Previous Article | Next Article 
J Virol. 1994 May; 68(5): 3007-3014
Structure and heterogeneity of the a sequences of human herpesvirus 6 strain variants U1102 and Z29 and identification of human telomeric repeat sequences at the genomic termini.
Department of Medicine, Addenbrooke's Hospital, Cambridge, United Kingdom.
ABSTRACT
The unit-length genome of human herpesvirus 6 (HHV-6) consists of a single unique component (U) bounded by direct repeats DRL and DRR and forms head-to-tail concatemers during productive infection. cis-elements which mediate cleavage and packaging of progeny virions (a sequences) are found at the termini of all herpesvirus genomes. In HHV-6, DRL and DRR are identical and a sequences may therefore also occur at the U-DR junctions to give the arrangement aDRLa-U-aDRRa. We have sequenced the genomic termini, the U-DRR junction, and the DRR.DRL junction of HHV-6 strain variants U1102 and Z29. A (GGGTTA)n motif identical to the human telomeric repeat sequence (TRS) was found adjacent to, but did not form, the termini of both strain variants. The DRL terminus and U-DRR junction contained sequences closely related to that of the well-conserved herpesvirus packaging signal Cn-Gn-Nn-Gn (pac-1), followed by tandem arrays of TRSs separated by single copies of a hexanucleotide repeat. HHV-6 strain U1102 contained repeat sequences not found in HHV-6 Z29. In contrast, the DRR terminus of both variants contained a simple tandem array of TRSs and a close homolog of a herpesvirus pac-2 signal (GCn-Tn-GCn). The DRR.DRL junction was formed by simple head-to-tail linkage of the termini, yielding an intact cleavage signal, pac-2.x.pac-1, where x is the putative cleavage site. The left end of DR was the site of intrastrain size heterogeneity which mapped to the putative a sequences. These findings suggest that TRSs form part of the a sequence of HHV-6 and that the arrangement of a sequences in the genome can be represented as aDRLa-U-a-DRRa.
J Virol. 1994 May; 68(5): 3007-3014
This article has been cited by other articles:
-
Borenstein, R., Frenkel, N.
(2009). Cloning human herpes virus 6A genome into bacterial artificial chromosomes and study of DNA replication intermediates. Proc. Natl. Acad. Sci. USA
106: 19138-19143
[Abstract] [Full Text] -
De Bolle, L., Naesens, L., De Clercq, E.
(2005). Update on Human Herpesvirus 6 Biology, Clinical Features, and Therapy. Clin. Microbiol. Rev.
18: 217-245
[Abstract] [Full Text] -
Borenstein, R., Singer, O., Moseri, A., Frenkel, N.
(2004). Use of Amplicon-6 Vectors Derived from Human Herpesvirus 6 for Efficient Expression of Membrane-Associated and -Secreted Proteins in T Cells. J. Virol.
78: 4730-4743
[Abstract] [Full Text] -
Nicholas, J
(2000). Evolutionary aspects of oncogenic herpesviruses. Mol. Pathol.
53: 222-237
[Abstract] [Full Text] -
Dominguez, G., Dambaugh, T. R., Stamey, F. R., Dewhurst, S., Inoue, N., Pellett, P. E.
(1999). Human Herpesvirus 6B Genome Sequence: Coding Content and Comparison with Human Herpesvirus 6A. J. Virol.
73: 8040-8052
[Abstract] [Full Text] -
Romi, H., Singer, O., Rapaport, D., Frenkel, N.
(1999). Tamplicon-7, a Novel T-Lymphotropic Vector Derived from Human Herpesvirus 7. J. Virol.
73: 7001-7007
[Abstract] [Full Text] -
McVoy, M. A., Nixon, D. E., Adler, S. P., Mocarski, E. S.
(1998). Sequences within the Herpesvirus-Conserved pac1 and pac2 Motifs Are Required for Cleavage and Packaging of the Murine Cytomegalovirus Genome. J. Virol.
72: 48-56
[Abstract] [Full Text] -
Deng, H., Dewhurst, S.
(1998). Functional Identification and Analysis of cis-Acting Sequences Which Mediate Genome Cleavage and Packaging in Human Herpesvirus 6. J. Virol.
72: 320-329
[Abstract] [Full Text]
Copyright © 2009 by the American Society for Microbiology. For an alternate route to Journals.ASM.org, visit: http://intl-journals.asm.org | More Info»