Your search keyword '"Bezuidt O"' showing total 13 results

1. Gene exchange networks define species-like units in marine prokaryotes

Author

Stepanauskas, R., primary, Brown, J.M., additional, Mai, U., additional, Bezuidt, O., additional, Pachiadaki, M., additional, Brown, J., additional, Biller, S.J., additional, Berube, P.M., additional, Record, N.R., additional, and Mirarab, S., additional

Published

2020

2. Whole Genome Sequence Comparisons in Taxonomy

Author

Borriss, R., Rückert, Christian, Blom, Jochen, Bezuidt, O., Reva, O., Klenk, H.P., Rainey, F., and Oren, A.

Subjects

Genetics, Comparative genomics, Whole genome sequencing, In silico, Microbial Taxonomy, Genomics, Genome project, Computational biology, Biology, Gene, Genome, health care economics and organizations, humanities

Abstract

This chapter is devoted to the application of whole genome sequence comparisons in taxonomy. In principle there are three basic approaches: (1) genome indexes, increasingly used as an ‘in silico’ alternative to the experimental DNA–DNA hybridization (DDH); (2) gene content, its successful application depends on the number of genome sequences available for this analysis; and (3) multiple aligned (gene) sequence datasets. In this chapter, we have presented several methods that are practicable for the non-experienced scientist with a background in microbial taxonomy for estimating those genomic parameters. We are sure that further development in the field will facilitate use of genomics as an essential part of prokaryote taxonomy.

Published

2011

3. WS22.6 The Pseudomonas aeruginosa pangenome: Impact of genomic diversity on bacterial pathogenicity and host response in airway infections

Author

Dethlefsen, S., primary, Munder, A., additional, Bezuidt, O., additional, Fischer, S., additional, Hilker, R., additional, Klockgether, J., additional, Voigt, B., additional, Wiölbeling, F., additional, Hecker, M., additional, Goesmann, A., additional, Gulbins, E., additional, and Tümmler, B., additional

Published

2013

4. Linguistic Analysis of Genomic Islands Revealed Recent Acquisition of Genetic Materials by Mycobacterium tuberculosis from alpha-Proteobacteria.

Author

Reva, O.N. and Bezuidt, O.

Published

2011

5. Application of genome linguistic approaches for identification of genomic island in bacterial genomes and tracking down their origins: Genome linguistics to visualize horizontal gene exchange

Author

Bezuidt, O., Mncube, K., and Oleg Reva

6. Ancestral Absence of Electron Transport Chains in Patescibacteria and DPANN.

Author

Beam JP, Becraft ED, Brown JM, Schulz F, Jarett JK, Bezuidt O, Poulton NJ, Clark K, Dunfield PF, Ravin NV, Spear JR, Hedlund BP, Kormas KA, Sievert SM, Elshahed MS, Barton HA, Stott MB, Eisen JA, Moser DP, Onstott TC, Woyke T, and Stepanauskas R

Abstract

Recent discoveries suggest that the candidate superphyla Patescibacteria and DPANN constitute a large fraction of the phylogenetic diversity of Bacteria and Archaea. Their small genomes and limited coding potential have been hypothesized to be ancestral adaptations to obligate symbiotic lifestyles. To test this hypothesis, we performed cell-cell association, genomic, and phylogenetic analyses on 4,829 individual cells of Bacteria and Archaea from 46 globally distributed surface and subsurface field samples. This confirmed the ubiquity and abundance of Patescibacteria and DPANN in subsurface environments, the small size of their genomes and cells, and the divergence of their gene content from other Bacteria and Archaea. Our analyses suggest that most Patescibacteria and DPANN in the studied subsurface environments do not form specific physical associations with other microorganisms. These data also suggest that their unusual genomic features and prevalent auxotrophies may be a result of ancestral, minimal cellular energy transduction mechanisms that lack respiration, thus relying solely on fermentation for energy conservation., (Copyright © 2020 Beam, Becraft, Brown, Schulz, Jarett, Bezuidt, Poulton, Clark, Dunfield, Ravin, Spear, Hedlund, Kormas, Sievert, Elshahed, Barton, Stott, Eisen, Moser, Onstott, Woyke and Stepanauskas.)

Published

2020

7. Charting the Complexity of the Marine Microbiome through Single-Cell Genomics.

Author

Pachiadaki MG, Brown JM, Brown J, Bezuidt O, Berube PM, Biller SJ, Poulton NJ, Burkart MD, La Clair JJ, Chisholm SW, and Stepanauskas R

Subjects

Archaea classification, Archaea genetics, Bacteria classification, Bacteria genetics, Energy Metabolism, Metagenomics methods, Phylogeography, Plankton, Single-Cell Analysis methods, Transcriptome, Metagenome, Microbiota, Seawater microbiology

Abstract

Marine bacteria and archaea play key roles in global biogeochemistry. To improve our understanding of this complex microbiome, we employed single-cell genomics and a randomized, hypothesis-agnostic cell selection strategy to recover 12,715 partial genomes from the tropical and subtropical euphotic ocean. A substantial fraction of known prokaryoplankton coding potential was recovered from a single, 0.4 mL ocean sample, which indicates that genomic information disperses effectively across the globe. Yet, we found each genome to be unique, implying limited clonality within prokaryoplankton populations. Light harvesting and secondary metabolite biosynthetic pathways were numerous across lineages, highlighting the value of single-cell genomics to advance the identification of ecological roles and biotechnology potential of uncultured microbial groups. This genome collection enabled functional annotation and genus-level taxonomic assignments for >80% of individual metagenome reads from the tropical and subtropical surface ocean, thus offering a model to improve reference genome databases for complex microbiomes., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

8. Active Fungal Communities in Asymptomatic Eucalyptus grandis Stems Differ between a Susceptible and Resistant Clone.

Author

Messal M, Slippers B, Naidoo S, Bezuidt O, and Kemler M

Abstract

Fungi represent a common and diverse part of the microbial communities that associate with plants. They also commonly colonise various plant parts asymptomatically. The molecular mechanisms of these interactions are, however, poorly understood. In this study we use transcriptomic data from Eucalyptus grandis, to demonstrate that RNA-seq data are a neglected source of information to study fungal-host interactions, by exploring the fungal transcripts they inevitably contain. We identified fungal transcripts from E. grandis data based on their sequence dissimilarity to the E. grandis genome and predicted biological functions. Taxonomic classifications identified, amongst other fungi, many well-known pathogenic fungal taxa in the asymptomatic tissue of E. grandis . The comparison of a clone of E. grandis resistant to Chrysoporthe austroafricana with a susceptible clone revealed a significant difference in the number of fungal transcripts, while the number of fungal taxa was not substantially affected. Classifications of transcripts based on their respective biological functions showed that the fungal communities of the two E. grandis clones associate with fundamental biological processes, with some notable differences. To shield the greater host defence machinery in the resistant E. grandis clone, fungi produce more secondary metabolites, whereas the environment for fungi associated with the susceptible E. grandis clone is more conducive for building fungal cellular structures and biomass growth. Secreted proteins included carbohydrate active enzymes that potentially are involved in fungal-plant and fungal-microbe interactions. While plant transcriptome datasets cannot replace the need for designed experiments to probe plant-microbe interactions at a molecular level, they clearly hold potential to add to the understanding of the diversity of plant-microbe interactions.

Published

2019

9. A metagenomic viral discovery approach identifies potential zoonotic and novel mammalian viruses in Neoromicia bats within South Africa.

Author

Geldenhuys M, Mortlock M, Weyer J, Bezuidt O, Seamark ECJ, Kearney T, Gleasner C, Erkkila TH, Cui H, and Markotter W

Subjects

Adenoviridae genetics, Adenoviridae pathogenicity, Animals, Chiroptera physiology, Computational Biology, Coronavirus genetics, Coronavirus pathogenicity, Coronavirus Infections veterinary, Gastrointestinal Tract physiology, Gastrointestinal Tract virology, Genetic Variation, Herpesviridae genetics, Herpesviridae pathogenicity, High-Throughput Nucleotide Sequencing, Humans, Metagenomics methods, Phylogeny, Phylogeography, Sequence Analysis, DNA, South Africa, Chiroptera virology, Coronavirus Infections virology, Genome, Viral genetics, Mammals virology, Zoonoses virology

Abstract

Species within the Neoromicia bat genus are abundant and widely distributed in Africa. It is common for these insectivorous bats to roost in anthropogenic structures in urban regions. Additionally, Neoromicia capensis have previously been identified as potential hosts for Middle East respiratory syndrome (MERS)-related coronaviruses. This study aimed to ascertain the gastrointestinal virome of these bats, as viruses excreted in fecal material or which may be replicating in rectal or intestinal tissues have the greatest opportunities of coming into contact with other hosts. Samples were collected in five regions of South Africa over eight years. Initial virome composition was determined by viral metagenomic sequencing by pooling samples and enriching for viral particles. Libraries were sequenced on the Illumina MiSeq and NextSeq500 platforms, producing a combined 37 million reads. Bioinformatics analysis of the high throughput sequencing data detected the full genome of a novel species of the Circoviridae family, and also identified sequence data from the Adenoviridae, Coronaviridae, Herpesviridae, Parvoviridae, Papillomaviridae, Phenuiviridae, and Picornaviridae families. Metagenomic sequencing data was insufficient to determine the viral diversity of certain families due to the fragmented coverage of genomes and lack of suitable sequencing depth, as some viruses were detected from the analysis of reads-data only. Follow up conventional PCR assays targeting conserved gene regions for the Adenoviridae, Coronaviridae, and Herpesviridae families were used to confirm metagenomic data and generate additional sequences to determine genetic diversity. The complete coding genome of a MERS-related coronavirus was recovered with additional amplicon sequencing on the MiSeq platform. The new genome shared 97.2% overall nucleotide identity to a previous Neoromicia-associated MERS-related virus, also from South Africa. Conventional PCR analysis detected diverse adenovirus and herpesvirus sequences that were widespread throughout Neoromicia populations in South Africa. Furthermore, similar adenovirus sequences were detected within these populations throughout several years. With the exception of the coronaviruses, the study represents the first report of sequence data from several viral families within a Southern African insectivorous bat genus; highlighting the need for continued investigations in this regard.

Published

2018

10. Draft genome sequence of Massilia sp. KIM isolated from South African grassland biome soils.

Author

Vikram S, Govender N, Kabwe MH, Bezuidt O, and Makhalanyane TP

Abstract

Massilia sp. are aerobic, Gram-negative, rod-shaped bacteria that are found in air, water, and soils. Here we describe the draft genome sequence of Massilia sp. KIM, isolated from the South African grassland soils. The total length of the genome was estimated at 5.73 Mb, comprised of 17 contigs. The draft genome has been deposited in the DDBJ/EMBL/GenBank under the accession MVAD10000000 and is available for download at: https://www.ncbi.nlm.nih.gov/nuccore/MVAD00000000. Additionally, the raw short reads are available in the NCBI SRA database under the accession number: SRR5469241.

Published

2017

11. Pre_GI: a global map of ontological links between horizontally transferred genomic islands in bacterial and archaeal genomes.

Author

Pierneef R, Cronje L, Bezuidt O, and Reva ON

Subjects

Archaea genetics, Bacteria genetics, Databases, Nucleic Acid, Gene Ontology, Gene Transfer, Horizontal, Genome, Archaeal, Genome, Bacterial

Abstract

The Predicted Genomic Islands database (Pre_GI) is a comprehensive repository of prokaryotic genomic islands (islands, GIs) freely accessible at http://pregi.bi.up.ac.za/index.php. Pre_GI, Version 2015, catalogues 26 744 islands identified in 2407 bacterial/archaeal chromosomes and plasmids. It provides an easy-to-use interface which allows users the ability to query against the database with a variety of fields, parameters and associations. Pre_GI is constructed to be a web-resource for the analysis of ontological roads between islands and cartographic analysis of the global fluxes of mobile genetic elements through bacterial and archaeal taxonomic borders. Comparison of newly identified islands against Pre_GI presents an alternative avenue to identify their ontology, origin and relative time of acquisition. Pre_GI aims to aid research on horizontal transfer events and materials through providing data and tools for holistic investigation of migration of genes through ecological niches and taxonomic boundaries., (© The Author(s) 2015. Published by Oxford University Press.)

Published

2015

12. Distribution of horizontally transferred heavy metal resistance operons in recent outbreak bacteria.

Author

Reva O and Bezuidt O

Abstract

Mankind is confronted by the outbreaks of highly virulent and multi-drug resistant pathogens. The outbreak strains often belong to well-known diseases associated species such as Salmonella, Klebsiella and Mycobacterium, but even normally commensal and environmental microorganisms may suddenly acquire properties of virulent bacteria and cause nosocomial infections. The acquired virulence is often associated with lateral exchange of pathogenicity genomic islands containing drug and heavy metal resistance determinants. Metal ions are used by the immune system of macro-organisms against bactericidal agents. The ability to control heavy metal homeostasis is a factor that allows the survival of pathogenic microorganisms in macrophages. In this paper, we investigate the origin of heavy metal resistance operons in the recent outbreak strains and the possible routes which may lead to acquisitions of these genes by potentially new pathogens. We hypothesize that new outbreak microorganisms appear intermittently on an intersection of the non-specialized, genetically naïve strains of potential pathogens and virulence factor comprising vectors (plasmid and/or phages) newly generated in the environmental microflora. Global contamination of the environment and climate change may also have an effect toward the acceleration and appearance of new pathogens.

Published

2012

13. Mainstreams of horizontal gene exchange in enterobacteria: consideration of the outbreak of enterohemorrhagic E. coli O104:H4 in Germany in 2011.

Author

Bezuidt O, Pierneef R, Mncube K, Lima-Mendez G, and Reva ON

Subjects

Animals, Base Sequence, Cattle, Cluster Analysis, CpG Islands genetics, Escherichia coli Infections genetics, Germany epidemiology, Humans, Molecular Sequence Annotation, Plasmids genetics, Sequence Homology, Nucleic Acid, Disease Outbreaks, Enterohemorrhagic Escherichia coli genetics, Escherichia coli Infections epidemiology, Escherichia coli Infections microbiology, Gene Transfer, Horizontal genetics

Abstract

Background: Escherichia coli O104:H4 caused a severe outbreak in Europe in 2011. The strain TY-2482 sequenced from this outbreak allowed the discovery of its closest relatives but failed to resolve ways in which it originated and evolved. On account of the previous statement, may we expect similar upcoming outbreaks to occur recurrently or spontaneously in the future? The inability to answer these questions shows limitations of the current comparative and evolutionary genomics methods., Principal Findings: The study revealed oscillations of gene exchange in enterobacteria, which originated from marine γ-Proteobacteria. These mobile genetic elements have become recombination hotspots and effective 'vehicles' ensuring a wide distribution of successful combinations of fitness and virulence genes among enterobacteria. Two remarkable peculiarities of the strain TY-2482 and its relatives were observed: i) retaining the genetic primitiveness by these strains as they somehow avoided the main fluxes of horizontal gene transfer which effectively penetrated other enetrobacteria; ii) acquisition of antibiotic resistance genes in a plasmid genomic island of β-Proteobacteria origin which ontologically is unrelated to the predominant genomic islands of enterobacteria., Conclusions: Oscillations of horizontal gene exchange activity were reported which result from a counterbalance between the acquired resistance of bacteria towards existing mobile vectors and the generation of new vectors in the environmental microflora. We hypothesized that TY-2482 may originate from a genetically primitive lineage of E. coli that has evolved in confined geographical areas and brought by human migration or cattle trade onto an intersection of several independent streams of horizontal gene exchange. Development of a system for monitoring the new and most active gene exchange events was proposed.

Published

2011