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Structural proteins of adenovirus-associated virus: subspecies and their relatedness

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Zeitschriftentitel: Journal of Virology
Personen und Körperschaften: McPherson, R A, Rose, J A
In: Journal of Virology, 46, 1983, 2, S. 523-529
Format: E-Article
Sprache: Englisch
veröffentlicht:
American Society for Microbiology
Schlagwörter:
Virology
Insect Science
Immunology
Microbiology
author_facet McPherson, R A
Rose, J A
McPherson, R A
Rose, J A
author McPherson, R A
Rose, J A
spellingShingle McPherson, R A
Rose, J A
Journal of Virology
Structural proteins of adenovirus-associated virus: subspecies and their relatedness
Virology
Insect Science
Immunology
Microbiology
author_sort mcpherson, r a
spelling McPherson, R A Rose, J A 0022-538X 1098-5514 American Society for Microbiology Virology Insect Science Immunology Microbiology http://dx.doi.org/10.1128/jvi.46.2.523-529.1983 <jats:p>Capsids of adenovirus-associated virus (AAV) are known to contain three major structural proteins (A, B, and C). We have further resolved distinct subspecies of two of the major AAV proteins (two forms of protein A and four forms of protein C) which were found in both AAV1 and AAV2 serotypes. All subspecies were accurately synthesized in a cell-free translation system programmed with RNA isolated from infected cells. Analysis of virion proteins from the autonomous parvovirus H1 did not reveal a comparable array of subspecies of its major components. Staphylococcal V8 protease digestion of C proteins from AAV1 and AAV2 yielded very different electrophoretic patterns, indicating a considerable difference between the C proteins of these two serotypes, despite a high degree of genomic homology and an overall similarity in the number and relative proportions of analogous capsid proteins. On the other hand, staphylococcal V8 protease digestion of isolated proteins A, B, and C of AAV2 showed an extensive overlap among these proteins, possibly equivalent to all of protein C. In conjunction with other data, these findings suggest that proteins A, B, and C arise from different in-frame initiation sites contained in mRNA sequences that are transcribed from the right half of the AAV genome. The heterogeneity of subspecies may be explained by a partial read through of several tandem termination codons near the 3' end of AAV mRNA.</jats:p> Structural proteins of adenovirus-associated virus: subspecies and their relatedness Journal of Virology
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series Journal of Virology
source_id 49
title Structural proteins of adenovirus-associated virus: subspecies and their relatedness
title_unstemmed Structural proteins of adenovirus-associated virus: subspecies and their relatedness
title_full Structural proteins of adenovirus-associated virus: subspecies and their relatedness
title_fullStr Structural proteins of adenovirus-associated virus: subspecies and their relatedness
title_full_unstemmed Structural proteins of adenovirus-associated virus: subspecies and their relatedness
title_short Structural proteins of adenovirus-associated virus: subspecies and their relatedness
title_sort structural proteins of adenovirus-associated virus: subspecies and their relatedness
topic Virology
Insect Science
Immunology
Microbiology
url http://dx.doi.org/10.1128/jvi.46.2.523-529.1983
publishDate 1983
physical 523-529
description <jats:p>Capsids of adenovirus-associated virus (AAV) are known to contain three major structural proteins (A, B, and C). We have further resolved distinct subspecies of two of the major AAV proteins (two forms of protein A and four forms of protein C) which were found in both AAV1 and AAV2 serotypes. All subspecies were accurately synthesized in a cell-free translation system programmed with RNA isolated from infected cells. Analysis of virion proteins from the autonomous parvovirus H1 did not reveal a comparable array of subspecies of its major components. Staphylococcal V8 protease digestion of C proteins from AAV1 and AAV2 yielded very different electrophoretic patterns, indicating a considerable difference between the C proteins of these two serotypes, despite a high degree of genomic homology and an overall similarity in the number and relative proportions of analogous capsid proteins. On the other hand, staphylococcal V8 protease digestion of isolated proteins A, B, and C of AAV2 showed an extensive overlap among these proteins, possibly equivalent to all of protein C. In conjunction with other data, these findings suggest that proteins A, B, and C arise from different in-frame initiation sites contained in mRNA sequences that are transcribed from the right half of the AAV genome. The heterogeneity of subspecies may be explained by a partial read through of several tandem termination codons near the 3' end of AAV mRNA.</jats:p>
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author McPherson, R A, Rose, J A
author_facet McPherson, R A, Rose, J A, McPherson, R A, Rose, J A
author_sort mcpherson, r a
container_issue 2
container_start_page 523
container_title Journal of Virology
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description <jats:p>Capsids of adenovirus-associated virus (AAV) are known to contain three major structural proteins (A, B, and C). We have further resolved distinct subspecies of two of the major AAV proteins (two forms of protein A and four forms of protein C) which were found in both AAV1 and AAV2 serotypes. All subspecies were accurately synthesized in a cell-free translation system programmed with RNA isolated from infected cells. Analysis of virion proteins from the autonomous parvovirus H1 did not reveal a comparable array of subspecies of its major components. Staphylococcal V8 protease digestion of C proteins from AAV1 and AAV2 yielded very different electrophoretic patterns, indicating a considerable difference between the C proteins of these two serotypes, despite a high degree of genomic homology and an overall similarity in the number and relative proportions of analogous capsid proteins. On the other hand, staphylococcal V8 protease digestion of isolated proteins A, B, and C of AAV2 showed an extensive overlap among these proteins, possibly equivalent to all of protein C. In conjunction with other data, these findings suggest that proteins A, B, and C arise from different in-frame initiation sites contained in mRNA sequences that are transcribed from the right half of the AAV genome. The heterogeneity of subspecies may be explained by a partial read through of several tandem termination codons near the 3' end of AAV mRNA.</jats:p>
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spelling McPherson, R A Rose, J A 0022-538X 1098-5514 American Society for Microbiology Virology Insect Science Immunology Microbiology http://dx.doi.org/10.1128/jvi.46.2.523-529.1983 <jats:p>Capsids of adenovirus-associated virus (AAV) are known to contain three major structural proteins (A, B, and C). We have further resolved distinct subspecies of two of the major AAV proteins (two forms of protein A and four forms of protein C) which were found in both AAV1 and AAV2 serotypes. All subspecies were accurately synthesized in a cell-free translation system programmed with RNA isolated from infected cells. Analysis of virion proteins from the autonomous parvovirus H1 did not reveal a comparable array of subspecies of its major components. Staphylococcal V8 protease digestion of C proteins from AAV1 and AAV2 yielded very different electrophoretic patterns, indicating a considerable difference between the C proteins of these two serotypes, despite a high degree of genomic homology and an overall similarity in the number and relative proportions of analogous capsid proteins. On the other hand, staphylococcal V8 protease digestion of isolated proteins A, B, and C of AAV2 showed an extensive overlap among these proteins, possibly equivalent to all of protein C. In conjunction with other data, these findings suggest that proteins A, B, and C arise from different in-frame initiation sites contained in mRNA sequences that are transcribed from the right half of the AAV genome. The heterogeneity of subspecies may be explained by a partial read through of several tandem termination codons near the 3' end of AAV mRNA.</jats:p> Structural proteins of adenovirus-associated virus: subspecies and their relatedness Journal of Virology
spellingShingle McPherson, R A, Rose, J A, Journal of Virology, Structural proteins of adenovirus-associated virus: subspecies and their relatedness, Virology, Insect Science, Immunology, Microbiology
title Structural proteins of adenovirus-associated virus: subspecies and their relatedness
title_full Structural proteins of adenovirus-associated virus: subspecies and their relatedness
title_fullStr Structural proteins of adenovirus-associated virus: subspecies and their relatedness
title_full_unstemmed Structural proteins of adenovirus-associated virus: subspecies and their relatedness
title_short Structural proteins of adenovirus-associated virus: subspecies and their relatedness
title_sort structural proteins of adenovirus-associated virus: subspecies and their relatedness
title_unstemmed Structural proteins of adenovirus-associated virus: subspecies and their relatedness
topic Virology, Insect Science, Immunology, Microbiology
url http://dx.doi.org/10.1128/jvi.46.2.523-529.1983