Your search keyword '"megaplasmid"' showing total 174 results

1. Emergence of two novel tmexCD-toprJ subtypes mediating tigecycline resistance in the megaplasmids from Pseudomonas putida

Author

Wang, Chengzhen, Gao, Xun, Zhang, Xiaoyu, Yue, Chao, Lv, Luchao, Lu, Litao, and Liu, Jian-Hua

Published

2025

2. Distinct phenotypes of salivaricin-producing Ligilactobacillus salivarius isolated from the gastrointestinal tract of broiler chickens and laying hens

Author

Elnar, A.G., Jang, Y.J., Eum, B.G., Kang, M.H., Hwang, G.W., Kil, D.Y., and Kim, G.B.

Published

2025

3. Characteristics and phylogenetic distribution of megaplasmids and prediction of a putative chromid in Pseudomonas aeruginosa

Author

Wang, Nanfei, Zheng, Xuan, Leptihn, Sebastian, Li, Yue, Cai, Heng, Zhang, Piaopiao, Wu, Wenhao, Yu, Yunsong, and Hua, Xiaoting

Published

2024

4. Complete genome sequence of an Enterococcus devriesei strain isolated from Zophobas morio larvae

Author

Kundlacz, Cindy, Eddoubaji, Yasmine, Perreten, Vincent, Endimiani, Andrea, and Campos-Madueno, Edgar I.

Published

2025

5. Engineering the Marine Pseudoalteromonas haloplanktis TAC125 via the pMEGA Plasmid Targeted Curing Using PTasRNA Technology.

Author

Severino, Angelica, Lauro, Concetta, Calvanese, Marzia, Riccardi, Christopher, Colarusso, Andrea, Fondi, Marco, Parrilli, Ermenegilda, and Tutino, Maria Luisa

Subjects

HOMOLOGOUS recombination, MARINE engineering, ROLE conflict, BIOTECHNOLOGY, MARINE bacteria

Abstract

Marine bacteria that have adapted to thrive in extreme environments, such as Pseudoalteromonas haloplanktis TAC125 (PhTAC125), offer a unique biotechnological potential. The discovery of an endogenous megaplasmid (pMEGA) raises questions about its metabolic impact and functional role in that strain. This study aimed at streamlining the host genetic background by curing PhTAC125 of the pMEGA plasmid using a sequential genetic approach. We combined homologous recombination by exploiting a suicide vector, with the PTasRNA gene-silencing technology interfering with pMEGA replication machinery. This approach led to the construction of the novel PhTAC125 KrPL2 strain, cured of the pMEGA plasmid, which exhibited no significant differences in growth behavior, though showcasing enhanced resistance to oxidative stress and a reduced capacity for biofilm formation. These findings represent a significant achievement in developing our understanding of the role of the pMEGA plasmid and the biotechnological applications of PhTAC125 in recombinant protein production. This opens up the possibility of exploiting valuable pMEGA genetic elements and further advancing the genetic tools for PhTAC125. [ABSTRACT FROM AUTHOR]

Published

2025

6. Engineering the Marine Pseudoalteromonas haloplanktis TAC125 via the pMEGA Plasmid Targeted Curing Using PTasRNA Technology

Author

Angelica Severino, Concetta Lauro, Marzia Calvanese, Christopher Riccardi, Andrea Colarusso, Marco Fondi, Ermenegilda Parrilli, and Maria Luisa Tutino

Subjects

Pseudoalteromonas haloplanktis TAC125, cold-adapted bacteria, pMEGA, megaplasmid, strain engineering, plasmid curing, Biology (General), QH301-705.5

Abstract

Marine bacteria that have adapted to thrive in extreme environments, such as Pseudoalteromonas haloplanktis TAC125 (PhTAC125), offer a unique biotechnological potential. The discovery of an endogenous megaplasmid (pMEGA) raises questions about its metabolic impact and functional role in that strain. This study aimed at streamlining the host genetic background by curing PhTAC125 of the pMEGA plasmid using a sequential genetic approach. We combined homologous recombination by exploiting a suicide vector, with the PTasRNA gene-silencing technology interfering with pMEGA replication machinery. This approach led to the construction of the novel PhTAC125 KrPL2 strain, cured of the pMEGA plasmid, which exhibited no significant differences in growth behavior, though showcasing enhanced resistance to oxidative stress and a reduced capacity for biofilm formation. These findings represent a significant achievement in developing our understanding of the role of the pMEGA plasmid and the biotechnological applications of PhTAC125 in recombinant protein production. This opens up the possibility of exploiting valuable pMEGA genetic elements and further advancing the genetic tools for PhTAC125.

Published

2025

7. Development of a genetic system for Haloferax gibbonsii LR2-5, model host for haloarchaeal viruses.

Author

Tittes, Colin, Nijland, Jeroen, Schoentag, Anna M. C., Hack, Thomas, Di Cianni, Nadia, Marchfelder, Anita, and Quax, Tessa E. F.

Subjects

*GENE expression, *ARCHAEBACTERIA, *DELETION mutation, *BACTERIOPHAGES, *AUXOTROPHY, *PHENOTYPES

Abstract

Archaeal viruses are among the most enigmatic members of the virosphere, and their diverse morphologies raise many questions about their infection mechanisms. The study of molecular mechanisms underlying virus-host interactions hinges upon robust model organisms with a system for gene expression and deletion. Currently, there are only a limited number of archaea that have associated viruses and have a well-developed genetic system. Here, we report the development of a genetic system for the euryarchaeon Haloferax gibbonsii LR2-5. This strain can be infected by multiple viruses and is a model for the study of virus-host interactions. We created a Hfx. gibbonsii LR2-5 pyrE strain, resulting in uracil auxotrophy, which could be used as a selection marker. An expression plasmid carrying a pyrE gene from the well-established Haloferax volcanii system was tested for functionality. Expression of a GFP-MinD fusion under a tryptophan inducible promoter was fully functional and showed similar cellular localization as in Hfx. volcanii. Thus, the plasmids of the Hfx. volcanii system can be used directly for the Hfx. gibbonsii LR2-5 genetic system, facilitating the transfer of tools between the two. Finally, we tested for the functionality of gene deletions by knocking out two genes of the archaeal motility structure, the archaellum. These deletion mutants were as expected non-motile and the phenotype of one deletion could be rescued by the expression of the deleted archaellum gene from a plasmid. Thus, we developed a functional genetic toolbox for the euryarchaeal virus host Hfx. gibbonsii LR2-5, which will propel future studies on archaeal viruses. IMPORTANCE Species from all domains of life are infected by viruses. In some environments, viruses outnumber their microbial hosts by a factor of 10, and viruses are the most important predators of microorganisms. While much has been discovered about the infection mechanisms of bacterial and eukaryotic viruses, archaeal viruses remain understudied. Good model systems are needed to study their virus-host interactions in detail. The salt-loving archaeon Haloferax gibbonsii LR2-5 has been shown to be infected by a variety of different viruses and, thus, is an excellent model to study archaeal viruses. By establishing a genetic system, we have significantly expanded the toolbox for this model organism, which will fuel our understanding of infection strategies of the underexplored archaeal viruses. [ABSTRACT FROM AUTHOR]

Published

2024

8. Genomic characterisation of the population structure and antibiotic resistance of Salmonella enterica serovar Infantis in Chile, 2009–2022Research in context

Author

Alejandro Piña-Iturbe, Constanza Díaz-Gavidia, Francisca P. Álvarez, Rocio Barron-Montenegro, Diana M. Álvarez-Espejo, Patricia García, Doina Solís, Rodrigo Constenla-Albornoz, Magaly Toro, Jorge Olivares-Pacheco, Angélica Reyes-Jara, Jianghong Meng, Rebecca L. Bell, and Andrea I. Moreno-Switt

Subjects

Salmonella Infantis, Americas, Antibiotic resistance, pESI, Megaplasmid, CTX-M-65, Public aspects of medicine, RA1-1270

Abstract

Summary: Background: Multidrug-resistant (MDR) Salmonella Infantis has disseminated worldwide, mainly linked to the consumption of poultry products. Evidence shows dissemination of this pathogen in Chile; however, studies are primarily limited to phenotypic data or involve few isolates. As human cases of Salmonella Infantis infections have substantially increased in recent years, this study aimed to characterise the genomic epidemiology and antimicrobial-resistance profiles of isolates obtained from different sources, aiming to inform effective surveillance and control measures. Methods: We sequenced 396 Salmonella Infantis genomes and analysed them with all publicly available genomes of this pathogen from Chile (440 genomes in total), representing isolates from environmental, food, animal, and human sources obtained from 2009 to 2022. Based on bioinformatic and phenotypic methods, we assessed the population structure, dissemination among different niches, and antimicrobial resistance (AMR) profiles of Salmonella Infantis in the country. Findings: The genomic and phylogenetic analyses showed that Salmonella Infantis from Chile comprised several clusters of highly related isolates dominated by sequence type 32. The HC20_343 cluster grouped an important proportion of all isolates. This was the only cluster associated with pESI-like megaplasmids, and up to 12 acquired AMR genes/mutations predicted to result in an MDR phenotype. Accordingly, antimicrobial-susceptibility testing revealed a strong concordance between the AMR genetic determinants and their matching phenotypic expression, indicating that a significant proportion of HC20_343 isolates produce extended-spectrum β-lactamases and have intermediate fluoroquinolone resistance. HC20_343 Salmonella Infantis were spread among environmental, animal, food, and human niches, showing a close relationship between isolates from different years and sources, and a low intra-source genomic diversity. Interpretation: Our findings show a widespread dissemination of MDR Salmonella Infantis from the HC20_343 cluster in Chile. The high proportion of isolates with resistance to first-line antibiotics and the evidence of active transmission between the environment, animals, food, and humans highlight the urgency of improved surveillance and control measures in the country. As HC20_343 isolates predominate in the Americas, our results suggest a high prevalence of ESBL-producing Salmonella Infantis with intermediate fluoroquinolone resistance in the continent. Funding: Partially supported by the Food and Drug Administration (FDA) of the U.S. Department of Health and Human Services as part of an award, FDU001818, with 30% percent funded by FDA/HHS; and by Agencia de Investigación y Desarrollo de Chile (ANID) through FONDECYT de Postdoctorado Folio 3230796 and Folio 3210317, FONDECYT Regular Folio 1231082, and ANID—Millennium Science Initiative Program—ICN2021_044.

Published

2024

9. Evaluation of Safety and Probiotic Traits from a Comprehensive Genome-Based In Silico Analysis of Ligilactobacillus salivarius P1CEA3, Isolated from Pigs and Producer of Nisin S.

Author

Sevillano, Ester, Lafuente, Irene, Peña, Nuria, Cintas, Luis M., Muñoz-Atienza, Estefanía, Hernández, Pablo E., and Borrero, Juan

Subjects

PROBIOTICS, AMINO acid metabolism, NISIN, GUT microbiome, BILE salts, ANTIMICROBIAL peptides

Abstract

Ligilactobacillus salivarius is an important member of the porcine gastrointestinal tract (GIT). Some L. salivarius strains are considered to have a beneficial effect on the host by exerting different probiotic properties, including the production of antimicrobial peptides which help maintain a healthy gut microbiota. L. salivarius P1CEA3, a porcine isolated strain, was first selected and identified by its antimicrobial activity against a broad range of pathogenic bacteria due to the production of the novel bacteriocin nisin S. The assembled L. salivarius P1CEA3 genome includes a circular chromosome, a megaplasmid (pMP1CEA3) encoding the nisin S gene cluster, and two small plasmids. A comprehensive genome-based in silico analysis of the L. salivarius P1CEA3 genome reveals the presence of genes related to probiotic features such as bacteriocin synthesis, regulation and production, adhesion and aggregation, the production of lactic acid, amino acids metabolism, vitamin biosynthesis, and tolerance to temperature, acid, bile salts and osmotic and oxidative stress. Furthermore, the strain is absent of risk-related genes for acquired antibiotic resistance traits, virulence factors, toxic metabolites and detrimental metabolic or enzymatic activities. Resistance to common antibiotics and gelatinase and hemolytic activities have been discarded by in vitro experiments. This study identifies several probiotic and safety traits of L. salivarius P1CEA3 and suggests its potential as a promising probiotic in swine production. [ABSTRACT FROM AUTHOR]

Published

2024

10. Characterization of two novel VIM-type metallo-β-lactamases, VIM-84 and VIM-85, associated with the spread of IncP-2 megaplasmids in Pseudomonas aeruginosa

Author

Nanfei Wang, Tailong Lei, Yiwei Zhu, Yue Li, Heng Cai, Piaopiao Zhang, Sebastian Leptihn, Junxin Zhou, Huanhuan Ke, Bo Gao, Yu Feng, Xiaoting Hua, and Tingting Qu

Subjects

Pseudomonas aeruginosa, metallo-β-lactamase, VIM, megaplasmid, antimicrobial resistance, Microbiology, QR1-502

Abstract

ABSTRACT This study aimed to characterize two novel VIM-type metallo-β-lactamases, VIM-84 and VIM-85, and reveal the important role of the IncP-2 type megaplasmids in the spread of antimicrobial resistance (AMR) genes. VIM-84 and VIM-85 were encoded by two novel genes bla VIM-84 and bla VIM-85 which showed similarity to bla VIM-24. Both bla VIM-84 and bla VIM-85 are harbored into class 1 integrons embedded into the Tn1403 transposon. The bla VIM-85 gene was identified in a megaplasmid, which was related to 17 megaplasmid sequences with sizes larger than 430 kb, deposited previously in Genbank. A comparative analysis of complete plasmid sequences showed highly similar backbone regions and various AMR genes. A phylogenetic tree revealed that these megaplasmids, which were widely distributed globally, were vehicles for the spread of AMR genes. The bla VIM-24, bla VIM-84, and bla VIM-85 genes were cloned into pGK1900, and the recombinant vectors were further transformed into Escherichia coli DH5α and Pseudomonas aeruginosa PAO1. The antimicrobial susceptibility test of the cloning strains showed high levels of resistance to β-lactams while they remained susceptible to aztreonam. Enzymatic tests revealed that both, VIM-84 and VIM-85, exhibited higher activity in hydrolyzing β-lactams compared to VIM-24. A D117N mutation found in VIM-24 affected binding to the antibiotics. IMPORTANCE The metallo-β-lactamases-producing Pseudomonas aeruginosa strains play an important role in hospital outbreaks and the VIM-type enzyme is the most prevalent in European countries. Two novel VIM-type enzymes in our study, VIM-84 and VIM-85, have higher levels of resistance to β-lactams and greater hydrolytic activities for most β-lactams compared with VIM-24. Both bla VIM-84 and bla VIM-85 are harbored into class 1 integrons embedded into the Tn1403 transposon. Notably, the genes bla VIM-85 are carried by three different IncP-2-type megaplasmids which are distributed locally and appear responsible for the spread of antimicrobial resistance genes in hospital settings.

Published

2023

11. First report of a multidrug-resistant Salmonella enterica Serovar Infantis carrying pESI megaplasmid isolated from marine shrimp in India

Author

Jerusha Stephen, Manjusha Lekshmi, Binaya Bhusan Nayak, and Sanath H. Kumar

Subjects

Seafood, Pesi, Megaplasmid, Salmonella infantis, Multidrug resistance, India, Microbiology, QR1-502

Abstract

Background:: Non-typhoidal Salmonella enterica (NTS) in seafood is an important human health concern. An emerging strain of NTS serovar Infantis carrying a megaplasmid pESI and resistant to multipe drugs has been responsible for frequent food-borne human infections worldwide. Methods:: S. enterica strain JS5 was isolated from a sample of shrimp from the retail market on XLD agar after enrichment in the RV medium. The genomic DNA was isolated and sequenced using the Illumina platform. The draft whole genome sequence of Salmonella Infantis JS5 revealed the presence of a plasmid. Results:: The genome size was 4,977,731 bp with 4663 open reading frames. The bacterium harboured a megaplasmid similar to the pESI plasmid reported in the emerging S. Infantis. The 285 kb plasmid contained the characteristic genes of the pESI plasmids, such as the mercury operon, yersiniabactin siderophore operon, fimbriae, toxin-antitoxin systems and the hypothetical protein backbone. The antibiotic resistance genes tet(A), dfrA14, aadA, qacEdelta1, and sul1 were detected. To the best of our knowledge, this is the first report on pESI plasmid carrying S. Infantis from India.

Published

2022

12. The parABSm system is involved in megaplasmid partitioning and genome integrity maintenance in Thermus thermophilus.

Author

Haijuan Li, Lingling Xu, and Xiaoxiao Li

Subjects

*THERMUS thermophilus, *PHYSIOLOGY, *THERMOPHILIC bacteria, *GENOMES, *PLASMIDS, *CELL morphology, *PLASMID genetics

Abstract

The characteristics of the parABS system in polyploid bacteria are barely understood. We initially analyzed the physiological functions and mechanisms of the megaplasmid parABSm system in the thermophilic polyploid bacterium Thermus thermophilus. Deletion of parABm was possible only when a plasmid-born copy of parABm was provided, indicating that these genes are conditionally essential. The cell morphology of the parABm deletion mutant (ΔparABm) was changed to some extent, and in certain extra-large or twisted cells, the nucleoids were dispersed and damaged. Compared with that of the wild type, the frequency of anucleate cells was significantly increased. Genome content analyses showed that ΔparABm had lost ∼160 kb of megaplasmid and ∼23 kb of chromosomal sequences, respectively. Genome fluorescent tagging and PFGE experiments demonstrated that the truncated megaplasmid was frequently interlinked and could not be segregated correctly; thus, certain daughter cells eventually lost the entire megaplasmid and became twisted or enlarged with damaged nucleoids. Further, we found that when the megaplasmid was lost in these cells, the toxins encoded by the megaplasmid toxin-antitoxin (TA) systems (VapBC64_65 and VapBC142_143) would exert detrimental effects, such as to fragment DNA. Thus, parABSm might ensure the existence of these TA systems, thereby preventing genomic degradation. Together, our results suggested that in T. thermophilus, the megaplasmid-encoded parABS system plays an essential role in the megaplasmid partitioning process; also it is an important determination factor for the genome integrity maintenance. [ABSTRACT FROM AUTHOR]

Published

2023

13. Evidence of structural rearrangements in ESBL-positive pESI(like) megaplasmids of S.Infantis.

Author

Alba, Patricia, Carfora, Virginia, Feltrin, Fabiola, Diaconu, Elena Lavinia, Sorbara, Luigi, Dell'Aira, Elena, Cerci, Tamara, Ianzano, Angela, Donati, Valentina, Franco, Alessia, and Battisti, Antonio

Subjects

*PLASMIDS, *INTEGRONS, *MOSAIC viruses, *ANTITOXINS, *SALMONELLA

Abstract

The increasing prevalence of pESI(like)-positive, multidrug-resistant (MDR) S. Infantis in Europe is a cause of major concern. As previously demonstrated, the pESI(like) megaplasmid is not only a carrier of antimicrobial resistant (AMR) genes (at least tet, dfr , and sul genes), but also harbours several virulence and fitness genes, and toxin/antitoxin systems that enhance its persistence in the S. Infantis host. In this study, five prototype pESI(like) plasmids, of either CTX-M-1 or CTX-M-65 ESBL-producing strains, were long-read sequenced using Oxford Nanopore Technology (ONT), and their complete sequences were resolved. Comparison of the structure and gene content of the five sequenced plasmids, and further comparison with previously published pESI(like) sequences, indicated that although the sequence of such pESI(like) 'mosaic' plasmids remains almost identical, their structures appear different and composed of regions inserted or transposed after different events. The results obtained in this study are essential to better understand the plasticity and the evolution of the pESI(like) megaplasmid, and therefore to better address risk management options and policy decisions to fight against AMR and MDR in Salmonella and other food-borne pathogens. Graphical representation of the pESI-like plasmid complete sequence (ID 12037823/11). Block colours indicate the function of the genes: red: repB gene; pink: class I integrons (IntI); yellow; mobile elements; blue: resistance genes; green: toxin/anti-toxin systems; grey: mer operon; light green: genes involve in conjugation. [ABSTRACT FROM AUTHOR]

Published

2023

14. Recent Occurrence and Rapid Spread of Multidrug-Resistant Salmonella Infantis in Broiler Flocks in Korea.

Author

Lee SH, Lee OM, Kang SI, Her M, Kang MS, Chae M, and Seo MG

Abstract

Salmonella Infantis has recently been one of the most prevalent serotypes in poultry and has been identified in human salmonellosis cases worldwide. Multidrug-resistant (MDR) Salmonella Infantis has emerged as a significant threat to both poultry production and public health due to its increasing prevalence and global dissemination. We identified the occurrence of an MDR Salmonella Infantis clone in broiler flocks in Korea, and the clone was characterized to explore potential genetic causes for its high prevalence and rapid spread in broiler production. In total, 220 Salmonella strains isolated between 2020 and 2023 from broiler flocks were serotyped, and 50 strains were identified as Salmonella Infantis (22.7%). The isolates were tested for antimicrobial susceptibility, and their genetic characteristics were analyzed using pulsed-field gel electrophoresis (PFGE), multilocus sequence typing, and whole genome sequencing (WGS). Forty-six strains of Salmonella Infantis isolated since 2020 were resistant to at least five antimicrobial families including ampicillin, cephalosporins, chloramphenicol, nalidixic acid, and tetracycline. The strains showed 10 PFGE patterns and a single multilocus sequence type 32. Eight representative MDR strains were analyzed by WGS. Seven of the eight strains carried the plasmid of emerging Salmonella Infantis-like megaplasmids recognized globally in emergent MDR Salmonella Infantis. They had a high prevalence of seven antimicrobial resistance genes, six of which were identified in plasmids. Also, they all share virulence genes, including fimbrial adherence determinants and secretion system components, and showed a clonal relationship to strains from North America, South America, and West Asia, suggesting potential international dissemination routes. To mitigate the risks associated with the rapid spread of MDR Salmonella Infantis in poultry production and its potential impact on human health, this study provides valuable insights into implementing effective control measures to reduce Salmonella in broiler production in Korea. Further highlighting the critical importance of enhanced biosecurity and continuous surveillance.

Published

2025

15. Erratum: Comparative analysis reveals the modular functional structure of conjugative megaplasmid pTTS12 of Pseudomonas putida S12: A paradigm for transferable traits, plasmid stability, and inheritance?

Author

Frontiers Production Office

Subjects

Pseudomonas putida, genome sequence, solvent tolerance, megaplasmid, mobile genetic elements, comparative analysis, Microbiology, QR1-502

Published

2023

16. Evaluation of Safety and Probiotic Traits from a Comprehensive Genome-Based In Silico Analysis of Ligilactobacillus salivarius P1CEA3, Isolated from Pigs and Producer of Nisin S

Author

Ester Sevillano, Irene Lafuente, Nuria Peña, Luis M. Cintas, Estefanía Muñoz-Atienza, Pablo E. Hernández, and Juan Borrero

Subjects

probiotic, Ligilactobacillus, bacteriocin, nisin S, megaplasmid, Chemical technology, TP1-1185

Abstract

Ligilactobacillus salivarius is an important member of the porcine gastrointestinal tract (GIT). Some L. salivarius strains are considered to have a beneficial effect on the host by exerting different probiotic properties, including the production of antimicrobial peptides which help maintain a healthy gut microbiota. L. salivarius P1CEA3, a porcine isolated strain, was first selected and identified by its antimicrobial activity against a broad range of pathogenic bacteria due to the production of the novel bacteriocin nisin S. The assembled L. salivarius P1CEA3 genome includes a circular chromosome, a megaplasmid (pMP1CEA3) encoding the nisin S gene cluster, and two small plasmids. A comprehensive genome-based in silico analysis of the L. salivarius P1CEA3 genome reveals the presence of genes related to probiotic features such as bacteriocin synthesis, regulation and production, adhesion and aggregation, the production of lactic acid, amino acids metabolism, vitamin biosynthesis, and tolerance to temperature, acid, bile salts and osmotic and oxidative stress. Furthermore, the strain is absent of risk-related genes for acquired antibiotic resistance traits, virulence factors, toxic metabolites and detrimental metabolic or enzymatic activities. Resistance to common antibiotics and gelatinase and hemolytic activities have been discarded by in vitro experiments. This study identifies several probiotic and safety traits of L. salivarius P1CEA3 and suggests its potential as a promising probiotic in swine production.

Published

2023

17. Genome insights of Enterococcus raffinosus CX012922, isolated from the feces of a Crohn’s disease patient

Author

Hailan Zhao, Yao Peng, Xunchao Cai, Yongjian Zhou, Youlian Zhou, Hongli Huang, Long Xu, and Yuqiang Nie

Subjects

Enterococcus, Megaplasmid, Antibiotic resistance genes, Virulence factor, Toxin-antitoxin system, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Abstract Background Enterococcus raffinosus is one of the Enterococcus species that often cause nosocomial infections. To date, only one E. raffinosus genome has been completely assembled, and the genomic features have not been characterized. Here, we report the complete genome sequence of the strain CX012922, isolated from the feces of a Crohn’s disease patient, and perform a comparative genome analysis to the relevant Enterococcus spp. strains in silico. Results De novo assembly of the sequencing reads of the strain CX012922 generated a circular genome of 2.83 Mb and a circular megaplasmid of 0.98 Mb. Phylogenomic analysis revealed that the strain CX012922 belonged to the E. raffinosus species. By comparative genome analysis, we found that some strains previously identified as E. raffinosus or E. gilvus should be reclassified as novel species. Genome islands (GIs), virulence factors, and antibiotic genes were found in both the genome and the megaplasmid, although pathogenic genes were mainly encoded in the genome. A large proportion of the genes encoded in the megaplasmid were involved in substrate utilization, such as raffinose metabolism. Giant megaplasmids (~1 Mb) equipped with toxin-antitoxin (TA) systems generally formed symbiosis relationships with the genome of E. raffinosus strains. Conclusions Enterococcus spp. have a higher species-level diversity than is currently appreciated. The pathogenicity of E. raffinosus is mainly determined by the genome-encoded virulence factors, while the megaplasmid broadens the gene function pool. The symbiosis between the genome and the megaplasmids endows E. raffinosus with large genomic sizes as well as versatile gene functions, especially for their colonization, adaptation, virulence, and pathogenesis in the human gut.

Published

2021

18. Replication Origin Deletion Enhances Poly(3-Hydroxybutyrate-co-3-Hydroxyvalerate) Synthesis in Haloarchaea

Author

Haibo Yang, Junyu Chen, Ruchira Mitra, Qiong Xue, Hua Xiang, and Jing Han

Subjects

haloarchaea, active replication origin, polyploidy, copy number, chromosome, megaplasmid, Microbiology, QR1-502

Abstract

ABSTRACT Although the use of multiple replication origins for chromosome replication has been widely characterized in haloarchaea, whether it is possible to manipulate the chromosome copy number by their genetic engineering is not known, and how it would affect the cell functioning is poorly understood. Here, we demonstrate that deletion of the three active chromosomal origins in Haloferax mediterranei remarkably reduces its DNA amounts and ploidy numbers. Consequently, the mutant strain H. mediterranei Δ123 is more sensitive to UV and mitomycin C. Surprisingly, the cell size increases by 21.2%, and poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) production in shake flask culture enhances from 7.23 to 8.11 g/L in ΔEPSΔ123, although there is also a decrease in cell growth. In this mutant, the chromosomal copy number decreases, whereas the pha-encoding pHM300 megaplasmid copy number increases. Moreover, our transcriptome analysis reveals that the genes involved in primary metabolisms are significantly downregulated in ΔEPSΔ123, whereas those responsible for starch utilization and precursor supplying for PHBV monomers are upregulated. This indicates that more energy and carbon flux is redirected from primary metabolism to PHBV synthesis, thereby enhancing its PHBV accumulation. These findings may therefore provide a rational design to enhance PHBV synthesis by simply tuning the replication origins to modulate the chromosome/megaplasmid copy number ratio and subsequently influence cellular metabolism and physiological functions. IMPORTANCE The haloarchaeon Haloferax mediterranei is a potential producer of PHBV (100% biodegradable plastic) from inexpensive carbon sources. We previously reported that H. mediterranei possessed three active chromosomal origins and, when these origins were deleted, a dormant origin was activated to initiate the replication of chromosome. In this context, in the present study, we first found a close connection between replication initiation and PHBV accumulation. We describe the potential industrial advantages of the strain H. mediterranei ΔEPSΔ123, which includes the enlargement of cell volume by 21.2% and enhancement of PHBV production by 11.2%. We further reveal the possible mechanism that contributes to the greater PHBV production in the ΔEPSΔ123 strain. Overall, we provide here a conceptual advance in the field of synthetic biology by modulating chromosome replication to improve the production of bio-based chemicals.

Published

2022

19. Comparative analysis reveals the modular functional structure of conjugative megaplasmid pTTS12 of Pseudomonas putida S12: A paradigm for transferable traits, plasmid stability, and inheritance?

Author

Hadiastri Kusumawardhani, Rohola Hosseini, Jo-Anne Verschoor, and Johannes H. de Winde

Subjects

Pseudomonas putida, genome sequence, solvent tolerance, megaplasmid, mobile genetic elements, comparative analysis, Microbiology, QR1-502

Abstract

Originating from various environmental niches, large numbers of bacterial plasmids have been found carrying heavy metal and antibiotic resistance genes, degradation pathways and specific transporter genes for organic solvents or aromatic compounds. Such genes may constitute promising candidates for novel synthetic biology applications. Our systematic analysis of gene clusters encoded on megaplasmid pTTS12 from Pseudomonas putida S12 underscores that a large portion of its genes is involved in stress response to increase survival under harsh conditions like the presence of heavy metal and organic solvent. We investigated putative roles of genes encoded on pTTS12 and further elaborated on their roles in the establishment and maintenance under several stress conditions, specifically focusing on solvent tolerance in P. putida strains. The backbone of pTTS12 was found to be closely related to that of the carbapenem-resistance plasmid pOZ176, member of the IncP-2 incompatibility group, although the carbapenem resistance cassette is absent from pTTS12. Megaplasmid pTTS12 contains multiple transposon-flanked cassettes mediating resistance to various heavy metals such as tellurite, chromate (Tn7), and mercury (Tn5053 and Tn5563). Additionally, pTTS12 also contains a P-type, Type IV secretion system (T4SS) supporting self-transfer to other P. putida strains. This study increases our understanding in the modular structure of pTTS12 as a member of IncP-2 plasmid family and several promising exchangeable gene clusters to construct robust microbial hosts for biotechnology applications.

Published

2022

20. Experimental evolution of the megaplasmid pMPPla107 in Pseudomonas stutzeri enables identification of genes contributing to sensitivity to an inhibitory agent.

Author

Smith, Brian A., Dougherty, Kevin, Clark, Meara, and Baltrus, David A.

Subjects

*PSEUDOMONAS stutzeri, *PSEUDOMONAS syringae, *PHENOTYPIC plasticity, *GENES, *PHENOTYPES, *HORIZONTAL gene transfer

Abstract

Horizontally transferred elements, such as plasmids, can burden host cells with various metabolic and fitness costs and may lead to other potentially detrimental phenotypic effects. Acquisition of the Pseudomonas syringae megaplasmid pMPPla107 by various Pseudomonads causes sensitivity to a growth-inhibiting substance that is produced in cultures by Pseudomonads during growth under standard laboratory conditions. After approximately 500 generations of laboratory passage of Pseudomonas stutzeri populations containing pMPPla107, strains from two out of six independent passage lines displayed resistance to this inhibitory agent. Resistance was transferable and is, therefore, associated with mutations occurring on pMPPla107. Resequencing experiments demonstrated that resistance is likely due to a large deletion on the megaplasmid in one line, and to a nonsynonymous change in an uncharacterized megaplasmid locus in the other strain. We further used allele exchange experiments to confirm that resistance is due to this single amino acid change in a previously uncharacterized megaplasmid protein, which we name SkaA. These results provide further evidence that costs and phenotypic changes associated with horizontal gene transfer can be compensated through single mutational events and emphasize the power of experimental evolution and resequencing to better understand the genetic basis of evolved phenotypes. [ABSTRACT FROM AUTHOR]

Published

2022

21. What makes a megaplasmid?

Author

Hall, James P. J., Botelho, João, Cazares, Adrian, and Baltrus, David A.

Subjects

*BACTERIAL ecology, *HORIZONTAL gene transfer, *BACTERIAL evolution, *HOSTS (Biology), *MOBILE genetic elements, *PLASMIDS

Abstract

Naturally occurring plasmids come in different sizes. The smallest are less than a kilobase of DNA, while the largest can be over three orders of magnitude larger. Historically, research has tended to focus on smaller plasmids that are usually easier to isolate, manipulate and sequence, but with improved genome assemblies made possible by long-read sequencing, there is increased appreciation that very large plasmids--known as megaplasmids--are widespread, diverse, complex, and often encode key traits in the biology of their host microorganisms. Why are megaplasmids so big? What other features come with large plasmid size that could affect bacterial ecology and evolution? Are megaplasmids 'just' big plasmids, or do they have distinct characteristics? In this perspective, we reflect on the distribution, diversity, biology, and gene content of megaplasmids, providing an overview to these large, yet often overlooked, mobile genetic elements. [ABSTRACT FROM AUTHOR]

Published

2022

22. Genome insights of Enterococcus raffinosus CX012922, isolated from the feces of a Crohn's disease patient.

Author

Zhao, Hailan, Peng, Yao, Cai, Xunchao, Zhou, Yongjian, Zhou, Youlian, Huang, Hongli, Xu, Long, and Nie, Yuqiang

Subjects

WHOLE genome sequencing, CROHN'S disease, ENTEROCOCCUS, GENOMES, NOSOCOMIAL infections

Abstract

Background: Enterococcus raffinosus is one of the Enterococcus species that often cause nosocomial infections. To date, only one E. raffinosus genome has been completely assembled, and the genomic features have not been characterized. Here, we report the complete genome sequence of the strain CX012922, isolated from the feces of a Crohn's disease patient, and perform a comparative genome analysis to the relevant Enterococcus spp. strains in silico. Results: De novo assembly of the sequencing reads of the strain CX012922 generated a circular genome of 2.83 Mb and a circular megaplasmid of 0.98 Mb. Phylogenomic analysis revealed that the strain CX012922 belonged to the E. raffinosus species. By comparative genome analysis, we found that some strains previously identified as E. raffinosus or E. gilvus should be reclassified as novel species. Genome islands (GIs), virulence factors, and antibiotic genes were found in both the genome and the megaplasmid, although pathogenic genes were mainly encoded in the genome. A large proportion of the genes encoded in the megaplasmid were involved in substrate utilization, such as raffinose metabolism. Giant megaplasmids (~1 Mb) equipped with toxin-antitoxin (TA) systems generally formed symbiosis relationships with the genome of E. raffinosus strains. Conclusions: Enterococcus spp. have a higher species-level diversity than is currently appreciated. The pathogenicity of E. raffinosus is mainly determined by the genome-encoded virulence factors, while the megaplasmid broadens the gene function pool. The symbiosis between the genome and the megaplasmids endows E. raffinosus with large genomic sizes as well as versatile gene functions, especially for their colonization, adaptation, virulence, and pathogenesis in the human gut. [ABSTRACT FROM AUTHOR]

Published

2021

23. The Sandarazols are Cryptic and Structurally Unique Plasmid‐Encoded Toxins from a Rare Myxobacterium**.

Author

Panter, Fabian, Bader, Chantal D., and Müller, Rolf

Subjects

*TOXINS, *METABOLITES, *MYCOBACTERIUM smegmatis, *FUNCTIONAL groups, *GENE clusters, *POLYCHLORINATED biphenyls, *MYCOBACTERIA

Abstract

Herein, we describe a new plasmid found in Sandaracinus sp. MSr10575 named pSa001 spanning 209.7 kbp that harbors a cryptic secondary metabolite biosynthesis gene cluster (BGC). Activation of this BGC by homologous‐recombination‐mediated exchange of the native promoter sequence against a vanillate inducible system led to the production and subsequent isolation and structure elucidation of novel secondary metabolites, the sandarazols A–G. The sandarazols contain intriguing structural features and very reactive functional groups such as an α‐chlorinated ketone, an epoxyketone, and a (2R)‐2‐amino‐3‐(N,N‐dimethylamino)‐propionic acid building block. In‐depth investigation of the underlying biosynthetic machinery led to a concise biosynthetic model for the new compound family, including several uncommon biosynthetic steps. The chlorinated congener sandarazol C shows an IC50 value of 0.5 μm against HCT 116 cells and a MIC of 14 μm against Mycobacterium smegmatis, which points at the sandarazols' potential function as defensive secondary metabolites or toxins. [ABSTRACT FROM AUTHOR]

Published

2021

24. Die Sandarazole sind kryptische und strukturell einzigartige, Plasmid‐codierte Toxine aus einem seltenen Myxobakterium**.

Author

Panter, Fabian, Bader, Chantal D., and Müller, Rolf

Subjects

*MYCOBACTERIUM smegmatis

Abstract

Wir beschreiben ein neues, 209,7 kbp umfassendes Plasmid aus Sandaracinus sp. MSr10575 (pSa001), das ein kryptisches Sekundärmetabolit‐Biosynthese‐Gencluster (BGC) trägt. Die Aktivierung dieses BGC durch Austausch der nativen Promotorsequenz mittels homologer Rekombination gegen ein Vanillat‐induzierbares System führte zu Produktion, Isolierung und Strukturaufklärung einer neuartigen Sekundärmetabolitenfamilie – der Sandarazole A–G. Sie besitzen faszinierende Strukturmerkmale und reaktive funktionelle Gruppen, wie etwa ein α‐chloriertes Keton, ein Epoxyketon und einen (2R)‐2‐Amino‐3‐(N,N‐dimethylamino)propionsäure‐Baustein. Die Untersuchung ihrer Biosynthese erlaubte den Vorschlag eines schlüssigen Biosynthesemodells, das mehrere ungewöhnliche Schritte umfasst. Das chlorierte Sandarazol C zeigte einen IC50‐Wert von 0,5 μm gegen HCT‐116‐Zellen und eine MHK von 14 μm gegen Mycobacterium smegmatis, was auf eine Funktion der Sandarazole als defensive Sekundärmetabolite oder Toxine hinweist. [ABSTRACT FROM AUTHOR]

Published

2021

25. Genomic Epidemiology of Salmonella Infantis in Ecuador: From Poultry Farms to Human Infections

Author

Lorena Mejía, José Luis Medina, Rosa Bayas, Carolina Satan Salazar, Fernando Villavicencio, Sonia Zapata, Jorge Matheu, Jaap A. Wagenaar, Fernando González-Candelas, and Christian Vinueza-Burgos

Subjects

Salmonella Infantis, ST32, broiler, WGS, Ecuador, megaplasmid, Veterinary medicine, SF600-1100

Abstract

Salmonella enterica is one of the most important foodborne pathogens around the world. In the last years, S. enterica serovar Infantis has become an important emerging pathogen in many countries, often as multidrug resistant clones. To understand the importance of S. enterica in the broiler industry in Ecuador, we performed a study based on phenotypic and WGS data of isolates from poultry farms, chicken carcasses and humans. We showed a high prevalence of S. enterica in poultry farms (41.4%) and chicken carcasses (55.5%), but a low prevalence (1.98%) in human samples. S. Infantis was shown to be the most prevalent serovar with a 98.2, 97.8, and 50% in farms, foods, and humans, respectively, presenting multidrug resistant patterns. All sequenced S. Infantis isolates belonged to ST32. For the first time, a pESI-related megaplasmid was identified in Ecuadorian samples. This plasmid contains genes of antimicrobial resistance, virulence factors, and environmental stress tolerance. Genomic analysis showed a low divergence of S. Infantis strains in the three analyzed components. The results from this study provide important information about genetic elements that may help understand the molecular epidemiology of S. Infantis in Ecuador.

Published

2020

26. A novel toxin-antitoxin module SlvT- SlvA regulates megaplasmid stability and incites solvent tolerance in Pseudomonas putida S12.

Author

Kusumawardhani, Hadiastri, van Dijk, David, Hosseini, Rohola, and de Winde, Johannes H.

Subjects

*PSEUDOMONAS putida, *GENE clusters, *AROMATIC compounds, *OPERONS, *ORGANIC solvents

Abstract

Pseudomonas putida S12 is highly tolerant towards organic solvents in saturating concentrations, rendering this microorganism suitable for the industrial production of various aromatic compounds. Previous studies revealed that P. putida S12 contains a single-copy 583 kbp megaplasmid pTTS12. pTTS12 encodes several important operons and gene clusters facilitating P. putida S12 to survive and grow in the presence of toxic compounds or other environmental stresses. We wished to revisit and further scrutinize the role of pTTS12 in conferring solvent tolerance. To this end, we cured the megaplasmid from P. putida S12 and conclusively confirmed that the SrpABC efflux pump is the major determinant to solvent tolerance on the megaplasmid pTTS12. In addition, we identified a novel toxin-antitoxin module (proposed gene names slvT and slvA respectively) encoded on pTTS12 which contributes to the solvent tolerant phenotype and is important in conferring stability to the megaplasmid. Chromosomal introduction of the srp operon in combination with slvAT gene pair created a solvent tolerance phenotype in non-solvent tolerant strains such as P. putida KT2440, E. coli TG1, and E. coli BL21(DE3). [ABSTRACT FROM AUTHOR]

Published

2020

27. Evaluation of Safety and Probiotic Traits from a Comprehensive Genome-Based In Silico Analysis of Ligilactobacillus salivarius P1CEA3, Isolated from Pigs and Producer of Nisin S

Author

Sevillano, Ester, Lafuente, Irene, Peña Vidal, Nuria, Cintas Izarra, Luis Miguel, Muñoz Atienza, Estefanía, Hernández Cruza, Pablo Elpidio, Borrero Del Pino, Juan, Sevillano, Ester, Lafuente, Irene, Peña Vidal, Nuria, Cintas Izarra, Luis Miguel, Muñoz Atienza, Estefanía, Hernández Cruza, Pablo Elpidio, and Borrero Del Pino, Juan

Abstract

Author Contributions: Conceptualization, E.M.-A., P.E.H. and J.B.; methodology, E.S., N.P., I.L., P.E.H. and J.B.; investigation, E.S., N.P., I.L., E.M.-A. and J.B.; resources, L.M.C., E.M.-A., P.E.H. and J.B.; data curation, E.S., P.E.H. and J.B.; writing—original draft preparation, E.S.; writing—review and editing, P.E.H. and J.B.; supervision, E.M.-A., P.E.H. and J.B.; project administration, J.B.; funding acquisition, L.M.C., P.E.H. and J.B. All authors have read and agreed to the published version of the manuscript., Ligilactobacillus salivarius is an important member of the porcine gastrointestinal tract (GIT). Some L. salivarius strains are considered to have a beneficial effect on the host by exerting different probiotic properties, including the production of antimicrobial peptides which help maintain a healthy gut microbiota. L. salivarius P1CEA3, a porcine isolated strain, was first selected and identified by its antimicrobial activity against a broad range of pathogenic bacteria due to the production of the novel bacteriocin nisin S. The assembled L. salivarius P1CEA3 genome includes a circular chromosome, a megaplasmid (pMP1CEA3) encoding the nisin S gene cluster, and two small plasmids. A comprehensive genome-based in silico analysis of the L. salivarius P1CEA3 genome reveals the presence of genes related to probiotic features such as bacteriocin synthesis, regulation and production, adhesion and aggregation, the production of lactic acid, amino acids metabolism, vitamin biosynthesis, and tolerance to temperature, acid, bile salts and osmotic and oxidative stress. Furthermore, the strain is absent of risk-related genes for acquired antibiotic resistance traits, virulence factors, toxic metabolites and detrimental metabolic or enzymatic activities. Resistance to common antibiotics and gelatinase and hemolytic activities have been discarded by in vitro experiments. This study identifies several probiotic and safety traits of L. salivarius P1CEA3 and suggests its potential as a promising probiotic in swine production., Ministerio de Ciencia e Innovación (España), Sección Dptal. de Nutrición y Ciencia de los Alimentos (Veterinaria), Fac. de Veterinaria, TRUE, pub

Published

2023

28. Whole‐genome comparison between the type strain of Halobacterium salinarum (DSM 3754T) and the laboratory strains R1 and NRC‐1

Author

Friedhelm Pfeiffer, Gerald Losensky, Anita Marchfelder, Bianca Habermann, and Mike Dyall‐Smith

Subjects

comparative genomics, genomic variability, haloarchaea, halobacteria, megaplasmid, type strain, Microbiology, QR1-502

Abstract

Abstract Halobacterium salinarum is an extremely halophilic archaeon that is widely distributed in hypersaline environments and was originally isolated as a spoilage organism of salted fish and hides. The type strain 91‐R6 (DSM 3754T) has seldom been studied and its genome sequence has only recently been determined by our group. The exact relationship between the type strain and two widely used model strains, NRC‐1 and R1, has not been described before. The genome of Hbt. salinarum strain 91‐R6 consists of a chromosome (2.17 Mb) and two large plasmids (148 and 102 kb, with 39,230 bp being duplicated). Cytosine residues are methylated (m4C) within CTAG motifs. The genomes of type and laboratory strains are closely related, their chromosomes sharing average nucleotide identity (ANIb) values of 98% and in silico DNA–DNA hybridization (DDH) values of 95%. The chromosomes are completely colinear, do not show genome rearrangement, and matching segments show 10 kb). The well‐studied AT‐rich island (61 kb) of the laboratory strains is replaced by a distinct AT‐rich sequence (47 kb) in 91‐R6. Another large replacement (91‐R6: 78 kb, R1: 44 kb) codes for distinct homologs of proteins involved in motility and N‐glycosylation. Most (107 kb) of plasmid pHSAL1 (91‐R6) is very closely related to part of plasmid pHS3 (R1) and codes for essential genes (e.g. arginine‐tRNA ligase and the pyrimidine biosynthesis enzyme aspartate carbamoyltransferase). Part of pHS3 (42.5 kb total) is closely related to the largest strain‐specific sequence (164 kb) in the type strain chromosome. Genome sequencing unraveled the close relationship between the Hbt. salinarum type strain and two well‐studied laboratory strains at the DNA and protein levels. Although an independent isolate, the type strain shows a remarkably low evolutionary difference to the laboratory strains.

Published

2020

29. Campylobacter jejuni isolated from poultry meat in Brazil: in silico analysis and genomic features of two strains with different phenotypes of antimicrobial susceptibility.

Author

de Fátima Rauber Würfel, Simone, Jorge, Sérgio, de Oliveira, Natasha Rodrigues, Kremer, Frederico Schmitt, Sanchez, Christian Domingues, Campos, Vinícius Farias, da Silva Pinto, Luciano, da Silva, Wladimir Padilha, and Dellagostin, Odir Antônio

Abstract

Campylobacter jejuni is the most common bacterial cause of foodborne diarrheal disease worldwide and is among the antimicrobial resistant "priority pathogens" that pose greatest threat to public health. The genomes of two C. jejuni isolated from poultry meat sold on the retail market in Southern Brazil phenotypically characterized as multidrug-resistant (CJ100) and susceptible (CJ104) were sequenced and analyzed by bioinformatic tools. The isolates CJ100 and CJ104 showed distinct multilocus sequence types (MLST). Comparative genomic analysis revealed a large number of single nucleotide polymorphisms, rearrangements, and inversions in both genomes, in addition to virulence factors, genomic islands, prophage sequences, and insertion sequences. A circular 103-kilobase megaplasmid carrying virulence factors was identified in the genome of CJ100, in addition to resistance mechanisms to aminoglycosides, beta-lactams, macrolides, quinolones, and tetracyclines. The molecular characterization of distinct phenotypes of foodborne C. jejuni and the discovery of a novel virulence megaplasmid provide useful data for pan-genome and large-scale studies to monitor the virulent C. jejuni in poultry meat is warranted. [ABSTRACT FROM AUTHOR]

Published

2020

30. Just the Two of Us? A Family of Pseudomonas Megaplasmids Offers a Rare Glimpse into the Evolution of Large Mobile Elements.

Author

Smith, Brian A, Leligdon, Courtney, and Baltrus, David A

Subjects

*HORIZONTAL gene transfer, *PSEUDOMONAS syringae, *PHYTOPATHOGENIC microorganisms, *PSEUDOMONAS putida, *PSEUDOMONAS, *DNA repair

Abstract

Pseudomonads are ubiquitous group of environmental proteobacteria, well known for their roles in biogeochemical cycling, in the breakdown of xenobiotic materials, as plant growth promoters, and as pathogens of a variety of host organisms. We have previously identified a large megaplasmid present within one isolate of the plant pathogen Pseudomonas syringae, and here we report that a second member of this megaplasmid family is found within an environmental Pseudomonad isolate most closely related to Pseudomonas putida. Many of the shared genes are involved in critical cellular processes like replication, transcription, translation, and DNA repair. We argue that presence of these shared pathways sheds new light on discussions about the types of genes that undergo horizontal gene transfer (i.e. the complexity hypothesis) as well as the evolution of pangenomes. Furthermore, although both megaplasmids display a high level of synteny, genes that are shared differ by over 50% on average at the amino acid level. This combination of conservation in gene order despite divergence in gene sequence suggests that this Pseudomonad megaplasmid family is relatively old, that gene order is under strong selection within this family, and that there are likely many more members of this megaplasmid family waiting to be found in nature. [ABSTRACT FROM AUTHOR]

Published

2019

31. Characterization of Ralstonia solanacearum Isolates, the Causal Agent of Brinjal Vascular Wilt by Flic Locus and Phage Typing

Author

Manyam, Pradeep and Nargund, V. B.

Published

2015

32. Megaplasmid - A promising tool for higher protein production.

Author

Neerathilingam, Muniasamy, Mysore, Sumukh, Gopalan, Lakshmi Narayanan, Chandola, Chetan, Sekar, Narendrakumar, and Veetil, Soumya Kariyadan

Subjects

*PLASMIDS, *PROTEIN expression, *RECOMBINANT proteins, *OPEN reading frames (Genetics), *PROTEIN fractionation

Abstract

Abstract Recombinant proteins have an increasing demand due to their application spanning across different fields. Hence, investigating strategies to increase the yield of recombinant proteins are highly significant. To achieve high yield, optimization of various parameters such as temperature, pH, aeration, inducer concentration, etc. are necessary. However, these parameters maximize the product yield of only the single open reading frame (ORF). A conventional single ORF would produce limited transcripts. Our strategy describes the generation of a tandem repeat of ORF and vector backbone, termed as megafragment (MF), followed by circularization and retaining of megaplasmid (MP) in E. coli, thereby, maximizing the protein production. We demonstrate the generation of megafragment through concatemer chain reaction and devised a method to purify megafragment from other shorter fragments. Linker was added to either end of the ORF to mediate homologous recombination and then transformed into E. coli cells to circularize the megafragment to form megaplasmid (ligase-free cloning technology). Megaplasmid can be a promising tool for higher protein expression as compared to single ORF containing plasmids. Also, E. coli BLR (DE3) and recA null strains were used here for demonstrating megaplasmid expression in the cell. The novelty of this work is the maintenance of the megaplasmid during the expression, which enables the expression of proteins at a high level. Highlights • Megafragment (MF) was generated by concatemer chain reaction and a method was devised for its separation and purification. • E. coli BLR (DE3) recA null proved to be proficient in maintaining and expression of megaplasmid in the cell. • Megaplasmid proved to produce 2 fold of protein in comparison to single copy. • Megaplasmid reduces costs, labor, and time in protein production. [ABSTRACT FROM AUTHOR]

Published

2019

33. Microsatellites composition in bipartite Ralstonia solanacearum genomes: A comparative study between the phylotypes

Author

Patil, Virupaksh U., Vanishree, G., Sagar, Vinay, and Chakrabarti, S. K.

Published

2020

34. Megaplasmid

Author

Wells, Robert D., editor, Bond, Judith S., editor, Klinman, Judith, editor, Masters, Bettie Sue Siler, editor, Bell, Ellis, Managing Editor, and Kaguni, Laurie S., Book Editor

Published

2018

35. Complete sequence of pBM413, a novel multidrug resistance megaplasmid carrying qnrVC6 and blaIMP-45 from pseudomonas aeruginosa.

Author

Liu, Junyan, Yang, Ling, Chen, Dingqiang, Peters, Brian M., Li, Lin, Li, Bing, Xu, Zhenbo, and Shirtliff, Mark E.

Subjects

*MULTIDRUG resistance-associated proteins, *PSEUDOMONAS aeruginosa, *INTEGRONS, *PLASMIDS, *DNA insertion elements

Abstract

This study aimed to characterise a novel multidrug resistance megaplasmid carrying qnrVC6 and bla IMP-45 from Pseudomonas aeruginosa strain Guangzhou-Pae617 isolated from a patient hospitalised in Guangzhou, China, in 2012. The plasmid pBM413 has a length of 423 017 bp and an average G + C content of 56.41%. A qnrVC6 gene flanked by two copies of insertion sequence (IS) elements IS CR1 , a multiresistance class 1 integron In 786 containing aacA4 – bla IMP-45 – bla OXA-1 – catB3 cassettes, an armA gene, and an aphA7 gene flanked by two copies of IS 26 were identified. To our knowledge, this is the first identification of a qnrVC6 gene in P. aeruginosa . [ABSTRACT FROM AUTHOR]

Published

2018

36. Phenotypic and genomic characterization of Pseudomonas aeruginosa isolates recovered from catheter-associated urinary tract infections in an Egyptian hospital.

Author

Eladawy M, Thomas JC, and Hoyles L

Subjects

Humans, Egypt, Phylogeny, Genomics, Anti-Bacterial Agents pharmacology, Catheters, Pseudomonas aeruginosa genetics, Urinary Tract Infections

Abstract

Catheter-associated urinary tract infections (CAUTIs) represent one of the major healthcare-associated infections, and Pseudomonas aeruginosa is a common Gram-negative bacterium associated with catheter infections in Egyptian clinical settings. The present study describes the phenotypic and genotypic characteristics of 31 P . aeruginosa isolates recovered from CAUTIs in an Egyptian hospital over a 3 month period. Genomes of isolates were of good quality and were confirmed to be P. aeruginosa by comparison to the type strain (average nucleotide identity, phylogenetic analysis). Clonal diversity among the isolates was determined; eight different sequence types were found (STs 244, 357, 381, 621, 773, 1430, 1667 and 3765), of which ST357 and ST773 are considered to be high-risk clones. Antimicrobial resistance (AMR) testing according to European Committee on Antimicrobial Susceptibility Testing (EUCAST) guidelines showed that the isolates were highly resistant to quinolones [ciprofloxacin (12/31, 38.7 %) and levofloxacin (9/31, 29 %) followed by tobramycin (10/31, 32.5 %)] and cephalosporins (7/31, 22.5 %). Genotypic analysis of resistance determinants predicted all isolates to encode a range of AMR genes, including those conferring resistance to aminoglycosides, β-lactamases, fluoroquinolones, fosfomycin, sulfonamides, tetracyclines and chloramphenicol. One isolate was found to carry a 422 938 bp pBT2436-like megaplasmid encoding OXA-520 , the first report from Egypt of this emerging family of clinically important mobile genetic elements. All isolates were able to form biofilms and were predicted to encode virulence genes associated with adherence, antimicrobial activity, anti-phagocytosis, phospholipase enzymes, iron uptake, proteases, secretion systems and toxins. The present study shows how phenotypic analysis alongside genomic analysis may help us understand the AMR and virulence profiles of P. aeruginosa contributing to CAUTIs in Egypt.

Published

2023

37. Phage susceptibility and plasmid profile analysis of Sinorhizobium fredii

Author

Hashem, F. M., Kuykendall, L. D., Udell, S. E., Thomas, P. M., Elkan, G. H., editor, and Upchurch, R. G., editor

Published

1997

38. What makes a megaplasmid?

Author

James P. J. Hall, João Botelho, Adrian Cazares, and David A. Baltrus

Subjects

pangenome, megaplasmid, mobile genetic element, food and beverages, Articles, Biology, genome evolution, General Biochemistry, Genetics and Molecular Biology, Orders of magnitude (bit rate), Plasmid, Evolutionary biology, plasmid, Horizontal gene transfer, horizontal gene transfer, General Agricultural and Biological Sciences, Review Articles, Plasmids

Abstract

Naturally occurring plasmids come in different sizes. The smallest are less than a kilobase of DNA, while the largest can be over three orders of magnitude larger. Historically, research has tended to focus on smaller plasmids that are usually easier to isolate, manipulate and sequence, but with improved genome assemblies made possible by long-read sequencing, there is increased appreciation that very large plasmids—known as megaplasmids—are widespread, diverse, complex, and often encode key traits in the biology of their host microorganisms. Why are megaplasmids so big? What other features come with large plasmid size that could affect bacterial ecology and evolution? Are megaplasmids 'just' big plasmids, or do they have distinct characteristics? In this perspective, we reflect on the distribution, diversity, biology, and gene content of megaplasmids, providing an overview to these large, yet often overlooked, mobile genetic elements. This article is part of the theme issue ‘The secret lives of microbial mobile genetic elements’.

Published

2022

39. Effects of megaplasmid loss on growth of neurotoxigenic Clostridium butyricum strains and botulinum neurotoxin type E expression

Author

Concetta eScalfaro, Angelo eIacobino, Laura eGrande, Stefano eMorabito, and Giovanna eFranciosa

Subjects

PFGE, microbial growth, Plasmid curing, Megaplasmid, neurotoxigenic Clostridium butyricum type E, botulinum neurotoxin expression, Microbiology, QR1-502

Abstract

Clostridium butyricum strains that atypically produce the botulinum neurotoxin type E (BoNT/E) possess a megaplasmid of unknown functions in their genome. In this study, we cured two botulinum neurotoxigenic C. butyricum type E strains of their megaplasmids, and compared the obtained megaplasmid-cured strains to their respective wild-type parental strains. Our results showed that the megaplasmids do not confer beta-lactam resistance on the neurotoxigenic C. butyricum type E strains, although they carry several putative beta-lactamase genes. Instead, we found that the megaplasmids are essential for growth of the neurotoxigenic C. butyricum type E strains at the relatively low temperature of 15°C, and are also relevant for growth of strains under limiting pH and salinity conditions, as well as under favorable environmental conditions. Moreover, the presence of the megaplasmids was associated with increased transcript levels of the gene encoding BoNT/E in the C. butyricum type E strains, indicating that the megaplasmids likely contain transcriptional regulators. However, the levels of BoNT/E in the supernatants of the cured and uncured strains were similar after 24 h and 48 h culture, suggesting that expression of BoNT/E in the C. butyricum type E strains is not ultimately controlled by the megaplasmids. Together, our results reveal that the C. butyricum type E megaplasmids exert pleiotropic effects on the growth of their microbial hosts under optimal and limiting environmental conditions, and also highlight the possibility of original regulatory mechanisms controlling the expression of BoNT/E.

Published

2016

40. Identification and bacterial characteristics of Xenorhabdus hominickii ANU101 from an entomopathogenic nematode, Steinernema monticolum.

Author

Park, Youngjin, Kang, Sangjin, Sadekuzzaman, Md., Kim, Hyeonghwan, Jung, Jin-Kyo, and Kim, Yonggyun

Subjects

*XENORHABDUS, *INSECT nematodes, *BACTERIAL typing, *BACTERIA morphology, *BIOLOGICAL assay

Abstract

An entomopathogenic nematode, Steinernema monticolum , was collected in Korea. Its identity was confirmed by morphological and molecular characters. Its symbiotic bacterium, Xenorhabdus hominickii ANU101, was isolated and assessed in terms of bacterial characteristics. Sixty-eight different carbon sources were utilized by X. hominickii ANU101 out of 95 different sources from a Biolog assay. Compared to other Xenorhabdus species, X. hominickii ANU101 was relatively susceptible to high temperatures and did not grow above 34 °C. Furthermore, its growth rate was much slower than other Xenorhabdus species. X. hominickii exhibited insecticidal activities against coleopteran, dipteran, and lepidopteran insect pests. The bacterial virulence was not correlated with its host nematode virulence with respect to relative insecticidal activity against target insects. X. hominickii ANU101 exhibited antibiotics tolerance. The bacterium possesses four different plasmids (Xh-P1 (104,132 bp), Xh- P 2 (95,975 bp), Xh- P 3 (88,536 bp), and Xh- P 4 (11,403 bp)) and encodes 332 open reading frames. Subsequent predicted genes include toxin/antitoxins comprising a multidrug export ATP-binding/permease. This study reports bacterial characters of X. hominickii and its entomopathogenicity. [ABSTRACT FROM AUTHOR]

Published

2017

41. Complete genome sequence of Novosphingobium resinovorum SA1, a versatile xenobiotic-degrading bacterium capable of utilizing sulfanilic acid.

Author

Hegedűs, Botond, Kós, Péter B., Bálint, Balázs, Maróti, Gergely, Gan, Han Ming, Perei, Katalin, and Rákhely, Gábor

Subjects

*NUCLEOTIDE sequence, *PROTEOBACTERIA, *XENOBIOTICS, *SULFONIC acid derivatives, *CHEMICAL industry

Abstract

Sulfanilic acid (4-aminobenzenesulfonic acid) is a sulfonated aromatic amine widely used in chemical industries for synthesis of various organic dyes and sulfa drugs. There are quite a few microbial co-cultures or single isolates capable of completely degrading this compound. Novosphingobium resinovorum SA1 was the first single bacterium which could utilize sulfanilic acid as its sole carbon, nitrogen and sulfur source. The strain has versatile catabolic routes for the bioconversion of numerous other aromatic compounds. Here, the complete genome sequence of the N. resinovorum SA1 strain is reported. The genome consists of a circular chromosome of 3.8 Mbp and four extrachromosomal elements between 67 and 1 759.8 kbp in size. Three alternative 3-ketoadipate pathways were identified on the plasmids. Sulfanilic acid is decomposed via a modified 3-ketoadipate pathway and the oxygenases involved form a phylogenetically separate branch on the tree. Sequence analysis of these elements might provide a genetic background for deeper insight into the versatile catabolic metabolism of various aromatic xenobiotics, including sulfanilic acid and its derivatives. Moreover, this is also a good model strain for understanding the role and evolution of multiple genetic elements within a single strain. [ABSTRACT FROM AUTHOR]

Published

2017

42. Complete genome analysis of Clostridium bornimense strain M2/40T: A new acidogenic Clostridium species isolated from a mesophilic two-phase laboratory-scale biogas reactor.

Author

Tomazetto, Geizecler, Hahnke, Sarah, Koeck, Daniela E., Wibberg, Daniel, Maus, Irena, Pühler, Alfred, Klocke, Michael, and Schlüter, Andreas

Subjects

*CLOSTRIDIUM, *BIOMASS production, *BIOREACTORS, *BACTERIA phylogeny, REPRODUCTIVE isolation

Abstract

Taxonomic and functional profiling based on metagenome analyses frequently revealed that members of the class Clostridia dominate biogas reactor communities and perform different essential metabolic pathways in the biogas fermentation process. Clostridium bornimense strain M2/40 T was recently isolated from a mesophilic two-phase lab-scale biogas reactor continuously fed with maize silage and wheat straw. The genome of the strain was completely sequenced and manually annotated to reconstruct its metabolic potential regarding carbohydrate active enzyme production and fermentation of organic compounds for consolidated biofuel production from biomass. The C. bornimense M2/40 T genome consists of a chromosome (2,917,864 bp in size) containing 2613 protein coding sequences, and a 699,161 bp chromid (secondary replicon) harboring 680 coding sequences. Both replicons feature very similar GC-contents of approximately 29%. The complex genome comprises three prophage regions, two CRISPR- cas systems and a putative cellulosomal gene cluster that is located on the second replicon (chromid) of the strain. The overexpressed glycosyl hydrolases (GH) CelK (GH9) and CelA (GH48) encoded in the cellulosomal gene cluster were shown to be active on the substrates xylan and xyloglucan whereas XghA (GH74) is highly active on xyloglucan. Reconstruction of fermentation pathways from genome sequence data revealed that strain M2/40 T encodes all enzymes for hydrogen, acetate, formate, lactate, butyrate, and ethanol production, leading to the classification of the isolate as acidogenic bacterium. Phylogenetic analyses uncovered that the closest characterized relative of C. bornimense is C. cellulovorans . Comparative analyses of the C. bornimense and C. cellulovorans genomes revealed considerable rearrangements within their chromosomes suggesting that both species evolved separately for a relatively long period of time and adapted to specific tasks within microbial consortia responsible for anaerobic digestion. [ABSTRACT FROM AUTHOR]

Published

2016

43. Erratum: Comparative analysis reveals the modular functional structure of conjugative megaplasmid pTTS12 of Pseudomonas putida S12: A paradigm for transferable traits, plasmid stability, and inheritance?

Subjects

MODULAR construction, COMPARATIVE studies, HEREDITY, MOBILE genetic elements

Published

2023

44. Inter-species diversity and functional genomic analyses of closed genome assemblies of clinically isolated, megaplasmid-containing Enterococcus raffinosus Er676 and ATCC49464.

Author

Sharon BM, Hulyalkar NV, Zimmern PE, Palmer KL, and De Nisco NJ

Abstract

Enterococcus raffinosus is an understudied member of its genus possessing a characteristic megaplasmid contributing to a large genome size. Although less commonly associated with human infection compared to other enterococci, this species can cause disease and persist in diverse niches such as the gut, urinary tract, blood and environment. Few complete genome assemblies have been published to date for E. raffinosus . In this study, we report the complete assembly of the first clinical urinary E. raffinosus strain, Er676, isolated from a postmenopausal woman with history of recurrent urinary tract infection. We additionally completed the assembly of clinical type strain ATCC49464. Comparative genomic analyses reveal inter-species diversity driven by large accessory genomes. The presence of a conserved megaplasmid indicates it is a ubiquitous and vital genetic feature of E. raffinosus . We find that the E. raffinosus chromosome is enriched for DNA replication and protein biosynthesis genes while the megaplasmid is enriched for transcription and carbohydrate metabolism genes. Prophage analysis suggests that diversity in the chromosome and megaplasmid sequences arises, in part, from horizontal gene transfer. Er676 demonstrated the largest genome size reported to date for E. raffinosus and the highest probability of human pathogenicity. Er676 also possesses multiple antimicrobial resistance genes, of which all but one are encoded on the chromosome, and has the most complete prophage sequences. Complete assembly and comparative analyses of the Er676 and ATCC49464 genomes provide important insight into the inter-species diversity of E. raffinosus that gives it its ability to colonize and persist in the human body. Investigating genetic factors that contribute to the pathogenicity of this species will provide valuable tools to combat diseases caused by this opportunistic pathogen., Competing Interests: The authors declare that there are no conflicts of interest., (© 2023 The Authors.)

Published

2023

45. Effects of Megaplasmid Loss on Growth of Neurotoxigenic Clostridium butyricum Strains and Botulinum Neurotoxin Type E Expression.

Author

Scalfaro, Concetta, Grande, Laura, Morabito, Stefano, Franciosa, Giovanna, Iacobino, Angelo, Jianjun Qiao, and Peck, Michael William

Subjects

CLOSTRIDIUM butyricum, BOTULINUM toxin, MICROBIAL growth

Abstract

Clostridium butyricum strains that atypically produce the botulinum neurotoxin type E (BoNT/E) possess a megaplasmid of unknown functions in their genome. In this study, we cured two botulinum neurotoxigenic C. butyricum type E strains of their megaplasmids, and compared the obtained megaplasmid-cured strains to their respective wild-type parental strains. Our results showed that the megaplasmids do not confer beta-lactam resistance on the neurotoxigenic C. butyricum type E strains, although they carry several putative beta-lactamase genes. Instead, we found that the megaplasmids are essential for growth of the neurotoxigenic C. butyricum type E strains at the relatively low temperature of 15°C, and are also relevant for growth of strains under limiting pH and salinity conditions, as well as under favorable environmental conditions. Moreover, the presence of the megaplasmids was associated with increased transcript levels of the gene encoding BoNT/E in the C. butyricum type E strains, indicating that the megaplasmids likely contain transcriptional regulators. However, the levels of BoNT/E in the supernatants of the cured and uncured strains were similar after 24 and 48 h culture, suggesting that expression of BoNT/E in the C. butyricum type E strains is not ultimately controlled by the megaplasmids. Together, our results reveal that the C. butyricum type E megaplasmids exert pleiotropic effects on the growth of their microbial hosts under optimal and limiting environmental conditions, and also highlight the possibility of original regulatory mechanisms controlling the expression of BoNT/E. [ABSTRACT FROM AUTHOR]

Published

2016

46. Characterization of chromosomal and megaplasmid partitioning loci in Thermus thermophilus HB27.

Author

Haijuan Li, Angelov, Angel, Vu Thuy Trang Pham, Leis, Benedikt, and Liebl, Wolfgang

Subjects

*PLASMIDS, *THERMUS thermophilus, *THERMUS (Bacteria), *BACTERIAL replicons, *BACTERIAL reproduction

Abstract

Background: In low-copy-number plasmids, the partitioning loci (par) act to ensure proper plasmid segregation and copy number maintenance in the daughter cells. In many bacterial species, par gene homologues are encoded on the chromosome, but their function is much less understood. In the two-replicon, polyploid genome of the hyperthermophilic bacterium Thermus thermophilus, both the chromosome and the megaplasmid encode par gene homologues (parABc and parABm, respectively). The mode of partitioning of the two replicons and the role of the two Par systems in the replication, segregation and maintenance of the genome copies are completely unknown in this organism. Results: We generated a series of chromosomal and megaplasmid par mutants and sGFP reporter strains and analyzed them with respect to DNA segregation defects, genome copy number and replication origin localization. We show that the two ParB proteins specifically bind their cognate centromere-like sequences parS, and that both ParB-parS complexes localize at the cell poles. Deletion of the chromosomal parAB genes did not apparently affect the cell growth, the frequency of cells with aberrant nucleoids, or the chromosome and megaplasmid replication. In contrast, deletion of the megaplasmid parAB operon or of the parB gene was not possible, indicating essentiality of the megaplasmid-encoded Par system. A mutant expressing lower amounts of ParABm showed growth defects, a high frequency of cells with irregular nucleoids and a loss of a large portion of the megaplasmid. The truncated megaplasmid could not be partitioned appropriately, as interlinked megaplasmid molecules (catenenes) could be detected, and the ParBm-parSm complexes in this mutant lost their polar localization. Conclusions: We show that in T. thermophilus the chromosomal par locus is not required for either the chromosomal or megaplasmid bulk DNA replication and segregation. In contrast, the megaplasmid Par system of T. thermophilus is needed for the proper replication and segregation of the megaplasmid, and is essential for its maintenance. The two Par sets in T. thermophilus appear to function in a replicon-specific manner. To our knowledge, this is the first analysis of Par systems in a polyploid bacterium. [ABSTRACT FROM AUTHOR]

Published

2015

47. Unusual genome complexity in Lactobacillus salivarius JCM1046.

Author

Raftis, Emma J, Forde, Brian M, Claesson, Marcus J, and O’Toole, Paul W

Abstract

Background: Lactobacillus salivarius strains are increasingly being exploited for their probiotic properties in humans and animals. Dissemination of antibiotic resistance genes among species with food or probiotic-association is undesirable and is often mediated by plasmids or integrative and conjugative elements. L. salivarius strains typically have multireplicon genomes including circular megaplasmids that encode strain-specific traits for intestinal survival and probiotic activity. Linear plasmids are less common in lactobacilli and show a very limited distribution in L. salivarius. Here we present experimental evidence that supports an unusually complex multireplicon genome structure in the porcine isolate L. salivarius JCM1046. Results: JCM1046 harbours a 1.83 Mb chromosome, and four plasmids which constitute 20% of the genome. In addition to the known 219 kb repA-type megaplasmid pMP1046A, we identified and experimentally validated the topology of three additional replicons, the circular pMP1046B (129 kb), a linear plasmid pLMP1046 (101 kb) and pCTN1046 (33 kb) harbouring a conjugative transposon. pMP1046B harbours both plasmid-associated replication genes and paralogues of chromosomally encoded housekeeping and information-processing related genes, thus qualifying it as a putative chromid. pLMP1046 shares limited sequence homology or gene synteny with other L. salivarius plasmids, and its putative replication-associated protein is homologous to the RepA/E proteins found in the large circular megaplasmids of L. salivarius. Plasmid pCTN1046 harbours a single copy of an integrated conjugative transposon (Tn6224) which appears to be functionally intact and includes the tetracycline resistance gene tetM. Conclusion: Experimental validation of sequence assemblies and plasmid topology resolved the complex genome architecture of L. salivarius JCM1046. A high-coverage draft genome sequence would not have elucidated the genome complexity in this strain. Given the expanding use of L. salivarius as a probiotic, it is important to determine the genotypic and phenotypic organization of L. salivarius strains. The identification of Tn6224-like elements in this species has implications for strain selection for probiotic applications. [ABSTRACT FROM AUTHOR]

Published

2014

48. Bigger is not always better: Transmission and fitness burden of ∼1MB Pseudomonas syringae megaplasmid pMPPla107.

Author

Romanchuk, Artur, Jones, Corbin D., Karkare, Kedar, Moore, Autumn, Smith, Brian A., Jones, Chelsea, Dougherty, Kevin, and Baltrus, David A.

Subjects

*PSEUDOMONAS syringae, *PLASMID genetics, *GENETIC transformation, *BACTERIAL cultures, *CULTURE media (Biology), *HOST-bacteria relationships

Abstract

Highlights: [•] pMPPla107 is a self-transmissible Pseudomonas syringae megaplasmid. [•] pMPPla107 can transfer to a variety of other Pseudomonads. [•] pMPPla107 transfers on both solid and liquid medium. [•] pMPPla107 is stable in new host strains and the original host strain. [•] pMPPla107 imparts substantial fitness costs in multiple Pseudomonas species. [ABSTRACT FROM AUTHOR]

Published

2014

49. Genomic Epidemiology of Salmonella Infantis in Ecuador: From Poultry Farms to Human Infections

Author

Mejía, Lorena, Medina, José Luis, Bayas, Rosa, Salazar, Carolina Satan, Villavicencio, Fernando, Zapata, Sonia, Matheu, Jorge, Wagenaar, Jaap A, González-Candelas, Fernando, Vinueza-Burgos, Christian, Mejía, Lorena, Medina, José Luis, Bayas, Rosa, Salazar, Carolina Satan, Villavicencio, Fernando, Zapata, Sonia, Matheu, Jorge, Wagenaar, Jaap A, González-Candelas, Fernando, and Vinueza-Burgos, Christian

Abstract

Salmonella enterica is one of the most important foodborne pathogens around the world. In the last years, S. enterica serovar Infantis has become an important emerging pathogen in many countries, often as multidrug resistant clones. To understand the importance of S. enterica in the broiler industry in Ecuador, we performed a study based on phenotypic and WGS data of isolates from poultry farms, chicken carcasses and humans. We showed a high prevalence of S. enterica in poultry farms (41.4%) and chicken carcasses (55.5%), but a low prevalence (1.98%) in human samples. S. Infantis was shown to be the most prevalent serovar with a 98.2, 97.8, and 50% in farms, foods, and humans, respectively, presenting multidrug resistant patterns. All sequenced S. Infantis isolates belonged to ST32. For the first time, a pESI-related megaplasmid was identified in Ecuadorian samples. This plasmid contains genes of antimicrobial resistance, virulence factors, and environmental stress tolerance. Genomic analysis showed a low divergence of S. Infantis strains in the three analyzed components. The results from this study provide important information about genetic elements that may help understand the molecular epidemiology of S. Infantis in Ecuador.

Published

2020

50. Evolution and dynamics of megaplasmids with genome sizes larger than 100 kb in the Bacillus cereus group.

Author

Jinshui Zheng, Donghai Peng, Lifang Ruan, and Ming Sun

Subjects

*PLASMID genetics, *GENOMES, *GENETIC transformation, *BACILLUS cereus, *BACTERIAL evolution

Abstract

Background Plasmids play a crucial role in the evolution of bacterial genomes by mediating horizontal gene transfer. However, the origin and evolution of most plasmids remains unclear, especially for megaplasmids. Strains of the Bacillus cereus group contain up to 13 plasmids with genome sizes ranging from 2 kb to 600 kb, and thus can be used to study plasmid dynamics and evolution. Results This work studied the origin and evolution of 31 B. cereus group megaplasmids (>100 kb) focusing on the most conserved regions on plasmids, minireplicons. Sixty-five putative minireplicons were identified and classified to six types on the basis of proteins that are essential for replication. Twenty-nine of the 31 megaplasmids contained two or more minireplicons. Phylogenetic analysis of the protein sequences showed that different minireplicons on the same megaplasmid have different evolutionary histories. Therefore, we speculated that these megaplasmids are the results of fusion of smaller plasmids. All plasmids of a bacterial strain must be compatible. In megaplasmids of the B. cereus group, individual minireplicons of different megaplasmids in the same strain belong to different types or subtypes. Thus, the subtypes of each minireplicon they contain may determine the incompatibilities of megaplasmids. A broader analysis of all 1285 bacterial plasmids with putative known minireplicons whose complete genome sequences were available from GenBank revealed that 34% (443 plasmids) of the plasmids have two or more minireplicons. This indicates that plasmid fusion events are general among bacterial plasmids. Conclusions Megaplasmids of B. cereus group are fusion of smaller plasmids, and the fusion of plasmids likely occurs frequently in the B. cereus group and in other bacterial taxa. Plasmid fusion may be one of the major mechanisms for formation of novel megaplasmids in the evolution of bacteria. [ABSTRACT FROM AUTHOR]

Published

2013