Irina V. Lavrentieva scite author profile

Irina V. Lavrentieva

3Publications

76Citation Statements Received

85Citation Statements Given

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Institute of Bioorganic Chemistry

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Subfamilies and nearest-neighbour dendrogram for the LTRs of human endogenous retroviruses HERV-K mapped on human chromosome 19: physical neighbourhood does not correlate with identity level

Lavrentieva

Khil²,

Виноградова³

et al. 1998

Human Genetics

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Sequences of 45 long terminal repeats (LTRs) of the human endogenous retroviruses HERV-K family, precisely mapped by us earlier on human chromosome 19, were determined and a nearest-neighbour dendrogram was constructed. No correlation was observed between the degree of identity of the LTR pairs and their relative positions on the chromosome. Thus, sequences of distantly located LTRs, even positioned on different chromosome arms, could be highly similar to each other, whereas those of closely located LTRs could differ significantly. We conclude that the LTRs have randomly transposed across the chromosome in the course of evolution. The alignment of the LTR sequences allowed us to assign most of the LTRs to two major subfamilies. The LTRs belonging to the first subfamily (LTR-I) are characterised by higher intrasubfamily sequence divergence than those of the second subfamily (LTR-II). The two subfamilies are easily distinguished by the presence of characteristic deletions/insertions in the LTR sequences. The higher divergence of the first subfamily members suggests that their propagation started at earlier stages of evolution, probably soon after the insertion of their ancestral sequence into the primate genome. In turn, each of the subfamilies includes several distinct branches with various degrees of intragroup divergence and with characteristic diagnostic features, suggesting that the members of the branches represent amplified copies of particular master genes which had appeared at different periods of evolution. The sequences of the LTRs demonstrate a characteristic distribution of conservative and variable regions, indicating that the LTRs might have some sequence-dependent functions in the primate genome.

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High polymorphism level of genomic sequences flanking insertion sites of human endogenous retroviral long terminal repeats

et al. 1999

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The polymorphism at the multitude of loci adjacent to human endogenous retrovirus long terminal repeats (LTRs) was analyzed by a technique for whole genome differential display based on the PCR suppression effect that provides selective amplification and display of genomic sequences flanking interspersed repeated elements. This strategy is simple, targetspecific, requires a small amount of DNA and provides reproducible and highly informative data. The average frequency of polymorphism observed in the vicinity of the LTR insertion sites was found to be about 12%. The high incidence of polymorphism within the LTR flanks together with the frequent location of LTRs near genes makes the LTR loci a useful source of polymorphic markers for gene mapping.z 1999 Federation of European Biochemical Societies.

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A human endogenous retrovirus-like (HERV) LTR formed more than 10 million years ago due to an insertion of HERV-H LTR into the 5' LTR of HERV-K is situated on human chromosomes 10, 19 and Y.

Lapuk

Khil

Lavrentieva

et al. 1999

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A chimeric long terminal repeat (LTR) containing the whole LTR of a human endogenous retroviruslike element of the H family (HERV-H) inserted downstream of the core enhancer region of the 5h LTR of a HERV-K retroelement was detected and sequenced in the human 19p12 locus, known to be enriched with genes encoding zinc finger proteins. Similar chimeras were also detected in human chromosomes 10 and Y in human-hamster hybrid cells containing individual human chromosomes. This finding was interpreted as evidence of transpositions of the chimera in the genome. PCR analyses detected the chimera in the genomes of chimpanzee and gorilla, but not in that of orangutan. These data demonstrate that the chimera appeared in the primate germ cells more than 10 million years ago, before divergence of the human/chimpanzee and the gorilla lineages. The combination of the two LTRs forms a new regulatory system that can be involved in nearby gene expression.Endogenous retrovirus-like (ERV) sequences inherited as stable Mendelian genes have been found in the genomes of most vertebrate species. Human ERVs (HERVs) exogenous progenitors are thought to infect the germ line in the course of the evolution of primates and then spread throughout genomes by retrotranspositions (for review see Lower et al., 1996). HERVs represented by several distinct families were estimated to occupy up to 1 % of the human genome (Leib-Mosch et al., 1993 ;Lower et al., 1996). A multitude of HERVs lost their viral genes, most probably due to homologous recombination

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