Alpha 2.0
Login Register
» Articles » PMID: 15454414

An Efficient Monte Carlo Approach to Assessing Statistical Significance in Genomic Studies

Overview
Journal Bioinformatics
Publisher Oxford University Press
Specialty Biology
Date 2004 Sep 30
PMID 15454414
Citations 86
Authors
D Y Lin
Affiliations
Soon will be listed here.
Abstract

Motivation: Multiple hypothesis testing is a common problem in genome research, particularly in microarray experiments and genomewide association studies. Failure to account for the effects of multiple comparisons would result in an abundance of false positive results. The Bonferroni correction and Holm's step-down procedure are overly conservative, whereas the permutation test is time-consuming and is restricted to simple problems.

Results: We developed an efficient Monte Carlo approach to approximating the joint distribution of the test statistics along the genome. We then used the Monte Carlo distribution to evaluate the commonly used criteria for error control, such as familywise error rates and positive false discovery rates. This approach is applicable to any data structures and test statistics. Applications to simulated and real data demonstrate that the proposed approach provides accurate error control, and can be substantially more powerful than the Bonferroni and Holm methods, especially when the test statistics are highly correlated.

Citing Articles

A Comparison of Methods for Gene-Based Testing That Account for Linkage Disequilibrium.

Cinar O, Viechtbauer W Front Genet. 2022; 13:867724.

PMID: 35601489 PMC: 9117705. DOI: 10.3389/fgene.2022.867724.

Association of Melanoma-Risk Variants with Primary Melanoma Tumor Prognostic Characteristics and Melanoma-Specific Survival in the GEM Study.

Davari D, Orlow I, Kanetsky P, Luo L, Busam K, Sharma A Curr Oncol. 2021; 28(6):4756-4771.

PMID: 34898573 PMC: 8628692. DOI: 10.3390/curroncol28060401.

Disease-Associated Risk Variants in Are Associated with Tumor-Infiltrating Lymphocyte Presence in Primary Melanomas in the Population-Based GEM Study.

Davari D, Orlow I, Kanetsky P, Luo L, Edmiston S, Conway K Cancer Epidemiol Biomarkers Prev. 2021; 30(12):2309-2316.

PMID: 34607836 PMC: 8643342. DOI: 10.1158/1055-9965.EPI-21-0686.

Iterative epigenomic analyses in the same single cell.

Ohnuki H, Venzon D, Lobanov A, Tosato G Genome Res. 2021; 31(10):1819-1830.

PMID: 33627472 PMC: 8494233. DOI: 10.1101/gr.269068.120.

Speeding up Monte Carlo simulations for the adaptive sum of powered score test with importance sampling.

Deng Y, He Y, Xu G, Pan W Biometrics. 2020; 78(1):261-273.

PMID: 33215683 PMC: 8134502. DOI: 10.1111/biom.13407.