Genetic structure of western Sicily

The distribution of AB0, RH, KELL, ADA, GLO1, AK, 6PGD, ESD, ACP, G6PD, C3, GC and APOB markers were studied in a sample coming from the province of Trapani (western Sicily, Italy). The results were discussed in the contest of the Mediterranean populations. Our analysis confirms the existence of a certain genetic differentiation within Sicily and suggests a strong heterogeneity between our sample and the North African populations. Moreover our data point out the genetic affinity among Sicily, Southern Italy and Greece.     

Qatari DNA variation at a crossroad of human migrations

Genomic diversity of the Qatari population was investigated by screening 15 autosomal short tandem repeats (STRs). Significant departures from genetic equilibrium were detected at the D13S317, D19S433 and VWA loci, which persisted after applying Bonferroni-type corrections. Gene diversity (GD) values ranged from 0.6851 (TPOX) to 0.8813 (D2S1338), while observed heterozygosity (Ho) oscillated between 0.3388 (D19S433) and 0.8397 (D2S1338). Interestingly, Ho was lower than expected (He) for 14 of the loci analyzed. The information provided by these microsatellite markers was analyzed by means of genetic distances, multidimensional scaling, hierarchical analyses of the molecular variance (AMOVA) and admixture estimations to assess the genetic relationships of Qatar with European, Asian, African and other Middle Eastern populations. The main findings of the study were the genetic uniqueness of the Qatari population, its strong similarity to the United Arab Emirates (UAE) group, a slight genetic differentiation with respect to other Arab populations (Syria and Egypt) and Turkey, and a certain genetic affinity with sub-Saharan African populations. These results are discussed in light of two major issues: the high consanguinity rates characterizing the Qatari population and its strategic geographic position in the Arabian Peninsula close to major migratory routes, an important pivotal contact zone for bidirectional dispersals between Eurasia and Africa.     

An Ancient Mediterranean Melting Pot: Investigating the Uniparental Genetic Structure and Population History of Sicily and Southern Italy

Due to their strategic geographic location between three different continents, Sicily and Southern Italy have long represented a major Mediterranean crossroad where different peoples and cultures came together over time. However, its multi-layered history of migration pathways and cultural exchanges, has made the reconstruction of its genetic history and population structure extremely controversial and widely debated. To address this debate, we surveyed the genetic variability of 326 accurately selected individuals from 8 different provinces of Sicily and Southern Italy, through a comprehensive evaluation of both Y-chromosome and mtDNA genomes. The main goal was to investigate the structuring of maternal and paternal genetic pools within Sicily and Southern Italy, and to examine their degrees of interaction with other Mediterranean populations. Our findings show high levels of within-population variability, coupled with the lack of significant genetic sub-structures both within Sicily, as well as between Sicily and Southern Italy. When Sicilian and Southern Italian populations were contextualized within the Euro-Mediterranean genetic space, we observed different historical dynamics for maternal and paternal inheritances. Y-chromosome results highlight a significant genetic differentiation between the North-Western and South-Eastern part of the Mediterranean, the Italian Peninsula occupying an intermediate position therein. In particular, Sicily and Southern Italy reveal a shared paternal genetic background with the Balkan Peninsula and the time estimates of main Y-chromosome lineages signal paternal genetic traces of Neolithic and post-Neolithic migration events. On the contrary, despite showing some correspondence with its paternal counterpart, mtDNA reveals a substantially homogeneous genetic landscape, which may reflect older population events or different demographic dynamics between males and females. Overall, both uniparental genetic structures and TMRCA estimates confirm the role of Sicily and Southern Italy as an ancient Mediterranean melting pot for genes and cultures.     

Genetic diversity of 15 STR loci in a population of Montenegro

Genetic diversity and forensic parameters based on 15AmpFlSTR Identifiler short tandem repeat (STR) loci (D8S1179, D21S11, D7S820, CSF1PO, D3S1358, TH01, D13S317, D16S539, D2S1338, D19S433, vWA, TPOX, D18S51, D5S818 and FGA) were evaluated in a sample of 101 unrelated, autochthonous adults from Montenegro. After applying Bonferroni correction, the agreement with Hardy-Weinberg equilibrium (HWE) was confirmed for all loci with the exception of D5S818 (chi2 test) and D21S11 (exact test). The combined power of discrimination (PD) and the combined power of exclusion (PE) for the 15 studied loci were 0.9999999999999999844 and 0.99999382, respectively. According to measures of within-population genetic diversity, D2S1338, D18S51 and FGA may be considered as the most variable and most informative markers for forensic testing and population genetic analyses out of the 15 analysed loci in a population of Montenegro. D5S818 showed to be the least variable and together with TPOX, the least informative. Interpopulation comparisons were carried out and levels of genetic differentiation between population of Montenegro and five South-eastern European populations (Kosovo Albanians, Serbians from Vojvodina province, Macedonians, Bosnians and Croatians) were evaluated. The most differentiated population in relation to Montenegro is a population of Kosovo Albanians as suggested by both AMOVA and coefficients of genetic differentiation (F(ST) and R(ST)).     

The HLA system in Italy

4,902 Italians were typed for HLA-A antigens, 4,721 for HLA-B and 1,503 for HLA-C. The samples, which were composed of unrelated, healthy individuals born in Italy, were used for estimating HLA-A, HLA-B and HLA-C gene frequencies with the maximum-likelihood method. Different Italian regions showed significant differences in the HLA alleles, providing further evidence for the genetic heterogeneity of the Italian population. HLA gene frequencies place continental Italy and Sicily in a position which is similar to that of other Mediterranean populations, whereas the genetic isolation of Sardinia is quite evident. The most significant linkage disequilibrium values found in the Italian population (except for Sardinia) were in agreement with those observed in other Caucasian populations. The difference between Northern and Southern Italy and between continental Italy and Sardinia was emphasized by the linkage disequilibrium values and by the principal-component analysis as well.     

Red cell and serum protein polymorphisms in Sardinia

Four Sardinian population samples, from the provinces of Cagliari, Oristano, Nuoro and Sassari, were studied with regard to the erythrocyte enzyme systems ACP, ESD, PGM1, ADA, AK, 6PGD and Dia, and to the serum protein systems GC and C3. The findings showed a rather high degree of genetic heterogeneity of the Sardinians compared to the other populations from the Mediterranean area (Continental Italy, Sicily, Spain, North Africa).     

Genetic diversity of 15 autosomal short tandem repeats loci using the AmpFLSTR? Identifiler? kit in a Bhil Tribe Population from Gujarat state,India

MATERIALS AND METHODS:

The genetic diversity and forensic parameters based on 15 autosomal short tandem repeats (STR) loci; D8S1179,D21S11, D7S820, CSF1PO, D3S1358, TH01, D13S317,D16S539, D2S1338, D19S433, vWA, TPOX, D18S51,D5S818, and FGA in AmpFLSTR® Identifiler™ kit from Applied Biosystems, Foster City, CA, USA were evaluated in saliva samples of 297 unrelated individuals from the Bhil Tribe population of Gujarat state, India to study genetic diversities and relatedness of this population with other national and international populations.

RESULTS:

Statistical analysis of the data revealed all loci were within Hardy-Weinberg Equilibrium expectations with the exception of the locus vWA (0.019) and locus D18S51 (0.016). The neighbour joining phylogeny tree and Principal Co-ordinate Analysis plot constructed based on Fst distances from autosomal STRs allele frequencies of the present study and other national as well as international populations show clustering of all the South Asian populations in one branch of the tree, while Middle Eastern and African populations cluster in a separate branch.

CONCLUSION:

Our findings reveal strong genetic affinities seen between the Indo-European (IE) speaking Bhil Tribe of Gujarat and Dravidian groups of South India.     

Genetic structure of the population of Sicily.

Genetic heterogeneity within Sicily was investigated on the basis of ACP1, ADA, ESD, GLO1, PGD, PGM1, PGM2, SODA, ABO, and MN gene frequencies, and compared to those of other regions of Italy for which these same loci have been examined. Correspondence analysis revealed no differences within the island, at least at the provincial level, but showed genetic differentiation among Italian regions, distinctly clustering northern, central, and southern populations, respectively. These data indicate a close relationship between Sicily and southern Italy. In addition, the contribution of Middle Eastern populations to the gene pool of Sicily was evident.     

西藏藏族人群15个短串联重复序列基因座的遗传多态性

利用多重PCR五色荧光(6FAM、VIC、NED、PET、LIZ)自动化检测技术检测西藏自治区藏族人群D8S1179、D21S11、D7S820、CSF1PO、D3S1358、TH01、D13S317、D16S539、D2S1338、D19S433、VWA、TPOX、D18S51、D5S818及FGA共15个STR基因座遗传多态性, 获得15个STR基因座的群体遗传学数据。结果显示：15个STR基因座的基因型分布符合Hardy-Weinberg平衡。15个STR基因座的个体鉴别力 (Discrimination power, DP)在0.7555~0.9602之间, 杂合度 (Heterozygosity, H)在0.5651~0.8530之间, 多态性信息含量 (Polymorphism information content, PIC)在0.5528~0.8456之间, 非父排除率(Probability of paternity exclusion, EPP)在0.3811~0.8549之间, 累积个体鉴别力为0.999999999, 累积非父排除率为0.999999998。15个短串联重复序列基因座适合作为西藏藏族人群的遗传标记, 用于人类学、疾病连锁分析、法医学亲子鉴定和个体识别等领域的研究。     

拉萨市藏族人群15个STR基因座多态性的研究

利用多重PCR和五色荧光(6FAM、VIC、NED、PET、LIZ)自动化检测技术调查西藏自治区拉萨市藏族人群D8S1179、D21S11、D7S820、CSF1PO、D3S1358、TH01、D13S317、D16S539、D2S1338、D19S433、VWA、TPOX、D18S51、D5S818、FGA共１5个STR基因座多态性分布, 获得了15个STR基因座的遗传学数据。结果显示: 15个STR基因座的基因型分布符合Hardy-Weinberg平衡。 15个STR基因座的个体鉴别力(DP)在0.7515~0.9599之间, 杂合度(H)在0.5576~0.8538之间, 多态信息含量(PIC)在0.5455~0.8458之间, 非父排除率(EPP)在0.3755~0.8520之间, 累积个体鉴别力为0.99999999, 累积非父排除率为0.999999997。15个STR基因座适合作为藏族人群的遗传标志用于人类学、遗传疾病连锁分析、法医学亲子鉴定和个体识别等研究领域。     

Genetic polymorphism analysis of 15 STR loci in Chinese Hui ethnic group residing in Qinghai province of China

In the present study, we investigated the diversity distributions of allelic frequencies of 15 short tandem repeats (STRs) loci in a sample of Chinese Hui ethnic group in the Ningxia Hui Autonomous Region. The allelic frequencies of the 15 STR loci (D8S1179, D21S11, D7S820, CSF1PO, D3S1358, TH01, D13S317, D16S539, D2S1338, D19S433, vWA, TPOX, D18S51, D5S818 and FGA) were obtained from 2975 unrelated healthy Hui individuals. The STR genotyping data of all the samples were generated by DNA extraction, multiple amplification, GeneScan and genotype analysis. The genetic distances among different populations were calculated by using Nei's method and a phylogenetic tree was constructed based on the allelic frequencies of the same 15 STR loci using the neighbor-joining method. A total of 185 alleles were observed in the Hui population, with the corresponding allelic frequencies ranging from 0.0002 to 0.5322. Chi-Square tests showed that all STR loci were in Hardy-Weinberg equilibrium. The forensic statistical parameters of all the loci showed high values. The population data in this study were compared with the previously published population data from other ethnics or areas. The Hui population showed significant differences from the Minnan Han, Uigur, Ewenki, Yi, Tibetan, Maonan and Malay ethnic minority groups in some loci, and from the South Morocco population and the Moroccan population in all the loci. Our results are valuable for human individual identification and paternity testing in the Chinese Hui population and are expected to enrich the genetic information resources of Chinese populations.     

Genetic characterization of indigenous peoples from Oaxaca, Mexico, and its relation to linguistic and geographic isolation

We used 15 short tandem repeat (STR) loci (D8S1179, D21S11, D7S820, CSF1PO, D3S1358, TH01, D13S317, D16S539, D2S1338, D19S433, VWA, TPOX, D18S51, D5S818, and FGA) to genetically characterize 361 individuals from 11 indigenous populations (Amuzgo, Chinanteco, Chontal, Huave, Mazateco, Mixe, Mixteco, Triqui, Zapoteco del Istmo, Zapoteco del Valle, and Zoque) from Oaxaca, Mexico. We also used previously published data from other Mexican peoples (Maya, Chol, Tepehua, Otomí, and Mestizos from northern and central Mexico) to delineate genetic relations, for a total of 541 individuals. Average heterozygosity (H) was lower in most populations from Oaxaca (range 0.687 in Zoque to 0.756 in Chontal) than values observed in Mestizo populations from Mexico (0.758 and 0.793 in central and northern Mestizo, respectively) but higher than values observed in other Amerindian populations from South America; the same relation was true for the number of alleles (n(a) ). We tested (using the software Structure) whether major geographic or linguistic barriers to gene flow existed among the populations of Oaxaca and found that the populations appeared to constitute one or two genetic groups, suggesting that neither geographic location nor linguistics had an effect on the genetic structure of these culturally and linguistically highly diverse indigenous peoples. Moreover, we found a low but statistically significant between-population differentiation. In addition, the genetic structure of Oaxacan populations did not fit an isolation-by-distance model. Finally, using AMOVA and a Bayesian clustering approach, we did not detect significant geographic or linguistic barriers to gene flow within Oaxaca. These results suggest that the indigenous communities of Oaxaca, although culturally isolated, can be genetically defined as a large, nearly panmictic population in which migration could be a more important population mechanism than genetic drift. Finally, compared with outgroups in Mexico (both indigenous peoples and Mestizos), three groups were apparent. Among them, only the Otomí population from Hidalgo has a different culture and language.     

Genetic data on 15 STR loci in the Caucasian population of the Russian Federation

Population genetic data for the 15 STR loci included in the AmpFlSTR Identifier kit (D8S1179, D21S11, D7S820, CSF1PO, D3S1358, TH01, D13S317, D16S539, D2S1338, D19S433, VWA, TPOX, D18S51, D5S818 and FGA) obtained from 1118 unrelated Caucasian individuals from the Russian Federation are presented. In addition, a number of forensically useful genetic parameters are reported.     

The variation of 15 autosomal microsatellite DNA loci in five indigenous populations of South Siberia

The allele frequencies of 15 autosomal STR loci (D3S1358, vWA, FGA, TH01, TPOX, CSF1PO, D5S818, D13S317, D7S820, D16S539, D2S1338, D8S1179, D21S11, D18S51, and D19S433) included into the AmpFlSTR SGM Plus and AmpFlSTR Profiler Plus kits (Applied Biosystems, United States) were determined for five indigenous populations of South Siberia: Buryats, Altaians, Tofalars, Sojots, and Khakassians (N = 261). No significant differences in allele frequencies were found between the populations. The combined power of discrimination of the STR loci was determined for every population.     

Genetic analysis of 15 STR loci in Chinese Han population from West China

Allele frequencies for 15 short tandem repeat （STR） loci （D8S1179, D21S11, D7S820, CSFIPO, D3S1358, TH01, D13S317, D16S539, D2S1338, D19S433, vWA, TPOX, D18S51, D5S818, and FGA） were obtained from 7,636 unrelated individuals of Chinese Han population living in Qinghai and Chongqing, China. Totally 206 alleles were observed, with the corresponding allele frequencies ranging from 0.0001-0.4982. Chi-square test showed that all of the STR loci agreed with the Hardy-Weinberg equilibrium. We also compared our data with previously published population data of other ethnics or areas. The results are valuable for human identification and paternity testing in Chinese Han population.     

Variation of 15 autosomal microsatellite DNA loci in the Russian population

The allele frequencies of 15 autosomal STR loci (D3S1358, vWA, FGA, TH01, TPOX, CSF1PO, D5S818, D13S317, D7S820, D16S539, D2S1338, D8S1179, D21S11, D18S51, and D19S433) used in forensic medicine were determined for the Russian population of European Russia (N = 176). The power of discrimination (PD) and power of exclusion (PE) of the system of the 15 STR loci were 0.999 999 999 999 999 986 and 0.999 999 331 310 171 000, respectively. The allele and genotype frequency distributions in the Russian population corresponded to the Hardy-Weinberg equilibrium. The D2S1338, D18S51, D21S11, and FGA loci were identified as the most informative markers for the Russian population and proposed as a reference for forensic studies in the Russian Federation.     

Genetics of the early stages of invasion of the Lessepsian rabbitfish Siganus luridus

Information on the initial stages of dispersal and settlement are of great interest in understanding the dynamics of biological invasions and in designing management responses. A newly settled population of the Lessepsian rabbitfish migrant Siganus luridus, that arrived in Linosa Island (Sicily Strait) in 2000, offered a unique opportunity to examine the genetic variability of the early phase of invasion and the starting point to test genetic variation within and between colonist and source populations.Demographics and dynamic aspects of S. luridus in the Mediterranean were evaluated by using phylogeographic and demographic (coalescent) methods based on DNA sequences of the mitochondrial control region. Sequences from 95 S. luridus, 25 Siganus rivulatus, and one of Siganus (Lo) vulpinus and S. doliatus were used. Samples were collected in one locality in the Red Sea (Eilat) and three localities in the Mediterranean (Israel, Greece and Linosa, Italy). Data showed (for the first time in a Lessepsian migrant) a lowering of the genetic diversity of the invading population (Mediterranean) (haplotype diversity 0.879, nucleotide diversity 0.592) compared to the parental one (Red Sea) (haplotype diversity 0.978, nucleotide diversity 0.958).Within the Mediterranean populations, there was no pattern of regional separation and mitochondrial diversity appeared to be preserved during the Linosa colonization, with no traces of founder events. Such evidence agrees with the idea that Lessepsian migration involves many individuals from its earliest stages.     

Characteristics of myotonic dystrophy in Istria: molecular genetic approach. Part II: Analysis of genetic polymorphisms

One of the world highest prevalence estimates of myotonic dystrophy (DM) has been reported in the Croatian region Istria. To analyse the population genetic characteristics of DM locus in Istria, two intragenic and three extragenic polymorphic markers were tested. The Southern blot technique was used for D19S63 locus analysis, whereas PCR analysis was performed for CKMM, Alu polymorphism, DMPK (G/T) intron 9/HinfI polymorphism, and D19S207 genetic markers. The compound haplotypes segregating with DM were established. A complete association between the DM mutation and D19S63, D19S207, intron 9/HinfI polymorphism and Alu polymorphism markers were found. In all DM chromosomes: D19S63 and Alu markers had the allele 1 in common; D19S207 had the allele 3 in common, DMPK (G/T) intron 9/HinfI marker had the allele 2 in common. The analysis of CKMM polymorphism revealed genotype heterogeneity; in DM chromosomes either allele 2 or allele 4 were found. The haplotype analysis in the population of Croatian Istria supports the linkage disequilibrium between the DM mutation and Alu polymorphism, intron 9/HinfI polymorphism, D19S63 and D19S207 markers as reported worldwide. The results of the haplotype analysis suggest a common origin of the mutation in Istrian population.     

Genetic structure in the Mediterranean seagrass Posidonia oceanica: disentangling past vicariance events from contemporary patterns of gene flow

The Mediterranean Sea is a two‐basin system, with the boundary zone restricted to the Strait of Sicily and the narrow Strait of Messina. Two main population groups are recognized in the Mediterranean endemic seagrass Posidonia oceanica, corresponding to the Western and the Eastern basins. To address the nature of the East–West cleavage in P. oceanica, the main aims of this study were: (i) to define the genetic structure within the potential contact zone (i.e. the Strait of Sicily) and clarify the extent of gene flow between the two population groups, and (ii) to investigate the role of present water circulation patterns vs. past evolutionary events on the observed genetic pattern. To achieve these goals, we utilized SSR markers and we simulated, with respect to current regime, the possible present‐day dispersal pattern of Posidonia floating fruits using 28‐day numerical Lagrangian trajectories. The results obtained confirm the presence of the two main population groups, without any indices of reproductive isolation, with the break zone located at the level of the Southern tip of Calabria. The populations in the Strait of Sicily showed higher affinity with Western than with Eastern populations. This pattern of genetic structure probably reflects historical avenues of recolonization from relict glacial areas and past vicariance events, but seems to persist as a result of the low connectivity among populations via marine currents, as suggested by our dispersal simulation analysis.     

United Arab Emirates: Phylogenetic relationships and ancestral populations

In the current report, 109 unrelated individuals from the United Arab Emirates (UAE) were typed across 15 autosomal short tandem repeat (STR) loci (D8S1179, D21S11, D7S820, CSF1PO, D3S1358, TH01, D13S317, D16S539, D2S1338, D149S433, vWA, TPOX, D18S51, D5S818 and FGA) routinely employed in population genetics analyses and compared across a set of ethnically and geographically targeted reference collections. UAE, located at the southeastern most portion of the Arabian Peninsula, in the tri-continental crossroads connecting Africa, Europe and Asia, has been influenced by a number of human dispersal waves from a plethora of sources including the Paleolithic “Out of Africa” migrations, the exodus of Neolithic pastoral agriculturalists from the Fertile Crescent and Northern Africa, as well as more recent migrations from Asia and the Middle East. We found that despite the high levels of consanguinity that characterize UAE, this population is genetically highly heterogeneous. When compared to various world-wide biogeographical regions, the Arabian Peninsula exhibits the highest intra-population variance. Admixture analyses indicate that UAE and Bahrain uniquely in Arabia share 23.7% and 22.9%, respectively, of their DNA with Southwest Asian populations. Similar and complex Structure profiles are seen among Arabian Peninsula populations underscoring the high genetic diversity of the region. Although UAE shares a number of genetic characteristics in common with the rest of the populations in the Arabian Peninsula, it is unique in terms of its relative high Asian genetic component, likely the result of geographical proximity to Southwest Asia, west-bound waves of migration and socio-political ties with territories to the east.