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MBio Jun 2024Temperate phage-mediated horizontal gene transfer is a potent driver of genetic diversity in the evolution of bacteria. Most lambdoid prophages in are integrated into...
Temperate phage-mediated horizontal gene transfer is a potent driver of genetic diversity in the evolution of bacteria. Most lambdoid prophages in are integrated into the chromosome with the same orientation with respect to the direction of chromosomal replication, and their location on the chromosome is far from homogeneous. To better understand these features, we studied the interplay between lysogenic and lytic states of phage lambda in both native and inverted integration orientations at the wild-type integration site as well as at other sites on the bacterial chromosome. Measurements of free phage released by spontaneous induction showed that the stability of lysogenic states is affected by location and orientation along the chromosome, with stronger effects near the origin of replication. Competition experiments and range expansions between lysogenic strains with opposite orientations and insertion loci indicated that there are no major differences in growth. Moreover, measurements of the level of transcriptional bursts of the gene coding for the lambda phage repressor using single-molecule fluorescence hybridization resulted in similar levels of transcription for both orientations and prophage location. We postulate that the preference for a given orientation and location is a result of a balance between the maintenance of lysogeny and the ability to lyse.IMPORTANCEThe integration of genetic material of temperate bacterial viruses (phages) into the chromosomes of bacteria is a potent evolutionary force, allowing bacteria to acquire in one stroke new traits and restructure the information in their chromosomes. Puzzlingly, this genetic material is preferentially integrated in a particular orientation and at non-random sites on the bacterial chromosome. The work described here reveals that the interplay between the maintenance of the stability of the integrated phage, its ability to excise, and its localization along the chromosome plays a key role in setting chromosomal organization in .
PubMed: 38888367
DOI: 10.1128/mbio.02078-23 -
BMC Microbiology Jun 2024Bergeyella porcorum is a newly identified bacterium that has an ambiguous relationship with pneumonia in pigs. However, few studies have adequately characterized this...
BACKGROUND
Bergeyella porcorum is a newly identified bacterium that has an ambiguous relationship with pneumonia in pigs. However, few studies have adequately characterized this species.
RESULTS
In this study, we analyzed the morphological, physiological, and genomic characteristics of the newly identified B. porcorum sp. nov. strain QD2021 isolated from pigs. The complete genome sequence of the B. porcorum QD2021 strain consists of a single circular chromosome (2,271,736 bp, 38.51% G + C content), which encodes 2,578 genes. One plasmid with a size of 70,040 bp was detected. A total of 121 scattered repeat sequences, 319 tandem repeat sequences, 4 genomic islands, 5 prophages, 3 CRISPR sequences, and 51 ncRNAs were predicted. The coding genes of the B. porcorum genome were successfully annotated across eight databases (NR, GO, KEGG, COG, TCDB, Pfam, Swiss-Prot and CAZy) and four pathogenicity-related databases (PHI, CARD, VFDB and ARDB). In addition, a comparative genome analysis was performed to explore the evolutionary relationships of B. porcorum QD2021.
CONCLUSIONS
To our knowledge, this is the first study to provide fundamental phenotypic and whole-genome sequences for B. porcorum. Our results extensively expand the current knowledge and could serve as a valuable genomic resource for future research on B. porcorum.
Topics: Animals; China; Genome, Bacterial; Swine; Base Composition; Whole Genome Sequencing; Phylogeny; Flavobacteriaceae; Swine Diseases; DNA, Bacterial; Genomic Islands; Plasmids; Flavobacteriaceae Infections; Sequence Analysis, DNA; Molecular Sequence Annotation
PubMed: 38886642
DOI: 10.1186/s12866-024-03366-6 -
Current Microbiology Jun 2024Linezolid resistance in Enterococcus spp. is increasingly considered critically important and a public health threat which mandates the need to understand their genomic...
Linezolid resistance in Enterococcus spp. is increasingly considered critically important and a public health threat which mandates the need to understand their genomic contents and dissemination patterns. Here, we used whole-genome sequencing to characterize the resistome, virulome and mobile genetic elements of nine linezolid-resistant (LZD) enterococci (seven optrA-E. faecalis, one poxtA-E. faecium and one optrA-E. casseliflavus) previously obtained from the nares of healthy dogs, pigs, pig farmers and tracheal samples of nestling storks in Spain. Also, the relatedness of the isolates with publicly available genomes was accessed by core-genome single nucleotide polymorphism (SNP) analysis. The optrA gene of the E. faecalis and E. casseliflavus isolates was located downstream of the fexA gene. The optrA gene in the E. casseliflavus isolate was carried in a plasmid (pURX4962), while those in the seven E. faecalis isolates were chromosomally located. The OptrA proteins were mostly variants of wild type (DP-2: Y176D/T481P; RDK: I104R/Y176D/E256K; DD-3: Y176D/G393D; and EDD: K3E/Y176D/G393D), except two that were wild type (one E. faecalis and one E. casseliflavus). The poxtA gene in the E. faecium isolate was found alone within its contig. The cfrD was upstream of ermB gene in the E. casseliflavus isolate and flanked by ISNCY and IS1216. All the LZD enterococci carried plasmid rep genes (2-3) containing tetracycline, chloramphenicol and aminoglycoside resistance genes. All isolates except E. casseliflavus carried at least one intact prophage, of which E. faecalis-ST330 (X4957) from a pig carried the highest (n = 5). Tn6260 was associated with lnuG in E. faecalis-ST330 while Tn554 was with fexA in E. feaecalis-ST59 isolates. All except E. casseliflavus (n = 0) carried at least two metal resistance genes (MRGs), of which poxtA-carrying E. faecium-ST1739 isolate contained the most (arsA, copA, fief, ziaA, znuA, zosA, zupT, and zur). SNP-based analyses identified closely related optrA-E. faecalis isolates from a pig and a pig farmer on the same farm (SNP = 4). Moreover, optrA- carrying E. faecalis-ST32, -ST59, and -ST474 isolates from pigs were related to those previously described from humans (sick and healthy) and cattle in Spain, Belgium, and Switzerland (SNP range 43-86). These findings strongly suggest the transmission of LZD-E. faecalis between a pig and a pig farmer and potential inter-country dissemination. These highlight the need to strengthen molecular surveillance of LZD enterococci in all ecological niches and body parts to direct appropriate control strategies.
Topics: Animals; Phylogeny; Linezolid; Swine; Drug Resistance, Bacterial; Genome, Bacterial; Dogs; Anti-Bacterial Agents; Enterococcus; Gram-Positive Bacterial Infections; Humans; Whole Genome Sequencing; Spain; Polymorphism, Single Nucleotide; Microbial Sensitivity Tests; Bacterial Proteins; Genomics; Plasmids
PubMed: 38877167
DOI: 10.1007/s00284-024-03737-2 -
Microbiology Resource Announcements Jun 2024We have revealed the genomic sequence of strain Hakim RU_CBWP isolated from pond surface water. Our assembled genome covers 3.787 Mb with 45.5629× coverage, showcasing...
We have revealed the genomic sequence of strain Hakim RU_CBWP isolated from pond surface water. Our assembled genome covers 3.787 Mb with 45.5629× coverage, showcasing an average GC content of 38.60%. This genome contains two CRISPR arrays, 17 prophages, 22 antibiotic resistance genes, and 20 virulence factor genes.
PubMed: 38864657
DOI: 10.1128/mra.00440-24 -
Environmental Pollution (Barking, Essex... May 2024Staphylococcus aureus thrives at animal-human-environment interfaces. A large-scale work from our group indicated that antimicrobial resistance (AMR) in commensal S....
Staphylococcus aureus thrives at animal-human-environment interfaces. A large-scale work from our group indicated that antimicrobial resistance (AMR) in commensal S. aureus strains from wild ungulates is associated with agricultural land cover and livestock farming, raising the hypothesis that AMR genes in wildlife strains may originate from different hosts, namely via exchange of mobile genetic elements (MGE). In this work, we generate the largest available dataset of S. aureus draft genomes from wild ungulates in Portugal and explore their mobilome, which can determine important traits such as AMR, virulence, and host specificity, to understand MGE exchange. Core genome multi-locus sequence typing based on 98 newly generated draft genomes and 101 publicly available genomes from Portugal demonstrated that the genomic relatedness of S. aureus from wild ungulates assigned to livestock-associated sequence types (ST) is greater compared to wild ungulate isolates assigned to human-associated STs. Screening of host specificity determinants disclosed the unexpected presence in wildlife of the immune evasion cluster encoded in φSa3 prophage, described as a human-specific virulence determinant. Additionally, two plasmids, pAVX and pETB, previously associated with avian species and humans, respectively, and the Tn553 transposon were detected. Both pETB and Tn553 encode penicillin resistance through blaZ. Pangenome analysis of wild ungulate isolates shows a core genome fraction of 2133 genes, with isolates assigned to ST72 and ST3224 being distinguished from the remaining by MGEs, although there is no reported role of these in adaptation to wildlife. AMR related gene clusters found in the shell genome are directly linked to resistance against penicillin, macrolides, fosfomycin, and aminoglycosides, and they represent mobile ARGs. Altogether, our findings support epidemiological interactions of human and non-human hosts at interfaces, with MGE exchange, including AMR determinants, associated with putative indirect movements of S. aureus among human and wildlife hosts that might be bridged by livestock.
PubMed: 38825220
DOI: 10.1016/j.envpol.2024.124241 -
BMC Genomics Jun 2024Despite Spirochetales being a ubiquitous and medically important order of bacteria infecting both humans and animals, there is extremely limited information regarding...
BACKGROUND
Despite Spirochetales being a ubiquitous and medically important order of bacteria infecting both humans and animals, there is extremely limited information regarding their bacteriophages. Of the genus Treponema, there is just a single reported characterised prophage.
RESULTS
We applied a bioinformatic approach on 24 previously published Treponema genomes to identify and characterise putative treponemal prophages. Thirteen of the genomes did not contain any detectable prophage regions. The remaining eleven contained 38 prophage sequences, with between one and eight putative prophages in each bacterial genome. The prophage regions ranged from 12.4 to 75.1 kb, with between 27 and 171 protein coding sequences. Phylogenetic analysis revealed that 24 of the prophages formed three distinct sequence clusters, identifying putative myoviral and siphoviral morphology. ViPTree analysis demonstrated that the identified sequences were novel when compared to known double stranded DNA bacteriophage genomes.
CONCLUSIONS
In this study, we have started to address the knowledge gap on treponeme bacteriophages by characterising 38 prophage sequences in 24 treponeme genomes. Using bioinformatic approaches, we have been able to identify and compare the prophage-like elements with respect to other bacteriophages, their gene content, and their potential to be a functional and inducible bacteriophage, which in turn can help focus our attention on specific prophages to investigate further.
Topics: Prophages; Phylogeny; Treponema; Genomics; Genome, Bacterial; Computational Biology; Genome, Viral; Bacteriophages
PubMed: 38824509
DOI: 10.1186/s12864-024-10461-5 -
Frontiers in Microbiology 2024strains, which are often described as plant growth promoting (PGP) bacteria, are ubiquitous in many environments. A total of 213 genomes of strains of were analyzed...
strains, which are often described as plant growth promoting (PGP) bacteria, are ubiquitous in many environments. A total of 213 genomes of strains of were analyzed using comparative genomics to better understand the ecological roles of these bacteria in the environment. The pan-genome of the 213 strains of consists of 27,186 gene families, including 710 core gene families, 11,039 unique genes and 15,437 accessory genes. Nearly all strains of harbor the genes for GH3-family cellulose degradation and GH2- and GH31-family hemicellulose hydrolase, as well as intact glycolysis and tricarboxylic acid cycle pathways. These abilities suggest that the strains of this genus can easily obtain carbon and energy from the environment. The strains can respond to oxidative stress by synthesizing catalase, superoxide dismutase, methionine sulfoxide reductase, and disulfide isomerase, as well as managing their osmotic balance by accumulating potassium and synthesizing compatible solutes, such as betaine, trehalose, glutamate, and proline. Each strain also contains many genes for resistance to antibiotics and heavy metals. These genes that mediate stress tolerance increase the ability of strains to survive in extreme environments. In addition, many functional genes related to attachment and plant colonization, growth promotion and biocontrol were identified. In detail, the genes associated with flagellar assembly, motility, chemotaxis and biofilm formation enable the strains of to effectively colonize host plants. The presence of genes for phosphate-solubilization and siderophore production and the polyamine, indole-3-acetic acid, and cytokinin biosynthetic pathways confer the ability to promote plant growth. These strains can produce antimicrobial compounds, chitinases, lipases and proteases. Each genome contained 1-9 prophages and 17-60 genomic islands, and the genes related to antibiotic and heavy metal resistance and the biosynthesis of polyamines, indole-3-acetic acid, and cytokinin may be acquired by horizontal gene transfer. This study demonstrates that strains of are highly adaptable for different environments and have strong potential for use as plant growth-promoting bacteria.
PubMed: 38817968
DOI: 10.3389/fmicb.2024.1395477 -
Microorganisms May 2024The study used whole-genome sequencing (WGS) and bioinformatics analysis for the genomic characterization of 60 isolates of obtained from the beef production chain...
The study used whole-genome sequencing (WGS) and bioinformatics analysis for the genomic characterization of 60 isolates of obtained from the beef production chain (cattle farms, abattoirs, and retail outlets) in Gauteng province, South Africa. The sequence types (STs), clonal complexes (CCs), and the lineages of the isolates were determined using in silico multilocus sequence typing (MLST). We used BLAST-based analyses to identify virulence and antimicrobial genes, plasmids, proviruses/prophages, and the CRISPR-Cas system. The study investigated any association of the detected genes to the origin in the beef production chain of the isolates. Overall, in 60 isolates of , there were seven STs, six CCs, forty-four putative virulence factors, two resistance genes, one plasmid with AMR genes, and three with conjugative genes, one CRISPR gene, and all 60 isolates were positive for proviruses/prophages. Among the seven STs detected, ST204 (46.7%) and ST2 (21.7%) were the most prominent, with ST frequency varying significantly ( < 0.001). The predominant CC detected were CC2 (21.7%) and CC204 (46.7%) in lineages I and II, respectively. Of the 44 virulence factors detected, 26 (across Pathogenicity Islands, LIPIs) were present in all the isolates. The difference in the detection frequency varied significantly ( < 0.001). The two AMR genes ( and ()) detected were present in all 60 (100%) isolates of The only plasmid, NF033156, was present in three (5%) isolates. A CRISPR-Cas system was detected in six (10%), and all the isolates carried proviruses/prophages. The source and sample type significantly affected the frequencies of STs and virulence factors in the isolates of The presence of and () genes in all isolates obtained from the three industries of the beef production chain can potentially cause therapeutic implications. Our study, which characterized recovered from the three levels in the beef production chain, is the first time genomics was performed on this type of data set in the country, and this provides insights into the health implications of
PubMed: 38792832
DOI: 10.3390/microorganisms12051003 -
Microorganisms May 2024The group (Bs group), with as its core species, holds significant research and economic value in various fields, including science, industrial production, food, and...
The group (Bs group), with as its core species, holds significant research and economic value in various fields, including science, industrial production, food, and pharmaceuticals. However, most studies have been confined to comparative genomics analyses and exploration within individual genomes at the level of species, with few conducted within groups across different species. This study focused on , the model of Gram-positive bacteria, and 14 other species with significant research value, employing comparative pangenomics as well as population enrichment analysis to ascertain the functional enrichment and diversity. Through the quantification of pangenome openness, this work revealed the underlying biological drivers and significant correlation between pangenome openness and various factors, including the distribution of toxin-antitoxin- and integrase-related genes, as well as the number of endonucleases, recombinases, repair system-related genes, prophages, integrases, and transfer mobile elements. Furthermore, the functional enrichment results indicated the potential for secondary metabolite, probiotic, and antibiotic exploration in , , and , respectively. In general, this work systematically exposed the quantification of pangenome openness, biological drivers, the pivotal role of genomic instability factors, and mobile elements, providing targeted exploration guidance for the Bs group.
PubMed: 38792815
DOI: 10.3390/microorganisms12050986 -
Microbiome May 2024Antibiotics and microplastics are two major aquatic pollutants that have been associated to antibiotic resistance selection in the environment and are considered a risk...
BACKGROUND
Antibiotics and microplastics are two major aquatic pollutants that have been associated to antibiotic resistance selection in the environment and are considered a risk to human health. However, little is known about the interaction of these pollutants at environmental concentrations and the response of the microbial communities in the plastisphere to sub-lethal antibiotic pollution. Here, we describe the bacterial dynamics underlying this response in surface water bacteria at the community, resistome and mobilome level using a combination of methods (next-generation sequencing and qPCR), sequencing targets (16S rRNA gene, pre-clinical and clinical class 1 integron cassettes and metagenomes), technologies (short and long read sequencing), and assembly approaches (non-assembled reads, genome assembly, bacteriophage and plasmid assembly).
RESULTS
Our results show a shift in the microbial community response to antibiotics in the plastisphere microbiome compared to surface water communities and describe the bacterial subpopulations that respond differently to antibiotic and microplastic pollution. The plastisphere showed an increased tolerance to antibiotics and selected different antibiotic resistance bacteria (ARB) and antibiotic resistance genes (ARGs). Several metagenome assembled genomes (MAGs) derived from the antibiotic-exposed plastisphere contained ARGs, virulence factors, and genes involved in plasmid conjugation. These include Comamonas, Chryseobacterium, the opportunistic pathogen Stenotrophomonas maltophilia, and other MAGs belonging to genera that have been associated to human infections, such as Achromobacter. The abundance of the integron-associated ciprofloxacin resistance gene aac(6')-Ib-cr increased under ciprofloxacin exposure in both freshwater microbial communities and in the plastisphere. Regarding the antibiotic mobilome, although no significant changes in ARG load in class 1 integrons and plasmids were observed in polluted samples, we identified three ARG-containing viral contigs that were integrated into MAGs as prophages.
CONCLUSIONS
This study illustrates how the selective nature of the plastisphere influences bacterial response to antibiotics at sub-lethal selective pressure. The microbial changes identified here help define the selective role of the plastisphere and its impact on the maintenance of environmental antibiotic resistance in combination with other anthropogenic pollutants. This research highlights the need to evaluate the impact of aquatic pollutants in environmental microbial communities using complex scenarios with combined stresses. Video Abstract.
Topics: Anti-Bacterial Agents; Bacteria; Microbiota; RNA, Ribosomal, 16S; Integrons; Drug Resistance, Bacterial; Water Pollutants, Chemical; Microplastics; High-Throughput Nucleotide Sequencing; Metagenome; Plasmids; Water Microbiology; Drug Resistance, Microbial
PubMed: 38790062
DOI: 10.1186/s40168-024-01803-2