scholarly journals First Genome Description of Providencia vermicola Isolate Bearing NDM-1 from Blood Culture

2021 ◽  
Vol 9 (8) ◽  
pp. 1751
Author(s):  
David Lupande-Mwenebitu ◽  
Mariem Ben Khedher ◽  
Sami Khabthani ◽  
Lalaoui Rym ◽  
Marie-France Phoba ◽  
...  
Keyword(s):  
Complete Genome ◽  
Antibiotic Resistance Genes ◽  
Genomic Analysis ◽  
University Teaching ◽  
Genome Comparison ◽  
Comparative Genomic ◽  
Type I ◽  
Type Vi Secretion System ◽  
Clinical Practices ◽  
Circular Chromosome

In this paper, we describe the first complete genome sequence of Providencia vermicola species, a clinical multidrug-resistant strain harboring the New Delhi Metallo-β-lactamase-1 (NDM-1) gene, isolated at the Kinshasa University Teaching Hospital, in Democratic Republic of the Congo. Whole genome sequencing of an imipenem-resistant clinical Gram-negative P. vermicola P8538 isolate was performed using MiSeq and Gridion, and then complete genome analysis, plasmid search, resistome analysis, and comparative genomics were performed. Genome assembly resulted in a circular chromosome sequence of 4,280,811-bp and 40.80% GC and a circular plasmid (pPV8538_NDM-1) of 151,684-bp and 51.93%GC, which was identified in an Escherichia coli P8540 strain isolated in the same hospital. Interestingly, comparative genomic analysis revealed multiple sequences acquisition within the P. vermicola P8538 chromosome, including three complete prophages, a siderophore biosynthesis NRPS cluster, a Type VI secretion system (T6SS), a urease gene cluster, and a complete Type-I-F CRISPR-Cas3 system. Β-lactamase genes, including blaCMY-6 and blaNDM-1, were found on the recombinant plasmid pPV8538_NDM-1, in addition to other antibiotic resistance genes such as rmtC, aac6’-Ib3, aacA4, catA1, sul1, aac6’-Ib-cr, tetA, and tetB. Genome comparison with Providencia species revealed 82.95% of average nucleotide identity (ANI), with P. stuartii species exhibiting 90.79% of proteome similarity. We report the first complete genome of P. vermicola species and for the first time the presence of the blaNDM-1 gene in this species. This work highlights the need to improve surveillance and clinical practices in DR Congo in order to reduce or prevent the spread of such resistance.

scholarly journals In SilicoTyping and Comparative Genomic Analysis of IncFIIKPlasmids and Insights into the Evolution of Replicons, Plasmid Backbones, and Resistance Determinant Profiles

2018 ◽  
Vol 62 (10) ◽  
Author(s):  
Dexi Bi ◽  
Jiayi Zheng ◽  
Jun-Jie Li ◽  
Zi-Ke Sheng ◽  
Xingchen Zhu ◽  
...  
Keyword(s):  
Large Scale ◽  
Antibiotic Resistance Genes ◽  
Genomic Analysis ◽  
Epidemiological Studies ◽  
Genome Comparison ◽  
Comparative Genomic ◽  
Content Type ◽  
Bacterial Plasmid ◽  
Phylogeny And Evolution ◽  
Sequence Types

ABSTRACTIncFIIKplasmids are associated with the acquisition and dissemination of multiple-antimicrobial resistance inKlebsiella pneumoniaeand often encountered in clinical isolates of this species. Since the phylogeny and evolution of IncFIIKplasmids remain unclear, here we performed large-scalein silicotyping and comparative analysis of these plasmids in publicly available bacterial/plasmid genomes. IncFIIKplasmids are prevalent inK. pneumoniae, being found in 69% of sequenced genomes, covering 66% of sequenced STs (sequence types), but sparse in otherEnterobacteriaceae. IncFIIKreplicons have three lineages. One IncFIIKallele could be found in distinctK. pneumoniaeSTs, highlighting the lateral genetic flow of IncFIIKplasmids. A set of 77 IncFIIKplasmids with full sequences were further analyzed. A pool of 327 antibiotic resistance genes or remnants were annotated in 75.3% of these plasmids. Plasmid genome comparison reiterated that they often contain other replicons belonging to IncFIA, IncFIB, IncFIIYp, IncFIIpCRY, IncR, IncL, and IncN groups and that they share a conserved backbone featuring an F-like conjugation module that has divergent components responsible for regulation and mating pair stabilization. Further epidemiological studies of IncFIIKplasmids are required due to the sample bias ofK. pneumoniaegenomes in public databases. This study provides insights into the evolution and structures of IncFIIKplasmids.

scholarly journals Complete Genome Sequence Reveals Evolutionary and Comparative Genomic Features of Xanthomonas albilineans Causing Sugarcane Leaf Scald

2020 ◽  
Vol 8 (2) ◽  
pp. 182
Author(s):  
Hui-Li Zhang ◽  
Mbuya Sylvain Ntambo ◽  
Philippe C. Rott ◽  
Gongyou Chen ◽  
Li-Lan Chen ◽  
...  
Keyword(s):  
Complete Genome ◽  
Genomic Analysis ◽  
Dna Methyltransferases ◽  
Comparative Genomic ◽  
Bacterial Disease ◽  
High Genetic Diversity ◽  
Circular Chromosome ◽  
Leaf Scald ◽  
Genomic Features ◽  
Xanthomonas Albilineans

Leaf scald (caused by Xanthomonas albilineans) is an important bacterial disease affecting sugarcane in most sugarcane growing countries, including China. High genetic diversity exists among strains of X. albilineans from diverse geographic regions. To highlight the genomic features associated with X. albilineans from China, we sequenced the complete genome of a representative strain (Xa-FJ1) of this pathogen using the PacBio and Illumina platforms. The complete genome of strain Xa-FJ1 consists of a circular chromosome of 3,724,581 bp and a plasmid of 31,536 bp. Average nucleotide identity analysis revealed that Xa-FJ1 was closest to five strains from the French West Indies and the USA, particularly to the strain GPE PC73 from Guadeloupe. Comparative genomic analysis between Xa-FJ1 and GPE PC73 revealed prophage integration, homologous recombination, transposable elements, and a clustered regulatory interspaced short palindromic repeats (CRISPR) system that were linked with 16 insertions/deletions (InDels). Ten and 82 specific genes were found in Xa-FJ1 and GPE PC73, respectively, and some of these genes were subjected to phage-related proteins, zona occludens toxin, and DNA methyltransferases. Our findings highlight intra-species genetic variability of the leaf scald pathogen and provide additional genomic resources to investigate its fitness and virulence.

scholarly journals Genomic characteristics and comparative genomics of Salmonella enterica subsp. enterica serovar Schwarzengrund strain S16 isolated from chicken feces

Gut Pathogens ◽  
2022 ◽  
Vol 14 (1) ◽  
Author(s):  
Seung-Min Yang ◽  
Eiseul Kim ◽  
Woojung Lee ◽  
Hae-Yeong Kim
Keyword(s):  
Antibiotic Resistance ◽  
Salmonella Enterica ◽  
Complete Genome ◽  
Virulence Genes ◽  
Antibiotic Resistance Genes ◽  
Genomic Analysis ◽  
Comparative Genomic ◽  
Genotypic Analysis ◽  
Chicken Feces ◽  
The Republic

Abstract Background Salmonella enterica subsp. enterica serovar Schwarzengrund (S. Schwarzengrund) is most frequently isolated from commensals humans or poultry. Here we report S. Schwarzengrund strain S16, the first sequenced genome in the Republic of Korea. Additionally, genome sequencing for strain S16 was performed and compared with other S. Schwarzengrund genomes obtained from public database. Results Strain S16 was isolated from chicken feces. The complete genome consists of one chromosome and one plasmid. The genome size is 4,822,755 bp with 4852 coding sequences. Strain S16 was determined as serovar Schwarzengrund by in silico serotyping and typed as sequence type (ST) 96. Forty-six S. Schwarzengrund genomes yielded a pangenome of 7112 genes, core-genome of 3374 genes, accessory-genome of 2906 genes, and unique-genome of 835 genes. Eighty-one genes were unique to strain S16, including hypothetical proteins and transcriptional regulators. Genotypic analysis of antibiotic resistance of strain S16 confirmed resistance to amikacin, ciprofloxacin, sulfamethoxazole, streptomycin, and tetracycline. Unlike other S. Schwarzengrund genomes, strain S16 had a mutation of gyrB. Moreover, similar to other S. Schwarzengrund genomes reported in other countries, strain S16 was harbored for 153 virulence genes including Saf operon and cdtB gene. All the antibiotic resistance genes and virulence genes were present in the core- or accessory-genomes. Conclusions Complete genome of strain S16 was sequenced. Comparative genomic analysis revealed several genes responsible for antibiotic resistance and specific genomic features of strain S16 and identified virulence factors that might contribute to the human and animal pathogenicity of other S. Schwarzengrund genomes.

scholarly journals Complete genome analysis of African swine fever virus responsible for outbreaks in domestic pigs in 2018 in Burundi and 2019 in Malawi

2021 ◽  
Vol 53 (4) ◽  
Author(s):  
Jean N. Hakizimana ◽  
Jean B. Ntirandekura ◽  
Clara Yona ◽  
Lionel Nyabongo ◽  
Gladson Kamwendo ◽  
...  
Keyword(s):  
Complete Genome ◽  
African Swine Fever Virus ◽  
Gc Content ◽  
Genomic Analysis ◽  
African Swine Fever ◽  
Eastern Africa ◽  
Nucleotide Identity ◽  
Comparative Genomic ◽  
Genome Sequences ◽  
Domestic Pigs

AbstractSeveral African swine fever (ASF) outbreaks in domestic pigs have been reported in Burundi and Malawi and whole-genome sequences of circulating outbreak viruses in these countries are limited. In the present study, complete genome sequences of ASF viruses (ASFV) that caused the 2018 outbreak in Burundi (BUR/18/Rutana) and the 2019 outbreak in Malawi (MAL/19/Karonga) were produced using Illumina next-generation sequencing (NGS) platform and compared with other previously described ASFV complete genomes. The complete nucleotide sequences of BUR/18/Rutana and MAL/19/Karonga were 176,564 and 183,325 base pairs long with GC content of 38.62 and 38.48%, respectively. The MAL/19/Karonga virus had a total of 186 open reading frames (ORFs) while the BUR/18/Rutana strain had 151 ORFs. After comparative genomic analysis, the MAL/19/Karonga virus showed greater than 99% nucleotide identity with other complete nucleotides sequences of p72 genotype II viruses previously described in Tanzania, Europe and Asia including the Georgia 2007/1 isolate. The Burundian ASFV BUR/18/Rutana exhibited 98.95 to 99.34% nucleotide identity with genotype X ASFV previously described in Kenya and in Democratic Republic of the Congo (DRC). The serotyping results classified the BUR/18/Rutana and MAL/19/Karonga ASFV strains in serogroups 7 and 8, respectively. The results of this study provide insight into the genetic structure and antigenic diversity of ASFV strains circulating in Burundi and Malawi. This is important in order to understand the transmission dynamics and genetic evolution of ASFV in eastern Africa, with an ultimate goal of designing an efficient risk management strategy against ASF transboundary spread.

scholarly journals Complete Genome Resequencing of Thermus thermophilus Strain TMY by Hybrid Assembly of Long- and Short-Read Sequencing Technologies

2021 ◽  
Vol 10 (46) ◽  
Author(s):  
Kentaro Miyazaki ◽  
Natsuko Tokito
Keyword(s):  
Complete Genome ◽  
Thermus Thermophilus ◽  
Genomic Analysis ◽  
Comparative Genomic ◽  
Hybrid Assembly ◽  
Genome Resequencing ◽  
Short Read ◽  
Content Type ◽  
Sequencing Technologies ◽  
Long Read

Complete genome resequencing was conducted for Thermus thermophilus strain TMY by hybrid assembly of Oxford Nanopore Technologies long-read and MGI short-read data. Errors in the previously reported genome sequence determined by PacBio technology alone were corrected, allowing for high-quality comparative genomic analysis of closely related T. thermophilus genomes.

scholarly journals The Complete Genome of the Atypical Enteropathogenic Escherichia coli Archetype Isolate E110019 Highlights a Role for Plasmids in Dissemination of the Type III Secreted Effector EspT

2019 ◽  
Vol 87 (10) ◽  
Author(s):  
Tracy H. Hazen ◽  
David A. Rasko
Keyword(s):  
Escherichia Coli ◽  
Complete Genome ◽  
Genomic Analysis ◽  
Host Cells ◽  
Comparative Genomic ◽  
Content Type ◽  
E Coli ◽  
Type Iii ◽  
Severe Diarrhea ◽  
Typical Epec

ABSTRACT Enteropathogenic Escherichia coli (EPEC) is a leading cause of moderate to severe diarrhea among young children in developing countries, and EPEC isolates can be subdivided into two groups. Typical EPEC (tEPEC) bacteria are characterized by the presence of both the locus of enterocyte effacement (LEE) and the plasmid-encoded bundle-forming pilus (BFP), which are involved in adherence and translocation of type III effectors into the host cells. Atypical EPEC (aEPEC) bacteria also contain the LEE but lack the BFP. In the current report, we describe the complete genome of outbreak-associated aEPEC isolate E110019, which carries four plasmids. Comparative genomic analysis demonstrated that the type III secreted effector EspT gene, an autotransporter gene, a hemolysin gene, and putative fimbrial genes are all carried on plasmids. Further investigation of 65 espT-containing E. coli genomes demonstrated that different espT alleles are associated with multiple plasmids that differ in their overall gene content from the E110019 espT-containing plasmid. EspT has been previously described with respect to its role in the ability of E110019 to invade host cells. While other type III secreted effectors of E. coli have been identified on insertion elements and prophages of the chromosome, we demonstrated in the current study that the espT gene is located on multiple unique plasmids. These findings highlight a role of plasmids in dissemination of a unique E. coli type III secreted effector that is involved in host invasion and severe diarrheal illness.

scholarly journals A large scale, multiple genome comparison of acidophilic Archaea (pH ≤ 5.0) extends our understanding of oxidative stress responses in polyextreme environments

2021 ◽  
Author(s):  
Gonzalo Neira ◽  
Eva Vergara ◽  
Diego Nahuel Cortez ◽  
David S. Holmes
Keyword(s):  
Oxidative Stress ◽  
Stress Responses ◽  
Large Scale ◽  
Genomic Analysis ◽  
Low Ph ◽  
Genome Comparison ◽  
Comparative Genomic ◽  
Acidophilic Bacteria ◽  
Acidophilic Archaea ◽  
Oxidative Stress Responses

Acidophilic Archaea thrive in anaerobic and aerobic low pH environments (<pH 5) rich in dissolved heavy metals that exacerbate stress caused by the production of reactive oxygen species (ROS) such as hydrogen peroxide (H2O2), hydroxyl radical (·OH) and superoxide (O2·−). ROS react with lipids, proteins and nucleic acids causing oxidative stress and damage that can lead to cell death. Herein, genes and mechanisms potentially involved in ROS mitigation are predicted in over 200 genomes of acidophilic Archaea with sequenced genomes. These organisms can be subjected to simultaneous multiple stresses such as high temperature, high salinity, low pH and high heavy metal loads. Some of the topics addressed include: (1) the phylogenomic distribution of these genes and what can this tell us about the evolution of these mechanisms in acidophilic Archaea; (2) key differences in genes and mechanisms used by acidophilic versus non-acidophilic Archaea and between acidophilic Archaea and acidophilic Bacteria and (3) how comparative genomic analysis predicts novel genes or pathways involved in oxidative stress responses in Archaea and possible Horizontal Gene Transfer (HGT) events.

scholarly journals Recombination Drives Emergence of Orf Virus Diversity: Evidence From the First Complete Genome of Indian Orf Virus and Comparative Genomic Analysis

2021 ◽  
Author(s):  
Debasis Nayak ◽  
Basanta Sahu ◽  
Prativa Majee ◽  
Ravi Singh ◽  
Niranjan Sahoo
Keyword(s):  
Complete Genome ◽  
Phylogenetic Trees ◽  
Small Ruminants ◽  
Gc Content ◽  
Genomic Analysis ◽  
Central India ◽  
Purifying Selection ◽  
Orf Virus ◽  
Comparative Genomic ◽  
Virus Diversity

Abstract Contagious pustular dermatitis is a disease that primarily infects small ruminants and has the zoonotic potential evoked by a Parapoxvirus, Orf virus (ORFV). This study evaluated an ORFV outbreak in goats that arose in Madhya Pradesh, a state of central India, during 2017 by constructing phylogenetic trees and unveiling its transboundary potential. Thereafter, the complete genome of an ORFV strain named Ind/MP has revealed the presence of 139,807bp nucleotide sequences, GC content 63.7%, 132 open reading frames (ORFs) circumscribed by inverted terminal repeats (ITRs) of 3,910bp. Evolutionary parameters such as selection pressure (θ=dN/dS), nucleotide diversity (π), etc., demonstrate the ORFV exhibit purifying selection. A total of forty recombination events were observed, out of which Ind/MP strains were engaged in twenty-one recombination events indicating this strain can recombine for the generation of new variants.

scholarly journals Comparative Genomics Unveils Regionalized Evolution of the Faustovirus Genomes

Viruses ◽  
2020 ◽  
Vol 12 (5) ◽  
pp. 577 ◽  
Author(s):  
Khalil Geballa-Koukoulas ◽  
Hadjer Boudjemaa ◽  
Julien Andreani ◽  
Bernard La Scola ◽  
Guillaume Blanc
Keyword(s):  
Genomic Analysis ◽  
Nucleotide Composition ◽  
Death Process ◽  
Comparative Genomic ◽  
Type I ◽  
Homing Endonucleases ◽  
Bacterial Genomes ◽  
Phylogenetic Groups ◽  
Genome Wide ◽  
Dna Replication Origin

Faustovirus is a recently discovered genus of large DNA virus infecting the amoeba Vermamoeba vermiformis, which is phylogenetically related to Asfarviridae. To better understand the diversity and evolution of this viral group, we sequenced six novel Faustovirus strains, mined published metagenomic datasets and performed a comparative genomic analysis. Genomic sequences revealed three consistent phylogenetic groups, within which genetic diversity was moderate. The comparison of the major capsid protein (MCP) genes unveiled between 13 and 18 type-I introns that likely evolved through a still-active birth and death process mediated by intron-encoded homing endonucleases that began before the Faustovirus radiation. Genome-wide alignments indicated that despite genomes retaining high levels of gene collinearity, the central region containing the MCP gene together with the extremities of the chromosomes evolved at a faster rate due to increased indel accumulation and local rearrangements. The fluctuation of the nucleotide composition along the Faustovirus (FV) genomes is mostly imprinted by the consistent nucleotide bias of coding sequences and provided no evidence for a single DNA replication origin like in circular bacterial genomes.

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