The genome of Shigella dysenteriae strain Sd1617 comparison to representative strains in evaluating pathogenesis (original) (raw)
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Genome sequencing, annotation and comparative genomic analysis of Shigella dysenteriae strain SD1D
Gut Pathogens, 2014
Background: Shigellosis is an acute form of gastroenteritis caused by the bacteria belonging to the genus Shigella. It is the most common cause of morbidity and mortality in children. Shigella belongs to the family Enterobactericeae, which is a Gram-negative and rod shaped bacterium. In the present study, we report the draft genome of Shigella dysenteriae strain SD1D, which was isolated from the stool sample of a healthy individual. Results: Based on 16S rRNA gene sequence and phylogenetic analysis, the strain SD1D was identified as Shigella dysenteriae. The draft genome of SD1D consisted of 45, 93, 159 bp with a G + C content of 50.7%, 4, 960 predicted CDSs, 75 tRNAs and 2 rRNAs. The final assembly contained 146 contigs of total length 45, 93, 159 bp with N 50 contig length of 77, 053 bp; the largest contig assembled measured 3, 85, 550 bp.
Draft Genome Sequences of 72 Isolates from All Four Species of Shigella
Microbiology Resource Announcements
Shigella is a genus of Gram-negative enteric pathogenic bacteria which has four species, Shigella dysenteriae, S. flexneri, S. boydii, and S. sonnei. Shigella species are clinically important bacteria because they cause shigellosis or dysentery. Here we report the genome sequences of 72 Shigella isolates from these four species.
Draft genomes of Shigella strains used by the STOPENTERICS consortium
Gut pathogens, 2015
Despite a significant global burden of disease, there is still no vaccine against shigellosis widely available. One aim of the European Union funded STOPENTERICS consortium is to develop vaccine candidates against Shigella. Given the importance of translational vaccine coverage, here we aimed to characterise the Shigella strains being used by the consortium by whole genome sequencing, and report on the stability of strains cultured in different laboratories or through serial passage. We sequenced, de novo assembled and annotated 20 Shigella strains being used by the consortium. These comprised 16 different isolates belonging to 7 serotypes, and 4 derivative strains. Derivative strains from common isolates were manipulated in different laboratories or had undergone multiple passages in the same laboratory. Strains were mapped against reference genomes to detect SNP variation and phylogenetic analysis was performed. The genomes assembled into similar total lengths (range 4.14-4.83 Mbp...
Frontiers in Microbiology, 2021
Shigella dysenteriae are significant agents of bacillary dysentery, accounting for a considerable number of illnesses with high morbidity worldwide. The Shiga toxin (Stx) encoded by a defective prophage is the key virulence factor of S. dysenteriae type 1 (SD1) strains. Here we present the full genome sequence of an SD1 strain HNCMB 20080 isolated in 1954, compare it to other sequenced SD1 genomes, and assess the diversity of Stx-prophages harbored by previously sequenced SD1 strains. The genome of HNCMB 20080 consists of a chromosome sized 4,393,622 bp containing 5,183 CDSs, as well as two small plasmids. Comparative genomic analysis revealed a high degree of uniformity among SD1 genomes, including the structure of Stx prophage regions, which we found to form two subgroups termed PT-I and PT-II. All PT-I strains are members of the sequence type (ST) 146 or ST260, while the only PT-II harboring strain, Sd1617 proved to be ST untypeable. In accordance with data from previous reports,...
Complete Genome Sequence and Comparative Genomics ofShigella flexneriSerotype 2a Strain 2457T
Infection and Immunity, 2003
We determined the complete genome sequence of Shigella flexneri serotype 2a strain 2457T (4,599,354 bp). Shigella species cause >1 million deaths per year from dysentery and diarrhea and have a lifestyle that is markedly different from those of closely related bacteria, including Escherichia coli. The genome exhibits the backbone and island mosaic structure of E. coli pathogens, albeit with much less horizontally transferred DNA and lacking 357 genes present in E. coli. The strain is distinctive in its large complement of insertion sequences, with several genomic rearrangements mediated by insertion sequences, 12 cryptic prophages, 372 pseudogenes, and 195 S. flexneri-specific genes. The 2457T genome was also compared with that of a recently sequenced S. flexneri 2a strain, 301. Our data are consistent with Shigella being phylogenetically indistinguishable from E. coli. The S. flexneri-specific regions contain many genes that could encode proteins with roles in virulence. Analysis of these will reveal the genetic basis for aspects of this pathogenic organism's distinctive lifestyle that have yet to be explained.
Molecular and Phenotypic Characterization of Potentially New Shigella dysenteriae Serotype
2000
Salmonella and Shigella received 22 Shigella isolates recovered from 22 different patients suffering from dysentery. None of these isolates reacted with any of the antisera used to identify established Shigella serotypes, but all of them agglutinated in the presence of antisera to a previously described potentially new Shigella dysenteriae serotype (represented by strain 96-204) primarily isolated from stool cultures of imported diarrheal cases in Japan. All French isolates, as well as strain 96-204, showed biochemical reactions typical of S. dysenteriae and gave positive results in a PCR assay for detection of the plasmid ipaH gene coding for invasiveness. No Shiga toxin gene was detected by PCR. These isolates were indistinguishable by molecular analysis of ribosomal DNA (ribotyping) and seemed to be related to S. dysenteriae serotypes 3 and 12. However, further characterization by restriction of the amplified O-antigen gene cluster clearly distinguished this new serotype from all other Shigella or Escherichia coli serotypes.
Molecular and Phenotypic Characterization of Potentially New Shigella dysenteriae Serotype
Journal of Clinical Microbiology, 2001
, the French National Center for Salmonella and Shigella received 22 Shigella isolates recovered from 22 different patients suffering from dysentery. None of these isolates reacted with any of the antisera used to identify established Shigella serotypes, but all of them agglutinated in the presence of antisera to a previously described potentially new Shigella dysenteriae serotype (represented by strain 96-204) primarily isolated from stool cultures of imported diarrheal cases in Japan. All French isolates, as well as strain 96-204, showed biochemical reactions typical of S. dysenteriae and gave positive results in a PCR assay for detection of the plasmid ipaH gene coding for invasiveness. No Shiga toxin gene was detected by PCR. These isolates were indistinguishable by molecular analysis of ribosomal DNA (ribotyping) and seemed to be related to S. dysenteriae serotypes 3 and 12. However, further characterization by restriction of the amplified O-antigen gene cluster clearly distinguished this new serotype from all other Shigella or Escherichia coli serotypes.
Journal of global antimicrobial resistance, 2017
Shigella spp. are a major diarrhoeal disease pathogen worldwide and can cause considerable morbidity and mortality. Notably, limited genome data are available for serogroups/sub-serogroups of Shigella. Here we report the whole-genome shotgun sequences of 23 non-typeable Shigella from stool specimens that biochemically resembled Shigella spp. but were non-typeable with Shigella-specific antisera.