Published online 8 February 2005
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Splicing of human immunodeficiency virus RNA is position-dependent suggesting sequential removal of introns from the 5' end
1 Department of Virology, Universität Heidelberg D-69120 Heidelberg, Germany 2 Department of Hematology and Oncology, Hannover Medical School D-30625 Hannover, Germany 3 Institute de Généthique Moléculaire de Montepellier CNRS UMR 5535 F-34293 Montepellier, France
*To whom correspondence should be addressed at Abteilung Virologie, Universitätsklinikum Heidelberg Im Neuenheimer Feld 324, D-69120 Heidelberg, Germany. Tel: +49 6221 56 5001; Fax: +49 6221 56 5003; Email: hans-georg.kraeusslich{at}med.uni-heidelberg.de
Received September 24, 2004. Revised December 21, 2004. Accepted December 21, 2004.
Transcription of the HIV-1 genome yields a single primary transcript, which is alternatively spliced to >30 mRNAs. Productive infection depends on inefficient and regulated splicing and appears to proceed in a tight 5' to 3' order. To analyse whether sequential splicing is mediated by the quality of splice sites or by the position of an intron, we inserted the efficient ß-globin intron (BGI) into the 3' region or 5'UTR of a subgenomic expression vector or an infectious proviral plasmid. RNA analysis revealed splicing of the 3' BGI only if all upstream introns were removed, while splicing of the same intron in the 5'UTR was efficient and independent of further splicing. Furthermore, mutation of the upstream splice signal in the subgenomic vector did not eliminate the inhibition of 3' splicing, although the BGI sequence was the only intron in this case. These results suggest that downstream splicing of HIV-1 RNAs is completely dependent on prior splicing of all upstream intron(s). This hypothesis was supported by the mutation of the major 5' splice site in the HIV-1 genome, which completely abolished all splicing. It appears likely that the tight order of splicing is important for HIV-1 replication, which requires the stable production of intron containing RNAs, while splicing of 3' introns on incompletely spliced RNAs would be likely to render them subject to nonsense-mediated decay.
The authors wish it to be known that, in their opinion, the first two authors should be regarded as joint First Authors
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