Your search keyword '"Vincent, Antony T."' showing total 12 results

1. Specific amino acid changes correlate with pathogenic flavobacteria.

Author

Gélinas V, Paquet V, Paquet M, Charette S, and Vincent A

Subjects

Animals, Bacterial Proteins genetics, Fish Diseases microbiology, Genome, Bacterial, Amino Acid Substitution, Flavobacteriaceae Infections microbiology, Flavobacteriaceae Infections veterinary, Flavobacterium genetics, Phylogeny, Fishes microbiology

Abstract

Flavobacterium is a genus of microorganisms living in a variety of hosts and habitats across the globe. Some species are found in fish organs, and only a few, such as Flavobacterium psychrophilum and Flavobacterium columnare , cause severe disease and losses in fish farms. The evolution of flavobacteria that are pathogenic to fish is unknown, and the protein changes accountable for the selection of their colonization to fish have yet to be determined. A phylogenetic tree was constructed with the complete genomic sequences of 208 species of the Flavobacterium genus using 861 softcore genes. This phylogenetic analysis revealed clade CII comprising nine species, including five pathogenic species, and containing the most species that colonize fish. Thirteen specific amino acid changes were found to be conserved across 11 proteins within the CII clade compared with other clades, and these proteins were enriched in functions related to replication, recombination, and repair. Several of these proteins are known to be involved in pathogenicity and fitness adaptation in other bacteria. Some of the observed amino acid changes can be explained by preferential selection for certain codons and tRNA frequency. These results could help explain how species belonging to the CII clade adapt to fish environments., Competing Interests: The authors declare there are no competing interests.

Published

2024

2. Novel endophytic fungal species Pithoascus kurdistanensis producing morphine compounds.

Author

Mohammadi S, Bahramnejad B, Abdollahzadeh J, Bashiri S, Vincent AT, Majdi M, Soltani J, and Levesque RC

Subjects

Ascomycota metabolism, Ascomycota genetics, Ascomycota isolation & purification, Iran, Alkaloids, Endophytes metabolism, Endophytes genetics, Phylogeny, Morphine, Papaver microbiology, Papaver metabolism

Abstract

Papaver genus, commonly known as popies, is a valuable source of alkaloids used in medicine, including papaverine, morphine, codeine, and thebaine. We isolated six endophytic fungal isolates producing morphinan alkaloids from four Papaver species growing in Kurdistan Province, Iran. To do this, a 1:1 mixture of methanol and chloroform was used to extract fungal cultures. The contents of morphinan alkaloids in the extracts were subsequently determined using phase high-performance liquid chromatography. Among the morphinan alkaloid-producing fungal isolates, IRAN 4653C had the highest yield giving 23.06 (mg/g) morphine and 2.03 (mg/g) codeine when grown in potato dextrose liquid medium. The identity of this isolate was examined and recognized as a new fungal species named as Pithoascus kurdistanesis sp. nov. based on multi-gene phylogenetic analyses of ITS, TEF-1α, and TUB2 sequences data and morphological features. The morphinan-producing endophytic fungus and the isolated Pithoascus species from Papaver are being reported for the first time. Accordingly, this fungus shows promise as a new source of valuable compounds which is illustrated and introduced here as a new Microascaceae member belonging to Pithoascus from Kurdistan Province, Iran. Moreover, the morphinan productivity of P. kurdistanesis was further validated by gas chromatography-mass spectrometry (GC-MS)., (© 2024. The Author(s).)

Published

2024

3. Whole-genome-based taxonomy as the most accurate approach to identify Flavobacterium species.

Author

Gélinas V, Paquet VE, Paquet MF, Vincent AT, and Charette SJ

Subjects

DNA Gyrase genetics, Genotype, Flavobacteriaceae Infections microbiology, DNA, Bacterial genetics, Animals, Flavobacterium genetics, Flavobacterium classification, Flavobacterium isolation & purification, Genome, Bacterial, Phylogeny

Abstract

The genus Flavobacterium comprises a diversity of species, including fish pathogens. Multiple techniques have been used to identify isolates of this genus, such as phenotyping, polymerase chain reaction genotyping, and in silico whole-genome taxonomy. In this study, we demonstrate that whole-genome-based taxonomy, using average nucleotide identity and molecular phylogeny, is the most accurate approach for Flavobacterium species. We obtained various isolated strains from official collections; these strains had been previously characterized by a third party using various identification methodologies. We analyzed isolates by PCR genotyping using previously published primers targeting gyrB and gyrA genes, which are supposedly specific to the genus Flavobacterium and Flavobacterium psychrophilum, respectively. After genomic analysis, nearly half of the isolates had their identities re-evaluated: around a quarter of them were re-assigned to other genera and two isolates are new species of flavobacteria. In retrospect, the phenotyping method was the least accurate. While gyrB genotyping was accurate with the isolates included in this study, bioinformatics analysis suggests that only 70% of the Flavobacterium species could be appropriately identified using this approach. We propose that whole-genome taxonomy should be used for accurate Flavobacterium identification, and we encourage bacterial collections to review the identification of isolates identified by phenotyping., (© The Author(s) 2024. Published by Oxford University Press on behalf of FEMS.)

Published

2024

4. Characterization of Aeromonas salmonicida mesophilic isolates from Alberta (Canada) allows the development of a more sensitive Dictyostelium discoideum predation test.

Author

St-Laurent RE, Vincent AT, Paquet VE, Leduc GR, Lorenc N, Ronholm J, Liu X, and Charette SJ

Subjects

Alberta, Animals, Dictyostelium microbiology, Dictyostelium physiology, Aeromonas salmonicida genetics, Aeromonas salmonicida isolation & purification, Aeromonas salmonicida physiology, Aeromonas salmonicida classification, Phylogeny

Abstract

Aeromonas salmonicida is studied using Dictyostelium discoideum as a model host, with predation resistance measured as a key parameter. Aeromonas salmonicida mesophilic isolates exhibit inconclusive results with the amoebic model. This study focuses on new mesophilic isolates (S24-S38, S26-S10, and S28-S20) from Alberta, Canada, and introduces an improved predation test method. Phylogenetic analysis reveals two subgroups, with S24-S38 and S26-S10 clustering with the subspecies pectinolytica from Argentina, and S28-S20 with strains from India (Y567) and Spain (AJ83), showcasing surprising mesophilic strain diversity across geographic locations. Predation tests were carried out with various mesophilic and psychrophilic strains of A. salmonicida, including Alberta isolates. The amoeba cell lines used were DH1-10 and AX2. Although the mesophilic isolates were very resistant to predation by the amoeba DH1-10, some lost this resistance to the AX2 strain, which appeared more voracious in the conditions tested. In addition, when diluting the culture medium used in a predation test with AX2, a loss of the capacity to predation resistance was observed for all the mesophilic isolates, including the highly resistant S28-S20 isolate. This study provides insights into the predation resistance of A. salmonicida isolates and offers avenues for better characterizing mesophilic isolates., (© The Author(s) 2024. Published by Oxford University Press on behalf of FEMS.)

Published

2024

5. Leptospira ainlahdjerensis sp. nov., Leptospira ainazelensis sp. nov., Leptospira abararensis sp. nov. and Leptospira chreensis sp. nov., four new species isolated from water sources in Algeria.

Author

Korba AA, Lounici H, Kainiu M, Vincent AT, Mariet JF, Veyrier FJ, Goarant C, and Picardeau M

Subjects

Algeria, Bacterial Typing Techniques, Base Composition, DNA, Bacterial genetics, Fatty Acids chemistry, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Fresh Water microbiology, Leptospira classification, Leptospira isolation & purification, Phylogeny

Abstract

Leptospira strains were isolated from freshwater sampled at four sites in Algeria and characterized by whole-genome sequencing and matrix-assisted laser desorption ionization-time of flight mass spectrometry (MALDI-TOF MS). The cells were spiral-shaped and motile. Phylogenetic and MALDI-TOF MS analyses showed that the strains can be clearly distinguished from the other described species in the genus Leptospir a, therefore representing two novel species of the pathogen subclade P1 and two novel species of the saprophyte subclade S1. The names Leptospira ainlahdjerensis sp. nov. (type strain 201903070 T =KIT0297 T =CIP111912 T ), Leptospira ainazelensis sp. nov. (201903071 T =KIT0298 T =CIP111913 T ), Leptospira abararensis sp. nov. (201903074 T =KIT0299 T =CIP111914 T ) and Leptospira chreensis (201903075 T =KIT0300 T =CIP111915 T ) are proposed.

Published

2021

6. The Pseudomonas aeruginosa Pan-Genome Provides New Insights on Its Population Structure, Horizontal Gene Transfer, and Pathogenicity.

Author

Freschi L, Vincent AT, Jeukens J, Emond-Rheault JG, Kukavica-Ibrulj I, Dupont MJ, Charette SJ, Boyle B, and Levesque RC

Subjects

Drug Resistance, Bacterial genetics, Pseudomonas aeruginosa pathogenicity, Virulence genetics, Gene Transfer, Horizontal, Genetic Variation, Phylogeny, Pseudomonas aeruginosa genetics

Abstract

The huge increase in the availability of bacterial genomes led us to a point in which we can investigate and query pan-genomes, for example, the full set of genes of a given bacterial species or clade. Here, we used a data set of 1,311 high-quality genomes from the human pathogen Pseudomonas aeruginosa, 619 of which were newly sequenced, to show that a pan-genomic approach can greatly refine the population structure of bacterial species, provide new insights to define species boundaries, and generate hypotheses on the evolution of pathogenicity. The 665-gene P. aeruginosa core genome presented here, which constitutes only 1% of the entire pan-genome, is the first to be in the same order of magnitude as the minimal bacterial genome and represents a conservative estimate of the actual core genome. Moreover, the phylogeny based on this core genome provides strong evidence for a five-group population structure that includes two previously undescribed groups of isolates. Comparative genomics focusing on antimicrobial resistance and virulence genes showed that variation among isolates was partly linked to this population structure. Finally, we hypothesized that horizontal gene transfer had an important role in this respect, and found a total of 3,010 putative complete and fragmented plasmids, 5% and 12% of which contained resistance or virulence genes, respectively. This work provides data and strategies to study the evolutionary trajectories of resistance and virulence in P. aeruginosa.

Published

2019

7. Increasing genomic diversity and evidence of constrained lifestyle evolution due to insertion sequences in Aeromonas salmonicida.

Author

Vincent AT, Trudel MV, Freschi L, Nagar V, Gagné-Thivierge C, Levesque RC, and Charette SJ

Subjects

Aeromonas salmonicida pathogenicity, Animals, Base Composition genetics, DNA Transposable Elements genetics, Fish Diseases genetics, Fish Diseases parasitology, Fishes parasitology, Humans, Aeromonas salmonicida genetics, Genetic Variation, Genome, Phylogeny

Abstract

Background: Aeromonads make up a group of Gram-negative bacteria that includes human and fish pathogens. The Aeromonas salmonicida species has the peculiarity of including five known subspecies. However, few studies of the genomes of A. salmonicida subspecies have been reported to date., Results: We sequenced the genomes of additional A. salmonicida isolates, including three from India, using next-generation sequencing in order to gain a better understanding of the genomic and phylogenetic links between A. salmonicida subspecies. Their relative phylogenetic positions were confirmed by a core genome phylogeny based on 1645 gene sequences. The Indian isolates, which formed a sub-group together with A. salmonicida subsp. pectinolytica, were able to grow at either at 18 °C and 37 °C, unlike the A. salmonicida psychrophilic isolates that did not grow at 37 °C. Amino acid frequencies, GC content, tRNA composition, loss and gain of genes during evolution, pseudogenes as well as genes under positive selection and the mobilome were studied to explain this intraspecies dichotomy., Conclusion: Insertion sequences appeared to be an important driving force that locked the psychrophilic strains into their particular lifestyle in order to conserve their genomic integrity. This observation, based on comparative genomics, is in agreement with previous results showing that insertion sequence mobility induced by heat in A. salmonicida subspecies causes genomic plasticity, resulting in a deleterious effect on the virulence of the bacterium. We provide a proof-of-concept that selfish DNAs play a major role in the evolution of bacterial species by modeling genomes.

Published

2016

8. CAPRIB: a user-friendly tool to study amino acid changes and selection for the exploration of intra-genus evolution

Author

Guerra Maldonado, Juan F., Vincent, Antony T., Chenal, Martin, and Veyrier, Frederic J.

Published

2020

9. Aeromonas salmonicida isolates from Canada demonstrate wide distribution and clustering among mesophilic strains.

Author

Attéré, Sabrina A., Gagné-Thivierge, Cynthia, Paquet, Valérie E., Leduc, Gabrielle R., Vincent, Antony T., and Charette, Steve J.

Subjects

AEROMONAS salmonicida, DICTYOSTELIUM discoideum, FISH farming, AEROMONAS hydrophila, SUBSPECIES, AEROMONAS

Abstract

All the 36 known species to date of the genus Aeromonas are mesophilic except the species Aeromonas salmonicida, which includes both psychrophilic and mesophilic subspecies. For 20 years, more and more mesophilic A. salmonicida strains have been discovered. Only A. salmonicida subsp. pectinolytica has officially been classified as a mesophilic subspecies. Most mesophiles have been isolated in hot countries. We present, for the first time, the characterization of two new mesophilic isolates from Quebec (Canada). Phenotypic and genomic characterizations were carried out on these strains, isolated from dead fish from a fish farm. Isolates 19-K304 and 19-K308 are clearly mesophiles, virulent to the amoeba Dictyostelium discoideum, a surrogate host, and close to strain Y577, isolated in India. To our knowledge, this is the first time that mesophilic strains isolated from different countries are so similar. The major difference between the isolates is the presence of plasmid pY47-3, a cryptic plasmid that sometimes presents in mesophilic strains. More importantly, our extensive phylogenetic analysis reveals two well-defined clades of mesophilic strains with psychrophiles associated with one of these clades. This helps to have a better understanding of the evolution of this species and the apparition of psychrophilic subspecies. [ABSTRACT FROM AUTHOR]

Published

2023

10. The oxidative stress response of pathogenic Leptospira is controlled by two peroxide stress regulators which putatively cooperate in controlling virulence

Author

Zavala-Alvarado, Crispin, G. Huete, Samuel, Vincent, Antony T., Sismeiro, Odile, Legendre, Rachel, Varet, Hugo, Bussotti, Giovanni, Lorioux, Céline, Lechat, Pierre, Coppée, Jean-Yves, Veyrier, Frédéric J., Picardeau, Mathieu, and Benaroudj, Nadia

Subjects

Models, Molecular, Virulence Factors, Pathology and Laboratory Medicine, Microbiology, Biochemistry, Regulon, Bacterial Proteins, Gene Types, Medicine and Health Sciences, Genetics, Gene Regulatory Networks, Leptospirosis, Amino Acid Sequence, Non-coding RNA, Gene Prediction, Microbial Pathogens, Phylogeny, Leptospira, Bacteria, Virulence, Organisms, Biology and Life Sciences, Computational Biology, Genomics, Gene Expression Regulation, Bacterial, Genome Analysis, Adaptation, Physiological, Bacterial Pathogens, Nucleic acids, Mutant Strains, Repressor Proteins, Leptospira Interrogans, Oxidative Stress, Medical Microbiology, Mutation, Regulator Genes, RNA, Pathogens, Sequence Alignment, Research Article

Abstract

Pathogenic Leptospira are the causative agents of leptospirosis, the most widespread zoonotic infectious disease. Leptospirosis is a potentially severe and life-threatening emerging disease with highest burden in sub-tropical areas and impoverished populations. Mechanisms allowing pathogenic Leptospira to survive inside a host and induce acute leptospirosis are not fully understood. The ability to resist deadly oxidants produced by the host during infection is pivotal for Leptospira virulence. We have previously shown that genes encoding defenses against oxidants in L. interrogans are repressed by PerRA (encoded by LIMLP_10155), a peroxide stress regulator of the Fur family. In this study, we describe the identification and characterization of another putative PerR-like regulator (LIMLP_05620) in L. interrogans. Protein sequence and phylogenetic analyses indicated that LIMLP_05620 displayed all the canonical PerR amino acid residues and is restricted to pathogenic Leptospira clades. We therefore named this PerR-like regulator PerRB. In L. interrogans, the PerRB regulon is distinct from that of PerRA. While a perRA mutant had a greater tolerance to peroxide, inactivating perRB led to a higher tolerance to superoxide, suggesting that these two regulators have a distinct function in the adaptation of L. interrogans to oxidative stress. The concomitant inactivation of perRA and perRB resulted in a higher tolerance to both peroxide and superoxide and, unlike the single mutants, a double perRAperRB mutant was avirulent. Interestingly, this correlated with major changes in gene and non-coding RNA expression. Notably, several virulence-associated genes (clpB, ligA/B, and lvrAB) were repressed. By obtaining a double mutant in a pathogenic Leptospira strain, our study has uncovered an interplay of two PerRs in the adaptation of Leptospira to oxidative stress with a putative role in virulence and pathogenicity, most likely through the transcriptional control of a complex regulatory network., Author summary Leptospirosis is a widespread infectious disease responsible for over one million of severe cases and 60 000 fatalities annually worldwide. This neglected and emerging disease has a worldwide distribution, but it mostly affects populations from developing countries in sub-tropical areas. The causative agents of leptospirosis are pathogenic bacterial Leptospira spp. There is a considerable deficit in our knowledge of these atypical bacteria, including their virulence mechanisms. In addition to the Leptospira PerRA regulator that represses defenses against peroxide, we have identified and characterized a second PerR regulator in pathogenic Leptospira species (PerRB) that participates in Leptospira tolerance to superoxide. Phenotypic and transcriptomic analyses of single PerRA and PerRB mutants suggest that the two PerRs fulfill distinct functions in the adaptation to oxidative stress. Concomitant inactivation of PerRA and PerRB resulted in a higher tolerance to both peroxide and superoxide. Moreover, the perRAperRB mutant lost its virulence. Major changes in gene expression, including a decreased expression of several virulence factors, were observed in the double perRAperRB mutant. Our study suggests that PerRA and PerRB cooperate to orchestrate a complex regulatory network involved in Leptospira virulence.

Published

2021

11. A Pan-Genomic Approach to Understand the Basis of Host Adaptation in Achromobacter.

Author

Jeukens, Julie, Freschi, Luca, Vincent, Antony T., Emond-Rheault, Jean-Guillaume, Kukavica-Ibrulj, Irena, Charette, Steve J., and Levesque, Roger C.

Subjects

ACHROMOBACTER, HORIZONTAL gene transfer, GENOMICS, PHYLOGENY, PATHOGENIC microorganisms

Abstract

Over the past decade, there has been a rising interest in Achromobacter sp., an emerging opportunistic pathogen responsible for nosocomial and cystic fibrosis lung infections. Species of this genus are ubiquitous in the environment, can outcompete resident microbiota, and are resistant to commonly used disinfectants as well as antibiotics. Nevertheless, the Achromobacter genus suffers from difficulties in diagnosis, unresolved taxonomy and limited understanding of how it adapts to the cystic fibrosis lung, not to mention other host environments. The goals of this first genus-wide comparative genomics study were to clarify the taxonomy of this genus and identify genomic features associated with pathogenicity and host adaptation. This was done with a widely applicable approach based on pan-genome analysis. First, using all publicly available genomes, a combination of phylogenetic analysis based on 1,780 conserved genes with average nucleotide identity and accessory genome composition allowed the identification of a largely clinical lineage composed of Achromobacter xylosoxidans, Achromobacter insuavis, Achromobacter dolens, and Achromobacter ruhlandii. Within this lineage, we identified 35 positively selected genes involved in metabolism, regulation and efflux-mediated antibiotic resistance. Second, resistome analysis showed that this clinical lineage carried additional antibiotic resistance genes compared with other isolates. Finally, we identified putative mobile elements that contribute 53% of the genus's resistome and support horizontal gene transfer between Achromobacter and other ecologically similar genera. This study provides strong phylogenetic and pan-genomic bases to motivate further research on Achromobacter, and contributes to the understanding of opportunistic pathogen evolution. [ABSTRACT FROM AUTHOR]

Published

2017

12. To Be or Not to Be Mesophilic, That Is the Question for Aeromonas salmonicida.

Author

Vincent, Antony T. and Charette, Steve J.

Subjects

AEROMONAS salmonicida, MOBILE genetic elements, FISH pathogens, FISH farming, BERYLLIUM, ECOLOGICAL niche

Abstract

The bacterium Aeromonas salmonicida has long been known to be one of the most feared pathogens in fish farming. However, the more we discover about this bacterial species, the more we question whether it is really exclusively an aquatic pathogen. In recent years, it has become obvious that this bacterial species includes a myriad of strains with various lifestyle and ecological niches, including the well-known strict psychrophiles, the first bacteria known of the species, and the newly described mesophilic strains. The mesophiles are able to grow at low temperatures, but even better at temperatures of approximately 37 °C, which strict psychrophiles cannot do. In this perspective article, we address some aspects surrounding this dual lifestyle in A. salmonicida, including the impact of mobile genetic elements, and how future research around this bacterial species may focus on the psychrophilic/mesophilic dichotomy, which makes A. salmonicida an increasingly interesting and relevant model for the study of speciation. [ABSTRACT FROM AUTHOR]

Published

2022