Your search keyword '"Conrad, Trollip"' showing total 7 results

1. Phylogenomic incongruence in Ceratocystis: a clue to speciation?

Author

Aquillah M. Kanzi, Conrad Trollip, Michael J. Wingfield, Irene Barnes, Magriet A. Van der Nest, and Brenda D. Wingfield

Subjects

Ceratocystis, Incongruence, Hybridisation, Phylogenomics, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background The taxonomic history of Ceratocystis, a genus in the Ceratocystidaceae, has been beset with questions and debate. This is due to many of the commonly used species recognition concepts (e.g., morphological and biological species concepts) providing different bases for interpretation of taxonomic boundaries. Species delineation in Ceratocystis primarily relied on genealogical concordance phylogenetic species recognition (GCPSR) using multiple standard molecular markers. Results Questions have arisen regarding the utility of these markers e.g., ITS, BT and TEF1-α due to evidence of intragenomic variation in the ITS, as well as genealogical incongruence, especially for isolates residing in a group referred to as the Latin-American clade (LAC) of the species. This study applied a phylogenomics approach to investigate the extent of phylogenetic incongruence in Ceratocystis. Phylogenomic analyses of a total of 1121 shared BUSCO genes revealed widespread incongruence within Ceratocystis, particularly within the LAC, which was typified by three equally represented topologies. Comparative analyses of the individual gene trees revealed evolutionary patterns indicative of hybridization. The maximum likelihood phylogenetic tree generated from the concatenated dataset comprised of 1069 shared BUSCO genes provided improved phylogenetic resolution suggesting the need for multiple gene markers in the phylogeny of Ceratocystis. Conclusion The incongruence observed among single gene phylogenies in this study call into question the utility of single or a few molecular markers for species delineation. Although this study provides evidence of interspecific hybridization, the role of hybridization as the source of discordance will require further research because the results could also be explained by high levels of shared ancestral polymorphism in this recently diverged lineage. This study also highlights the utility of BUSCO genes as a set of multiple orthologous genes for phylogenomic studies.

Published

2020

2. Modular, multi‐barcode amplicon sequencing for improved species‐level detection of fungal phytopathogens: A case study of pipeline establishment targeting the Ophiostomatales

Author

Conrad Trollip, Jatinder Kaur, Alexander M. Piper, Francesco Martoni, Ross Mann, Quang Dinh, Angus J. Carnegie, Brendan Rodoni, and Jaqueline Edwards

Subjects

Ecology, Genetics, Ecology, Evolution, Behavior and Systematics

Published

2022

3. Draft Genome Sequences for Three Ophiostoma Species Acquired during Revisions of Australian Plant Pathogen Reference Collections

Author

Conrad Trollip, Angus J. Carnegie, Brendan Rodoni, and Jacqueline Edwards

Subjects

Immunology and Microbiology (miscellaneous), Genetics, Molecular Biology, Uncategorized

Abstract

The fungal genus Ophiostoma contains numerous species that share close associations with wood-boring insects, a relationship with important consequences for global biosecurity. Here, we provide draft genomes for three Ophiostoma species within the well-known Ophiostoma ulmi complex. These resources are valuable for future research efforts related to Ophiostoma and the establishment of biosecurity-focused databases.

Published

2022

4. Phylogenomic incongruence in Ceratocystis: a clue to speciation?

Author

Conrad Trollip, Michael J. Wingfield, Aquillah M. Kanzi, Magriet A. van der Nest, Irene Barnes, and Brenda D. Wingfield

Subjects

0106 biological sciences, lcsh:QH426-470, Genetic Speciation, Lineage (evolution), lcsh:Biotechnology, Genes, Fungal, Biology, Ceratocystis, 01 natural sciences, Evolution, Molecular, 03 medical and health sciences, Genus, Phylogenetics, Phylogenomics, lcsh:TP248.13-248.65, Hybridisation, Genetics, Clade, Phylogeny, 030304 developmental biology, Incongruence, 0303 health sciences, Phylogenetic tree, Sequence Analysis, DNA, biology.organism_classification, lcsh:Genetics, Genetic marker, Evolutionary biology, Hybridization, Genetic, Genome, Fungal, 010606 plant biology & botany, Biotechnology, Research Article

Abstract

Background The taxonomic history of Ceratocystis, a genus in the Ceratocystidaceae, has been beset with questions and debate. This is due to many of the commonly used species recognition concepts (e.g., morphological and biological species concepts) providing different bases for interpretation of taxonomic boundaries. Species delineation in Ceratocystis primarily relied on genealogical concordance phylogenetic species recognition (GCPSR) using multiple standard molecular markers. Results Questions have arisen regarding the utility of these markers e.g., ITS, BT and TEF1-α due to evidence of intragenomic variation in the ITS, as well as genealogical incongruence, especially for isolates residing in a group referred to as the Latin-American clade (LAC) of the species. This study applied a phylogenomics approach to investigate the extent of phylogenetic incongruence in Ceratocystis. Phylogenomic analyses of a total of 1121 shared BUSCO genes revealed widespread incongruence within Ceratocystis, particularly within the LAC, which was typified by three equally represented topologies. Comparative analyses of the individual gene trees revealed evolutionary patterns indicative of hybridization. The maximum likelihood phylogenetic tree generated from the concatenated dataset comprised of 1069 shared BUSCO genes provided improved phylogenetic resolution suggesting the need for multiple gene markers in the phylogeny of Ceratocystis. Conclusion The incongruence observed among single gene phylogenies in this study call into question the utility of single or a few molecular markers for species delineation. Although this study provides evidence of interspecific hybridization, the role of hybridization as the source of discordance will require further research because the results could also be explained by high levels of shared ancestral polymorphism in this recently diverged lineage. This study also highlights the utility of BUSCO genes as a set of multiple orthologous genes for phylogenomic studies.

Published

2019

5. IMA Genome-F 6

Author

Keith A. Seifert, Magriet A. van der Nest, Ekaterina Ponomareva, Brenda D. Wingfield, Cobus M. Visagie, Martin Petrus Albertus Coetzee, Kershney Naidoo, Alistair R. McTaggart, Michael J. Wingfield, P. Markus Wilken, Conrad Trollip, Neriman Yilmaz, Z. Wilhelm de Beer, Quentin S. Santana, Fourie Joubert, Jon Ambler, Emma Theodora Steenkamp, Almuth Hammerbacher, Hai D. T. Nguyen, and Tuan A. Duong

Subjects

0301 basic medicine, Genetics, biology, Ceratocystis adiposa, Penicillium freii, 030108 mycology & parasitology, Armillaria root rot, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), Genome, 03 medical and health sciences, 030104 developmental biology, Genus, Botany, Ceratocystiopsis minuta, Taxonomy (biology), Armillaria fuscipes, Ecology, Evolution, Behavior and Systematics

Abstract

The genomes of Armillaria fuscipes, Ceratocystiopsis minuta, Ceratocystis adiposa, Endoconidiophora laricicola, E. polonica, and Penicillium freii DAOMC 242723 are presented in this genome announcement. These six genomes are from plant pathogens and otherwise economically important fungal species. The genome sizes range from 21 Mb in the case of Ceratocystiopsis minuta to 58 Mb for the basidiomycete Armillaria fuscipes. These genomes include the first reports of genomes for the genus Endoconidiophora. The availability of these genome data will provide opportunities to resolve longstanding questions regarding the taxonomy of species in these genera. In addition these genome sequences through comparative studies with closely related organisms will increase our understanding of how these pathogens cause disease.

Published

2016

6. Genomic analysis of the aggressive tree pathogen Ceratocystis albifundus

Author

Tuan A. Duong, Conrad Trollip, Brenda D. Wingfield, Emma Theodora Steenkamp, Magriet A. van der Nest, Stephanie Van Wyk, Lieschen De Vos, Quentin C. Santana, Wai Yin Chan, Marike Palmer, Kershney Naidoo, Nicole C. Soal, P. Markus Wilken, Michael J. Wingfield, Danielle Roodt, and Alistair R. McTaggart

Subjects

Transposable element, Computational biology, Biology, Genome, Synteny, Trees, Evolution, Molecular, 03 medical and health sciences, Pathogenomics, Ascomycota, Gene Order, Genetics, Gene, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Subgenomic mRNA, Plant Diseases, Comparative genomics, 0303 health sciences, 030306 microbiology, Computational Biology, Genetic Variation, High-Throughput Nucleotide Sequencing, Genomics, Interspersed Repetitive Sequences, Infectious Diseases, Africa, Genome, Fungal, Reference genome

Abstract

The overall goal of this study was to determine whether the genome of an important plant pathogen in Africa, Ceratocystis albifundus, is structured into subgenomic compartments, and if so, to establish how these compartments are distributed across the genome. For this purpose, the publicly available genome of C. albifundus was complemented with the genome sequences for four additional isolates using the Illumina HiSeq platform. In addition, a reference genome for one of the individuals was assembled using both PacBio and Illumina HiSeq technologies. Our results showed a high degree of synteny between the five genomes, although several regions lacked detectable long-range synteny. These regions were associated with the presence of accessory genes, lower genetic similarity, variation in read-map depth, as well as transposable elements and genes associated with host-pathogen interactions (e.g. effectors and CAZymes). Such patterns are regarded as hallmarks of accelerated evolution, particularly of accessory subgenomic compartments in fungal pathogens. Our findings thus showed that the genome of C. albifundus is made-up of core and accessory subgenomic compartments, which is an important step towards characterizing its pangenome. This study also highlights the value of comparative genomics for understanding mechanisms that may underly and influence the biology and evolution of pathogens.

Published

2018

7. Evolution of GH32 invertases in pathogenic and saprotrophic Ceratocystidaceae

Author

Brenda D. Wingfield, Michael J. Wingfield, E. Sauerman, Danielle Roodt, M.A. van der Nest, Conrad Trollip, and T. Godlonton

Subjects

Genetics, biology, Ceratocystidaceae, Plant Science, biology.organism_classification

Published

2015