A comparison of dense transposon insertion libraries in the Salmonella serovars Typhi and Typhimurium

Salmonella Typhi and Typhimurium diverged only ∼50 000 years ago, yet have very different host ranges and pathogenicity. Despite the availability of multiple whole-genome sequences, the genetic differences that have driven these changes in phenotype are only beginning to be understood. In this study...

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Veröffentlicht in:	Nucleic acids research 2013-04, Vol.41 (8), p.4549-4564
Hauptverfasser:	Barquist, Lars, Langridge, Gemma C, Turner, Daniel J, Phan, Minh-Duy, Turner, A Keith, Bateman, Alex, Parkhill, Julian, Wain, John, Gardner, Paul P
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Sprache:	eng
Schlagworte:	Bacterial Proteins - genetics DNA Transposable Elements Gene Library Genes, Bacterial Genomics Mutagenesis, Insertional RNA, Small Untranslated - genetics RNA, Untranslated - genetics Salmonella typhi - genetics Salmonella typhi - growth & development Salmonella typhimurium - genetics Salmonella typhimurium - growth & development
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container_title	Nucleic acids research
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creator	Barquist, Lars Langridge, Gemma C Turner, Daniel J Phan, Minh-Duy Turner, A Keith Bateman, Alex Parkhill, Julian Wain, John Gardner, Paul P
description	Salmonella Typhi and Typhimurium diverged only ∼50 000 years ago, yet have very different host ranges and pathogenicity. Despite the availability of multiple whole-genome sequences, the genetic differences that have driven these changes in phenotype are only beginning to be understood. In this study, we use transposon-directed insertion-site sequencing to probe differences in gene requirements for competitive growth in rich media between these two closely related serovars. We identify a conserved core of 281 genes that are required for growth in both serovars, 228 of which are essential in Escherichia coli. We are able to identify active prophage elements through the requirement for their repressors. We also find distinct differences in requirements for genes involved in cell surface structure biogenesis and iron utilization. Finally, we demonstrate that transposon-directed insertion-site sequencing is not only applicable to the protein-coding content of the cell but also has sufficient resolution to generate hypotheses regarding the functions of non-coding RNAs (ncRNAs) as well. We are able to assign probable functions to a number of cis-regulatory ncRNA elements, as well as to infer likely differences in trans-acting ncRNA regulatory networks.
doi_str_mv	10.1093/nar/gkt148
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Despite the availability of multiple whole-genome sequences, the genetic differences that have driven these changes in phenotype are only beginning to be understood. In this study, we use transposon-directed insertion-site sequencing to probe differences in gene requirements for competitive growth in rich media between these two closely related serovars. We identify a conserved core of 281 genes that are required for growth in both serovars, 228 of which are essential in Escherichia coli. We are able to identify active prophage elements through the requirement for their repressors. We also find distinct differences in requirements for genes involved in cell surface structure biogenesis and iron utilization. Finally, we demonstrate that transposon-directed insertion-site sequencing is not only applicable to the protein-coding content of the cell but also has sufficient resolution to generate hypotheses regarding the functions of non-coding RNAs (ncRNAs) as well. 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Despite the availability of multiple whole-genome sequences, the genetic differences that have driven these changes in phenotype are only beginning to be understood. In this study, we use transposon-directed insertion-site sequencing to probe differences in gene requirements for competitive growth in rich media between these two closely related serovars. We identify a conserved core of 281 genes that are required for growth in both serovars, 228 of which are essential in Escherichia coli. We are able to identify active prophage elements through the requirement for their repressors. We also find distinct differences in requirements for genes involved in cell surface structure biogenesis and iron utilization. Finally, we demonstrate that transposon-directed insertion-site sequencing is not only applicable to the protein-coding content of the cell but also has sufficient resolution to generate hypotheses regarding the functions of non-coding RNAs (ncRNAs) as well. 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subjects	Bacterial Proteins - genetics DNA Transposable Elements Gene Library Genes, Bacterial Genomics Mutagenesis, Insertional RNA, Small Untranslated - genetics RNA, Untranslated - genetics Salmonella typhi - genetics Salmonella typhi - growth & development Salmonella typhimurium - genetics Salmonella typhimurium - growth & development
title	A comparison of dense transposon insertion libraries in the Salmonella serovars Typhi and Typhimurium
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