Biochip for determination of genetic markers of sporadic Alzheimer’s disease risk in the Russian Slavic population

A biological microchip (biochip) has been developed to study the genetic predisposition to sporadic form of Alzheimer’s disease (AD). The biochip allows of genotyping of ten genetic polymorphisms within APOE, TOMM40, APOJ, EXOC3L2, GAB2, A2M, CR1, BIN1, and PICALM genes. The assay includes the amplification of the loci of interest and subsequent allele-specific hybridization of the fluorescently labeled amplicons with oligonucleotides immobilized on the biochip. The genotyping of 166 patients and 128 controls revealed a significant association of APOE allele ?4 with susceptibility to AD (OR = 2.275, 95% CI 1.045–4.954, p = 0.034). Protective effects were observed for APOE allele ?2 and CLU (rs11136000) allele T (OR = 0.215, 59% CI 0.090–0.516, p = 0.001 and OR = 0.679, 95% CI 0.47–0.99, p = 0.042, respectively). A gene-gene interaction analysis revealed two AD-associated genotype combinations, APOE ?3/?4 GAB2 G/G (OR = 2.49, 95% CI 1.43–4.32, p = 0.001) and APOE ?4/?4 GAB2 G/G (OR = 3.55, 95% CI 1.23–10.24, p = 0.015). Based on the results of the combined multivariate analysis, an algorithm was developed to identify the individuals having a higher risk of AD.     

Polymorphism of the apolipoprotein E gene (APOE) in the populations of Russia and neighboring countries

Allele and genotype frequencies for the locus encoding apolipoprotein E, involved in the regulation of lipid metabolism (APOE), were evaluated in 16 populations representing 12 ethnic groups (a total of 1103 subjects) from Russia and neighboring countries. In the populations examined, the frequencies of allele epsilon4, which is the risk factor of Alzheimer's disease and coronary heart disease, varied from less than 5 to more than 20%, while the variation of the major epsilon3 allele in these populations ranged from less than 75 to 95%. The frequencies of alleles epsilon3 and epsilon4 were 0.714 and 0.205 in Saami, 0.734 and 0.149 in Maris, 0.841 and 0.122 in Evenks, 0.788 and 0.163 in Buryats, 0.764 and 0.202 in Chukchi, 0.875 and 0.075 in Iranians, 0.956 and 0.044 in mountain-dwellers of the Pamirs, 0.771 and 0.094 in Ukrainians, and 0.795 and 0.091 in Belarussians, respectively. In Russians from different regions of the country, the frequencies of these alleles were 0.728 and 0.139 (Kostroma), 0.795 and 0.105 (Moscow), 0.857 and 0.092 (Rostov-on-Don), and 0.824 and 0.083 (Krasnodar), respectively. The latitudinal distribution of the APOE epsilon3 and epsilon4 allele frequencies in the populations examined was comparable to the frequency distribution pattern of these alleles in other populations of Eurasia.     

Conversion and compensatory evolution of the gamma-crystallin genes and identification of a cataractogenic mutation that reverses the sequence of the human CRYGD gene to an ancestral state

We identified a mutation in the CRYGD gene (P23S) of the gamma-crystallin gene cluster that is associated with a polymorphic congenital cataract that occurs with frequency of approximately 0.3% in a human population. To gain insight into the molecular mechanism of the pathogenesis of gamma-crystallin isoforms, we undertook an evolutionary analysis of the available mammalian and newly obtained primate sequences of the gamma-crystallin genes. The cataract-associated serine at site 23 corresponds to the ancestral state, since it was found in CRYGD of a lower primate and all the surveyed nonprimate mammals. Crystallin proteins include two structurally similar domains, and substitutions in mammalian CRYGD protein at site 23 of the first domain were always associated with substitutions in the structurally reciprocal sites 109 and 136 of the second domain. These data suggest that the cataractogenic effect of serine at site 23 in the N-terminal domain of CRYGD may be compensated indirectly by amino acid changes in a distal domain. We also found that gene conversion was a factor in the evolution of the gamma-crystallin gene cluster throughout different mammalian clades. The high rate of gene conversion observed between the functional CRYGD gene and two primate gamma-crystallin pseudogenes (CRYGEP1 and CRYGFP1) coupled with a surprising finding of apparent negative selection in primate pseudogenes suggest a deleterious impact of recently derived pseudogenes involved in gene conversion in the gamma-crystallin gene cluster.     

Polymorphism of the apolipoprotein E gene (APOE) in the populations of Russia and neighboring countries

Allele and genotype frequencies for the locus encoding apolipoprotein E, involved in the regulation of lipid metabolism (APOE), were evaluated in 16 populations representing 12 ethnic groups (a total of 1103 subjects) from Russia and neighboring countries. In the populations examined, the frequencies of allele ?4, which is the risk factor of Alzheimer’s disease and coronary heart disease, varied from less than 5 to more than 20%, while the variation of the major ?3 allele in these populations ranged from less than 75 to 95%. The frequencies of alleles ?3 and ?4 were 0.714 and 0.205 in Saami, 0.735 and 0.220 in Komi-Izhemts, 0.770 and 0.130 in Komi-Zyryans, 0.771 and 0.149 in Udmurts, 0.734 and 0.149 in Maris, 0.841 and 0.122 in Evenks, 0.788 and 0.163 in Buryats, 0.764 and 0.202 in Chukchi, 0.875 and 0.075 in Iranians, 0.956 and 0.044 in mountain-dwellers of the Pamirs, 0.771 and 0.094 in Ukrainians, and 0.795 and 0.091 in Belarussians, respectively. In Russians from different regions of the country, the frequencies of these alleles were 0.728 and 0.139 (Kostroma), 0.795 and 0.105 (Moscow), 0.857 and 0.092 (Rostov-on-Don), and 0.824 and 0.083 (Krasnodar), respectively. The latitudinal distribution of the APOE ?3 and ?4 allele frequencies in the populations examined was comparable to the frequency distribution pattern of these alleles in other populations of Eurasia.     

An attempt to locate the gene for congenital cataracts using linkage analysis]

Analysis of linkage between the gene of autosomal dominant congenital cataract and 10 polymorphic loci localized in 1, 2, 3, 4, 6, 13, 16 chromosomes was performed. Some loci were only informative for this purpose: Mucin located in 1q21, NH24 located in the 2-nd chromosome and Pi located in 1q21 32.17. No linkage was observed for the cataract gene and the loci located in chromosomes 1 and 2. The maximum estimate of likelihood is approx. 0.2 for the cataract gene and the Pi locus located in 14q32.1, though the value of the maximal lod score was only, 0.732.     

Interindividual hyperpolymorphism of autosomal satellites III of human DNA

Hypervariability of DNA restriction fragments from pericentromeric heterochromatin detected by autosomal "classic" DNA of satellite III has been demonstrated in this work. Using hybridization probe of satellite III DNA localized predominantly on the chromosome 9 strong interindividual differences in the sets of polymorphic DNA restriction fragments inherited from both paternal and maternal sides as well as intraspecies amplifications of some variants of the satellite III were observed. The number and intensity of restriction bands are identical in both sexes. It is suggested that strong interindividual DNA variability may be largely specified by high level of DNA spot mutability in satellites III. Pericentromeric "classic" satellites III may serve as efficient markers for identification of individuals and for molecular-genetic mapping of human genome pericentromeric regions.     

Complete Mitochondrial Genome and Phylogeny of Pleistocene MammothMammuthus primigenius

Phylogenetic relationships between the extinct woolly mammoth(Mammuthus primigenius), and the Asian(Elephas maximus) and African savanna(Loxodonta africana) elephants remain unresolved. Here, we report the sequence of the complete mitochondrial genome (16,842 base pairs) of a woolly mammoth extracted from permafrost-preserved remains from the Pleistocene epoch—the oldest mitochondrial genome sequence determined to date. We demonstrate that well-preserved mitochondrial genome fragments, as long as ~1,600–1700 base pairs, can be retrieved from pre-Holocene remains of an extinct species. Phylogenetic reconstruction of the Elephantinae clade suggests thatM. primigenius andE. maximus are sister species that diverged soon after their common ancestor split from theL. africana lineage. Low nucleotide diversity found between independently determined mitochondrial genomic sequences of woolly mammoths separated geographically and in time suggests that north-eastern Siberia was occupied by a relatively homogeneous population ofM. primigenius throughout the late Pleistocene.     

Exome Sequencing from Nanogram Amounts of Starting DNA: Comparing Three Approaches

Hybridization-based target enrichment protocols require relatively large starting amounts of genomic DNA, which is not always available. Here, we tested three approaches to pre-capture library preparation starting from 10 ng of genomic DNA: (i and ii) whole-genome amplification of DNA samples with REPLI-g (Qiagen) and GenomePlex (Sigma) kits followed by standard library preparation, and (iii) library construction with a low input oriented ThruPLEX kit (Rubicon Genomics). Exome capture with Agilent SureSelect^XT2 Human AllExon v4+UTRs capture probes, and HiSeq2000 sequencing were performed for test libraries along with the control library prepared from 1 µg of starting DNA. Tested protocols were characterized in terms of mapping efficiency, enrichment ratio, coverage of the target region, and reliability of SNP genotyping. REPLI-g- and ThruPLEX-FD-based protocols seem to be adequate solutions for exome sequencing of low input samples.     

Species specific variant of human centromeric DNA repeats: localization on chromosome 18 and recent amplification in human ancestral line

Plasmid library of rapidly renaturating fraction of human DNA was constructed. The library was used for isolation of primate-specific DNA repeats. A clone (1hsp-4) which was intensively hybridizable with human DNA exclusively and produced no signals when hybridized with animal DNAs including the ones from orangoutan and chimpanzee was isolated. The cloned sequences 1hsp-4 have been found to be highly specific to centromeric heterochromatin of the 18 chromosome. Primary structure of a short 1hsp-4 fragment has been determined. The obtained data suggest the emergence of a DNA family homologous to the 1hsp-4 probe to be due to the thousandfold leapwise amplification occuring less than 5-8 millions years ago.