RANK DISCRIMINANTS FOR PREDICTING PHENOTYPES FROM RNA EXPRESSION
成果类型:
Article
署名作者:
Afsari, Bahman; Braga-Neto, Ulisses M.; Geman, Donald
署名单位:
Johns Hopkins University; Texas A&M University System; Texas A&M University College Station; Johns Hopkins University
刊物名称:
ANNALS OF APPLIED STATISTICS
ISSN/ISSBN:
1932-6157
DOI:
10.1214/14-AOAS738
发表日期:
2014
页码:
1469-1491
关键词:
gene-expression
prostate-cancer
microarray data
molecular classification
tumor classification
2-gene classifier
diagnosis
selection
patterns
cell
摘要:
Statistical methods for analyzing large-scale biomolecular data are commonplace in computational biology. A notable example is phenotype prediction from gene expression data, for instance, detecting human cancers, differentiating subtypes and predicting clinical outcomes. Still, clinical applications remain scarce. One reason is that the complexity of the decision rules that emerge from standard statistical learning impedes biological understanding, in particular, any mechanistic interpretation. Here we explore decision rules for binary classification utilizing only the ordering of expression among several genes; the basic building blocks are then two-gene expression comparisons. The simplest example, just one comparison, is the TSP classifier, which has appeared in a variety of cancer-related discovery studies. Decision rules based on multiple comparisons can better accommodate class heterogeneity, and thereby increase accuracy, and might provide a link with biological mechanism. We consider a general framework (rank-in-context) for designing discriminant functions, including a data-driven selection of the number and identity of the genes in the support (context). We then specialize to two examples: voting among several pairs and comparing the median expression in two groups of genes. Comprehensive experiments assess accuracy relative to other, more complex, methods, and reinforce earlier observations that simple classifiers are competitive.
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