SummaryTransylvania's ethnic mosaic is composed of Romanians, German Saxons and Hungarians. The ethnic groups of the Hungarian minority that settled in Romania show differences in dialects, customs and religious affiliations. In this study entire mtDNA control region sequences from 360 individuals of Hungarian ethnicity from two populations (the Csángó and the Székely), settled in the historical region of Transylvania in Romania, were generated and analyzed following high quality sequencing standards. Phylogenetic analyses were used for haplogroup determination, quasi-median network analyses were applied for the visualization of character conflicts, and median joining reconstructions were used for depicting haplotype structures. Affiliation of haplotypes to major west Eurasian haplogroups was confirmed using coding region SNPs. Gene flow between the two populations was low and biased towards a higher migration rate from the Csángó to the Székely than vice versa. Phylogeographic analyses revealed effects of genetic isolation within the Csángó population, which is, in its genetic structure, clearly different from the Székely population. The pronounced genetic divergence between the two populations is in sharp contrast to the expectation of high genetic similarity due to the close geographic proximity of their native homelands. The population data will be incorporated in the EMPOP database (www.empop.org).
Red deer is the most valuable game of the fauna in Hungary, and there is a strong need for genetic identification of individuals. For this purpose, 10 tetranucleotide STR markers were developed and amplified in two 5-plex systems. The study presented here includes the flanking region sequence analysis and the allele nomenclature of the 10 loci as well as the PCR optimization of the DeerPlex I and II. LD pairwise tests and cross-species similarity analyses showed the 10 loci to be independently inherited. Considerable levels of genetic differences between two subpopulations were recorded, and F(ST) was 0.034 using AMOVA. The average probability of identity (PI(ave)) was at the value of 2.6736 × 10(-15). This low value for PI(ave) nearly eliminates false identification. An illegal hunting case solved by DeerPlex is described herein. The calculated likelihood ratio (LR) illustrates the potential of the 10 red deer microsatellite markers for forensic investigations.
A set of seven Y-chromosomal STR loci (DYS19, DYS389-I, DYS389-II, DYS390, DYS391, DYS392, DYS393) with the addition of the bilocal marker DYS385 was used to generate male-specific haplotype databases for two Hungarian population samples, Caucasians from the Budapest area and Romanies from Baranya county. At the locus DYS385 three types of intermediate sized alleles were detected in six males. The presence of a (GA) dinucleotide, probably due to an (AA) deletion in the second (GAAA) repeat of the polymorphic repeat region leads to an intermediate allelle 17.2. The intermediate alleles 17.-1 and 18.-1 with the consensus repeat structure of (GAAA)17 and (GAAA)18, respectively, were found to lack a T in the same (T)7 stretch located within the 3' flanking region of each allele. The forensic efficiency values for the Romany population were significantly lower than those found in the Central Hungarian and other non-isolated Causasian populations, which may imply a possible common paternal ancestry of some haplotypes in the Romany sample. With pairwise comparisons of inter-population molecular variance, the two populations analyzed here and an Italian population sample, could be clearly distinguished using the seven monoclonal Y-STRs. A sizing precision of < or = 0.14 nucleotide standard deviation was obtained with capillary electrophoresis carried out on an ABI Prism 310 Genetic Analyzer. Objective and accurate genotyping is thus possible using an internal size standard with a high density of fragments.
We present a Hungarian population study for six tetrameric short tandem repeat (STR) loci employing multiplex PCR amplification, electrophoresis of the PCR products in DNA sequencing gels and subsequent detection of allelic fragments by silver staining. The loci were HUMVWFA31, HUMTH01, HUMCSF1PO, HUMFES/ FPS, HUMTPOX, and HUMHPRTB. All loci met Hardy-Weinberg expectations in the examined Hungarian Caucasian population sample (N = 223 individuals). In addition, there was no evidence for association of alleles among the five autosomal loci HUMVWFA31, HUMTH01, HUMCSF1PO, HUMFES/FPS, and HUMTPOX.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.