Gene Set Enrichment Analyses: Lessons learned from the heart failure phenotype

Vinicius Tragante; Johannes M. I. H. Gho; Janine F. Felix; Ramachandran S. Vasan; Nicholas L. Smith; Benjamin F. Voight; Colin Palmer; Pim van der Harst; Jason H. Moore; Folkert W. Asselbergs; CHARGE Heart Failure Working Grp

doi:10.1186/s13040-017-0137-5

Gene Set Enrichment Analyses: Lessons learned from the heart failure phenotype

Vinicius Tragante^*, Johannes M. I. H. Gho, Janine F. Felix, Ramachandran S. Vasan, Nicholas L. Smith, Benjamin F. Voight, Colin Palmer, Pim van der Harst, Jason H. Moore, Folkert W. Asselbergs, CHARGE Heart Failure Working Grp

^*Corresponding author voor dit werk

Cardiovasculair Centrum

Onderzoeksoutput: Article › Academic › peer review

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Background: Genetic studies for complex diseases have predominantly discovered main effects at individual loci, but have not focused on genomic and environmental contexts important for a phenotype. Gene Set Enrichment Analysis (GSEA) aims to address this by identifying sets of genes or biological pathways contributing to a phenotype, through gene-gene interactions or other mechanisms, which are not the focus of conventional association methods.

Results: Approaches that utilize GSEA can now take input from array chips, either gene-centric or genome-wide, but are highly sensitive to study design, SNP selection and pruning strategies, SNP-to-gene mapping, and pathway definitions. Here, we present lessons learned from our experience with GSEA of heart failure, a particularly challenging phenotype due to its underlying heterogeneous etiology.

Conclusions: This case study shows that proper data handling is essential to avoid false-positive results. Well-defined pipelines for quality control are needed to avoid reporting spurious results using GSEA.

Originele taal-2	English
Aantal pagina's	11
Tijdschrift	Biodata mining
Volume	10
Nummer van het tijdschrift	18
DOI's	https://doi.org/10.1186/s13040-017-0137-5
Status	Published - 26-mei-2017

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10.1186/s13040-017-0137-5Licentie: CC BY

Gene Set Enrichment Analyses: lessons learned from the heart failure phenotypeFinal publisher's version, 584 KBLicentie: CC BY

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Additional file 1: Table S2. of Gene Set Enrichment Analyses: lessons learned from the heart failure phenotype
van der Harst, P. (Contributor), Moore, J. H. (Contributor), Voight, B. F. (Contributor), Palmer, C. (Contributor), Asselbergs, F. W. (Contributor), Felix, J. F. (Contributor), Smith, N. L. (Contributor), Tragante, V. (Contributor), Vasan, R. S. (Contributor) & Gho, J. M. I. H. (Contributor), University of Groningen, 27-mei-2017
DOI: 10.6084/m9.figshare.c.3789496_d1.v1, https://doi.org/10.6084%2Fm9.figshare.c.3789496_d1.v1
Dataset
Additional file 1: Table S2. of Gene Set Enrichment Analyses: lessons learned from the heart failure phenotype
Tragante, V. (Creator), Gho, J. M. I. H. (Creator), Felix, J. F. (Creator), Vasan, R. S. (Contributor), Smith, N. L. (Creator), Voight, B. F. (Creator), Palmer, C. (Creator), van der Harst, P. (Contributor), Moore, J. H. (Creator) & Asselbergs, F. W. (Creator), figshare, 26-mei-2017
DOI: 10.6084/m9.figshare.c.3789496_d1
Dataset

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title = "Gene Set Enrichment Analyses: Lessons learned from the heart failure phenotype",

abstract = "Background: Genetic studies for complex diseases have predominantly discovered main effects at individual loci, but have not focused on genomic and environmental contexts important for a phenotype. Gene Set Enrichment Analysis (GSEA) aims to address this by identifying sets of genes or biological pathways contributing to a phenotype, through gene-gene interactions or other mechanisms, which are not the focus of conventional association methods.Results: Approaches that utilize GSEA can now take input from array chips, either gene-centric or genome-wide, but are highly sensitive to study design, SNP selection and pruning strategies, SNP-to-gene mapping, and pathway definitions. Here, we present lessons learned from our experience with GSEA of heart failure, a particularly challenging phenotype due to its underlying heterogeneous etiology.Conclusions: This case study shows that proper data handling is essential to avoid false-positive results. Well-defined pipelines for quality control are needed to avoid reporting spurious results using GSEA.",

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author = "Vinicius Tragante and Gho, {Johannes M. I. H.} and Felix, {Janine F.} and Vasan, {Ramachandran S.} and Smith, {Nicholas L.} and Voight, {Benjamin F.} and Colin Palmer and {van der Harst}, Pim and Moore, {Jason H.} and Asselbergs, {Folkert W.} and {CHARGE Heart Failure Working Grp}",

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T2 - Lessons learned from the heart failure phenotype

AU - Tragante, Vinicius

AU - Gho, Johannes M. I. H.

AU - Felix, Janine F.

AU - Vasan, Ramachandran S.

AU - Smith, Nicholas L.

AU - Voight, Benjamin F.

AU - Palmer, Colin

AU - van der Harst, Pim

AU - Moore, Jason H.

AU - Asselbergs, Folkert W.

AU - CHARGE Heart Failure Working Grp

PY - 2017/5/26

Y1 - 2017/5/26

N2 - Background: Genetic studies for complex diseases have predominantly discovered main effects at individual loci, but have not focused on genomic and environmental contexts important for a phenotype. Gene Set Enrichment Analysis (GSEA) aims to address this by identifying sets of genes or biological pathways contributing to a phenotype, through gene-gene interactions or other mechanisms, which are not the focus of conventional association methods.Results: Approaches that utilize GSEA can now take input from array chips, either gene-centric or genome-wide, but are highly sensitive to study design, SNP selection and pruning strategies, SNP-to-gene mapping, and pathway definitions. Here, we present lessons learned from our experience with GSEA of heart failure, a particularly challenging phenotype due to its underlying heterogeneous etiology.Conclusions: This case study shows that proper data handling is essential to avoid false-positive results. Well-defined pipelines for quality control are needed to avoid reporting spurious results using GSEA.

AB - Background: Genetic studies for complex diseases have predominantly discovered main effects at individual loci, but have not focused on genomic and environmental contexts important for a phenotype. Gene Set Enrichment Analysis (GSEA) aims to address this by identifying sets of genes or biological pathways contributing to a phenotype, through gene-gene interactions or other mechanisms, which are not the focus of conventional association methods.Results: Approaches that utilize GSEA can now take input from array chips, either gene-centric or genome-wide, but are highly sensitive to study design, SNP selection and pruning strategies, SNP-to-gene mapping, and pathway definitions. Here, we present lessons learned from our experience with GSEA of heart failure, a particularly challenging phenotype due to its underlying heterogeneous etiology.Conclusions: This case study shows that proper data handling is essential to avoid false-positive results. Well-defined pipelines for quality control are needed to avoid reporting spurious results using GSEA.

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KW - Coronary artery disease

KW - URINARY ALBUMIN EXCRETION

KW - GENOME-WIDE ASSOCIATION

KW - EXPRESSION PROFILES

KW - BIOLOGICAL PATHWAYS

KW - POPULATION

KW - RISK

KW - CLASSIFICATION

KW - IDENTIFICATION

KW - KNOWLEDGEBASE

KW - EPIDEMIOLOGY

U2 - 10.1186/s13040-017-0137-5

DO - 10.1186/s13040-017-0137-5

M3 - Article

SN - 1756-0381

VL - 10

JO - Biodata mining

JF - Biodata mining

IS - 18

ER -

Gene Set Enrichment Analyses: Lessons learned from the heart failure phenotype

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Additional file 1: Table S2. of Gene Set Enrichment Analyses: lessons learned from the heart failure phenotype

Additional file 1: Table S2. of Gene Set Enrichment Analyses: lessons learned from the heart failure phenotype

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