Literature DB >> 1630909

Homologous RNA recombination allows efficient introduction of site-specific mutations into the genome of coronavirus MHV-A59 via synthetic co-replicating RNAs.

R G van der Most1, L Heijnen, W J Spaan, R J de Groot.   

Abstract

We describe a novel strategy to site-specifically mutagenize the genome of an RNA virus by exploiting homologous RNA recombination between synthetic defective interfering (DI) RNA and the viral RNA. The construction of a full-length cDNA clone, pMIDI, of a DI RNA of coronavirus MHV strain A59 was reported previously (R.G. Van der Most, P.J. Bredenbeek, and W.J.M. Spaan (1991). J. Virol. 65, 3219-3226). RNA transcribed from this construct, is replicated efficiently in MHV-infected cells. Marker mutations introduced in MIDI RNA were replaced by the wild-type residues during replication. More importantly, however, these genetic markers were introduced into viral genome: even in the absence of positive selection MHV recombinants could be isolated. This finding provides new prospects for the study of coronavirus replication using recombinant DNA techniques. As a first application, we describe the rescue of the temperature sensitive mutant MHV Albany-4 using DI-directed mutagenesis. Possibilities and limitations of this strategy are discussed.

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Year:  1992        PMID: 1630909      PMCID: PMC312492          DOI: 10.1093/nar/20.13.3375

Source DB:  PubMed          Journal:  Nucleic Acids Res        ISSN: 0305-1048            Impact factor:   16.971


  56 in total

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Authors:  M M Lai
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Review 2.  Vaccinia virus expression vectors.

Authors:  M Mackett; G L Smith
Journal:  J Gen Virol       Date:  1986-10       Impact factor: 3.891

3.  Analysis of efficiently packaged defective interfering RNAs of murine coronavirus: localization of a possible RNA-packaging signal.

Authors:  S Makino; K Yokomori; M M Lai
Journal:  J Virol       Date:  1990-12       Impact factor: 5.103

4.  Porcine respiratory coronavirus differs from transmissible gastroenteritis virus by a few genomic deletions.

Authors:  D Rasschaert; M Duarte; H Laude
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5.  Coronavirus transcription: subgenomic mouse hepatitis virus replicative intermediates function in RNA synthesis.

Authors:  S G Sawicki; D L Sawicki
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6.  Murine coronavirus nonstructural protein ns2 is not essential for virus replication in transformed cells.

Authors:  B Schwarz; E Routledge; S G Siddell
Journal:  J Virol       Date:  1990-10       Impact factor: 5.103

7.  Genetic basis for the pathogenesis of transmissible gastroenteritis virus.

Authors:  R D Wesley; R D Woods; A K Cheung
Journal:  J Virol       Date:  1990-10       Impact factor: 5.103

8.  Regeneration of a functional RNA virus genome by recombination between deletion mutants and requirement for cowpea chlorotic mottle virus 3a and coat genes for systemic infection.

Authors:  R Allison; C Thompson; P Ahlquist
Journal:  Proc Natl Acad Sci U S A       Date:  1990-03       Impact factor: 11.205

9.  Establishing a genetic recombination map for murine coronavirus strain A59 complementation groups.

Authors:  R S Baric; K Fu; M C Schaad; S A Stohlman
Journal:  Virology       Date:  1990-08       Impact factor: 3.616

10.  Genetics of mouse hepatitis virus transcription: identification of cistrons which may function in positive and negative strand RNA synthesis.

Authors:  M C Schaad; S A Stohlman; J Egbert; K Lum; K Fu; T Wei; R S Baric
Journal:  Virology       Date:  1990-08       Impact factor: 3.616
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  42 in total

1.  Frequent homologous recombination events between molecules of one RNA component in a multipartite RNA virus.

Authors:  A Bruyere; M Wantroba; S Flasinski; A Dzianott; J J Bujarski
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2.  Engineering the largest RNA virus genome as an infectious bacterial artificial chromosome.

Authors:  F Almazán; J M González; Z Pénzes; A Izeta; E Calvo; J Plana-Durán; L Enjuanes
Journal:  Proc Natl Acad Sci U S A       Date:  2000-05-09       Impact factor: 11.205

3.  The fitness of defective interfering murine coronavirus DI-a and its derivatives is decreased by nonsense and frameshift mutations.

Authors:  R J de Groot; R G van der Most; W J Spaan
Journal:  J Virol       Date:  1992-10       Impact factor: 5.103

4.  Homologous crossovers among molecules of brome mosaic bromovirus RNA1 or RNA2 segments in vivo.

Authors:  Anna Urbanowicz; Magdalena Alejska; Piotr Formanowicz; Jacek Blazewicz; Marek Figlerowicz; Jozef J Bujarski
Journal:  J Virol       Date:  2005-05       Impact factor: 5.103

Review 5.  The molecular biology of coronaviruses.

Authors:  Paul S Masters
Journal:  Adv Virus Res       Date:  2006       Impact factor: 9.937

6.  cis Requirement for N-specific protein sequence in bovine coronavirus defective interfering RNA replication.

Authors:  R Y Chang; D A Brian
Journal:  J Virol       Date:  1996-04       Impact factor: 5.103

7.  Feline coronavirus type II strains 79-1683 and 79-1146 originate from a double recombination between feline coronavirus type I and canine coronavirus.

Authors:  A A Herrewegh; I Smeenk; M C Horzinek; P J Rottier; R J de Groot
Journal:  J Virol       Date:  1998-05       Impact factor: 5.103

8.  Replication of murine coronavirus defective interfering RNA from negative-strand transcripts.

Authors:  M Joo; S Banerjee; S Makino
Journal:  J Virol       Date:  1996-09       Impact factor: 5.103

9.  Comparative analysis of 22 coronavirus HKU1 genomes reveals a novel genotype and evidence of natural recombination in coronavirus HKU1.

Authors:  Patrick C Y Woo; Susanna K P Lau; Cyril C Y Yip; Yi Huang; Hoi-Wah Tsoi; Kwok-Hung Chan; Kwok-Yung Yuen
Journal:  J Virol       Date:  2006-07       Impact factor: 5.103

10.  Subgenomic RNA synthesis directed by a synthetic defective interfering RNA of mouse hepatitis virus: a study of coronavirus transcription initiation.

Authors:  R G van der Most; R J de Groot; W J Spaan
Journal:  J Virol       Date:  1994-06       Impact factor: 5.103
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