Apolipoprotein B 3'-VNTR polymorphism in Eastern European populations

Apolipoprotein B 3' (3' ApoB) minisatellite polymorphism was studied in healthy unrelated individuals from the Russian Federation and the Republic of Belarus, in 10 populations from five ethnic groups: Russians, Byelorussians, Adygeis, Kalmyks and Yakuts. The analysis was carried out using PCR and electrophoresis followed by silver staining. Overall, 25 alleles of the 3' ApoB minisatellite, ranging from 25 to 55 repeats, were detected. Heterozygosity indices were high and varied from 0.73 to 0.84. The distributions of alleles of this minisatellite in the Caucasoid populations (Russians, Byelorussians and Adygeis) had a bimodal character, whereas that for Mongoloid populations (Kalmyks and Yakuts) had a unimodal distribution. Nei's genetic distances between the populations studied and some reference populations of Europe and Asia were estimated. Despite their allele distribution homogeneity, different East Slavonic ethnic groups were clearly resolved by multidimensional analyses. The East Slavonic and Adygei populations revealed a high similarity with European Caucasoids. The Mongoloid populations (Kalmyks and Yakuts) were considerably different from those of the European Caucasoid populations, but were similar to other Asian Mongoloid populations. The results demonstrate the variability of 3' ApoB minisatellite polymorphism not only in distant populations but also, to a certain extent, in genetically relative ones.     

Allelic diversity at minisatellite MS205 (D16S309): evidence for polarized variability

We have determined the allelic structures on 106 Caucasian chromosomesat the minisatellite locus MS205 (D16S309). In addition to theInternal structures deduced by minisatellite variant repeat(MVR) mapping, the genotypes at six flanking substitutionalpolymorphic sites have been analysed. The minisatellite structuresshow a polarity of variation at MS205, with most observed variationdue to differences at one extremity of the tandem repeat array.This locus, therefore, provides a further example of polarityof variation at human minisatellites. Analysis of haplotypesat flanking polymorphic sites suggests that there may be a higherfrequency of exchange near the highly unstable end of the minisatellite,and thus that exchanges of flanking polymorphisms may be dueto co-conversion or recombination events occurring during unequalexchanges between minisatellite alleles.     

Novel thymidylate synthase enhancer region alleles in African populations

Thymidylate synthase (TS) regulates the production of DNA synthesis precursors and is an important target of cancer chemotherapy. A polymorphic tandem repeat sequence in the enhancer region of the TS promoter was previously described, where the triple repeat gives higher in vitro gene expression than a double repeat. We recently identified ethnic differences in allele frequencies between Caucasian and Asian populations. We now describe assessment of genotype and allele frequencies of the TS polymorphism in 640 African (African American, Ghanaian and Kenyan) and Caucasian (UK, USA) subjects. The double and triple repeat were the predominant alleles in all populations studied. The frequency of the triple repeat allele was similar between Kenyan (49%), Ghanaian (56%), African American (52%), American Caucasian (54%) and British Caucasian (54%) subjects. However, two novel alleles contained 4 and 9 copies of the tandem repeat. These novel alleles were found at a higher allele frequency in African populations (Kenyan 7%, Ghanaian 3%, African American 2%) than Caucasians (UK 1%, USA 0%). The novel alleles identified in this study decrease in frequency with Western migration, while the common alleles are relatively stable. This is a unique example suggesting the influence of multiple selection pressures within individual populations. Hum Mutat 16:528, 2000.     

Global haplotype diversity in the human insulin gene region

The insulin minisatellite (INS VNTR) has been intensively analyzed due to its associations with diseases including diabetes. We have previously used patterns of variant repeat distribution in the minisatellite to demonstrate that genetic diversity is unusually great in Africans compared to non-Africans. Here we analyzed variation at 56 single nucleotide polymorphisms (SNPs) flanking the minisatellite in individuals from six populations, and we show that over 40% of the total genetic variance near the minisatellite is due to differences between Africans and non-Africans, far higher than seen in most genomic regions and consistent with differential selection acting on the insulin gene region, most likely in the non-African ancestral population. Linkage disequilibrium was lower in African populations, with evidence of clustering of historical recombination events. Analysis of haplotypes from the relatively nonrecombining region around the minisatellite revealed a star-shaped phylogeny with lineages radiating from an ancestral African-specific haplotype. These haplotypes confirmed that minisatellite lineages defined by variant repeat distributions are monophyletic in origin. These analyses provide a framework for a cladistic approach to future disease association studies of the insulin region within both African and non-African populations, and they identify SNPs which can be rapidly analyzed as surrogate markers for minisatellite lineage.     

Genetic variation at the ApoB 3′ HVR minisatellite locus in the Mbenzele Pygmies from the Central African Republic

This study analyzes the polymorphic minisatellite ApoB 3′ HVR in the Mbenzele Pygmies from the Central African Republic. A total of 14 alleles was observed, with frequencies ranging from 0.020 (19, 21, 27, and 45 repeat unit alleles) to 0.210 (37 repeat unit allele). Departure from Hardy-Weinberg equilibrium was not statistically significant. The estimated heterozygosity was 0.874 ± 0.016. Taking data from the literature into consideration, the results support the hypothesis that the Africans are different from non-Africans due to greater ApoB 3′ HVR genetic diversity and a unimodal profile of ApoB 3′ HVR allele frequency distribution. Interpopulational relationships were also analyzed using an F_ST based genetic distance. The results highlight the similarity between the Mbenzele Pygmies and Bantu-speaking groups (Ewondo and Zulu), and the divergence between the Mbenzele and San, the two groups which are often considered to be the most direct descendants of proto-Africans. Am. J. Hum. Biol. 12:588–592, 2000. © 2000 Wiley-Liss, Inc.     

Length variability and interspersion patterns of the HRAS1 minisatellite: a new approach for the reconstruction of human population relationships

During recent years the HRAS1 minisatellite has been analysed by several authors because of its putative association with cancer susceptibility. The aim of this report is to test the usefulness of this minisatellite in investigating human population relationships. We have studied 370 chromosomes from two well-differentiated populations: Galicia (North-west Iberia) and South-east Africa, as well as available data on allele length gene frequencies. The fragment analysis results show a strong tendency to differentiate between non-African and African populations. In spite of the usefulness of fragment analysis, the minisatellite variant repeat (MVR) approach of the HRAS1 minisatellite appears to be a more powerful method for use in human population studies, due to the high level of diversity of its interspersion pattern structures. In addition, this approach has allowed us to define some new structural characteristics of this minisatellite. Four different major groups of human HRAS1 minisatellite alleles could be distinguished following a structural criterion based on the MVR code. Furthermore, the characterisation of the HRAS1 minisatellite in chimpanzees revealed clear differences when compared to humans, not only with respect to the allele size but also to the internal structure.     

Evolution and population genetics of the H-ras minisatellite and cancer predisposition

Case-control studies have implicated rare length H-ras minisatellite alleles in cancer risk. In Europeans, this locus has four common alleles, and a larger number of rare alleles; possession of a rare allele has been identified as a risk factor responsible for 5-10% of some cancers. This unusual model of predisposition has been controversial in case-control studies, but also makes characteristic predictions about the population genetics of the locus, which we examine in this study. Using minisatellite variant repeat ("MVR") mapping, and compound haplotypes composed of the minisatellite and surrounding substitutional polymorphisms, we have reconstructed the main steps in the evolution of this locus in human populations. MVR-calibrated measurements of allele length yield rare allele frequencies significantly higher than most previous studies, and show that most other analyses have not distinguished two common alleles of 84 and 85 repeat units. Alleles classified as "rare" in European populations predominate (70%) in the African sample studied. Small-pool PCR (SP-PCR) analysis on common alleles in sperm DNA gives an estimate for the germline minisatellite mutation rate of about 0.05% (95% confidence upper limit 0.15%). Overall, our results do not reflect a locus subject to frequent mutation and strong selection, and are difficult to reconcile with the proposed cancer predisposition. Restricted variation at this locus is most simply explained by low mutation rate, and although definitive case-control studies can only be performed using methods capable of reproducibly distinguishing rare and common alleles, our work suggests that most studies to date have not resolved alleles adequately.     

FMR1 CGG Repeat Patterns and Flanking Haplotypes in Three Asian Populations and Their Relationship With Repeat Instability

Hyper-expansion of a CGG repeat in the 5' untranslated region of the FMR1 gene followed by methylation and silencing is the predominant cause of Fragile X syndrome, the most common inherited mental retardation disorder. Most detailed studies of the FMR1 gene have focused on Caucasian populations and patients. We performed a detailed haplotype and linkage disequilibrium analysis of the FMR1 gene in a total of 454 unselected normal X chromosomes from three Asian populations, Chinese, Malay and Indian. Compared to Caucasians and African Americans, the diversity of normal FMR1 CGG repeat lengths, patterns and flanking haplotypes were lower in Asians. Strong linkage disequilibrium was observed between the CGG repeat and flanking FMR1 markers in all three Asian populations, with strong association between specific CGG repeat alleles and flanking marker alleles observed only in the Chinese and Malays. A test for randomness of distribution between FRAXA CGG repeat patterns and flanking FMR1 marker haplotypes also revealed a highly significant non-random distribution between CGG repeat patterns and flanking haplotypes in all three ethnic groups (P < 0.001). Extending previous findings in Caucasians and African Americans we present a novel statistical approach, using data from unselected population samples alone, to show an association between absence of at least one AGG interruption in any position (5', 3', or middle) and increased CGG repeat instability.     

Allelic structures at hypervariable minisatellite B6.7 in Japanese show population specificity

Human minisatellite B6.7 shows extensive allele length and structural variability in north Europeans. We analysed this locus in the Japanese population. Allele size distributions showed that Japanese retain extensive allele length variability but have significantly smaller alleles compared with north Europeans. In contrast, there is very little variation in flanking DNA, with only one single-nucleotide polymorphism (SNP) near the minisatellite. Ninety-two Japanese alleles were further characterised by minisatellite variant repeat mapping by polymerase chain reaction (MVR-PCR). These alleles showed a wide variety of internal MVR structures, despite their relative shortness, with most alleles observed only once in the sample. The true heterozygosity is estimated at 99.95%, with well in excess of 2000 different alleles existing in the Japanese population. Dot matrix analysis showed that groups of related alleles sharing structural motifs could be identified within Japanese and in north Europeans, and that these groups are population specific with no examples of significant similarity between any Japanese and north European alleles. Minisatellite B6.7 therefore shows huge allele variability and fast repeat turnover in Japanese as well as north European populations, and provides novel lineage markers for exploring very recent events in human population history. Received: January 29, 2002 / Accepted: February 12, 2002     

Influence of allele lineage on the role of the insulin minisatellite in susceptibility to type 1 diabetes

The insulin minisatellite or variable number of tandem repeats locus (INS VNTR) is the best candidate for the type 1 diabetes mellitus (T1DM) susceptibility locus IDDM2. Small class I alleles associate with predisposition to T1DM, whereas large class III alleles associate with dominant protection. We have analysed variant repeat distribution within the minisatellite and combined this with flanking haplotypes to define five new ancestral allele lineages. Class III alleles divide into two highly diverged lineages, IIIA and IIIB, which correspond perfectly to the previously defined Protective (PH) and Very Protective (VPH) haplotypes, respectively. Class I alleles are divided into three newly defined lineages, IC+, ID+ and ID-, by a combination of variant repeat distributions and flanking haplotypes. All class I alleles are equally predisposing to T1DM except for ID- alleles which are protective when transmitted from ID-/III heterozygous fathers. Similar results have been previously reported for alleles of 42 repeats in length (allele 814) which represent a subset of the ID- lineage. Division of class ID- alleles into those of 42 repeats and those of other sizes suggested that this protective effect was a feature of all ID- alleles, irrespective of size. ID- alleles are only clearly distinguished from all other alleles by an MSPI(-) variant within IGF2 downstream of the minisatellite, suggesting that the apparent role of the minisatellite in susceptibility to T1DM may be modified by neighbouring haplotype and therefore that IDDM2 could have a multi-locus aetiology.     

IDDM2 and the polymorphism of the human tyrosine hydroxylase (hTH) gene in African Americans with type-1 diabetes

In this study, we investigate the polymorphic microsatellite repeat (TCAT)n, in the insulin gene region that has been associated with susceptibility to type-1 diabetes in some Caucasian populations. The microsatellite repeat polymorphism begins at base pair 1,170 in intron 1 of the hTH gene, which is located on the short arm of chromosome 11. This study is the first to investigate the association of this microsatellite repeat polymorphism in African-American type-1 diabetes patients and controls. The predicted amplified sequence was 254 bp. We found five alleles among African Americans in the Washington, DC area. The alleles were labeled K5 (244 bp), K4 (248 bp), K3 (252 bp), K2 (256 bp), and K1 (260 bp), and heterozygosity was greater than 0.75. The most frequent allele of the hTH microsatellite repeats was K5 (248 bp) with a frequency 0.62 in controls and 0.66 in type-1 diabetes patients, which did not differ significantly. Although the largest allele was more frequent in controls, the difference was not statistically significant. The five alleles of the hTH microsatellite generated 15 different genotypes. The most frequent genotype in controls and patients was K5/K4, whose frequencies were 0.19 and 0.17, respectively. No significant differences in genotype frequencies were found between type-1 diabetes patients and controls. This data shifts the focus from hTH to the VNTR at the insulin gene for IDDM2, the second major candidate gene for type-1 diabetes.     

De novo mutations and allelic diversity at minisatellite locus D7S22 investigated by allele-specific four-state MVR-PCR analysis

We have studied the allelic diversity and de novo mutations at the hypervariable minisatellite locus D7S22. A four-state minisatellite variant repeat unit mapping by PCR (MVR-PCR) method was developed for this purpose, and a substitution polymorphism close to the repeat array was used to design allele-specific flanking primers to study individual haplotypes in genomic DNA. A total of 150 alleles from different allele size groups and flanking haplotypes were mapped. On average, MVR-codes extending 65 repeats (2.4 kb) into the repeat array were obtained. The interspersion patterns of variant repeats were highly polymorphic. However, subgroups of alleles close in size and with identical flanking haplotype revealed common MVR-code characteristics indicating a close evolutionary relationship. Unlike the situation in many other hypervariable minisatellites, no polarized variability was revealed at this minisatellite locus. Fifty four small families with D7S22 de novo mutations were analysed by MVR-PCR. The sites where the length change occurred were revealed in 22 cases, while in 32 cases the mutation obviously occurred further into the repeat array. In agreement with a non-polar distribution of the allelic variation, there was no evidence for a hypermutable hot spot for mutation within the repeat array. Comparison of MVR-codes in the mutant and progenitor in gain mutations indicated that at least one, possibly four cases, reflected inter- allelic events. Together with evidence from DNA sequencing of alleles of <2 kb, this indicates that as many as half of the gain mutations might be inter-allelic events in D7S22. Based on these results, different factors which might affect the mutation rate are discussed.      

Absence of myotonic dystrophy in southern African Negroids is associated with a significantly lower number of CTG trinucleotide repeats.

Myotonic dystrophy (DM) is associated with an increased number of CTG repeats in the 3' untranslated region of the myotonin gene. Because DM has not been observed in southern African Negroids, a study of the CTG repeat polymorphism in this population was undertake. A total of 210 unrelated subjects was studied by PCR analysis of the trinucleotide repeat in the DM gene and the size and distribution of the CTG repeat were determined. The alleles ranged in length from five to 22 repeats. A previously undescribed BglI polymorphism was found which could lead to erroneous diagnosis of DM in people from this population. South African Negroids were found to have significantly fewer large repeat lengths than do white and Japanese populations. It is suggested that the occurrence of fewer large CTG repeats in the normal range may, in part, explain the absence of DM in southern African Negroids.     

Ethnicity and myotonic dystrophy: a possible explanation for its absence in sub-Saharan Africa

The CTG trinucleotide repeat, in the myotonic dystrophy (DM) myotonin protein kinase gene, was studied by PCR analysis in a total of 246 unrelated South African Bantu-speaking Negroids, 116 San and 27 Pygmies. The size and distribution of the CTG repeat were determined and showed that the alleles ranged in length from 5 to 22 repeats. The most common CTG repeat is 5 (25% of chromosomes) in the South African Negroids but 11 (27 % of chromosomes) in the San population and 12 (22% of chromosomes) in the Pygmies. The southern African Bantu-speaking Negroids and San were found to have significantly fewer large repeat length alleles than do Caucasoid and Japanese populations. Since DM has not been observed in southern African Negroids, it is possible that the occurrence of fewer large CTG repeats in the normal range may, in part, explain this absence. It seems likely, that the rare DM mutation event postulated to have occurred on a specific chromosomal haplotype, occurred after the migration of humans from Africa.     

Association analysis of 5HT transporter gene in bipolar disorder in the Indian population

A variable number tandem repeat (VNTR) polymorphism consisting of multiple copies of a 17-bp repeat in the second intron of the serotonin transporter gene (SERT) has been reported. Different alleles of this VNTR have been found to be associated with bipolar disorder and schizophrenia. These findings have been confirmed in some populations, but disconfirmed in others. Furthermore, significant ethnic variations in the distribution of these alleles both in normal and patient populations also have been reported. We analyzed the VNTR polymorphism in 50 Indian patients with bipolar disorder and in ethnically matched controls. Two alleles corresponding to 10 and 12 repeats of the VNTR were found in both groups. There were no significant differences either in allele frequency or genotype frequency between the two groups. The nine-repeat allele that has been reported in Japanese and Caucasian populations was absent in our sample. Although it will be important to extend the present study in a larger sample, our initial results do not suggest any large association with alleles of the VNTR in the SERT gene and bipolar disorder in Indian patients. Am. J. Med. Genet. (Neuropsychiatr. Genet.) 96:170-172, 2000.     

An Asian–Native American paternal lineage identified by RPS4Y resequencing and by microsatellite haplotyping

Human paternal population history was studied in 9 populations [three Native American, three Asian, two Caucasian and one African-derived sample(s)] using sequence and short tandem repeat haplotype diversity within the non-pseudoautosegmal region of the Y chromosome. Complete coding and additional flanking sequences (949 base pairs) of the RPS4Y locus were determined in 59 individuals from three of the populations, revealing a nucleotide diversity of 0.0147%, consistent with previous estimates from Y chromosome resequencing studies. One RPS4Y sequence variant, 711C>T, was polymorphic in Asian and Native American populations, but not in African and Caucasian population samples. The RPS4Y 711C>T variant, a second unique sequence variant at DYS287 and nine Y chromosome short tandem repeat (YSTR) loci were used to analyze the evolution of Y chromosome lineages. Three unambiguous lineages were defined in Asian, Native American and Jamaican populations using sequence variants at RPS4Y and DYS287 . These lineages were independently supported by the haplotypes defined solely by YSTR alleles, demonstrating the haplotypes constructed from YSTRs can evaluate population diversity, admixture and phylogeny.     

Polymorphisms in the apolipoprotein(a) gene and their relationship to allele size and plasma lipoprotein(a) concentration

Genotypes at five previously described polymorphic sites at the apolipoprotein(a) gene locus have been determined for the members of 27 families as well as for unrelated white Caucasian and Asian-Indian subjects, and their relationship with isoform size and plasma lipoprotein(a) concentrations investigated. There was strong linkage disequilibrium between sites at the 5'-region of the gene and also between this region and a site in the coding sequence for Kringle 4-37 on the other side of the polymorphic Kringle 4 repeat region. There was no evidence that changes at any of the sites had any direct effect upon lipoprotein(a) concentration. However, certain haplotypes were present almost exclusively on apolipoprotein(a) alleles within a restricted range of sizes and associated lipoprotein(a) concentrations. After correcting for the effect of allele size, there were clear differences between the lipoprotein(a) concentrations associated with alleles of different haplotypes, suggesting that there may be genetically distinct groups of apolipoprotein alleles of different size and different levels of expression. Factors that regulate expression apparently exchange at a rate similar to the rate of change of Kringle 4 repeat number.      

Allele diversity and germline mutation at the insulin minisatellite

Previous analysis of germline mutation at highly unstable GC-rich minisatellites with continuous allele size distributions revealed similar meiotic recombinational mechanisms operating at all loci investigated. The insulin minisatellite has been studied intensively due to its associations with diabetes, polycystic ovary syndrome, obesity and birth size. Its bimodal allele size distribution in Caucasians suggests a much lower mutation rate and possible differences in the mutation process compared with highly unstable minisatellites. Mutation at the insulin minisatellite therefore was studied both indirectly from allele diversity surveys and directly by recovering de novo mutants from sperm DNA. Structural analysis of variant repeat distributions in 876 alleles identified 189 different alleles, almost all of which could be assigned to one of three very distinct lineages. Variation within a lineage was minor and due mainly to the gain or loss of one or a few repeat units. These events most probably arise by mitotic replication slippage at a frequency of perhaps 10(-3)per gamete. Sperm DNA analysis revealed a second class of mutation occurring at a frequency of approximately 2 x 10(-5)that involved highly complex intra- and inter-allelic rearrangements very similar to those seen at unstable minisatellites. These complex rearrangements were not seen in somatic DNA and are probably meiotic in origin. Minisatellite homozygosity did not reduce the frequency of these mutants in sperm. The insulin minisatellite therefore appears to evolve by two distinct processes: one involving slippage-like events and the second resulting in complex recombinational turnover of allele structure.