Comparison of SNP-based and gene-based association studies in detecting rare variants using unrelated individuals

被引:2
|
作者
Liping Tong
Bamidele Tayo
Jie Yang
Richard S Cooper
机构
[1] Loyola University,Department of Mathematics and Statistics
[2] Loyola University Medical School,Department of Preventive Medicine and Epidemiology
[3] University of Illinois at Chicago,Department of Mathematics, Statistics, and Computer Science
来源
BMC Proceedings | / 5卷 / Suppl 9期
关键词
False Discovery Rate; Rare Variant; Multilocus Genotype; Binary Trait; True Discovery Rate;
D O I
10.1186/1753-6561-5-S9-S41
中图分类号
学科分类号
摘要
We compare the SNP-based and gene-based association studies using 697 unrelated individuals. The Benjamini-Hochberg procedure was applied to control the false discovery rate for all the multiple comparisons. We use a linear model for the single-nucleotide polymorphism (SNP) based association study. For the gene-based study, we consider three methods. The first one is based on a linear model, the second is similarity based, and the third is a new two-step procedure. The results of power using a subset of SNPs show that the SNP-based association test is more powerful than the gene-based ones. However, in some situations, a gene-based study is able to detect the associated variants that were neglected in a SNP-based study. Finally, we apply these methods to a replicate of the quantitative trait Q1 and the binary trait D (D = 1, affected; D = 0, unaffected) for a genome-wide gene search.
引用
收藏
相关论文
共 50 条
  • [1] Marbled Inflation From Population Structure in Gene-Based Association Studies With Rare Variants
    Liu, Qianying
    Nicolae, Dan L.
    Chen, Lin S.
    [J]. GENETIC EPIDEMIOLOGY, 2013, 37 (03) : 286 - 292
  • [2] Boosting signals in gene-based association studies via efficient SNP selection
    Wu, Cen
    Cui, Yuehua
    [J]. BRIEFINGS IN BIOINFORMATICS, 2014, 15 (02) : 279 - 291
  • [3] Gene-based analysis of rare and common variants to determine association with blood pressure
    Xiaofeng Liu
    Joseph Beyene
    [J]. BMC Proceedings, 8 (Suppl 1)
  • [4] Simple method to analyze SNP-based association studies using DNA pools
    Visscher, PM
    Le Hellard, S
    [J]. GENETIC EPIDEMIOLOGY, 2003, 24 (04) : 291 - 296
  • [5] Comparison of methods for multivariate gene-based association tests for complex diseases using common variants
    Jaeyoon Chung
    Gyungah R. Jun
    Josée Dupuis
    Lindsay A. Farrer
    [J]. European Journal of Human Genetics, 2019, 27 : 811 - 823
  • [6] Comparison of methods for multivariate gene-based association tests for complex diseases using common variants
    Chung, Jaeyoon
    Jun, Gyungah R.
    Dupuis, Josee
    Farrer, Lindsay A.
    [J]. EUROPEAN JOURNAL OF HUMAN GENETICS, 2019, 27 (05) : 811 - 823
  • [7] Gene-based segregation method for identifying rare variants in family-based sequencing studies
    Qiao, Dandi
    Lange, Christoph
    Laird, Nan M.
    Won, Sungho
    Hersh, Craig P.
    Morrow, Jarrett
    Hobbs, Brian D.
    Lutz, Sharon M.
    Ruczinski, Ingo
    Beaty, Terri H.
    Silverman, Edwin K.
    Cho, Michael H.
    [J]. GENETIC EPIDEMIOLOGY, 2017, 41 (04) : 309 - 319
  • [8] SNP-based association mapping of the polled gene in divergent cattle breeds
    Seichter, D.
    Russ, I.
    Rothammer, S.
    Eder, J.
    Foerster, M.
    Medugorac, I.
    [J]. ANIMAL GENETICS, 2012, 43 (05) : 595 - 598
  • [9] Streamlined analysis of pooled genotype data in SNP-based association studies
    Moskvina, V
    Norton, N
    Williams, N
    Holmans, P
    Owen, M
    O'Donovan, M
    [J]. GENETIC EPIDEMIOLOGY, 2005, 28 (03) : 273 - 282
  • [10] Evaluation of gene-based association tests for analyzing rare variants using Genetic Analysis Workshop 18 data
    Andriy Derkach
    Jerry F Lawless
    Daniele Merico
    Andrew D Paterson
    Lei Sun
    [J]. BMC Proceedings, 8 (Suppl 1)
12345