The Genome of
            <i>Salmonella enterica</i>
            Serovar Gallinarum: Distinct Insertions/Deletions and Rare Rearrangements

Wu, Kaiyu; Liu, Guirong; Liu, Weiqiao; Wang, Austin Q.; Zhan, Sen; Sanderson, Kenneth E.; Johnston, Randal N.; Liu, Shulin

doi:10.1128/jb.187.14.4720-4727.2005

Cited by 23 publications

(17 citation statements)

References 45 publications

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“…This might explain why major genomic rearrangements owing to homologous recombination between the rrn operons are a characteristic feature of the chromosomes of S. Typhi isolates Sanderson 1995, 1996;Kothapalli et al 2005;Matthews et al 2010). Similar genome rearrangements are also found in other host-restricted lineages within the genus Salmonella, including S. Paratyphi C, S. Gallinarum, and S. Typhimurium phage type DT2 (Liu and Sanderson 1998;Helm et al 2004;Wu et al 2005;Liu et al 2007). Thus, rearrangements are a genomic signature of host-restricted members of the genus Salmonella that rely on chronic persistence in the host for transmission.…”

Section: Genomic Rearrangementsmentioning

confidence: 75%

Host Specificity of Bacterial Pathogens

Bäumler

Fang

2013

Cold Spring Harbor Perspectives in Medicine

173

134

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Section: Genomic Rearrangementsmentioning

confidence: 75%

Host Specificity of Bacterial Pathogens

Bäumler

Fang

2013

Cold Spring Harbor Perspectives in Medicine

173

134

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“…In the case of serovar Gallinarum, no obvious alternation has been reported, especially in the SPI-1 region in serovar Gallinarum, as assessed by multilocus enzyme electrophoresis or whole-genome microarray. These methods, however, would not allow one to monitor the differences on a minor scale, like transcriptional changes due to point mutations, silencing of genes, and small deletions (10,22,44,46,48,50,71). Note that we could generate various deletion mutants of serovar Gallinarum based on serovar Typhimurium sequences by homologous recombination using the lambda Red system (19).…”

Section: Discussionmentioning

confidence: 99%

Salmonella enterica Serovar Gallinarum Requires ppGpp for Internalization and Survival in Animal Cells

et al. 2008

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To elucidate the pathogenic mechanism of Salmonella enterica serovar Gallinarum, we examined the expression of the genes encoded primarily in Salmonella pathogenicity island 1 (SPI-1) and SPI-2. These genes were found to be induced as cultures entered stationary phase under high-and low-oxygen growth conditions, as also observed for Salmonella serovar Typhimurium. In contrast, Salmonella serovar Gallinarum in the exponential growth phase most efficiently internalized cultured animal cells. Analysis of mutants defective in SPI-1 genes, SPI-2 genes, and others implicated in early stages of infection revealed that SPI-1 genes were not involved in the internalization of animal cells by Salmonella serovar Gallinarum. Following entry, however, Salmonella serovar Gallinarum was found to reside in LAMP1-positive vacuoles in both phagocytic and nonphagocytic cells, although internalization was independent of SPI-1. A mutation that conferred defects in ppGpp synthesis was the only one found to affect animal cell internalization by Salmonella serovar Gallinarum. It was concluded that Salmonella serovar Gallinarum internalizes animal cells by a mechanism independent of SPI-1 genes but dependent on ppGpp. Intracellular growth also required ppGpp for the transcription of genes encoded in SPI-2.

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“…One point that is especially worth emphasizing is that, at higher resolution, physical mapping reveals a genome structure that is common to all strains of the same lineage but entirely different from all those of other lineagesthere is no gradual drop in similarity with increasing genetic distances among the bacteria. The distinctness in genome structure is absolute even for Salmonella lineages that are as closely related as between S. paratyphi C and S. choleraesuis (Liu et al 2009;Chiu et al 2005) or between S. pullorum and S. gallinarum (Liu et al 2002;Wu et al 2005). These findings indicate that individual Salmonella lineages, resolved by serotyping or physical mapping, are genetically isolated without free flows of genes between them.…”

Section: Salmonella As Genomic Models Of Bacterial Speciesmentioning

confidence: 75%

The 3Cs provide a novel concept of bacterial species: messages from the genome as illustrated by Salmonella

Tang

Liu

2011

Antonie van Leeuwenhoek

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A key issue troubling bacterial taxonomy and systematics is the lack of a biological species definition. Criteria to be used for defining bacterial species on genetic and biological bases should be able to reveal clear-cut boundaries among clusters of bacteria. To date, DNA-DNA re-association assays and ribosomal RNA sequence comparison have been useful in determining relative evolutionary distances among bacteria but the data are continuous and thus cannot define bacterial clusters as taxonomic units to be called species. Using Salmonella as models, we have looked for definite genetic and biologic uniqueness of clusters of bacteria. Based on our findings that each Salmonella lineage has a unique genome structure shared by strains of the same lineage but not overlapping with strains of other Salmonella lineages, we conclude that this is a result of genetic isolation following divergence of the bacteria. We propose that there should be genetic boundaries between different species of bacteria at the genomic level, which awaits further genomic information for validation.

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The Genome of Salmonella enterica Serovar Gallinarum: Distinct Insertions/Deletions and Rare Rearrangements

Cited by 23 publications

References 45 publications

Host Specificity of Bacterial Pathogens

Host Specificity of Bacterial Pathogens

Salmonella enterica Serovar Gallinarum Requires ppGpp for Internalization and Survival in Animal Cells

The 3Cs provide a novel concept of bacterial species: messages from the genome as illustrated by Salmonella

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