Phage cluster relationships identified through single gene analysis

Phylogenetic comparison of bacteriophages requires whole genome approaches such as dotplot analysis, genome pairwise maps, and gene content analysis. Currently mycobacteriophages, a highly studied phage group, are categorized into related clusters based on the comparative analysis of whole genome se...

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Bibliographic Details
Published in:BMC genomics 2013-06, Vol.14 (1), p.410-410, Article 410
Main Authors: Smith, Kyle C, Castro-Nallar, Eduardo, Fisher, Joshua Nb, Breakwell, Donald P, Grose, Julianne H, Burnett, Sandra H
Format: Article
Language:English
Subjects:
Amino acid sequence
Bacteriology
Bacteriophages
Bacteriophages - genetics
Base Sequence
Cluster Analysis
Conserved Sequence - genetics
Genes
Genes, Viral - genetics
Genetic aspects
Genetic screening
Genetics
Genomics
Likelihood Functions
Methods
Microbiology
Molecular Sequence Data
Mycobacteria
Mycobacterium
Phylogenetic trees
Phylogeny
Polymerase Chain Reaction
Proteins
Viral Proteins - genetics
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Summary:Phylogenetic comparison of bacteriophages requires whole genome approaches such as dotplot analysis, genome pairwise maps, and gene content analysis. Currently mycobacteriophages, a highly studied phage group, are categorized into related clusters based on the comparative analysis of whole genome sequences. With the recent explosion of phage isolation, a simple method for phage cluster prediction would facilitate analysis of crude or complex samples without whole genome isolation and sequencing. The hypothesis of this study was that mycobacteriophage-cluster prediction is possible using comparison of a single, ubiquitous, semi-conserved gene. Tape Measure Protein (TMP) was selected to test the hypothesis because it is typically the longest gene in mycobacteriophage genomes and because regions within the TMP gene are conserved. A single gene, TMP, identified the known Mycobacteriophage clusters and subclusters using a Gepard dotplot comparison or a phylogenetic tree constructed from global alignment and maximum likelihood comparisons. Gepard analysis of 247 mycobacteriophage TMP sequences appropriately recovered 98.8% of the subcluster assignments that were made by whole-genome comparison. Subcluster-specific primers within TMP allow for PCR determination of the mycobacteriophage subcluster from DNA samples. Using the single-gene comparison approach for siphovirus coliphages, phage groupings by TMP comparison reflected relationships observed in a whole genome dotplot comparison and confirm the potential utility of this approach to another widely studied group of phages. TMP sequence comparison and PCR results support the hypothesis that a single gene can be used for distinguishing phage cluster and subcluster assignments. TMP single-gene analysis can quickly and accurately aid in mycobacteriophage classification.
ISSN:1471-2164
1471-2164
DOI:10.1186/1471-2164-14-410