Add to ORKGThe problem of finding periodically expressed genes from time course microarray experiments is at the center of numerous efforts to identify the molecular components of biological clocks. We present a new approach to this problem based on the cyclohedron test, which is a rank test inspired by recent advances in algebraic combinatorics. The test has the advantage of being robust to measurement errors, and can be used to ascertain the significance of top-ranked genes. We apply the test to recently published measurements of gene expression during mouse somitogenesis and find 32 genes that collectively are significant. Among these are previously identified periodic genes involved in the Notch/FGF and Wnt signaling pathways, as well as novel can...
Motivation: Identifying periodically expressed genes across different processes such as the cell cy-...
Motivation: Microarray experiments are now routinely used to collect large-scale time series data, f...
Circadian rhythmicity, the 24-hour cycle responsive to light and dark, is determined by periodic osc...
The problem of finding periodically expressed genes from time course microarray experiments is at th...
While genome-wide gene expression data are generated at an increasing rate, the repertoire of approa...
Abstract Background ...
While genome-wide gene expression data are generated at an increasing rate, the repertoire of approa...
Abstract Background Modern high-throughput measurement technologies such as DNA microarrays and next...
Motivation: There is a substantial body of works in the biology literature that seeks to characteriz...
Time-course gene expression analysis has become important in recent developments due to the increasi...
Background Most physiological processes in mammals are temporally regulated by means of a master cir...
<div><p>Robust methods for identifying patterns of expression in genome-wide data are important for ...
The microarray technique allows the simultaneous measurements of the expression levels of thousands ...
The microarray technique allows the simultaneous measurements of the expression levels of thousands ...
Circadian rhythmicity, the 24-hour cycle responsive to light and dark, is determined by periodic osc...
Motivation: Identifying periodically expressed genes across different processes such as the cell cy-...
Motivation: Microarray experiments are now routinely used to collect large-scale time series data, f...
Circadian rhythmicity, the 24-hour cycle responsive to light and dark, is determined by periodic osc...
The problem of finding periodically expressed genes from time course microarray experiments is at th...
While genome-wide gene expression data are generated at an increasing rate, the repertoire of approa...
Abstract Background ...
While genome-wide gene expression data are generated at an increasing rate, the repertoire of approa...
Abstract Background Modern high-throughput measurement technologies such as DNA microarrays and next...
Motivation: There is a substantial body of works in the biology literature that seeks to characteriz...
Time-course gene expression analysis has become important in recent developments due to the increasi...
Background Most physiological processes in mammals are temporally regulated by means of a master cir...
<div><p>Robust methods for identifying patterns of expression in genome-wide data are important for ...
The microarray technique allows the simultaneous measurements of the expression levels of thousands ...
The microarray technique allows the simultaneous measurements of the expression levels of thousands ...
Circadian rhythmicity, the 24-hour cycle responsive to light and dark, is determined by periodic osc...
Motivation: Identifying periodically expressed genes across different processes such as the cell cy-...
Motivation: Microarray experiments are now routinely used to collect large-scale time series data, f...
Circadian rhythmicity, the 24-hour cycle responsive to light and dark, is determined by periodic osc...