Concept and design of a genome-wide association genotyping array tailored for transplantation-specific studies

Yun R. Li; Jessica van Setten; Shefali S. Verma; Yontao Lu; Michael V. Holmes; Hui Gao; Monkol Lek; Nikhil Nair; Hareesh Chandrupatla; Baoli Chang; Konrad J. Karczewski; Chanel Wong; Maede Mohebnasab; Eyas Mukhtar; Randy Phillips; Vinicius Tragante; Cuiping Hou; Laura Steel; Takesha Lee; James Garifallou; Toumy Guettouche; Hongzhi Cao; Weihua Guan; Aubree Himes; Jacob van Houten; Andrew Pasquier; Reina Yu; Elena Carrigan; Michael B. Miller; David Schladt; Abdullah Akdere; Ana Gonzalez; Kelsey M. Llyod; Daniel McGinn; Abhinav Gangasani; Zach Michaud; Abigail Colasacco; James Snyder; Kelly Thomas; Tiancheng Wang; Baolin Wu; Alhusain J. Alzahrani; Amein K. Al-Ali; Fahad A. Al-Muhanna; Abdullah M. Al-Rubaish; Samir Al-Mueilo; Dimitri S. Monos; Barbara Murphy; Kim M. Olthoff; Cisca Wijmenga; Teresa Webster; Malek Kamoun; Suganthi Balasubramanian; Matthew B. Lanktree; William S. Oetting; Pablo Garcia-Pavia; Daniel G. MacArthur; Paul I W de Bakker; Hakon Hakonarson; Kelly A. Birdwell; Pamala A. Jacobson; Marylyn D. Ritchie; Folkert W. Asselbergs; Ajay K. Israni; Abraham Shaked; Brendan J. Keating

doi:10.1186/s13073-015-0211-x

Concept and design of a genome-wide association genotyping array tailored for transplantation-specific studies

Yun R. Li, Jessica van Setten, Shefali S. Verma, Yontao Lu, Michael V. Holmes, Hui Gao, Monkol Lek, Nikhil Nair, Hareesh Chandrupatla, Baoli Chang, Konrad J. Karczewski, Chanel Wong, Maede Mohebnasab, Eyas Mukhtar, Randy Phillips, Vinicius Tragante, Cuiping Hou, Laura Steel, Takesha Lee, James GarifallouToumy Guettouche, Hongzhi Cao, Weihua Guan, Aubree Himes, Jacob van Houten, Andrew Pasquier, Reina Yu, Elena Carrigan, Michael B. Miller, David Schladt, Abdullah Akdere, Ana Gonzalez, Kelsey M. Llyod, Daniel McGinn, Abhinav Gangasani, Zach Michaud, Abigail Colasacco, James Snyder, Kelly Thomas, Tiancheng Wang, Baolin Wu, Alhusain J. Alzahrani, Amein K. Al-Ali, Fahad A. Al-Muhanna, Abdullah M. Al-Rubaish, Samir Al-Mueilo, Dimitri S. Monos, Barbara Murphy, Kim M. Olthoff, Cisca Wijmenga, Teresa Webster, Malek Kamoun, Suganthi Balasubramanian, Matthew B. Lanktree, William S. Oetting, Pablo Garcia-Pavia, Daniel G. MacArthur, Paul I W de Bakker, Hakon Hakonarson, Kelly A. Birdwell, Pamala A. Jacobson, Marylyn D. Ritchie, Folkert W. Asselbergs, Ajay K. Israni, Abraham Shaked, Brendan J. Keating

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Abstract

Background: In addition to HLA genetic incompatibility, non-HLA difference between donor and recipients of transplantation leading to allograft rejection are now becoming evident. We aimed to create a unique genome-wide platform to facilitate genomic research studies in transplant-related studies. We designed a genome-wide genotyping tool based on the most recent human genomic reference datasets, and included customization for known and potentially relevant metabolic and pharmacological loci relevant to transplantation. Methods: We describe here the design and implementation of a customized genome-wide genotyping array, the 'TxArray', comprising approximately 782,000 markers with tailored content for deeper capture of variants across HLA, KIR, pharmacogenomic, and metabolic loci important in transplantation. To test concordance and genotyping quality, we genotyped 85 HapMap samples on the array, including eight trios. Results: We show low Mendelian error rates and high concordance rates for HapMap samples (average parent-parent-child heritability of 0.997, and concordance of 0.996). We performed genotype imputation across autosomal regions, masking directly genotyped SNPs to assess imputation accuracy and report an accuracy of >0.962 for directly genotyped SNPs. We demonstrate much higher capture of the natural killer cell immunoglobulin-like receptor (KIR) region versus comparable platforms. Overall, we show that the genotyping quality and coverage of the TxArray is very high when compared to reference samples and to other genome-wide genotyping platforms. Conclusions: We have designed a comprehensive genome-wide genotyping tool which enables accurate association testing and imputation of ungenotyped SNPs, facilitating powerful and cost-effective large-scale genotyping of transplant-related studies.

Original language	English (US)
Article number	90
Journal	Genome medicine
Volume	7
Issue number	1
DOIs	https://doi.org/10.1186/s13073-015-0211-x
State	Published - Oct 1 2015

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© 2015 Li et al.

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Li, Y. R., van Setten, J., Verma, S. S., Lu, Y., Holmes, M. V., Gao, H., Lek, M., Nair, N., Chandrupatla, H., Chang, B., Karczewski, K. J., Wong, C., Mohebnasab, M., Mukhtar, E., Phillips, R., Tragante, V., Hou, C., Steel, L., Lee, T., ... Keating, B. J. (2015). Concept and design of a genome-wide association genotyping array tailored for transplantation-specific studies. Genome medicine, 7(1), Article 90. https://doi.org/10.1186/s13073-015-0211-x

Li, YR, van Setten, J, Verma, SS, Lu, Y, Holmes, MV, Gao, H, Lek, M, Nair, N, Chandrupatla, H, Chang, B, Karczewski, KJ, Wong, C, Mohebnasab, M, Mukhtar, E, Phillips, R, Tragante, V, Hou, C, Steel, L, Lee, T, Garifallou, J, Guettouche, T, Cao, H, Guan, W, Himes, A, van Houten, J, Pasquier, A, Yu, R, Carrigan, E, Miller, MB, Schladt, D, Akdere, A, Gonzalez, A, Llyod, KM, McGinn, D, Gangasani, A, Michaud, Z, Colasacco, A, Snyder, J, Thomas, K, Wang, T, Wu, B, Alzahrani, AJ, Al-Ali, AK, Al-Muhanna, FA, Al-Rubaish, AM, Al-Mueilo, S, Monos, DS, Murphy, B, Olthoff, KM, Wijmenga, C, Webster, T, Kamoun, M, Balasubramanian, S, Lanktree, MB, Oetting, WS, Garcia-Pavia, P, MacArthur, DG, de Bakker, PIW, Hakonarson, H, Birdwell, KA, Jacobson, PA, Ritchie, MD, Asselbergs, FW, Israni, AK, Shaked, A & Keating, BJ 2015, 'Concept and design of a genome-wide association genotyping array tailored for transplantation-specific studies', Genome medicine, vol. 7, no. 1, 90. https://doi.org/10.1186/s13073-015-0211-x

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title = "Concept and design of a genome-wide association genotyping array tailored for transplantation-specific studies",

abstract = "Background: In addition to HLA genetic incompatibility, non-HLA difference between donor and recipients of transplantation leading to allograft rejection are now becoming evident. We aimed to create a unique genome-wide platform to facilitate genomic research studies in transplant-related studies. We designed a genome-wide genotyping tool based on the most recent human genomic reference datasets, and included customization for known and potentially relevant metabolic and pharmacological loci relevant to transplantation. Methods: We describe here the design and implementation of a customized genome-wide genotyping array, the 'TxArray', comprising approximately 782,000 markers with tailored content for deeper capture of variants across HLA, KIR, pharmacogenomic, and metabolic loci important in transplantation. To test concordance and genotyping quality, we genotyped 85 HapMap samples on the array, including eight trios. Results: We show low Mendelian error rates and high concordance rates for HapMap samples (average parent-parent-child heritability of 0.997, and concordance of 0.996). We performed genotype imputation across autosomal regions, masking directly genotyped SNPs to assess imputation accuracy and report an accuracy of >0.962 for directly genotyped SNPs. We demonstrate much higher capture of the natural killer cell immunoglobulin-like receptor (KIR) region versus comparable platforms. Overall, we show that the genotyping quality and coverage of the TxArray is very high when compared to reference samples and to other genome-wide genotyping platforms. Conclusions: We have designed a comprehensive genome-wide genotyping tool which enables accurate association testing and imputation of ungenotyped SNPs, facilitating powerful and cost-effective large-scale genotyping of transplant-related studies.",

author = "Li, {Yun R.} and {van Setten}, Jessica and Verma, {Shefali S.} and Yontao Lu and Holmes, {Michael V.} and Hui Gao and Monkol Lek and Nikhil Nair and Hareesh Chandrupatla and Baoli Chang and Karczewski, {Konrad J.} and Chanel Wong and Maede Mohebnasab and Eyas Mukhtar and Randy Phillips and Vinicius Tragante and Cuiping Hou and Laura Steel and Takesha Lee and James Garifallou and Toumy Guettouche and Hongzhi Cao and Weihua Guan and Aubree Himes and {van Houten}, Jacob and Andrew Pasquier and Reina Yu and Elena Carrigan and Miller, {Michael B.} and David Schladt and Abdullah Akdere and Ana Gonzalez and Llyod, {Kelsey M.} and Daniel McGinn and Abhinav Gangasani and Zach Michaud and Abigail Colasacco and James Snyder and Kelly Thomas and Tiancheng Wang and Baolin Wu and Alzahrani, {Alhusain J.} and Al-Ali, {Amein K.} and Al-Muhanna, {Fahad A.} and Al-Rubaish, {Abdullah M.} and Samir Al-Mueilo and Monos, {Dimitri S.} and Barbara Murphy and Olthoff, {Kim M.} and Cisca Wijmenga and Teresa Webster and Malek Kamoun and Suganthi Balasubramanian and Lanktree, {Matthew B.} and Oetting, {William S.} and Pablo Garcia-Pavia and MacArthur, {Daniel G.} and {de Bakker}, {Paul I W} and Hakon Hakonarson and Birdwell, {Kelly A.} and Jacobson, {Pamala A.} and Ritchie, {Marylyn D.} and Asselbergs, {Folkert W.} and Israni, {Ajay K.} and Abraham Shaked and Keating, {Brendan J.}",

note = "Publisher Copyright: {\textcopyright} 2015 Li et al.",

year = "2015",

month = oct,

day = "1",

doi = "10.1186/s13073-015-0211-x",

language = "English (US)",

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TY - JOUR

T1 - Concept and design of a genome-wide association genotyping array tailored for transplantation-specific studies

AU - Li, Yun R.

AU - van Setten, Jessica

AU - Verma, Shefali S.

AU - Lu, Yontao

AU - Holmes, Michael V.

AU - Gao, Hui

AU - Lek, Monkol

AU - Nair, Nikhil

AU - Chandrupatla, Hareesh

AU - Chang, Baoli

AU - Karczewski, Konrad J.

AU - Wong, Chanel

AU - Mohebnasab, Maede

AU - Mukhtar, Eyas

AU - Phillips, Randy

AU - Tragante, Vinicius

AU - Hou, Cuiping

AU - Steel, Laura

AU - Lee, Takesha

AU - Garifallou, James

AU - Guettouche, Toumy

AU - Cao, Hongzhi

AU - Guan, Weihua

AU - Himes, Aubree

AU - van Houten, Jacob

AU - Pasquier, Andrew

AU - Yu, Reina

AU - Carrigan, Elena

AU - Miller, Michael B.

AU - Schladt, David

AU - Akdere, Abdullah

AU - Gonzalez, Ana

AU - Llyod, Kelsey M.

AU - McGinn, Daniel

AU - Gangasani, Abhinav

AU - Michaud, Zach

AU - Colasacco, Abigail

AU - Snyder, James

AU - Thomas, Kelly

AU - Wang, Tiancheng

AU - Wu, Baolin

AU - Alzahrani, Alhusain J.

AU - Al-Ali, Amein K.

AU - Al-Muhanna, Fahad A.

AU - Al-Rubaish, Abdullah M.

AU - Al-Mueilo, Samir

AU - Monos, Dimitri S.

AU - Murphy, Barbara

AU - Olthoff, Kim M.

AU - Wijmenga, Cisca

AU - Webster, Teresa

AU - Kamoun, Malek

AU - Balasubramanian, Suganthi

AU - Lanktree, Matthew B.

AU - Oetting, William S.

AU - Garcia-Pavia, Pablo

AU - MacArthur, Daniel G.

AU - de Bakker, Paul I W

AU - Hakonarson, Hakon

AU - Birdwell, Kelly A.

AU - Jacobson, Pamala A.

AU - Ritchie, Marylyn D.

AU - Asselbergs, Folkert W.

AU - Israni, Ajay K.

AU - Shaked, Abraham

AU - Keating, Brendan J.

PY - 2015/10/1

Y1 - 2015/10/1

N2 - Background: In addition to HLA genetic incompatibility, non-HLA difference between donor and recipients of transplantation leading to allograft rejection are now becoming evident. We aimed to create a unique genome-wide platform to facilitate genomic research studies in transplant-related studies. We designed a genome-wide genotyping tool based on the most recent human genomic reference datasets, and included customization for known and potentially relevant metabolic and pharmacological loci relevant to transplantation. Methods: We describe here the design and implementation of a customized genome-wide genotyping array, the 'TxArray', comprising approximately 782,000 markers with tailored content for deeper capture of variants across HLA, KIR, pharmacogenomic, and metabolic loci important in transplantation. To test concordance and genotyping quality, we genotyped 85 HapMap samples on the array, including eight trios. Results: We show low Mendelian error rates and high concordance rates for HapMap samples (average parent-parent-child heritability of 0.997, and concordance of 0.996). We performed genotype imputation across autosomal regions, masking directly genotyped SNPs to assess imputation accuracy and report an accuracy of >0.962 for directly genotyped SNPs. We demonstrate much higher capture of the natural killer cell immunoglobulin-like receptor (KIR) region versus comparable platforms. Overall, we show that the genotyping quality and coverage of the TxArray is very high when compared to reference samples and to other genome-wide genotyping platforms. Conclusions: We have designed a comprehensive genome-wide genotyping tool which enables accurate association testing and imputation of ungenotyped SNPs, facilitating powerful and cost-effective large-scale genotyping of transplant-related studies.

AB - Background: In addition to HLA genetic incompatibility, non-HLA difference between donor and recipients of transplantation leading to allograft rejection are now becoming evident. We aimed to create a unique genome-wide platform to facilitate genomic research studies in transplant-related studies. We designed a genome-wide genotyping tool based on the most recent human genomic reference datasets, and included customization for known and potentially relevant metabolic and pharmacological loci relevant to transplantation. Methods: We describe here the design and implementation of a customized genome-wide genotyping array, the 'TxArray', comprising approximately 782,000 markers with tailored content for deeper capture of variants across HLA, KIR, pharmacogenomic, and metabolic loci important in transplantation. To test concordance and genotyping quality, we genotyped 85 HapMap samples on the array, including eight trios. Results: We show low Mendelian error rates and high concordance rates for HapMap samples (average parent-parent-child heritability of 0.997, and concordance of 0.996). We performed genotype imputation across autosomal regions, masking directly genotyped SNPs to assess imputation accuracy and report an accuracy of >0.962 for directly genotyped SNPs. We demonstrate much higher capture of the natural killer cell immunoglobulin-like receptor (KIR) region versus comparable platforms. Overall, we show that the genotyping quality and coverage of the TxArray is very high when compared to reference samples and to other genome-wide genotyping platforms. Conclusions: We have designed a comprehensive genome-wide genotyping tool which enables accurate association testing and imputation of ungenotyped SNPs, facilitating powerful and cost-effective large-scale genotyping of transplant-related studies.

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SN - 1756-994X

VL - 7

JO - Genome medicine

JF - Genome medicine

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Concept and design of a genome-wide association genotyping array tailored for transplantation-specific studies

Abstract

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