-
[show abstract]
[hide abstract]
ABSTRACT: Most human endogenous retroviruses (HERVs) invaded our genome at least 25 million years ago. The majority of the viral genes are degenerated, since no selection preserves them within the genome. However, a few intact and very old HERV genes exist, and likely are beneficial for the host. We here address evolutionary aspects of two HERV-V envelope genes, ENVV1 and ENVV2, located in tandem and containing a long open reading frame.
The ENVV2 gene is preserved with an intact reading frame during simian evolution, but none of the ENVV genes are found in the prosimian species tested. While we observe many transposon insertions in the gag and pol regions of the ERV-V2 provirus, the ENVV2 genes have escaped transposon crossfire in all species tested. Additional analysis of nucleotide substitutions provides further strong evidence of purifying selection on the ENVV2 gene during primate evolution. The other copy, ENVV1, seems to be involved in gene conversion of the major part of the envelope. Furthermore, ENVV1 and ENVV2 show placenta-specific expression in human and a baboon species.
Our analyses show that ERV-V entered our genome after the split between simian and prosimian primates. Subsequent purifying selection and gene conversion have preserved two copies of the ENVV envelope gene in most species. This is the first case of gene conversion involving long open reading frames in HERVs. Together with the placenta-specific expression of the human and baboon ENVV1 and ENVV2 envelope genes, these data provide strong evidence of a beneficial role for the host.
BMC Evolutionary Biology 10/2008; 8:266. · 3.52 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Most human endogenous retroviruses (HERVs) are ancient and their genes are rendered nonfunctional by debilitating mutations. One exception is a recently discovered envelope gene located on chromosome 14. This envelope protein was also recently shown to be expressed in various human tissues and to mediate cell-cell fusion ex vivo. In this study, we demonstrate that this locus (designated ERVPb1) is preserved in Old World monkeys and that the reading frame is maintained. This is congruent with the entry of the HERV-P(b) group between 27 and 36 million years ago as suggested by long terminal repeat divergence. Although the coding capacity is generally lost in the HERV-IP supergroup, the analysis of nucleotide substitutions, lack of stop codons, and single-nucleotide polymorephisms strongly indicates a selective advantage of the ERVPb1 envelope genes during primate evolution. The purifying selection and tissue-specific expression of the human ERVPb1 envelope gene provide strong evidence of a beneficial role for the host.
Genomics 01/2006; 86(6):685-91. · 3.02 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Murine leukemia viruses harboring an internal ribosome entry site (IRES)-directed translational cassette are able to replicate, but undergo loss of heterologous sequences upon continued passage. While complete loss of heterologous sequences is favored when these are flanked by a direct repeat, deletion mutants with junction sites within the heterologous cassette may also be retrieved, in particular from vectors without flanking repeats. Such deletion mutants were here used to investigate determinants of reverse transcriptase-mediated non-homologous recombination. Based upon previous structural analysis the individual recombination sites within the IRES could be assigned to either base-paired or unpaired regions of RNA. This assignment showed a significant bias (P = 0.000082) towards recombination within unpaired regions of the IRES. We propose that the events observed in this in vivo system result from template switching during first-strand cDNA synthesis and that the choice of acceptor sites for non-homologous recombination are guided by non-paired regions. Our results may have implications for recombination events taking place within structured regions of retroviral RNA genomes, especially in the absence of longer stretches of sequence similarity.
Nucleic Acids Research 02/2004; 32(6):2039-48. · 8.03 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Retroviruses encapsidate two copies of full-length viral RNA molecules linked together as a dimeric genome. RNA stem loop structures harboring palindromic (or "kissing") loop sequences constitute important cis-elements for viral dimerization known as dimer initiation sites (DIS). In murine leukemia virus (MLV), a 10-mer and a 16-mer palindrome (DIS-1 and DIS-2, respectively) located in the viral leader region mediate dimerization in vitro and affect dimer stability of vector RNA in vivo. We have investigated the effect on viral replication of introducing deletions or nucleotide substitutions within these palindromes in a full-length MLV genome. Our results demonstrate that viruses modified at the dimer initiation site regions are viable and show wild-type levels of RNA encapsidation. One mutant lacking the DIS-1 palindrome was severely impaired and displayed an increased cellular ratio of spliced versus genomic RNA that most likely contributes to the inefficient replication. The implications for development of DIS-modified retrovirus-based vectors are discussed.
Virology 02/2004; 318(1):360-70. · 3.35 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Human endogenous retroviruses (HERVs) comprise a large class of repetitive retroelements. Most HERVs are ancient and invaded our genome at least 25 million years ago, except for the evolutionary young HERV-K group. The far majority of the encoded genes are degenerate due to mutational decay and only a few non-HERV-K loci are known to retain intact reading frames. Additional intact HERV genes may exist, since retroviral reading frames have not been systematically annotated on a genome-wide scale.
By clustering of hits from multiple BLAST searches using known retroviral sequences we have mapped 1.1% of the human genome as retrovirus related. The coding potential of all identified HERV regions were analyzed by annotating viral open reading frames (vORFs) and we report 7836 loci as verified by protein homology criteria. Among 59 intact or almost-intact viral polyproteins scattered around the human genome we have found 29 envelope genes including two novel gammaretroviral types. One encodes a protein similar to a recently discovered zebrafish retrovirus (ZFERV) while another shows partial, C-terminal, homology to Syncytin (HERV-W/FRD).
This compilation of HERV sequences and their coding potential provide a useful tool for pursuing functional analysis such as RNA expression profiling and effects of viral proteins, which may, in turn, reveal a role for HERVs in human health and disease. All data are publicly available through a database at http://www.retrosearch.dk.
Retrovirology 02/2004; 1:32. · 6.47 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Abstract
Background
Human endogenous retroviruses (HERVs) comprise a large class of repetitive retroelements. Most HERVs are ancient and invaded our genome at least 25 million years ago, except for the evolutionary young HERV-K group. The far majority of the encoded genes are degenerate due to mutational decay and only a few non-HERV-K loci are known to retain intact reading frames. Additional intact HERV genes may exist, since retroviral reading frames have not been systematically annotated on a genome-wide scale.
Results
By clustering of hits from multiple BLAST searches using known retroviral sequences we have mapped 1.1% of the human genome as retrovirus related. The coding potential of all identified HERV regions were analyzed by annotating viral open reading frames (vORFs) and we report 7836 loci as verified by protein homology criteria. Among 59 intact or almost-intact viral polyproteins scattered around the human genome we have found 29 envelope genes including two novel gammaretroviral types. One encodes a protein similar to a recently discovered zebrafish retrovirus (ZFERV) while another shows partial, C-terminal, homology to Syncytin (HERV-W/FRD).
Conclusions
This compilation of HERV sequences and their coding potential provide a useful tool for pursuing functional analysis such as RNA expression profiling and effects of viral proteins, which may, in turn, reveal a role for HERVs in human health and disease. All data are publicly available through a database at http://www.retrosearch.dk .
Retrovirology. 01/2004;
-
[show abstract]
[hide abstract]
ABSTRACT: To study the replication of murine leukaemia viruses in human cells we have used full-length as well as EGFP-tagged ecotropic viruses in combination with mCAT-1-expressing human cells. We present results showing that N-tropic murine leukaemia viruses are restricted in both infection and replication in such cells while B-tropic viruses, modified at capsid position 110, escape restriction. These results support a recently reported Fv1-like restriction in mammalian cells. We extend the analysis of Fv1-like restriction by demonstrating that NB-tropic viruses also escape restriction and human mCAT-1-expressing cells are thus similar to murine Fv1(b) cells with respect to infection though the ecotropic receptor pathway.
Journal of General Virology 03/2002; 83(Pt 2):439-42. · 3.36 Impact Factor
