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PubMed articles by:
Vrolijk, M.
Harwig, A.
Berkhout, B.
Das, A.
Retrovirology. 2009; 6: 13.
Published online 2009 February 11. doi: 10.1186/1742-4690-6-13.
PMCID: PMC2645353
Copyright © 2009 Vrolijk et al; licensee BioMed Central Ltd.
Destabilization of the TAR hairpin leads to extension of the polyA hairpin and inhibition of HIV-1 polyadenylation
Martine M Vrolijk,1 Alex Harwig,1 Ben Berkhout,1 and Atze T Dascorresponding author1
1Laboratory of Experimental Virology, Department of Medical Microbiology, Center for Infection and Immunity Amsterdam (CINIMA), Academic Medical Center, University of Amsterdam, Meibergdreef 15, 1105 AZ Amsterdam, The Netherlands
corresponding authorCorresponding author.
Martine M Vrolijk: m.m.vrolijk/at/gmail.com; Alex Harwig: a.harwig/at/amc.uva.nl; Ben Berkhout: b.berkhout/at/amc.uva.nl; Atze T Das: a.t.das/at/amc.uva.nl
Received December 15, 2008; Accepted February 11, 2009.
This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
 
Abstract
Background
Two hairpin structures that are present at both the 5' and 3' end of the HIV-1 RNA genome have important functions in the viral life cycle. The TAR hairpin binds the viral Tat protein and is essential for Tat-mediated activation of transcription. The adjacent polyA hairpin encompasses the polyadenylation signal AAUAAA and is important for the regulation of polyadenylation. Specifically, this RNA structure represses polyadenylation at the 5' side, and enhancer elements on the 3' side overcome this suppression. We recently described that the replication of an HIV-1 variant that does not need TAR for transcription was severely impaired by destabilization of the TAR hairpin, even though a complete TAR deletion was acceptable.
Results
In this study, we show that the TAR-destabilizing mutations result in reduced 3' polyadenylation of the viral transcripts due to an extension of the adjacent polyA hairpin. Thus, although the TAR hairpin is not directly involved in polyadenylation, mutations in TAR can affect this process.
Conclusion
The stability of the HIV-1 TAR hairpin structure is important for the proper folding of the viral RNA transcripts. This study illustrates how mutations that are designed to study the function of a specific RNA structure can change the structural presentation of other RNA domains and thus affect viral replication in an indirect way.
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