The QChip1 knowledgebase and microarray for precision medicine in Qatar

Juan L. Rodriguez-Flores; Radja Messai-Badji; Amal Robay; Ramzi Temanni; Najeeb Syed; Monika Markovic; Eiman Al-khayat; Fatima Qafoud; Zafar Nawaz; Ramin Badii; Yasser Al-Sarraj; Hamdi Mbarek; Wadha Al-Muftah; Muhammad Alvi; Mahboubeh R. Rostami; Juan Carlos Martinez Cruzado; Jason G. Mezey; Alya Al Shakaki; Joel A. Malek; Matthew B. Greenblatt; Khalid A. Fakhro; Khaled Machaca; Ajayeb Al-Nabet; Nahla Afifi; Andrew Brooks; Said I. Ismail; Asmaa Althani; Ronald G. Crystal

doi:10.1038/s41525-021-00270-0

The QChip1 knowledgebase and microarray for precision medicine in Qatar

Juan L. Rodriguez-Flores
, Radja Messai-Badji
, Amal Robay
, Ramzi Temanni
, Najeeb Syed
, Monika Markovic
, Eiman Al-khayat
, Fatima Qafoud
, Zafar Nawaz
, Ramin Badii
, Yasser Al-Sarraj
, Hamdi Mbarek
, Wadha Al-Muftah
, Muhammad Alvi
, Mahboubeh R. Rostami
, Juan Carlos Martinez Cruzado
, Jason G. Mezey
, Alya Al Shakaki
, Joel A. Malek
, Matthew B. Greenblatt

Khalid A. Fakhro, Khaled Machaca, Ajayeb Al-Nabet, Nahla Afifi, Andrew Brooks, Said I. Ismail, Asmaa Althani, Ronald G. Crystal^*

^*Corresponding author for this work

Cornell University
Regeneron Pharmaceuticals, Inc.
Qatar Foundation HQ
Weill Cornell Medicine-Qatar
Sidra Medical and Research Center
Qatar Biobank
Hamad Medical Corporation
University of Puerto Rico
Rutgers - The State University of New Jersey, New Brunswick
Qatar University

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

Risk genes for Mendelian (single-gene) disorders (SGDs) are consistent across populations, but pathogenic risk variants that cause SGDs are typically population-private. The goal was to develop “QChip1,” an inexpensive genotyping microarray to comprehensively screen newborns, couples, and patients for SGD risk variants in Qatar, a small nation on the Arabian Peninsula with a high degree of consanguinity. Over 10⁸ variants in 8445 Qatari were identified for inclusion in a genotyping array containing 165,695 probes for 83,542 known and potentially pathogenic variants in 3438 SGDs. QChip1 had a concordance with whole-genome sequencing of 99.1%. Testing of QChip1 with 2707 Qatari genomes identified 32,674 risk variants, an average of 134 pathogenic alleles per Qatari genome. The most common pathogenic variants were those causing homocystinuria (1.12% risk allele frequency), and Stargardt disease (2.07%). The majority (85%) of Qatari SGD pathogenic variants were not present in Western populations such as European American, South Asian American, and African American in New York City and European and Afro-Caribbean in Puerto Rico; and only 50% were observed in a broad collection of data across the Greater Middle East including Kuwait, Iran, and United Arab Emirates. This study demonstrates the feasibility of developing accurate screening tools to identify SGD risk variants in understudied populations, and the need for ancestry-specific SGD screening tools.

Original language	English
Article number	3
Journal	npj Genomic Medicine
Volume	7
Issue number	1
DOIs	https://doi.org/10.1038/s41525-021-00270-0
Publication status	Published - Dec 2022
Externally published	Yes

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10.1038/s41525-021-00270-0

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Rodriguez-Flores, J. L., Messai-Badji, R., Robay, A., Temanni, R., Syed, N., Markovic, M., Al-khayat, E., Qafoud, F., Nawaz, Z., Badii, R., Al-Sarraj, Y., Mbarek, H., Al-Muftah, W., Alvi, M., Rostami, M. R., Cruzado, J. C. M., Mezey, J. G., Shakaki, A. A., Malek, J. A., ... Crystal, R. G. (2022). The QChip1 knowledgebase and microarray for precision medicine in Qatar. npj Genomic Medicine, 7(1), Article 3. https://doi.org/10.1038/s41525-021-00270-0

@article{29feeb52fb094b17814d2f50be2e39da,

title = "The QChip1 knowledgebase and microarray for precision medicine in Qatar",

abstract = "Risk genes for Mendelian (single-gene) disorders (SGDs) are consistent across populations, but pathogenic risk variants that cause SGDs are typically population-private. The goal was to develop “QChip1,” an inexpensive genotyping microarray to comprehensively screen newborns, couples, and patients for SGD risk variants in Qatar, a small nation on the Arabian Peninsula with a high degree of consanguinity. Over 108 variants in 8445 Qatari were identified for inclusion in a genotyping array containing 165,695 probes for 83,542 known and potentially pathogenic variants in 3438 SGDs. QChip1 had a concordance with whole-genome sequencing of 99.1\%. Testing of QChip1 with 2707 Qatari genomes identified 32,674 risk variants, an average of 134 pathogenic alleles per Qatari genome. The most common pathogenic variants were those causing homocystinuria (1.12\% risk allele frequency), and Stargardt disease (2.07\%). The majority (85\%) of Qatari SGD pathogenic variants were not present in Western populations such as European American, South Asian American, and African American in New York City and European and Afro-Caribbean in Puerto Rico; and only 50\% were observed in a broad collection of data across the Greater Middle East including Kuwait, Iran, and United Arab Emirates. This study demonstrates the feasibility of developing accurate screening tools to identify SGD risk variants in understudied populations, and the need for ancestry-specific SGD screening tools.",

author = "Rodriguez-Flores, \{Juan L.\} and Radja Messai-Badji and Amal Robay and Ramzi Temanni and Najeeb Syed and Monika Markovic and Eiman Al-khayat and Fatima Qafoud and Zafar Nawaz and Ramin Badii and Yasser Al-Sarraj and Hamdi Mbarek and Wadha Al-Muftah and Muhammad Alvi and Rostami, \{Mahboubeh R.\} and Cruzado, \{Juan Carlos Martinez\} and Mezey, \{Jason G.\} and Shakaki, \{Alya Al\} and Malek, \{Joel A.\} and Greenblatt, \{Matthew B.\} and Fakhro, \{Khalid A.\} and Khaled Machaca and Ajayeb Al-Nabet and Nahla Afifi and Andrew Brooks and Ismail, \{Said I.\} and Asmaa Althani and Crystal, \{Ronald G.\}",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = dec,

doi = "10.1038/s41525-021-00270-0",

language = "English",

volume = "7",

journal = "npj Genomic Medicine",

issn = "2056-7944",

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Rodriguez-Flores, JL, Messai-Badji, R, Robay, A, Temanni, R, Syed, N, Markovic, M, Al-khayat, E, Qafoud, F, Nawaz, Z, Badii, R, Al-Sarraj, Y, Mbarek, H, Al-Muftah, W, Alvi, M, Rostami, MR, Cruzado, JCM, Mezey, JG, Shakaki, AA, Malek, JA, Greenblatt, MB, Fakhro, KA, Machaca, K, Al-Nabet, A, Afifi, N, Brooks, A, Ismail, SI, Althani, A & Crystal, RG 2022, 'The QChip1 knowledgebase and microarray for precision medicine in Qatar', npj Genomic Medicine, vol. 7, no. 1, 3. https://doi.org/10.1038/s41525-021-00270-0

TY - JOUR

T1 - The QChip1 knowledgebase and microarray for precision medicine in Qatar

AU - Rodriguez-Flores, Juan L.

AU - Messai-Badji, Radja

AU - Robay, Amal

AU - Temanni, Ramzi

AU - Syed, Najeeb

AU - Markovic, Monika

AU - Al-khayat, Eiman

AU - Qafoud, Fatima

AU - Nawaz, Zafar

AU - Badii, Ramin

AU - Al-Sarraj, Yasser

AU - Mbarek, Hamdi

AU - Al-Muftah, Wadha

AU - Alvi, Muhammad

AU - Rostami, Mahboubeh R.

AU - Cruzado, Juan Carlos Martinez

AU - Mezey, Jason G.

AU - Shakaki, Alya Al

AU - Malek, Joel A.

AU - Greenblatt, Matthew B.

AU - Fakhro, Khalid A.

AU - Machaca, Khaled

AU - Al-Nabet, Ajayeb

AU - Afifi, Nahla

AU - Brooks, Andrew

AU - Ismail, Said I.

AU - Althani, Asmaa

AU - Crystal, Ronald G.

PY - 2022/12

Y1 - 2022/12

N2 - Risk genes for Mendelian (single-gene) disorders (SGDs) are consistent across populations, but pathogenic risk variants that cause SGDs are typically population-private. The goal was to develop “QChip1,” an inexpensive genotyping microarray to comprehensively screen newborns, couples, and patients for SGD risk variants in Qatar, a small nation on the Arabian Peninsula with a high degree of consanguinity. Over 108 variants in 8445 Qatari were identified for inclusion in a genotyping array containing 165,695 probes for 83,542 known and potentially pathogenic variants in 3438 SGDs. QChip1 had a concordance with whole-genome sequencing of 99.1%. Testing of QChip1 with 2707 Qatari genomes identified 32,674 risk variants, an average of 134 pathogenic alleles per Qatari genome. The most common pathogenic variants were those causing homocystinuria (1.12% risk allele frequency), and Stargardt disease (2.07%). The majority (85%) of Qatari SGD pathogenic variants were not present in Western populations such as European American, South Asian American, and African American in New York City and European and Afro-Caribbean in Puerto Rico; and only 50% were observed in a broad collection of data across the Greater Middle East including Kuwait, Iran, and United Arab Emirates. This study demonstrates the feasibility of developing accurate screening tools to identify SGD risk variants in understudied populations, and the need for ancestry-specific SGD screening tools.

AB - Risk genes for Mendelian (single-gene) disorders (SGDs) are consistent across populations, but pathogenic risk variants that cause SGDs are typically population-private. The goal was to develop “QChip1,” an inexpensive genotyping microarray to comprehensively screen newborns, couples, and patients for SGD risk variants in Qatar, a small nation on the Arabian Peninsula with a high degree of consanguinity. Over 108 variants in 8445 Qatari were identified for inclusion in a genotyping array containing 165,695 probes for 83,542 known and potentially pathogenic variants in 3438 SGDs. QChip1 had a concordance with whole-genome sequencing of 99.1%. Testing of QChip1 with 2707 Qatari genomes identified 32,674 risk variants, an average of 134 pathogenic alleles per Qatari genome. The most common pathogenic variants were those causing homocystinuria (1.12% risk allele frequency), and Stargardt disease (2.07%). The majority (85%) of Qatari SGD pathogenic variants were not present in Western populations such as European American, South Asian American, and African American in New York City and European and Afro-Caribbean in Puerto Rico; and only 50% were observed in a broad collection of data across the Greater Middle East including Kuwait, Iran, and United Arab Emirates. This study demonstrates the feasibility of developing accurate screening tools to identify SGD risk variants in understudied populations, and the need for ancestry-specific SGD screening tools.

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U2 - 10.1038/s41525-021-00270-0

DO - 10.1038/s41525-021-00270-0

M3 - Article

AN - SCOPUS:85123215484

SN - 2056-7944

VL - 7

JO - npj Genomic Medicine

JF - npj Genomic Medicine

IS - 1

M1 - 3

ER -

The QChip1 knowledgebase and microarray for precision medicine in Qatar

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