Whole genome sequencing identifies an allele responsible for clear vs. turbid plaque morphology in a Mycobacteriophage

Bhavani S. Gudlavalleti; Trong Phung; Charles L. Barton; Allysson Becker; Brittany L. Graul; Jarod T. Griffin; Connor J. Hays; Bailey Horn; David R. Liang; Lauren M. Rutledge; Alexandria M. Szalanczy; Bobby L. Gaffney; Rodney A. King; Claire A. Rinehart; Amanda K. Staples; Alexander A. Stewart; Marie L. Nydam; Kelly E. O’Quin

doi:10.1186/s12866-020-01833-4

BMC Microbiology (Jun 2020)

Whole genome sequencing identifies an allele responsible for clear vs. turbid plaque morphology in a Mycobacteriophage

Bhavani S. Gudlavalleti,
Trong Phung,
Charles L. Barton,
Allysson Becker,
Brittany L. Graul,
Jarod T. Griffin,
Connor J. Hays,
Bailey Horn,
David R. Liang,
Lauren M. Rutledge,
Alexandria M. Szalanczy,
Bobby L. Gaffney,
Rodney A. King,
Claire A. Rinehart,
Amanda K. Staples,
Alexander A. Stewart,
Marie L. Nydam,
Kelly E. O’Quin

Affiliations

Bhavani S. Gudlavalleti: Biology Program, Centre College
Trong Phung: Biology Program, Centre College
Charles L. Barton: Biology Program, Centre College
Allysson Becker: Biology Program, Centre College
Brittany L. Graul: Biology Program, Centre College
Jarod T. Griffin: Biology Program, Centre College
Connor J. Hays: Biology Program, Centre College
Bailey Horn: Biology Program, Centre College
David R. Liang: Biology Program, Centre College
Lauren M. Rutledge: Biology Program, Centre College
Alexandria M. Szalanczy: Biology Program, Centre College
Bobby L. Gaffney: Department of Biology, Western Kentucky University
Rodney A. King: Department of Biology, Western Kentucky University
Claire A. Rinehart: Department of Biology, Western Kentucky University
Amanda K. Staples: Department of Biology, Western Kentucky University
Alexander A. Stewart: Department of Biology, Western Kentucky University
Marie L. Nydam: Biology Program, Centre College
Kelly E. O’Quin: Biology Program, Centre College

DOI: https://doi.org/10.1186/s12866-020-01833-4
Journal volume & issue: Vol. 20, no. 1
pp. 1 – 8

Abstract

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Abstract Background Whole genome sequencing promises to revolutionize our ability to link genotypic and phenotypic variation in a wide range of model and non-model species. Results Here we describe the isolation and characterization of a novel mycobacteriophage named BGlluviae that grows on Mycobacterium smegmatis mc2155. BGlluviae normally produces turbid plaques but a spontaneous clear plaque was also recovered. The genomic DNA from pure populations of the BGlluviae phage and the clear plaque mutant were sequenced. A single substitution, at amino acid 54 (I to T), in the immunity repressor protein resulted in a clear plaque phenotype. Conclusions This substitution is predicted to be located at the subunit interaction interface of the repressor protein, and thus prevents the establishment of lysogeny.

Published in BMC Microbiology

ISSN: 1471-2180 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Science: Microbiology
Website: http://www.biomedcentral.com/bmcmicrobiol/

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