cis-Acting Elements within an RNA Coliphage Genome: Fold as You Please, but Fold You Must

Using an in vivocomplementation system, we conducted a mutational analysis of the bacteriophage Qβ readthrough cistron. In the Qβ cDNA-containing plasmid, pQβm100, we constructed six defined Qβ deletion cDNA genomes, each missing between 86 and 447 nucleotides from within the readthrough cistron. Th...

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Veröffentlicht in:	Journal of molecular biology 1996-05, Vol.258 (3), p.433-446
Hauptverfasser:	Arora, Ruchi, Priano, Christine, Jacobson, Ann B., Mills, Donald R.
Format:	Artikel
Sprache:	eng
Schlagworte:	Base Sequence Coliphages - chemistry Coliphages - genetics Coliphages - pathogenicity Directed Molecular Evolution - methods DNA, Complementary - genetics Genetic Complementation Test Genome, Viral Molecular Sequence Data Nucleic Acid Conformation phage Q beta Phenotype Plasmids - genetics protein complementation Qβ RNA readthrough protein RNA bacteriophages RNA secondary structure RNA Viruses - chemistry RNA Viruses - genetics RNA Viruses - pathogenicity RNA, Viral - chemistry Sequence Analysis, DNA Sequence Deletion Serial Passage Viral Plaque Assay Viral Proteins - genetics Virus Assembly
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container_end_page	446
container_issue	3
container_start_page	433
container_title	Journal of molecular biology
container_volume	258
creator	Arora, Ruchi Priano, Christine Jacobson, Ann B. Mills, Donald R.
description	Using an in vivocomplementation system, we conducted a mutational analysis of the bacteriophage Qβ readthrough cistron. In the Qβ cDNA-containing plasmid, pQβm100, we constructed six defined Qβ deletion cDNA genomes, each missing between 86 and 447 nucleotides from within the readthrough cistron. These deletion plasmids were introduced into host cells that are constitutively supplied with Qβ readthrough protein from the plasmid pQβRT. Under these conditions, all six deletion genomes spontaneously generated phage particles, each exhibiting a characteristic plaque phenotype and virus forming potential. Isolated readthrough-defective phage particles were subsequently used to infect host cells that carried helper readthrough protein. Passaged viruses yielded both larger plaques and higher titers, compared with those of the parent phages. Sequence analysis revealed that the genomes of the passaged viruses had deleted additional regions of readthrough RNA sequence. We discuss the possibilities that (1) the disruption of a well-defined structural domain in Qβ RNA was selectively disadvantagous to phage infection, and that (2) the evolved viral populations were selected by virtue of their ability to restore critical integrity of short and/or long-range nucleotide interactions within this region of Qβ RNA.
doi_str_mv	10.1006/jmbi.1996.0260
format	Article
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In the Qβ cDNA-containing plasmid, pQβm100, we constructed six defined Qβ deletion cDNA genomes, each missing between 86 and 447 nucleotides from within the readthrough cistron. These deletion plasmids were introduced into host cells that are constitutively supplied with Qβ readthrough protein from the plasmid pQβRT. Under these conditions, all six deletion genomes spontaneously generated phage particles, each exhibiting a characteristic plaque phenotype and virus forming potential. Isolated readthrough-defective phage particles were subsequently used to infect host cells that carried helper readthrough protein. Passaged viruses yielded both larger plaques and higher titers, compared with those of the parent phages. Sequence analysis revealed that the genomes of the passaged viruses had deleted additional regions of readthrough RNA sequence. 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source	MEDLINE; Elsevier ScienceDirect Journals
subjects	Base Sequence Coliphages - chemistry Coliphages - genetics Coliphages - pathogenicity Directed Molecular Evolution - methods DNA, Complementary - genetics Genetic Complementation Test Genome, Viral Molecular Sequence Data Nucleic Acid Conformation phage Q beta Phenotype Plasmids - genetics protein complementation Qβ RNA readthrough protein RNA bacteriophages RNA secondary structure RNA Viruses - chemistry RNA Viruses - genetics RNA Viruses - pathogenicity RNA, Viral - chemistry Sequence Analysis, DNA Sequence Deletion Serial Passage Viral Plaque Assay Viral Proteins - genetics Virus Assembly
title	cis-Acting Elements within an RNA Coliphage Genome: Fold as You Please, but Fold You Must
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