of the predicted gene models of the genome of this fungus. We also evaluated intron distribution and architecture in F. verticillioides , F. oxysporum , and F. graminearum , and made comparisons with F. circinatum Results indicated that F. circinatum and the three other Fusarium species have canonical 5' and 3' splice sites, but with subtle differences that are apparently not shared with those of other fungal genera. The polypyrimidine tract of Fusarium introns was also found to be highly divergent among species and genes. Furthermore, the conserved adenosine nucleoside required during the first step of splicing is contained within unique branch site motifs in certain Fusarium introns. Data generated here show that introns of F. circinatum , as well as F. verticillioides , F. oxysporum , and F. graminearum , are characterized by a number of unique features such as the CTHAH and ACCAT motifs of the branch site. Incorporation of such information into genome annotation software will undoubtedly improve the accuracy of gene prediction methods used for Fusarium species and related fungi., (Copyright © 2017 Phasha et al.)

Published

2017

69. Analysis of microsatellite markers in the genome of the plant pathogen Ceratocystis fimbriata.

Author

Simpson MC, Wilken PM, Coetzee MP, Wingfield MJ, and Wingfield BD

Subjects

Ascomycota physiology, Base Sequence, Genetic Markers, Genetic Variation, Molecular Sequence Data, Ascomycota genetics, Genome, Fungal, Microsatellite Repeats, Plant Diseases microbiology

Abstract

Ceratocystis fimbriata sensu lato represents a complex of cryptic and commonly plant pathogenic species that are morphologically similar. Species in this complex have been described using morphological characteristics, intersterility tests and phylogenetics. Microsatellite markers have been useful to study the population structure and origin of some species in the complex. In this study we sequenced the genome of C. fimbriata. This provided an opportunity to mine the genome for microsatellites, to develop new microsatellite markers, and map previously developed markers onto the genome. Over 6000 microsatellites were identified in the genome and their abundance and distribution was determined. Ceratocystis fimbriata has a medium level of microsatellite density and slightly smaller genome when compared with other fungi for which similar microsatellite analyses have been performed. This is the first report of a microsatellite analysis conducted on a genome sequence of a fungal species in the order Microascales. Forty-seven microsatellite markers have been published for population genetic studies, of which 35 could be mapped onto the C. fimbriata genome sequence. We developed an additional ten microsatellite markers within putative genes to differentiate between species in the C. fimbriata s.l. complex. These markers were used to distinguish between 12 species in the complex., (Copyright © 2013 The British Mycological Society. Published by Elsevier Ltd. All rights reserved.)

Published

2013

70. Phylogenetic analyses of DNA sequences reveal species partitions amongst isolates of Armillaria from Africa.

Author

Coetzee MP, Wingfield BD, Bloomer P, and Wingfield MJ

Subjects

Africa, Agaricales isolation & purification, Base Sequence, Cloning, Molecular, DNA, Fungal chemistry, DNA, Fungal genetics, DNA, Intergenic chemistry, DNA, Intergenic genetics, Evolution, Molecular, Genetic Variation, Phylogeny, Polymerase Chain Reaction, RNA, Ribosomal, 5S chemistry, RNA, Ribosomal, 5S genetics, Sequence Alignment, Sequence Analysis, DNA, Agaricales classification, Agaricales genetics

Abstract

The basidiomycete genus Armillaria causes root rot and death to woody plants in boreal, temperate and tropical regions of the world. Armillaria root rot has been described from various parts of Africa on many different hosts. However, very little is known regarding the evolutionary relationships among Armillaria species in Africa. The aim of this study was to determine the phylogenetic relationships between isolates originating from different regions in Africa using nDNA sequences from two non-coding gene regions. The ITS and the IGS-1 regions of the ribosomal DNA operon were sequenced and analysed using different phylogenetic tree searching methods. Phylogenetic trees grouped the African taxa in two strongly supported clades. One of these represented A. fuscipes and the other an undescribed but distinct species.

Published

2005