@article{5a58ecfdf4e340a6a945df429c8c19f9,
title = "The viral gene ORF79 encodes a repressor regulating induction of the lytic life cycle in the haloalkaliphilic virus φCh1",
abstract = "In this study, we describe the construction of the first genetically modified mutant of a halovirus infecting haloalkaliphilic Archaea By random choice, we targeted ORF79, a currently uncharacterized viral gene of the haloalkaliphilic virus ϕCh1. We used a polyethylene glycol (PEG)-mediated transformation method to deliver a disruption cassette into a lysogenic strain of the haloalkaliphilic archaeon Natrialba magadii bearing ϕCh1 as a provirus. This approach yielded mutant virus particles carrying a disrupted version of ORF79. Disruption of ORF79 did not influence morphology of the mature virions. The mutant virus was able to infect cured strains of N. magadii, resulting in a lysogenic, ORF79-disrupted strain. Analysis of this strain carrying the mutant virus revealed a repressor function of ORF79. In the absence of gp79, onset of lysis and expression of viral proteins occurred prematurely compared to their timing in the wild-type strain. Constitutive expression of ORF79 in a cured strain of N. magadii reduced the plating efficiency of ϕCh1 by seven orders of magnitude. Overexpression of ORF79 in a lysogenic strain of N. magadii resulted in an inhibition of lysis and total absence of viral proteins as well as viral progeny. In further experiments, gp79 directly regulated the expression of the tail fiber protein ORF34 but did not influence the methyltransferase gene ORF94. Further, we describe the establishment of an inducible promoter for in vivo studies in N. magadii IMPORTANCE Genetic analyses of haloalkaliphilic Archaea or haloviruses are only rarely reported. Therefore, only little insight into the in vivo roles of proteins and their functions has been gained so far. We used a reverse genetics approach to identify the function of a yet undescribed gene of ϕCh1. We provide evidence that gp79, a currently unknown protein of ϕCh1, acts as a repressor protein of the viral life cycle, affecting the transition from the lysogenic to the lytic state of the virus. Thus, repressor genes in other haloviruses could be identified by sequence homologies to gp79 in the future. Moreover, we describe the use of an inducible promoter of N. magadii Our work provides valuable tools for the identification of other unknown viral genes by our approach as well as for functional studies of proteins by inducible expression. ",
keywords = "macrogol, protein gp79, unclassified drug, viral protein, virus fiber protein, repressor protein, virus DNA, Article, controlled study, gene cassette, gene expression regulation, gene overexpression, gene product, haloalkaliphilic virus, inhibition kinetics, life cycle, lytic life cycle, Natrialba magadii, nonhuman, open reading frame, protein expression, provirus, repressor gene, stoichiometry, virion, virus, virus morphology, virus mutant, virus particle, genetics, Halobacteriales, lysogenization, Myoviridae, promoter region, viral phenomena and functions, virology, virus gene, DNA, Viral, Genes, Halobacteriaceae, Lysogeny, Open Reading Frames, Promoter Regions, Genetic, Repressor Proteins, Viral Proteins, Virus Physiological Phenomena, Halophiles, Archaea, Virus, φCh1, Promoter Regions, Genetic/genetics, Open Reading Frames/genetics, Myoviridae/genetics, Genes, Viral/genetics, Viral Proteins/genetics, Virus Physiological Phenomena/genetics, Halobacteriaceae/virology, DNA, Viral/genetics, Lysogeny/genetics, Repressor Proteins/genetics",
author = "R. Klein and R. Selb and C. Derntl and Reinhard Klein and B. Alte and C.J. Hofbauer and M. Kaufmann and J. Beraha and L. Sch{\"o}ner and A. Witte",
note = "Publisher Copyright: {\textcopyright} 2017 American Society for Microbiology.",
year = "2017",
month = may,
day = "1",
doi = "10.1128/JVI.00206-17",
language = "English",
volume = "91",
journal = "Journal of Virology",
issn = "0022-538X",
publisher = "American Society for Microbiology",
number = "9",
}