Abstract
BackgroundGenomic islands are associated with microbial adaptations, carrying genomic signatures different from the host. Some methods perform an overall test to identify genomic islands based on their local features. However, regions of different scales will display different genomic features.ResultsWe proposed here a novel method “2SigFinder “, the first combined use of small-scale and large-scale statistical testing for genomic island detection. The proposed method was tested by genomic island boundary detection and identification of genomic islands or functional features of real biological data. We also compared the proposed method with the comparative genomics and composition-based approaches. The results indicate that the proposed 2SigFinder is more efficient in identifying genomic islands.ConclusionsFrom real biological data, 2SigFinder identified genomic islands from a single genome and reported robust results across different experiments, without annotated information of genomes or prior knowledge from other datasets. 2SigHunter identified 25 Pathogenicity, 1 tRNA, 2 Virulence and 2 Repeats from 27 Pathogenicity, 1 tRNA, 2 Virulence and 2 Repeats, and detected 101 Phage and 28 HEG out of 130 Phage and 36 HEGs in S. enterica Typhi CT18, which shows that it is more efficient in detecting functional features associated with GIs.
Highlights
Genomic islands are associated with microbial adaptations, carrying genomic signatures different from the host
With new genomic sequencing technology, we aim to identify genomic regions of other species that are different from other species or strains
Comparison to the algorithms based on the windows for detecting Genomic Island (GI) We evaluated the effectiveness of our algorithm by detecting GI/non-genomic island fragments (non-GI)
Summary
Genomic islands are associated with microbial adaptations, carrying genomic signatures different from the host. The diversity of bacteria has increased, and can adapt to environmental changes. The adaptability of these microorganisms is partly due to horizontal gene transfer (HGT). Genomic islands (GIs) are used as a standard term to refer to a group of genes that are 10–200 kb in length after horizontal transfer. The area of horizontal transfer was originally called the GIs until the gene function was fully determined. Based on their gene function, a more specific term was provided for their basic use [2]
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