TY - JOUR
T1 - Whole genome sequencing in the Middle Eastern Qatari population identifies genetic associations with 45 clinically relevant traits
AU - The Qatar Genome Program Research (QGPR) Consortium
AU - Qatar Genome Project Management
AU - Biobank and Sample Preparation
AU - Sequencing and Genotyping group
AU - Applied Bioinformatics Core
AU - Data Management and Computing Infrastructure group
AU - Consortium Lead Principal Investigators
AU - Thareja, Gaurav
AU - Al-Sarraj, Yasser
AU - Belkadi, Aziz
AU - Almotawa, Maryam
AU - Ismail, Said
AU - Al-Muftah, Wadha
AU - Badji, Radja
AU - Mbarek, Hamdi
AU - Darwish, Dima
AU - Fadl, Tasnim
AU - Yasin, Heba
AU - Ennaifar, Maryem
AU - Abdellatif, Rania
AU - Alkuwari, Fatima
AU - Alvi, Muhammad
AU - Al-Sarraj, Yasser
AU - Saad, Chadi
AU - Althani, Asmaa
AU - Fethnou, Eleni
AU - Qafoud, Fatima
AU - Alkhayat, Eiman
AU - Afifi, Nahla
AU - Tomei, Sara
AU - Liu, Wei
AU - Lorenz, Stephan
AU - Syed, Najeeb
AU - Almabrazi, Hakeem
AU - Vempalli, Fazulur Rehaman
AU - Temanni, Ramzi
AU - Saqri, Tariq Abu
AU - Khatib, Mohammedhusen
AU - Hamza, Mehshad
AU - Zaid, Tariq Abu
AU - El Khouly, Ahmed
AU - Pathare, Tushar
AU - Poolat, Shafeeq
AU - Al-Ali, Rashid
AU - Albagha, Omar M.E.
AU - Al-Khodor, Souhaila
AU - Alshafai, Mashael
AU - Badii, Ramin
AU - Chouchane, Lotfi
AU - Estivill, Xavier
AU - Fakhro, Khalid
AU - Mokrab, Younes
AU - Puthen, Jithesh
AU - Tatari, Zohreh
AU - Suhre, Karsten
N1 - Publisher Copyright:
© 2021, The Author(s).
PY - 2021/12/1
Y1 - 2021/12/1
N2 - Clinical laboratory tests play a pivotal role in medical decision making, but little is known about their genetic variability between populations. We report a genome-wide association study with 45 clinically relevant traits from the population of Qatar using a whole genome sequencing approach in a discovery set of 6218 individuals and replication in 7768 subjects. Trait heritability is more similar between Qatari and European populations (r = 0.81) than with Africans (r = 0.44). We identify 281 distinct variant-trait-associations at genome wide significance that replicate known associations. Allele frequencies for replicated loci show higher correlations with European (r = 0.94) than with African (r = 0.85) or Japanese (r = 0.80) populations. We find differences in linkage disequilibrium patterns and in effect sizes of the replicated loci compared to previous reports. We also report 17 novel and Qatari-predominate signals providing insights into the biological pathways regulating these traits. We observe that European-derived polygenic scores (PGS) have reduced predictive performance in the Qatari population which could have implications for the translation of PGS between populations and their future application in precision medicine.
AB - Clinical laboratory tests play a pivotal role in medical decision making, but little is known about their genetic variability between populations. We report a genome-wide association study with 45 clinically relevant traits from the population of Qatar using a whole genome sequencing approach in a discovery set of 6218 individuals and replication in 7768 subjects. Trait heritability is more similar between Qatari and European populations (r = 0.81) than with Africans (r = 0.44). We identify 281 distinct variant-trait-associations at genome wide significance that replicate known associations. Allele frequencies for replicated loci show higher correlations with European (r = 0.94) than with African (r = 0.85) or Japanese (r = 0.80) populations. We find differences in linkage disequilibrium patterns and in effect sizes of the replicated loci compared to previous reports. We also report 17 novel and Qatari-predominate signals providing insights into the biological pathways regulating these traits. We observe that European-derived polygenic scores (PGS) have reduced predictive performance in the Qatari population which could have implications for the translation of PGS between populations and their future application in precision medicine.
UR - http://www.scopus.com/inward/record.url?scp=85101943095&partnerID=8YFLogxK
U2 - 10.1038/s41467-021-21381-3
DO - 10.1038/s41467-021-21381-3
M3 - Article
C2 - 33623009
AN - SCOPUS:85101943095
SN - 2041-1723
VL - 12
JO - Nature Communications
JF - Nature Communications
IS - 1
M1 - 1250
ER -