Literature DB >> 6328018

Multiple proteases in foot-and-mouth disease virus replication.

J N Burroughs, D V Sangar, B E Clarke, D J Rowlands, A Billiau, D Collen.   

Abstract

Translation of foot-and-mouth disease virus RNA in a rabbit reticulocyte lysate for short time intervals resulted in the production of the peptides P20a , P16, and P88 (Lab, Lb, and P1) (R. R. Rueckert , Recommendations of the 3rd European Study Group on Molecular Biology of Picornavirus, Urbino , Italy, 1983). If further translation was prevented, the structural protein precursor P88 was not cleaved, even after prolonged incubation. This result indicates that the mechanism of the cleavage between P20a -P16 and P88 and of that between P88 and P52 (P2) differs from the mechanism of the secondary cleavages which produce the structural proteins. Furthermore, treatment of foot-and-mouth disease virus-infected cells with the protease inhibitor D-valyl phenylalanyl lysyl chloromethyl ketone prevented the in vivo cleavage between P20a -P16 and P88 but had no effect on any of the other cleavage events. These results suggest that the cleavage of the foot-and-mouth disease virus polyprotein utilizes two different host proteases.

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Year:  1984        PMID: 6328018      PMCID: PMC255749     

Source DB:  PubMed          Journal:  J Virol        ISSN: 0022-538X            Impact factor:   5.103


  20 in total

1.  Encephalomyocarditis virus-specific polypeptide p22 is involved in the processing of the viral precursor polypeptides.

Authors:  A E Gorbalenya; Y V Svitkin; Y A Kazachkov; V I Agol
Journal:  FEBS Lett       Date:  1979-12-01       Impact factor: 4.124

2.  Polypeptide cleavages in the formation of poliovirus proteins.

Authors:  M F Jacobson; D Baltimore
Journal:  Proc Natl Acad Sci U S A       Date:  1968-09       Impact factor: 11.205

3.  Cleavage of structural proteins during the assembly of the head of bacteriophage T4.

Authors:  U K Laemmli
Journal:  Nature       Date:  1970-08-15       Impact factor: 49.962

4.  Isolation of a soluble and template-dependent foot-and-mouth disease virus RNA polymerase.

Authors:  P A Lowe; F Brown
Journal:  Virology       Date:  1981-05       Impact factor: 3.616

5.  Differential precipitation of foot and mouth disease virus proteins made in vivo and in vitro by hyperimmune and virus particle guinea pig antisera.

Authors:  T J Harris; F Brown; D V Sangar
Journal:  Virology       Date:  1981-07-15       Impact factor: 3.616

6.  Processing of the encephalomyocarditis virus capsid precursor protein studied in rabbit reticulocyte lysates incubated with N-formyl-[35S]methionine-tRNAfMet.

Authors:  E A Campbell; R J Jackson
Journal:  J Virol       Date:  1983-01       Impact factor: 5.103

7.  Proteolytic processing of poliovirus polypeptides: antibodies to polypeptide P3-7c inhibit cleavage at glutamine-glycine pairs.

Authors:  R Hanecak; B L Semler; C W Anderson; E Wimmer
Journal:  Proc Natl Acad Sci U S A       Date:  1982-07       Impact factor: 11.205

8.  Location of the initiation site for protein synthesis on foot-and-mouth disease virus RNA by in vitro translation of defined fragments of the RNA.

Authors:  D V Sangar; D N Black; D J Rowlands; T J Harris; F Brown
Journal:  J Virol       Date:  1980-01       Impact factor: 5.103

9.  Molecular cloning of foot and mouth disease virus genome and nucleotide sequences in the structural protein genes.

Authors:  J C Boothroyd; P E Highfield; G A Cross; D J Rowlands; P A Lowe; F Brown; T J Harris
Journal:  Nature       Date:  1981-04-30       Impact factor: 49.962

10.  Recombination in RNA.

Authors:  A M King; D McCahon; W R Slade; J W Newman
Journal:  Cell       Date:  1982-07       Impact factor: 41.582
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  11 in total

1.  Potential secondary and tertiary structure in the genomic RNA of foot and mouth disease virus.

Authors:  B E Clarke; A L Brown; K M Currey; S E Newton; D J Rowlands; A R Carroll
Journal:  Nucleic Acids Res       Date:  1987-09-11       Impact factor: 16.971

2.  Proteolytic processing of foot-and-mouth disease virus polyproteins expressed in a cell-free system from clone-derived transcripts.

Authors:  V N Vakharia; M A Devaney; D M Moore; J J Dunn; M J Grubman
Journal:  J Virol       Date:  1987-10       Impact factor: 5.103

3.  Cleavage of a viral polyprotein by a cellular proteolytic activity.

Authors:  Y C Tian; D S Shih
Journal:  J Virol       Date:  1986-02       Impact factor: 5.103

Review 4.  Proteases involved in the processing of viral polyproteins. Brief review.

Authors:  J Wellink; A van Kammen
Journal:  Arch Virol       Date:  1988       Impact factor: 2.574

5.  A second protease of foot-and-mouth disease virus.

Authors:  K Strebel; E Beck
Journal:  J Virol       Date:  1986-06       Impact factor: 5.103

6.  Cotranslational autoproteolysis involved in gene expression from a double-stranded RNA genetic element associated with hypovirulence of the chestnut blight fungus.

Authors:  G H Choi; R Shapira; D L Nuss
Journal:  Proc Natl Acad Sci U S A       Date:  1991-02-15       Impact factor: 11.205

7.  Virus-like genetic organization and expression strategy for a double-stranded RNA genetic element associated with biological control of chestnut blight.

Authors:  R Shapira; G H Choi; D L Nuss
Journal:  EMBO J       Date:  1991-04       Impact factor: 11.598

8.  In vitro expression of a full-length DNA copy of cowpea mosaic virus B RNA: identification of the B RNA encoded 24-kd protein as a viral protease.

Authors:  J Verver; R Goldbach; J A Garcia; P Vos
Journal:  EMBO J       Date:  1987-03       Impact factor: 11.598

Review 9.  Role of Virally-Encoded Deubiquitinating Enzymes in Regulation of the Virus Life Cycle.

Authors:  Jessica Proulx; Kathleen Borgmann; In-Woo Park
Journal:  Int J Mol Sci       Date:  2021-04-23       Impact factor: 5.923

10.  The multifaceted poliovirus 2A protease: regulation of gene expression by picornavirus proteases.

Authors:  Alfredo Castelló; Enrique Alvarez; Luis Carrasco
Journal:  J Biomed Biotechnol       Date:  2011-04-14
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