Loredana Buscemi

Polymorphism of the mitochondrial DNA control region in Italians

Abstract Mitochondrial DNA sequences of the hypervariable regions HVI and HVII were analysed in 83 Caucasians living in central Italy to expand the database for forensic identification purposes, and 75 different haplotypes resulting from 62 polymorphic positions in HVI and 44 in HVII were observed. The most frequent haplotype (263G, 309.1C, 315.1C) was shared by 7 individuals, 2 haplotypes were shared by 2 individuals, and 72 were unique. The genetic diversity was found to be 0.99 and the random match probability 1.9%. A condition of sequence heteroplasmy was found in only one case at nt 16311, whereas a length heteroplasmy was found in the homopolymeric stretch of cytosines 303–315. Our results indicate that in direct sequencing beyond the poly-cytosine stretch, the overlap is due to length heteroplasmy, whereas the blurred signal occurs when the stretch is composed of more than 10 cytosines.

Y-chromosome genetic structure in sub-Apennine populations of Central Italy by SNP and STR analysis

To define the Y-chromosome genetic structure in Apennine populations, 17 Y-chromosome short tandem repeats (Y-STRs) and 37 Y-single nucleotide polymorphisms (Y-SNPs) were typed in 162 subjects living in the upland area of the Marches (Central Italy). A total number of 155 haplotypes (haplotype diversity was 0.9994) and 14 SNP haplogroups were observed. Testing high-resolution Y-chromosome data sets, e.g. using Yfiler and SNPs, increases the discriminatory capacity in individual identification for forensic purposes. It is also useful in autochthonous population and micro-population studies to highlight the most informative loci for evolutionary aims.

Italian mitochondrial DNA database: results of a collaborative exercise and proficiency testing.

This work is a review of a collaborative exercise on mtDNA analysis undertaken by the Italian working group (Ge.F.I.). A total of 593 samples from 11 forensic genetic laboratories were subjected to hypervariable region (HVS-I/HVS-II) sequence analysis. The raw lane data were sent to MtDNA Population Database (EMPOP) for an independent evaluation. For the inclusion of data for the Italian database, quality assurance procedures were applied to the control region profiles. Only eight laboratories with a final population sample of 395 subjects passed the quality conformance test. Control region haplogroup (hg) assignments were confirmed by restriction fragment length polymorphism (RFLP) typing of the most common European hg-diagnostic sites. A total of 306 unique haplotypes derived from the combined analysis of control and coding region polymorphisms were found; the most common haplotype —CRS, 263, 309.1C, 315.1C/¬7025 AluI– was shared by 20 subjects. The majority of mtDNAs detected in the Italian population fell into the most common west Eurasian hgs: R0a (0.76%), HV (4.81%), H (38.99%), HV0 (3.55%), J (7.85%), T (13.42%), U (11.65%), K (10.13%), I (1.52%), X (2.78%), and W (1.01%).

An overview of the genetic susceptibility to alcoholism

Aims Alcoholism is a multifactorial, genetically influenced disorder. It is a major health and social issue, a highly frequent disease and a cause of premature death. It is also the most expensive addictive disorder due to morbidity, mortality, societal and legal problems. Besides their involvement in alcohol-related fatalities, forensic scientists are also required to assess driving and working ability as well as permanent invalidity due to alcohol-related conditions. Greater knowledge of the genetic basis of alcoholism could improve prevention by identifying specific risk factors and mechanisms, leading to effective therapeutic strategies and eventually to personalized treatments. Methods This overview of the recent scientific literature on the genetic basis of alcoholism summarizes the analytical strategies currently applied to the identification of candidate genes involved in alcohol-use disorders (AUDs) and discusses some genes and related phenotypes that have been shown to influence the risk of alcoholism. Results Alcoholism is a complex heterogeneous genetic disease. It is a quantitative disorder, in which the combined incidence of multiple genetic factors and environmental factors varies from one subject to another. Family, twin and adoption studies indicate that 50-60% of the risk of alcoholism is due to genetic factors. Risk loci for AUDs include both genes involved in alcohol pharmacokinetics and pharmacodynamics as well as genes moderating neurophysiological responses such as impulsivity, disinhibition, sensation-seeking and externalizing behaviours. Alcoholism also co-exists with other addictions and psychiatric disorders. Such co-morbidity suggests the existence of shared aetiological factors. Conclusions Despite several genes that influence the risk for AUDs having been identified, the genetic bases of alcoholisn remain largely unknown. Particularly the mechanism of action or the understanding of the physiology of some genes, as well as the gene-environment interactions, is still unknown. Technological progress and advances in transcriptomics, epigenomics and proteomics are expected to enhance our knowledge of the genetic susceptibility to alcoholism.

Polymorphisms of mtDNA control region in Tunisian and Moroccan populations: An enrichment of forensic mtDNA databases with Northern Africa data

Current forensic mitochondrial (mt)DNA databases are limited in representative population data of African origin. We investigated HVS-I/HVS-II sequences of 120 Tunisian and Moroccan healthy male donors applying stringent quality criteria to assure high quality of the data and phylogenetic alignment and notation of the sequences. Among 64 Tunisians, 56 different haplotypes were observed and the most common haplotype (16187T 16189C 16223T 16264T 16270T 16278T 16293G 16311C 73G 152C 182T 185T 195C 247A 263G 309.1C 315.1C; haplogroup (hg) L1b) was shared by four individuals. 56 Moroccans could be assigned to 52 different haplotypes where the most common haplotype was of West Eurasian origin with the hg H sequence motif 263G 315.1C and variations in the HVS-II polyC-stretch (309.1C 309.2C) shared by six samples. The majority of the observed haplotypes belong to the west Eurasian phylogeny (50% in Tunisians and 62.5% in Moroccans). Our data are consistent with the current phylogeographic knowledge displaying the occurrence of sub-Saharan haplogroup L sequences, found in 48.4% of Tunisians and 25% of Moroccans as well as the presence of the two re-migrated haplogroups U6 (7.8% and 1.8% in Tunisians and Moroccans, respectively) and M1 (1.6% in Tunisians and 8.9% in Moroccans).

Y-chromosome haplotypes in Italy: the GEFI collaborative database

A sample of 1176 males from 10 Italian regions have been typed for DYS19, DYS389-I, DYS389-II, DYS390, DYS391, DYS392, DYS393, and DYS385. Individual haplotype data are available on line. A low degree of variation is present among regions. Use of this database is specifically recommended for forensic applications in Italy.

Multiplex PCR Development of Y-chromosomal Biallelic Polymorphisms for Forensic Application

Single-nucleotide polymorphisms of Y chromosome (Y-SNPs) are a class of markers of interest in forensic investigations, because many of them show regional specificity, providing useful information about the geographic origin of a subject or evidence under investigation. A first multiplex with 7 SNPs (M35, M89, M9, M170, M172, M45, M173), which occur in the basal branches of the phylogenetic tree and are able to assign a subject to known most frequent European haplogroups, was designed. SNP genotyping was accomplished by hot-start PCR with primers amplifying fragments between 96 and 136 nucleotides, minisequencing, and capillary electrophoresis of extension products. Ninety seven subjects of known geographic provenance were studied, of which 68 from Europe. Of these, 57 had mutations found more frequently in European haplogroups and 11 more frequent in Asian populations. Subjects from non-European countries were also examined and had haplogroups common in their regions of provenance. Experiments with low molecular weight DNA gave positive amplification from 1 ng of DNA for all seven SNPs.

Allele typing of short tandem repeats by capillary electrophoresis.

Abstract Capillary electrophoresis with laser-induced fluorescence was applied to the analysis of six STRs and the amelogenin sex test with the purpose of verifying accuracy and precision of the sizing method with the GS500 internal standard. Sequenced dye-labeled, PCR-amplified alleles from amelogenin, HumVWA31, HumTH01, HumF13A01, HumFIBRA, D21S11 and HumCSF1PO loci were run several times on the same capillary and on multiple capillaries and the offset of computer-measured fragment sizes from the expected molecular weights was calculated and analysed. All loci except D21S11 showed a poor degree of accuracy. Precision results from run-to-run and day-to-day injections displayed a maximum standard deviation (SD) > 0.15 nt for HumVWA31, HumF13A01, D21S11 and HumFIBRA, although the maximum range of calculated sizes in multiple runs was lower than 1 basepair. No variation in precision was observed according to the quality of the DNA template. Allele typing by comparison with allelic ladders for each locus is recommended.

ADH4 intronic variations are associated with alcohol dependence: results from an Italian case-control association study

Objectives This study investigated the involvement of ADH4 gene polymorphisms in the susceptibility to alcohol use disorders. Methods Thirty-eight single-nucleotide polymorphisms (SNPs) in and around the ADH4 gene were investigated in 136 Italian alcoholics and 276 healthy controls. A new approach based on a bioinformatic method selected 26 SNPs that may affect the splicing sites, destroying or creating binding sites of splicing regulatory proteins. Results Case–control comparisons for allele and genotype frequencies showed that ADH4 SNPs were associated with alcohol dependence but not with alcohol abuse. The association signal was strongest for rs1009145, rs13148577 (both P=0.0008) and rs7689753 (P=0.0007), whose minor alleles were predicted to alter the target protein sequences involved in mRNA splicing. A pairwise linkage disequilibrium analysis showed that all SNPs except five were located in a single haplotype block. Six haplotype tag SNPs were selected to infer haplotypes and to estimate their frequency distributions. A logistic regression analysis confirmed the association between ADH4 variants and alcohol dependence when sex, age, years of education, marital status and the allele genotype, haplotype and diplotype data of the six haplotype tag SNP were considered. Haplotype ATAAAT, which contained the minor allele of rs10009145 and the major allele of rs7689753, increased the risk of alcohol dependence, whereas haplotype GGGGAT, bearing the major allele of rs10009145 and the minor allele of rs7689753, protected against it. Again, there was no evidence of an association with alcohol abuse. Conclusion These data suggest that ADH4 intronic variants play a role in alcohol dependence susceptibility in Italian populations. Functional studies are needed to establish the role of the genetic variations that seem to affect the splicing mechanism.

POLYMORPHISM AND SEQUENCE VARIATIONS OF THE HUMCD4 PENTAMERIC MICROSATELLITE IN AN ITALIAN POPULATION SAMPLE

A sample of 265 subjects from central Italy was analyzed at the HumCD4 locus by polymerase-chain-reaction (PCR). Phenotypes were identified by comparison with a sequenced ladder, after high-resolution horizontal polyacrylamide gel electrophoresis (PAGE) followed by silver staining. A set of representative alleles was sequenced by Taq-cycle-sequencing with dye terminator labeling and capillary gel electrophoresis strategies. Eight common alleles--5, 6, 7, 8, 9, 10, 11, 12--and a rare larger 14, never before described in Caucasians, were found. Allele and genotype frequencies were similar to those described in former studies on Caucasians, with a prevalency of alleles number 5, 6, 10. Sequence analysis showed that the polymorphism is due to a pentameric TTTTC basic motif, tandemly repeated, and that from allele number 10 onwards the fourth repeat presents a T to C translation (CTTTC). Instead, allele number 9 may exist in two forms, because 75% of alleles examined in this study presented the CTTTC motif at the fourth position, while the remaining 25% had the basic repeat structure.