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The 131-Amino-Acid Repeat Region of the Essential 39-Kilodalton Core Protein of Fowlpox Virus FP9, Equivalent to Vaccinia Virus A4L Protein, Is Nonessential and Highly Immunogenic

The 131-Amino-Acid Repeat Region of the Essential 39-Kilodalton Core Protein of Fowlpox Virus FP9, Equivalent to Vaccinia Virus A4L Protein, Is Nonessential and Highly Immunogenic
The 131-Amino-Acid Repeat Region of the Essential 39-Kilodalton Core Protein of Fowlpox Virus FP9, Equivalent to Vaccinia Virus A4L Protein, Is Nonessential and Highly Immunogenic
ABSTRACT The immunodominant, 39,000-molecular weight core protein (39K protein) of fowlpox virus (FP9 strain), equivalent to the vaccinia virus A4L gene product, contains highly charged domains at each end of the protein and multiple copies of a 12-amino-acid serine-rich repeat sequence in the middle of the protein. Similar repeats were also detected in other fowlpox virus strains, suggesting that they might confer a selective advantage to the virus. The molloscum contagiosum virus homolog (MC107L) also contains repeats, unlike the vaccinia virus protein. The number of repeats in the fowlpox virus protein does not seem to be crucial, since some strains have a different number of repeats, as shown by the difference in the size of the protein in these strains. The repeat region could be deleted, indicating that it is not essential for replication in vitro. It was not possible to delete the entire 39K protein, indicating that it was essential (transcriptional control signals for the flanking genes were left intact). The repeat region is partly responsible for the immunodominance of the protein, but the C-terminal part of the protein also contains highly antigenic linear epitopes. A role for the 39K protein in immune system modulation is discussed.
0022-538X
170-179
Boulanger, Denise
c226ad99-9c9a-485a-b480-42fb8799120f
Green, Philip
7d21c5c7-6be1-4174-a48f-08867663f8e7
Smith, Tim
0500770e-d654-43a7-80d9-f2d941f01925
Czerny, Claus-Peter
4dc75570-2a3c-419a-94ab-8ae8b82569c8
Skinner, Michael A.
dd116d23-f3e6-40b2-a7e0-b0ea10cacc40
Boulanger, Denise
c226ad99-9c9a-485a-b480-42fb8799120f
Green, Philip
7d21c5c7-6be1-4174-a48f-08867663f8e7
Smith, Tim
0500770e-d654-43a7-80d9-f2d941f01925
Czerny, Claus-Peter
4dc75570-2a3c-419a-94ab-8ae8b82569c8
Skinner, Michael A.
dd116d23-f3e6-40b2-a7e0-b0ea10cacc40

Boulanger, Denise, Green, Philip, Smith, Tim, Czerny, Claus-Peter and Skinner, Michael A. (1998) The 131-Amino-Acid Repeat Region of the Essential 39-Kilodalton Core Protein of Fowlpox Virus FP9, Equivalent to Vaccinia Virus A4L Protein, Is Nonessential and Highly Immunogenic. Journal of Virology, 72 (1), 170-179. (doi:10.1128/jvi.72.1.170-179.1998).

Record type: Article

Abstract

ABSTRACT The immunodominant, 39,000-molecular weight core protein (39K protein) of fowlpox virus (FP9 strain), equivalent to the vaccinia virus A4L gene product, contains highly charged domains at each end of the protein and multiple copies of a 12-amino-acid serine-rich repeat sequence in the middle of the protein. Similar repeats were also detected in other fowlpox virus strains, suggesting that they might confer a selective advantage to the virus. The molloscum contagiosum virus homolog (MC107L) also contains repeats, unlike the vaccinia virus protein. The number of repeats in the fowlpox virus protein does not seem to be crucial, since some strains have a different number of repeats, as shown by the difference in the size of the protein in these strains. The repeat region could be deleted, indicating that it is not essential for replication in vitro. It was not possible to delete the entire 39K protein, indicating that it was essential (transcriptional control signals for the flanking genes were left intact). The repeat region is partly responsible for the immunodominance of the protein, but the C-terminal part of the protein also contains highly antigenic linear epitopes. A role for the 39K protein in immune system modulation is discussed.

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Published date: 1 January 1998

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Local EPrints ID: 467339
URI: http://eprints.soton.ac.uk/id/eprint/467339
DOI: doi:10.1128/jvi.72.1.170-179.1998
ISSN: 0022-538X
PURE UUID: ee2cae59-ab48-47ad-a9fb-64d8e9ded035
ORCID for Denise Boulanger: ORCID iD orcid.org/0000-0003-1000-7313

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Date deposited: 06 Jul 2022 17:10
Last modified: 23 Apr 2024 01:38

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Author: Denise Boulanger ORCID iD
Author: Philip Green
Author: Tim Smith
Author: Claus-Peter Czerny
Author: Michael A. Skinner

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