Your search keyword '"multivarite adaptive shrinkage"' showing total 4 results

1. Multivariate adaptive shrinkage improves cross-population transcriptome prediction and association studies in underrepresented populations

Author

Araujo, Daniel S, Nguyen, Chris, Hu, Xiaowei, Mikhaylova, Anna V, Gignoux, Chris, Ardlie, Kristin, Taylor, Kent D, Durda, Peter, Liu, Yongmei, Papanicolaou, George, Cho, Michael H, Rich, Stephen S, Rotter, Jerome I, Consortium, NHLBI TOPMed, Im, Hae Kyung, Manichaikul, Ani, and Wheeler, Heather E

Subjects

Biological Sciences, Genetics, Human Genome, Biotechnology, Aetiology, 2.5 Research design and methodologies (aetiology), Generic health relevance, Humans, Transcriptome, Genome-Wide Association Study, Quantitative Trait Loci, Gene Frequency, Linkage Disequilibrium, NHLBI TOPMed Consortium, PrediXcan, genetics, genomics, human genetics, multi-ancestry GWAS, multivarite adaptive shrinkage, transcriptome prediction, transcriptome-wide association studies

Abstract

Transcriptome prediction models built with data from European-descent individuals are less accurate when applied to different populations because of differences in linkage disequilibrium patterns and allele frequencies. We hypothesized that methods that leverage shared regulatory effects across different conditions, in this case, across different populations, may improve cross-population transcriptome prediction. To test this hypothesis, we made transcriptome prediction models for use in transcriptome-wide association studies (TWASs) using different methods (elastic net, joint-tissue imputation [JTI], matrix expression quantitative trait loci [Matrix eQTL], multivariate adaptive shrinkage in R [MASHR], and transcriptome-integrated genetic association resource [TIGAR]) and tested their out-of-sample transcriptome prediction accuracy in population-matched and cross-population scenarios. Additionally, to evaluate model applicability in TWASs, we integrated publicly available multiethnic genome-wide association study (GWAS) summary statistics from the Population Architecture using Genomics and Epidemiology (PAGE) study and Pan-ancestry genetic analysis of the UK Biobank (PanUKBB) with our developed transcriptome prediction models. In regard to transcriptome prediction accuracy, MASHR models performed better or the same as other methods in both population-matched and cross-population transcriptome predictions. Furthermore, in multiethnic TWASs, MASHR models yielded more discoveries that replicate in both PAGE and PanUKBB across all methods analyzed, including loci previously mapped in GWASs and loci previously not found in GWASs. Overall, our study demonstrates the importance of using methods that benefit from different populations' effect size estimates in order to improve TWASs for multiethnic or underrepresented populations.

Published

2023

2. Multivariate adaptive shrinkage improves cross-population transcriptome prediction and association studies in underrepresented populations

Author

Daniel S. Araujo, Chris Nguyen, Xiaowei Hu, Anna V. Mikhaylova, Chris Gignoux, Kristin Ardlie, Kent D. Taylor, Peter Durda, Yongmei Liu, George Papanicolaou, Michael H. Cho, Stephen S. Rich, Jerome I. Rotter, Hae Kyung Im, Ani Manichaikul, and Heather E. Wheeler

Subjects

genetics, genomics, human genetics, transcriptome-wide association studies, transcriptome prediction, multivarite adaptive shrinkage, Genetics, QH426-470

Abstract

Summary: Transcriptome prediction models built with data from European-descent individuals are less accurate when applied to different populations because of differences in linkage disequilibrium patterns and allele frequencies. We hypothesized that methods that leverage shared regulatory effects across different conditions, in this case, across different populations, may improve cross-population transcriptome prediction. To test this hypothesis, we made transcriptome prediction models for use in transcriptome-wide association studies (TWASs) using different methods (elastic net, joint-tissue imputation [JTI], matrix expression quantitative trait loci [Matrix eQTL], multivariate adaptive shrinkage in R [MASHR], and transcriptome-integrated genetic association resource [TIGAR]) and tested their out-of-sample transcriptome prediction accuracy in population-matched and cross-population scenarios. Additionally, to evaluate model applicability in TWASs, we integrated publicly available multiethnic genome-wide association study (GWAS) summary statistics from the Population Architecture using Genomics and Epidemiology (PAGE) study and Pan-ancestry genetic analysis of the UK Biobank (PanUKBB) with our developed transcriptome prediction models. In regard to transcriptome prediction accuracy, MASHR models performed better or the same as other methods in both population-matched and cross-population transcriptome predictions. Furthermore, in multiethnic TWASs, MASHR models yielded more discoveries that replicate in both PAGE and PanUKBB across all methods analyzed, including loci previously mapped in GWASs and loci previously not found in GWASs. Overall, our study demonstrates the importance of using methods that benefit from different populations’ effect size estimates in order to improve TWASs for multiethnic or underrepresented populations.

Published

2023

3. Multivariate adaptive shrinkage improves cross-population transcriptome prediction and association studies in underrepresented populations.

Author

Araujo, Daniel, Araujo, Daniel, Nguyen, Chris, Hu, Xiaowei, Mikhaylova, Anna, Gignoux, Chris, Ardlie, Kristin, Taylor, Kent, Durda, Peter, Liu, Yongmei, Papanicolaou, George, Cho, Michael, Rich, Stephen, Rotter, Jerome, Im, Hae, Manichaikul, Ani, Wheeler, Heather, Araujo, Daniel, Araujo, Daniel, Nguyen, Chris, Hu, Xiaowei, Mikhaylova, Anna, Gignoux, Chris, Ardlie, Kristin, Taylor, Kent, Durda, Peter, Liu, Yongmei, Papanicolaou, George, Cho, Michael, Rich, Stephen, Rotter, Jerome, Im, Hae, Manichaikul, Ani, and Wheeler, Heather

Abstract

Transcriptome prediction models built with data from European-descent individuals are less accurate when applied to different populations because of differences in linkage disequilibrium patterns and allele frequencies. We hypothesized that methods that leverage shared regulatory effects across different conditions, in this case, across different populations, may improve cross-population transcriptome prediction. To test this hypothesis, we made transcriptome prediction models for use in transcriptome-wide association studies (TWASs) using different methods (elastic net, joint-tissue imputation [JTI], matrix expression quantitative trait loci [Matrix eQTL], multivariate adaptive shrinkage in R [MASHR], and transcriptome-integrated genetic association resource [TIGAR]) and tested their out-of-sample transcriptome prediction accuracy in population-matched and cross-population scenarios. Additionally, to evaluate model applicability in TWASs, we integrated publicly available multiethnic genome-wide association study (GWAS) summary statistics from the Population Architecture using Genomics and Epidemiology (PAGE) study and Pan-ancestry genetic analysis of the UK Biobank (PanUKBB) with our developed transcriptome prediction models. In regard to transcriptome prediction accuracy, MASHR models performed better or the same as other methods in both population-matched and cross-population transcriptome predictions. Furthermore, in multiethnic TWASs, MASHR models yielded more discoveries that replicate in both PAGE and PanUKBB across all methods analyzed, including loci previously mapped in GWASs and loci previously not found in GWASs. Overall, our study demonstrates the importance of using methods that benefit from different populations effect size estimates in order to improve TWASs for multiethnic or underrepresented populations.

Published

2023

4. Multivariate adaptive shrinkage improves cross-population transcriptome prediction and association studies in underrepresented populations.

Author

Araujo DS, Nguyen C, Hu X, Mikhaylova AV, Gignoux C, Ardlie K, Taylor KD, Durda P, Liu Y, Papanicolaou G, Cho MH, Rich SS, Rotter JI, Im HK, Manichaikul A, and Wheeler HE

Subjects

Humans, Quantitative Trait Loci genetics, Gene Frequency, Linkage Disequilibrium, Transcriptome genetics, Genome-Wide Association Study

Abstract

Transcriptome prediction models built with data from European-descent individuals are less accurate when applied to different populations because of differences in linkage disequilibrium patterns and allele frequencies. We hypothesized that methods that leverage shared regulatory effects across different conditions, in this case, across different populations, may improve cross-population transcriptome prediction. To test this hypothesis, we made transcriptome prediction models for use in transcriptome-wide association studies (TWASs) using different methods (elastic net, joint-tissue imputation [JTI], matrix expression quantitative trait loci [Matrix eQTL], multivariate adaptive shrinkage in R [MASHR], and transcriptome-integrated genetic association resource [TIGAR]) and tested their out-of-sample transcriptome prediction accuracy in population-matched and cross-population scenarios. Additionally, to evaluate model applicability in TWASs, we integrated publicly available multiethnic genome-wide association study (GWAS) summary statistics from the Population Architecture using Genomics and Epidemiology (PAGE) study and Pan-ancestry genetic analysis of the UK Biobank (PanUKBB) with our developed transcriptome prediction models. In regard to transcriptome prediction accuracy, MASHR models performed better or the same as other methods in both population-matched and cross-population transcriptome predictions. Furthermore, in multiethnic TWASs, MASHR models yielded more discoveries that replicate in both PAGE and PanUKBB across all methods analyzed, including loci previously mapped in GWASs and loci previously not found in GWASs. Overall, our study demonstrates the importance of using methods that benefit from different populations' effect size estimates in order to improve TWASs for multiethnic or underrepresented populations., Competing Interests: H.E.W. is a member of the HGG Advances Editorial Board., (© 2023 The Author(s).)

Published

2023