Human cytomegalovirus UL37 immediate early target minigene RNAs are accurately spliced and polyadenylated

1 Center for Cancer and Immunology Research, Room 5720, Children's Research Institute, George Washington University School of Medicine and Health Sciences, 111 Michigan Avenue, NW, Washington, DC 20010, USA 2 Department of Infectious Diseases, Children's National Medical Center, George Was...

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Bibliographic Details
Published in:Journal of general virology 2003-01, Vol.84 (1), p.29-39
Main Authors: Su, Yan, Testaverde, James R, Davis, Candice N, Hayajneh, Wail A, Adair, Richard, Colberg-Poley, Anamaris M
Format: Article
Language:English
Subjects:
Base Sequence
Cells, Cultured
Cytomegalovirus - genetics
Cytomegalovirus - metabolism
DNA, Complementary - genetics
Gene Expression Regulation, Viral
Human cytomegalovirus
Humans
Immediate-Early Proteins - genetics
Immediate-Early Proteins - metabolism
Introns
Molecular Sequence Data
Poly A - metabolism
Polyadenylation
RNA Processing, Post-Transcriptional
RNA Splicing
RNA, Viral - metabolism
Transfection
Viral Proteins
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Summary:1 Center for Cancer and Immunology Research, Room 5720, Children's Research Institute, George Washington University School of Medicine and Health Sciences, 111 Michigan Avenue, NW, Washington, DC 20010, USA 2 Department of Infectious Diseases, Children's National Medical Center, George Washington University School of Medicine and Health Sciences, 111 Michigan Avenue, NW, Washington, DC 20010, USA 3 Department of Pediatrics, George Washington University School of Medicine and Health Sciences, 111 Michigan Avenue, NW, Washington, DC 20010, USA Correspondence Anamaris Colberg-Poley (at Children's Research Institute) acolberg-poley{at}cnmcresearch.org The human cytomegalovirus (HCMV) UL36–38 immediate early (IE) locus encodes proteins required for virus growth. The UL37 IE promoter drives production of differentially spliced and unspliced RNAs. To study their post-transcriptional processing, we generated target minigenes encoding each UL37 RNA splicing substrate. Target 1 RNA, spanning UL37 exon 1 (x1) donor and 2 (x2) acceptor as well as adjacent intronic sequences, but not the UL38 gene, accurately reproduced UL37 x1/x2 RNA splicing in transfected permissive cells. Surprisingly, deletion of distal intronic sequences nt -82 to -143 from the UL37x2 acceptor resulted in aberrant splicing to an upstream non-consensus exonic donor. Target 1 RNAs carry the UL37x1 polyadenylation (PA) signal and site as well as a downstream SV40 early PA signal. Both the UL37x1 and SV40 PA signals are used in wild-type target 1 RNAs but inhibited in UL37x1 PA signal mutants. Alternative RNA splicing of UL37 exons 2 to 3 or 3A as well as exons 3 to 4, observed in HCMV mature UL37 and UL36 spliced RNAs, is accurately reproduced with target minigene RNAs carrying the corresponding UL37 exonic and intronic sequences. Moreover, alternative splicing using two novel UL37 exon 3 consensus splice donors (di and dii) was found in target and in HCMV-infected cell RNA. These results demonstrate that: (i) target minigene RNAs accurately recapitulate the processing of UL37 IE RNAs in the HCMV-infected cell; (ii) precise UL37x1 donor selection is modulated by 3'-distal UL37 intronic sequences; and (iii) UL37 exon 3 contains multiple alternative consensus splice donors. Present address : Center for Community-Based Health Strategies, Academy for Educational Development, 1825 Connecticut Ave, NW, Washington, DC 20009, USA. Present address : Jordan University of Science and Technology, Irbid, Jordan.
ISSN:0022-1317
1465-2099
DOI:10.1099/vir.0.18700-0