Yu. B. Lebedev

Identification and localization of differences between Escherichia coli and Salmonella typhimurium genomes by suppressive subtractive hybridization

Abstract The availability of bacterial genome sequences raises an important new problem – how can one move from completely sequenced microorganisms as a reference to the hundreds and thousands of other strains or isolates of the same or related species that will not be sequenced in the near future? An efficient way to approach this task is the comparison of genomes by subtractive hybridization. Recently we developed a sensitive and reproducible subtraction procedure for comparison of bacterial genomes, based on the method of suppression subtractive hybridization (SSH). In this work we demonstrate the applicability of subtractive hybridization to the comparison of the related but markedly divergent bacterial species Escherichia coli and Salmonella typhimurium. Clone libraries representing sequence differences were obtained and, in the case of completely sequenced E. coli genome, the differences were directly placed in the genome map. About 60% of the differential clones identified by SSH were present in one of the genomes under comparison and absent from the other. Additional differences in most cases represent sequences that have diverged considerably in the course of evolution. Such an approach to comparative bacterial genomics can be applied both to studies of interspecies evolution – to elucidate the “strategies” that enable different genomes to fit their ecological niches – and to development of diagnostic probes for the rapid identification of pathogenic bacterial species.

[A tissue-specific decrease in the pre-mRNA level of L1- and alu-containing alleles of human genes].

LINE1 and Alu retroelements occupy approximately 17 and 13% of the human genome, respectively. They include the evolutionarily youngest element groups Ta-L1, AluYa5, and AluYb8, many inserts of which are polymorphic in the Homo sapiens population. Despite the data on the ability of L1 and Alu elements to cause various modifications of the genome, the effects of these retroelements on gene expression have yet not been studied. Using the RT PCR method, we analyzed the pre-mRNA (heterogeneous nuclear RNA) content of allele pairs of four genes in five human cell lines, heterozygous with respect to intronic inserts of L1 and Alu elements. We showed for the first time a tissue-specific decrease in the pre-mRNA content of the gene allele bearing L1 or Alu inserts relative to the other allele of the same gene lacking the retroelement.

A new polymorphic retroelement database (PRED) for the human genome

Comparison of primate genomic sequences has demonstrated that the intra-and interspecific genetic variation is provided by retroelements (REs). The human genome contains many thousands of polymorphic RE copies, which are regarded as a promising source of new generation molecular genetic markers. However, the absence of systematized data on the RE number, distribution, genomic context, and abundance in various human populations limits the use of RE insertion polymorphism. We designed the first bilingual (Russian/English) web resource on the known polymorphic REs discovered both by our team and other researchers. The database contains the information about the genomic location of each RE, its position relative to known and predicted genes, abundance in human populations, and other data. Our web portal (http://labcfg.ibch.ru/home.html) allows a search of the database with user-specified parameters. The database makes it possible to most comprehensively analyze the RE distribution in the human genome and to design molecular genetic markers for studies of human genome diversity and biomedical applications.

Genetic Structure of the Volga–Ural and Central Asian Populations Inferred from the Data on Alu Polymorphism

NineAlu loci (Ya5NBC5, Ya5NBC27, Ya5NBC148, Ya5NBC182, YA5NBC361, ACE, ApoA1, PV92, TPA25) were analyzed in six ethnic populations (Trans-Ural Bashkirs, Tatars-Mishars, Mordovians-Moksha, Mountain Maris, Udmurts, and Komi-Permyaks) of the Volga–Ural region and in three Central Asian populations (Uzbeks, Kazakhs, and Uigurs). All Alu insertions analyzed appeared to be polymorphic in all populations examined. The frequency of insertion varied from 0.110 in Mountain Maris at the Ya5NBC5 locus to 0.914 in Tatars at the ApoA1 locus. The data on the allele frequency distribution at nine loci point to the existence of substantial genetic diversity in the populations examined. The value of the observed heterozygosity averaged over nine Alu insertions varied from 0.326 in Mountain Maris to 0.445 in Kazakhs and Uigurs. The level of the interpopulation genetic differences for the Volga–Ural population (Fst = 0.061) was higher than for the populations of Central Asia (Fst = 0.024), Europe (Fst = 0.02), and Southeastern Asia (Fst = 0.018). The populations examined were highly differentiated both in respect of linguistic characteristics and the geographical position. The data obtained confirmed the effectiveness of the marker system used for the assessment of genetic differentiation and the relationships between the ethnic groups.

The Tissue-Specific Methylation of Human-Specific Endogenous Retroviral LTRs

A possible involvement of retroelements in the epigenetic regulation of human gene expression was considered by the example of methylation of long terminal repeats (LTRs) of the human endogenous retrovirus family K (HERV-K). The methylation status of six HERV-K LTRs was determined in various gene-enriched regions of the human genome. The methylation of four LTRs was shown to be tissue-specific. Our results correlated with published data on the tissue-specific changes in the expression level of human genes adjacent to the LTRs under study.

Endogenous Retroviruses: A Possible Role in Human Cell Function

Endogenous retroviruses are characterized as repetitive elements of the human genome. Their origin and function in the genome and the role of retroviral infection in the evolution of the human genome and in general regulation of gene activity are considered. Modern data on transcriptional activation of endogenous retroviruses in the norm and in certain disorders are reviewed. The use of the data on retrovirus biology in theoretical and applied medicine is discussed.

Functional analysis of polymorphic insertions of Alu retroelements in acute lymphoblastic leukemia patients

One of the goals of modern functional genomics essential for the development of patient-specific medicine is the investigation of human genome variability under various conditions. Our functional analysis of polymorphic Alu retroelement insertions in gene introns of patients with acute lymphoblastic leukemia (ALL) has revealed an allele-specific decrease in the level of primary transcripts for 21 insertions of 31. The strongest inhibitory effects on transcription in mononuclear blood cells of healthy donors and B lymphoblasts of ALL patients have been detected for 10 insertions. The frequencies of alleles possessing two such inserts in the MEF2C gene and one in TAX1BP1 in healthy persons and ALL patients differ considerably. A prolonged effect of Alu inserts in introns on the intracellular level of the corresponding mature mRNA is demonstrated by the example of the TAX1BP1 gene.

The Oligoclonal Expansion of T Cells: the Investigation of Its Stability over Time

A novel experimental approach to the investigation of the repertoire of peripheral T lymphocytes of patients suffering from ankylosing spondylitis (AS) is proposed. This approach is based on the wide-range sequencing of cDNA of the β-chain of the T-cellular receptor (TcR). The results of the analysis of the diversity of sequences of the TcR antigen-binding domain (CDR3) inside the total pool of one patient with AS are presented by the example of the second V family (BV2) of TcR. The expansion of six independent TcR-expressing clones of T cells with a similar amino acid sequence of the CDR3 domains was proposed based on the results of the comparative structural analysis of the clone libraries of the cDNA of TcR BV2. The long-time stable expansion of these T clones was demonstrated during the development of the disease by specific monitoring.

Retroposons in modern human genome evolution

The ascertainment of the rates and driving forces of human genome evolution along with the genetic diversity of populations or separate population groups remains a topical problem of fundamental and applied genomics. According to the results of comparative analysis, the most numerous human genome structure peculiarities are connected with the distribution of mobile genetic retroelements—LTR, LINE1, SVA, and Alu repeats. Due to the wide distribution in different genome loci, conversed retropositional activity, and the retroelements’ regulatory potential, let us regard them as one of the significant evolutionary driving forces and the source of human genome variability. In the current review, we summarize published data and recent results of our research aimed at the analysis of the evolutionary impact of the young retroelements group on the function and variability of the human genome. We examine modern approaches of the polygenomic identification of polymorphic retroelements inserts. Using an original Internet resource, we analyze special features of the genomic polymorphic inserts of AluY repeats. We thoroughly characterize the strategy of large-scale functional analysis of polymorphic retroelement inserts. The presented results confirm the hypothesis of the roles of retroelements as active cis regulatory elements that are able to modulate surrounding genes.

Enhancer Activity of Solitary Long Terminal Repeat of Human Endogenous Retrovirus K

The transient expression of the luciferase reporter gene was used to detect the tissue-specific enhancer activity of the solitary extraviral long terminal repeat (LTR) of the human endogenous retrovirus K (HERV-K). The LTR was previously mapped to the 19q13.2 locus. It contains a number of potential regulatory elements including TATA box, binding sites for some nuclear factors, and a polyadenylation signal. However, an analysis of the genomic sequences close to the LTR did not reveal any known genes or the expressed sequences (EST), whose functioning could be regulated by this LTR. The enhancer activity can be preserved in the solitary LTR due to its involvement in the long-range control of genome functioning or by the absence of functional disruptive mutations within the human-specific LTR, because it is of a relatively young evolutionary age.