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A herpesvirus regulatory protein appears to act post-transcriptionally by affecting mRNA processing.

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Bibliographische Detailangaben
Zeitschriftentitel: Genes & Development
Personen und Körperschaften: Sandri-Goldin, R M, Mendoza, G E
In: Genes & Development, 6, 1992, 5, S. 848-863
Format: E-Article
Sprache: Englisch
veröffentlicht:
Cold Spring Harbor Laboratory
Schlagwörter:
Developmental Biology
Genetics
author_facet Sandri-Goldin, R M
Mendoza, G E
Sandri-Goldin, R M
Mendoza, G E
author Sandri-Goldin, R M
Mendoza, G E
spellingShingle Sandri-Goldin, R M
Mendoza, G E
Genes & Development
A herpesvirus regulatory protein appears to act post-transcriptionally by affecting mRNA processing.
Developmental Biology
Genetics
author_sort sandri-goldin, r m
spelling Sandri-Goldin, R M Mendoza, G E 0890-9369 1549-5477 Cold Spring Harbor Laboratory Developmental Biology Genetics http://dx.doi.org/10.1101/gad.6.5.848 <jats:p>Post-transcriptional control mechanisms play an important role in regulating gene expression for a number of viruses, especially in the regulation of late gene products. In this study we have investigated the mode of action of ICP27, an immediate-early regulatory protein of herpes simplex virus 1 (HSV-1) required for late gene expression. Transfection experiments have demonstrated that ICP27 can activate or repress expression depending on the target gene. Here, we show that the regulatory activity of ICP27 is independent of the target gene promoter sequences but, instead, depends on the presence of different mRNA processing signals. The activation function correlated with different polyadenylation sites, whereas the repressor function correlated with the presence of introns either 5' or 3' to the target gene-coding sequences. Poly(A)+ RNA levels were increased by ICP27 in transfections with a target gene having only an AATAAA recognition signal but no G/U box within the usual distance. In contrast, in the presence of ICP27, spliced target mRNAs were decreased 5- to 10-fold in transfections with target genes containing a 5' or 3' intron. These results suggest that this essential HSV-1 regulatory protein acts post-transcriptionally to affect mRNA processing and point to possible interactions between splicing and polyadenylation factors.</jats:p> A herpesvirus regulatory protein appears to act post-transcriptionally by affecting mRNA processing. Genes & Development
doi_str_mv 10.1101/gad.6.5.848
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series Genes & Development
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title A herpesvirus regulatory protein appears to act post-transcriptionally by affecting mRNA processing.
title_unstemmed A herpesvirus regulatory protein appears to act post-transcriptionally by affecting mRNA processing.
title_full A herpesvirus regulatory protein appears to act post-transcriptionally by affecting mRNA processing.
title_fullStr A herpesvirus regulatory protein appears to act post-transcriptionally by affecting mRNA processing.
title_full_unstemmed A herpesvirus regulatory protein appears to act post-transcriptionally by affecting mRNA processing.
title_short A herpesvirus regulatory protein appears to act post-transcriptionally by affecting mRNA processing.
title_sort a herpesvirus regulatory protein appears to act post-transcriptionally by affecting mrna processing.
topic Developmental Biology
Genetics
url http://dx.doi.org/10.1101/gad.6.5.848
publishDate 1992
physical 848-863
description <jats:p>Post-transcriptional control mechanisms play an important role in regulating gene expression for a number of viruses, especially in the regulation of late gene products. In this study we have investigated the mode of action of ICP27, an immediate-early regulatory protein of herpes simplex virus 1 (HSV-1) required for late gene expression. Transfection experiments have demonstrated that ICP27 can activate or repress expression depending on the target gene. Here, we show that the regulatory activity of ICP27 is independent of the target gene promoter sequences but, instead, depends on the presence of different mRNA processing signals. The activation function correlated with different polyadenylation sites, whereas the repressor function correlated with the presence of introns either 5' or 3' to the target gene-coding sequences. Poly(A)+ RNA levels were increased by ICP27 in transfections with a target gene having only an AATAAA recognition signal but no G/U box within the usual distance. In contrast, in the presence of ICP27, spliced target mRNAs were decreased 5- to 10-fold in transfections with target genes containing a 5' or 3' intron. These results suggest that this essential HSV-1 regulatory protein acts post-transcriptionally to affect mRNA processing and point to possible interactions between splicing and polyadenylation factors.</jats:p>
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author Sandri-Goldin, R M, Mendoza, G E
author_facet Sandri-Goldin, R M, Mendoza, G E, Sandri-Goldin, R M, Mendoza, G E
author_sort sandri-goldin, r m
container_issue 5
container_start_page 848
container_title Genes & Development
container_volume 6
description <jats:p>Post-transcriptional control mechanisms play an important role in regulating gene expression for a number of viruses, especially in the regulation of late gene products. In this study we have investigated the mode of action of ICP27, an immediate-early regulatory protein of herpes simplex virus 1 (HSV-1) required for late gene expression. Transfection experiments have demonstrated that ICP27 can activate or repress expression depending on the target gene. Here, we show that the regulatory activity of ICP27 is independent of the target gene promoter sequences but, instead, depends on the presence of different mRNA processing signals. The activation function correlated with different polyadenylation sites, whereas the repressor function correlated with the presence of introns either 5' or 3' to the target gene-coding sequences. Poly(A)+ RNA levels were increased by ICP27 in transfections with a target gene having only an AATAAA recognition signal but no G/U box within the usual distance. In contrast, in the presence of ICP27, spliced target mRNAs were decreased 5- to 10-fold in transfections with target genes containing a 5' or 3' intron. These results suggest that this essential HSV-1 regulatory protein acts post-transcriptionally to affect mRNA processing and point to possible interactions between splicing and polyadenylation factors.</jats:p>
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imprint Cold Spring Harbor Laboratory, 1992
imprint_str_mv Cold Spring Harbor Laboratory, 1992
institution DE-L229, DE-D275, DE-Bn3, DE-Brt1, DE-Zwi2, DE-D161, DE-Gla1, DE-Zi4, DE-15, DE-Rs1, DE-Pl11, DE-105, DE-14, DE-Ch1
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spelling Sandri-Goldin, R M Mendoza, G E 0890-9369 1549-5477 Cold Spring Harbor Laboratory Developmental Biology Genetics http://dx.doi.org/10.1101/gad.6.5.848 <jats:p>Post-transcriptional control mechanisms play an important role in regulating gene expression for a number of viruses, especially in the regulation of late gene products. In this study we have investigated the mode of action of ICP27, an immediate-early regulatory protein of herpes simplex virus 1 (HSV-1) required for late gene expression. Transfection experiments have demonstrated that ICP27 can activate or repress expression depending on the target gene. Here, we show that the regulatory activity of ICP27 is independent of the target gene promoter sequences but, instead, depends on the presence of different mRNA processing signals. The activation function correlated with different polyadenylation sites, whereas the repressor function correlated with the presence of introns either 5' or 3' to the target gene-coding sequences. Poly(A)+ RNA levels were increased by ICP27 in transfections with a target gene having only an AATAAA recognition signal but no G/U box within the usual distance. In contrast, in the presence of ICP27, spliced target mRNAs were decreased 5- to 10-fold in transfections with target genes containing a 5' or 3' intron. These results suggest that this essential HSV-1 regulatory protein acts post-transcriptionally to affect mRNA processing and point to possible interactions between splicing and polyadenylation factors.</jats:p> A herpesvirus regulatory protein appears to act post-transcriptionally by affecting mRNA processing. Genes & Development
spellingShingle Sandri-Goldin, R M, Mendoza, G E, Genes & Development, A herpesvirus regulatory protein appears to act post-transcriptionally by affecting mRNA processing., Developmental Biology, Genetics
title A herpesvirus regulatory protein appears to act post-transcriptionally by affecting mRNA processing.
title_full A herpesvirus regulatory protein appears to act post-transcriptionally by affecting mRNA processing.
title_fullStr A herpesvirus regulatory protein appears to act post-transcriptionally by affecting mRNA processing.
title_full_unstemmed A herpesvirus regulatory protein appears to act post-transcriptionally by affecting mRNA processing.
title_short A herpesvirus regulatory protein appears to act post-transcriptionally by affecting mRNA processing.
title_sort a herpesvirus regulatory protein appears to act post-transcriptionally by affecting mrna processing.
title_unstemmed A herpesvirus regulatory protein appears to act post-transcriptionally by affecting mRNA processing.
topic Developmental Biology, Genetics
url http://dx.doi.org/10.1101/gad.6.5.848