Phylogenetics Applied to Genotype/Phenotype Association and Selection Analyses with Sequence Data from Angptl4 in Humans

Phylogenetics Applied to Genotype/Phenotype Association and Selection Analyses with Sequence Data from Angptl4 in Humans

Genotype/phenotype association analyses (Treescan) with plasma lipid levels and functional site prediction methods (TreeSAAP and PolyPhen) were performed using sequence data for ANGPTL4 from 3,551 patients in the Dallas Heart Study. Biological assays of rare variants in phenotypic tails and results...

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Bibliographic Details
Main Authors: Todd Jarvis, Jeffrey Staples, Matthew L. Bendall, Taylor J. Maxwell, Keith A. Crandall
Format: Article
Language:English
Published: MDPI AG 2010-01-01
Series:International Journal of Molecular Sciences
Subjects:
ANGPTL4
TreeSAAP
treescan
phylogenetics
association studies
selection
Online Access:http://www.mdpi.com/1422-0067/11/1/370/
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spelling doaj-523e09e5211048a49c689ea025db77aa2020-11-25T01:04:44ZengMDPI AGInternational Journal of Molecular Sciences1422-00672010-01-0111137038510.3390/ijms11010370Phylogenetics Applied to Genotype/Phenotype Association and Selection Analyses with Sequence Data from Angptl4 in HumansTodd JarvisJeffrey StaplesMatthew L. BendallTaylor J. MaxwellKeith A. CrandallGenotype/phenotype association analyses (Treescan) with plasma lipid levels and functional site prediction methods (TreeSAAP and PolyPhen) were performed using sequence data for ANGPTL4 from 3,551 patients in the Dallas Heart Study. Biological assays of rare variants in phenotypic tails and results from a Treescan analysis were used as “known” variants to assess the site prediction abilities of PolyPhen and TreeSAAP. The E40K variant in European Americans and the R278Q variant in African Americans were significantly associated with multiple lipid phenotypes. Combining TreeSAAP and PolyPhen performed well to predict “known” functional variants while reducing noise from false positives. http://www.mdpi.com/1422-0067/11/1/370/ANGPTL4TreeSAAPtreescanphylogeneticsassociation studiesselection
collection DOAJ
language English
format Article
sources DOAJ
author Todd Jarvis
Jeffrey Staples
Matthew L. Bendall
Taylor J. Maxwell
Keith A. Crandall
spellingShingle Todd Jarvis
Jeffrey Staples
Matthew L. Bendall
Taylor J. Maxwell
Keith A. Crandall
Phylogenetics Applied to Genotype/Phenotype Association and Selection Analyses with Sequence Data from Angptl4 in Humans
International Journal of Molecular Sciences
ANGPTL4
TreeSAAP
treescan
phylogenetics
association studies
selection
author_facet Todd Jarvis
Jeffrey Staples
Matthew L. Bendall
Taylor J. Maxwell
Keith A. Crandall
author_sort Todd Jarvis
title Phylogenetics Applied to Genotype/Phenotype Association and Selection Analyses with Sequence Data from Angptl4 in Humans
title_short Phylogenetics Applied to Genotype/Phenotype Association and Selection Analyses with Sequence Data from Angptl4 in Humans
title_full Phylogenetics Applied to Genotype/Phenotype Association and Selection Analyses with Sequence Data from Angptl4 in Humans
title_fullStr Phylogenetics Applied to Genotype/Phenotype Association and Selection Analyses with Sequence Data from Angptl4 in Humans
title_full_unstemmed Phylogenetics Applied to Genotype/Phenotype Association and Selection Analyses with Sequence Data from Angptl4 in Humans
title_sort phylogenetics applied to genotype/phenotype association and selection analyses with sequence data from angptl4 in humans
publisher MDPI AG
series International Journal of Molecular Sciences
issn 1422-0067
publishDate 2010-01-01
description Genotype/phenotype association analyses (Treescan) with plasma lipid levels and functional site prediction methods (TreeSAAP and PolyPhen) were performed using sequence data for ANGPTL4 from 3,551 patients in the Dallas Heart Study. Biological assays of rare variants in phenotypic tails and results from a Treescan analysis were used as “known” variants to assess the site prediction abilities of PolyPhen and TreeSAAP. The E40K variant in European Americans and the R278Q variant in African Americans were significantly associated with multiple lipid phenotypes. Combining TreeSAAP and PolyPhen performed well to predict “known” functional variants while reducing noise from false positives.
topic ANGPTL4
TreeSAAP
treescan
phylogenetics
association studies
selection
url http://www.mdpi.com/1422-0067/11/1/370/
work_keys_str_mv AT toddjarvis phylogeneticsappliedtogenotypephenotypeassociationandselectionanalyseswithsequencedatafromangptl4inhumans
AT jeffreystaples phylogeneticsappliedtogenotypephenotypeassociationandselectionanalyseswithsequencedatafromangptl4inhumans
AT matthewlbendall phylogeneticsappliedtogenotypephenotypeassociationandselectionanalyseswithsequencedatafromangptl4inhumans
AT taylorjmaxwell phylogeneticsappliedtogenotypephenotypeassociationandselectionanalyseswithsequencedatafromangptl4inhumans
AT keithacrandall phylogeneticsappliedtogenotypephenotypeassociationandselectionanalyseswithsequencedatafromangptl4inhumans
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