Carla Bini

MtDNA variability in two Bantu-speaking populations (Shona and Hutu) from eastern Africa: implications for peopling and migration patterns in sub-Saharan Africa

In this study, we report novel data on mitochondrial DNA in two of the largest eastern Bantu-speaking populations, the Shona from Zimbabwe and the Hutu from Rwanda. The goal is to evaluate the genetic relationships of these two ethnic groups with other Bantu-speaking populations. Moreover, by comparing our data with those from other Niger-Congo speaking populations, we aim to clarify some aspects of evolutionary and demographic processes accompanying the spread of Bantu languages in sub-Saharan Africa and to test if patterns of genetic variation fit with models of population expansion based on linguistic and archeological data. The results indicate that the Shona and Hutu are closely related to the other Bantu-speaking populations. However, there are some differences in haplogroup composition between the two populations, mainly due to different genetic contributions from neighboring populations. This result is confirmed by estimates of migration rates which show high levels of gene flow not only between pairs of Bantu-speaking populations, but also between Bantu and non-Bantu speakers. The observed pattern of genetic variability (high genetic homogeneity and high levels of gene flow) supports a linguistic model suggesting a gradual spread of Bantu-speakers, with strong interactions between the different lines of Bantu-speaker descent, and is also in agreement with recent archeological findings. In conclusion, our data emphasize the role that population admixture has played at different times and to varying degrees in the dispersal of Bantu languages.

Genetic predisposition to familial neuroblastoma: Identification of two novel genomic regions at 2p and 12p

Objectives: The rarity of familial neuroblastoma (NB) has allowed only a few linkage studies, most of which did not show any evidence of linkage to regions involved in somatic alterations or to genes implicated in other neurocristopathies seldom associated with NB. We screened a highly informative family with recurrent NB by genome-wide linkage analysis aimed at identifying chromosomal regions for NB predisposing genes. Methods: A genome-wide screen was performed using 382 microsatellite markers. Multipoint model-based linkage analysis was carried out under a dominant mode of inheritance for the disease using the ‘affected only’ approach. Results: Our analysis identified two haplotypes co-segregating with the disease on chromosomes 2p and 12p, and yielded maximum lod-score values of 3.01 (p < 0.0001) for markers on both intervals. Conclusions: Evidence of linkage was reported at 16p in North American families, whereas our studies excluded this interval and indicated other loci for disease predisposition, thus confirming the remarkable genetic heterogeneity of NB. These results suggest an oligogenic inheritance in NB involving more loci in genetic determination of the disease.

Different informativeness of the three hypervariable mitochondrial DNA regions in the population of Bologna (Italy)

Mitochondrial DNA (mtDNA) sequence variations at hypervariable regions HVI, HVII and HVIII were analysed in 100 unrelated Italians from Bologna. The values of the statistical parameters are in agreement with the range of European populations. We suggest that the less informative HVIII region may be useful to distinguish HVI-HVII identical sequences in forensic analysis especially when nuclear DNA cannot be investigated.

Genetic analysis of the presumptive blood from Louis XVI, king of France

A text on a pyrographically decorated gourd dated to 1793 explains that it contains a handkerchief dipped with the blood of Louis XVI, king of France, after his execution. Biochemical analyses confirmed that the material contained within the gourd was blood. The mitochondrial DNA (mtDNA) hypervariable region 1 (HVR1) and 2 (HVR2), the Y-chromosome STR profile, some autosomal STR markers and a SNP in HERC2 gene associated to blue eyes, were retrieved, and some results independently replicated in two different laboratories. The uncommon mtDNA sequence retrieved can be attributed to a N1b haplotype, while the novel Y-chromosome haplotype belongs to haplogroup G2a. The HERC2 gene showed that the subject analyzed was a heterozygote, which is compatible with a blue-eyed person, as king Louis XVI was. To confirm the identity of the subject, an analysis of the dried heart of his son, Louis XVII, could be undertaken.

SPORADIC FATAL INSOMNIA IN A FATAL FAMILIAL INSOMNIA PEDIGREE

Transmissible spongiform encephalopathies (TSEs) or prion diseases are a group of neurodegenerative disorders which uniquely comprise sporadic, genetic, and acquired forms.1 According to the leading theory, genetic TSEs are caused by mutations in the prion protein gene ( PRNP ), the acquired forms derive from an exogenous prion infection, while the sporadic forms arise spontaneously, as a consequence of a somatic mutation or a stochastic metabolic event. At least six phenotypic subtypes of sporadic human TSEs exist, which has been shown to correlate with both the genotype at polymorphic PRNP codon 129 and either one of two types of abnormal prion protein (PrPSc) with distinct physicochemical properties.2 The phenotypic variability of genetic TSEs broadly reproduces that of the sporadic form, although the relative incidence of each subtype varies considerably in the two forms. The fatal insomnia (FI) phenotype, for example, is the third most frequent genetic prion disease but the rarest of the sporadic TSE subtypes, with only 15 cases diagnosed worldwide.1,3 Given their rarity and supposedly distinct etiology, the occurrence of distinct TSE forms among genetically related individuals is not expected. Here we describe the co-occurrence of both sporadic and genetic forms of FI within …

Expanding X-chromosomal forensic haplotype frequencies database: Italian population data of four linkage groups

Requests for solving complex kinship casework involving at least one female are increasing and in these circumstances the analysis of X-chromosomal STR markers plays a relevant role. Actually, it is well known the superior statistical power of X-STRs compared to autosomal markers in solving relationship when two sisters or half-sisters are involved and none of parents is available, in maternity testing or in cases involving close relatives as alternative putative fathers. In addition, the possibility to amplify more loci simultaneously and the strategy based on the analysis of four linkage groups to obtain the X-haplotype provide a powerful and validated tool. Nevertheless, haplotypes frequency distribution in different populations is still needed for calculation of probabilities in relationship testing. Published haplotype frequencies from German population data are available, but in different caseworks we found unreported X-haplotypes. To enlarge the forensic X-chromosome database, we present haplotype frequencies and other parameter of forensic interest obtained from 200 anonymous DNA samples of unrelated Italian males for the four linkage groups included in the Investigator Argus X-12 kit. From the comparison of the Italian sample haplotype frequencies with other populations, significant genetic distances were found with Asian and African populations, but not with Europeans. Finally, casework examples of complex kinship analysis are presented.

Cancerous Tissues in Forensic Genetic Analysis

Microsatellites or short tandem repeats (STRs) markers are important tools for mapping disease-causing genes by linkage, for performing investigations in forensic medicine, for population genetic studies and for studying genetic modifications in tumors. In forensic applications neoplastic tissues can be used as a source of genetic information for personal identification or paternity testing when no other specimen is available. Cancer tissues can show microsatellite instability (MSI) and loss of heterozygosity (LOH) also for the STRs used in the forensic field. In this study, we screened 56 sporadic gastrointestinal carcinomas in order to provide further data for the evaluation of the incidence of allelic alterations for 15 STR loci and the suitability of using cancerous tissues in forensic applications. Sixty-six percent of the cancerous tissues were found to possess allelic alterations of the microsatellites analyzed with a high incidence of MSI-L (microsatellite instability low) when compared to the corresponding normal tissue. The most frequently altered loci were D18S51, VWA, and FGA. From a forensic perspective, great care must be taken in evaluating the DNA typing results obtained from cancerous tissue samples.

Minisequencing-based genotyping of Duffy and ABO blood groups for forensic purposes.

ABSTRACT: Duffy and ABO blood group genetic polymorphisms were studied by minisequencing analysis of single‐nucleotide polymorphisms (SNPs) at nucleotide positions—33, 125, 265, and 298 of the Duffy gene and at nucleotide positions—261, 297, 467, 646, and 703 of the ABO gene. In an Italian population sample, we found four alleles and seven genotypes for the Duffy and six alleles and 16 genotypes for the ABO systems. The lower limit for reproducible results was 200 pg DNA, with a range of up to 10 ng and an optimum at 1 ng. All of the 16 analyzed inclusive paternity tests were also consistent with parentage and two out of four inconsistencies with parentage cases were excluded by one or more SNPs. Although Duffy and ABO SNP typing show lower informativeness than most current forensic tests, their robustness, the limited population distribution of FY*Fy type, and the sensitivity of the minisequencing technology suggest that these markers can be useful in selected forensic applications.

Automated fluorescence analysis of CAG repeats at the human androgen receptor gene (HUMARA): evaluation of polymorphism in an Italian sample and report of a new allele.

The HUMARA CAG repeats polymorphism was studied in an Italian population sample. Polymerase chain reaction amplification and automated fluorescent analysis were used. A total of 19 and 15 repeats was observed in female and male subjects, respectively, and one new allele was found. The authors conclude that this X-linked short tandem repeat, typed without ambiguity and with a heterozygosity of 0.902, is useful in parentage testing of female subjects.

CYP2D6 Genotyping in Natives and Immigrants from the Emilia-Romagna Region (Italy)

Pharmacogenetic testing of drug metabolizing enzyme polymorphisms provides an important tool to improve prescribing decisions, avoiding therapeutic failure and adverse drug reactions. Cytochrome P450 2D6 isoform plays an important role in the metabolism of about 20%-25% of widely used clinical drugs. Interethnic differences in allele frequency distribution of the CYP2D6 gene are well established, but interethnic admixture, introducing variations in population ancestry and resulting in distinct levels of population structure, should be acknowledged in pharmacogenomic studies to avoid inappropriate extrapolation of CYP2D6 data. The aim of the present research was to characterize CYP2D6 polymorphism in a random sample of 122 natives and 175 immigrants from Africa, Asia, and South America living in the Emilia-Romagna region (Italy), considering the present scenario of immigration and back migration events, which is a source of admixture. The results are today consistent with the known interethnic genetic variation, but the observed significant divergence between natives and Africans or South-East Asians predicts that admixture will reshape the population structure and the native metabolic ratio curve requiring, for drug prescription and pharmacogenetics studies, an interdisciplinary approach applied in an appropriate biogeographical and anthropological frame.