Mitochondrial DNA sequences from Georgians and Kurds were analyzed in order to test the possible correlation between female lineages and languages in these two neighboring West Eurasian groups. Mitochondrial sequence pools in both populations are very similar despite their different linguistic and prehistoric backgrounds. Both populations present mtDNA lineages that clearly belong to the European gene pool, as shown by 1) similar nucleotide and sequence diversities; 2) a large number of sequences shared with the rest of European samples; 3) nonsignificant genetic distances; and 4) classification of the present lineages into the major European mtDNA haplogroups already described. The outlier position of the populations from the Caucasus according to classical genetic markers is not recognized in the present Georgian mtDNA sequence pool. This result suggests that the differentiation of mtDNA sequences in West Eurasia and the outlier features of Caucasian populations should be attributed to different processes. Moreover, the putative linguistic relationship between Caucasian groups and the Basques, another outlier population within Europe for classical genetic markers, is not detected by the analysis of mtDNA sequences.
In order to investigate the origins and relationships of Kurdish-speaking groups, mtDNA HV1 sequences, eleven Y chromosome bi-allelic markers, and 9 Y-STR loci were analyzed among three Kurdish groups: Zazaki and Kurmanji speakers from Turkey, and Kurmanji speakers from Georgia. When compared with published data from other Kurdish groups and from European, Caucasian, and West and Central Asian groups, Kurdish groups are most similar genetically to other West Asian groups, and most distant from Central Asian groups, for both mtDNA and the Y-chromosome. However, Kurdish groups show a closer relationship with European groups than with Caucasian groups based on mtDNA, but the opposite based on the Y-chromosome, indicating some differences in their maternal and paternal histories. The genetic data indicate that the Georgian Kurdish group experienced a bottleneck effect during their migration to the Caucasus, and that they have not had detectable admixture with their geographic neighbours in Georgia. Our results also do not support the hypothesis of the origin of the Zazaki-speaking group being in northern Iran; genetically they are more similar to other Kurdish groups. Genetic analyses of recent events, such as the origins and migrations of Kurdish-speaking groups, can therefore lead to new insights into such migrations.
Female donors with leucocyte antibodies were identified in a stratified screening programme. Donors with antibodies were either directed to red cell donation or deferred. This process, combined with other measures that have already been introduced, is anticipated to further reduce the incidence of TRALI.
Sequencing-based typing (SBT) human leukocyte antigen (HLA) class I and II genes should examine entire exon sequences where polymorphisms lie. Primers for the amplification of complete exons therefore anneal in introns and their design relies on accurate intron sequences being available. We decided to develop a SBT method for HLA-DQB1 using amplification primers which anneal in introns 1 and 2, yet the amount of intron sequence data previously available in databases was sparse. Therefore, we undertook a systematic sequencing of introns 1 and 2 using DNA from cell lines homozygous for DQB1. This study confirmed an earlier report that the non-coding regions of this gene are the most polymorphic seen in the human genome. Intron sequences within an allele group were largely identical, the exceptions being DQB1*0301 differing from other DQB1*03 allele groups and DQB1*0601 differing from all other DQB1*06 alleles. A retroviral Alu element, related to the AluYa5a2 subfamily, was identified uniquely inserted in intron 2 of DQB1*02 alleles. For the typing approach, six amplification primers were designed based on conserved allele group sequences covering all of the HLA DQB antigens, and two sequencing primers were also designed which anneal in intron 2. This method has proved to be very robust and has been used as part of a referral DNA sequencing service for a number of years.
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