Genome reannotation of Escherichia coli CFT073 with new insights into virulence

BackgroundAs one of human pathogens, the genome of Uropathogenic Escherichia coli strain CFT073 was sequenced and published in 2002, which was significant in pathogenetic bacterial genomics research. However, the current RefSeq annotation of this pathogen is now outdated to some degree, due to missing or misannotation of some essential genes associated with its virulence. We carried out a systematic reannotation by combining automated annotation tools with manual efforts to provide a comprehensive understanding of virulence for the CFT073 genome.ResultsThe reannotation excluded 608 coding sequences from the RefSeq annotation. Meanwhile, a total of 299 coding sequences were newly added, about one third of them are found in genomic island (GI) regions while more than one fifth of them are located in virulence related regions pathogenicity islands (PAIs). Furthermore, there are totally 341 genes were relocated with their translational initiation sites (TISs), which resulted in a high quality of gene start annotation. In addition, 94 pseudogenes annotated in RefSeq were thoroughly inspected and updated. The number of miscellaneous genes (sRNAs) has been updated from 6 in RefSeq to 46 in the reannotation. Based on the adjustment in the reannotation, subsequent analysis were conducted by both general and case studies on new virulence factors or new virulence-associated genes that are crucial during the urinary tract infections (UTIs) process, including invasion, colonization, nutrition uptaking and population density control. Furthermore, miscellaneous RNAs collected in the reannotation are believed to contribute to the virulence of strain CFT073. The reannotation including the nucleotide data, the original RefSeq annotation, and all reannotated results is freely available viahttp://mech.ctb.pku.edu.cn/CFT073/.ConclusionAs a result, the reannotation presents a more comprehensive picture of mechanisms of uropathogenicity of UPEC strain CFT073. The new genes change the view of its uropathogenicity in many respects, particularly by new genes in GI regions and new virulence-associated factors. The reannotation thus functions as an important source by providing new information about genomic structure and organization, and gene function. Moreover, we expect that the detailed analysis will facilitate the studies for exploration of novel virulence mechanisms and help guide experimental design.

• Publication year

  2009

• Venue

  BMC Genomics

• Publication date

  2009-11-22

• Fields of study

  Biology, Medicine

• Identifiers
  DOI 10.1186/1471-2164-10-552PMID 19930606PMCID 2785843
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar, PubMed

• New virulence factors and virulence-associated genes identified in the reannotation are crucial for urinary tract infection processes including invasion, colonization, nutrition uptake, and population density control.

  Confidence 0.85

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) reviewq (76h6bfydm6) reviewJake Seo (Twitter) (bmuzj8twwb) review
• The reannotation increased the number of annotated sRNAs from 6 to 46, which are believed to contribute to the virulence of strain CFT073.

  Confidence 0.85

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) reviewq (76h6bfydm6) reviewJake Seo (Twitter) (bmuzj8twwb) review
• Relocation of translational initiation sites for 341 genes improved gene start annotation quality in the E. coli CFT073 genome.

  Confidence 0.90

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) reviewq (76h6bfydm6) reviewJake Seo (Twitter) (bmuzj8twwb) review
• Reannotation of the E. coli CFT073 genome excluded 608 coding sequences from the RefSeq annotation and added 299 new coding sequences, with about one third located in genomic island regions and more than one fifth in pathogenicity islands.

  Confidence 0.95

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) reviewq (76h6bfydm6) reviewJake Seo (Twitter) (bmuzj8twwb) review

• genome reannotation

  method

  A systematic process of updating and correcting gene annotations in a sequenced genome using automated tools and manual curation.

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) reviewq (76h6bfydm6) reviewJake Seo (Twitter) (bmuzj8twwb) review
• genomic island

  genomic feature

  A region in a bacterial genome acquired through horizontal gene transfer, often containing functionally related genes.

  Aliases: GI

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) reviewq (76h6bfydm6) reviewJake Seo (Twitter) (bmuzj8twwb) review
• pathogenicity island

  genomic feature

  A distinct genomic region containing clusters of virulence-related genes, often acquired through horizontal transfer.

  Aliases: PAI

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) reviewq (76h6bfydm6) reviewJake Seo (Twitter) (bmuzj8twwb) review
• pseudogene

  genomic feature

  A DNA sequence resembling a functional gene but rendered non-functional by mutations or disruptions.

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) reviewq (76h6bfydm6) reviewJake Seo (Twitter) (bmuzj8twwb) review
• small rna

  genomic feature

  Short non-coding RNA molecules involved in post-transcriptional gene regulation.

  Aliases: sRNA

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) reviewq (76h6bfydm6) reviewJake Seo (Twitter) (bmuzj8twwb) review
• translational initiation site

  genomic feature

  The nucleotide position where translation of a gene begins, determining the correct protein start site.

  Aliases: TIS

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) reviewq (76h6bfydm6) reviewJake Seo (Twitter) (bmuzj8twwb) review
• urinary tract infection

  condition

  An infection affecting the urinary system, caused here by uropathogenic E. coli strain CFT073.

  Aliases: UTI

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) reviewq (76h6bfydm6) reviewJake Seo (Twitter) (bmuzj8twwb) review
• uropathogenic escherichia coli cft073

  organism

  A uropathogenic Escherichia coli strain that causes urinary tract infections and serves as the subject of this reannotation study.

  Aliases: E. coli CFT073, UPEC CFT073

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) reviewq (76h6bfydm6) reviewJake Seo (Twitter) (bmuzj8twwb) review
• virulence factor

  biological concept

  A molecule or gene that contributes to the pathogenicity and disease-causing ability of an organism.

  뀨 (7c402c1b98) extractionAnonymous (12632b8b5f) reviewq (76h6bfydm6) reviewJake Seo (Twitter) (bmuzj8twwb) review

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