Rebecca J Jones1, Guan K Tay2,3,4, Aurélie Mawart4, Habiba Alsafar4,5. 1. a School of Anatomy, Physiology and Human Biology , University of Western Australia , Crawley , WA , Australia. 2. b School of Psychiatry and Clinical Neurosciences , University of Western Australia , Crawley , WA , Australia. 3. c School of Medical and Health Sciences , Edith Cowan University , Joondalup , WA , Australia. 4. d Center for Biotechnology , Khalifa University of Science, Technology and Research , Abu Dhabi , United Arab Emirates. 5. e Faculty of Biomedical Engineering , Khalifa University of Science, Technology and Research , Abu Dhabi , United Arab Emirates.
Abstract
BACKGROUND: The United Arab Emirates (UAE) is positioned at the crossroads of human migration out of Africa and through to Asia and Europe. AIM: To compare the degree of genetic diversity of the Arabian UAE population with populations in other countries from the Middle East, South Asia and North Africa. SUBJECTS AND METHODS: Twenty-seven Y-STR were analysed in 217 individuals. Y-STR haplotypes from this study were compared to population data stored in YHRD, using MDS and AMOVA. RESULTS: Two hundred and twelve haplotypes were observed in the 217 individuals studied. Although the reduction in Y-STR loci from 27 to 17 resulted in a decrease in discriminatory power, comparisons of populations were possible. The UAE population clustered closer with other populations of the Middle East. The South Asian and North African populations were separated by Middle Eastern populations in between both clusters. CONCLUSION: This is the first study to report the diversity of a population of the Arabian Peninsula using 27 Y-STR. MDS plots show that Middle Eastern populations are positioned in the centre, with African, Asian and European populations around the Arab population cluster. The findings of this study are consistent with this region being at the epicentre of human migration between continents.
BACKGROUND: The United Arab Emirates (UAE) is positioned at the crossroads of human migration out of Africa and through to Asia and Europe. AIM: To compare the degree of genetic diversity of the Arabian UAE population with populations in other countries from the Middle East, South Asia and North Africa. SUBJECTS AND METHODS: Twenty-seven Y-STR were analysed in 217 individuals. Y-STR haplotypes from this study were compared to population data stored in YHRD, using MDS and AMOVA. RESULTS: Two hundred and twelve haplotypes were observed in the 217 individuals studied. Although the reduction in Y-STR loci from 27 to 17 resulted in a decrease in discriminatory power, comparisons of populations were possible. The UAE population clustered closer with other populations of the Middle East. The South Asian and North African populations were separated by Middle Eastern populations in between both clusters. CONCLUSION: This is the first study to report the diversity of a population of the Arabian Peninsula using 27 Y-STR. MDS plots show that Middle Eastern populations are positioned in the centre, with African, Asian and European populations around the Arab population cluster. The findings of this study are consistent with this region being at the epicentre of human migration between continents.
Entities:
Keywords:
United Arab Emirates; Y-Filer PLUS amplification kit; Y-chromosome STRs; population genetics