Genes never act alone in a biological system, but participate in a cascade of networks. As a result, analyzing microarray data from a pathway perspective leads to a new level of understanding the system. The authors' group has recently developed Pathway Processor (http://cgr.harvard.edu/cavalieri/pp.html), an automatic statistical method to determine which pathways are most affected by transcriptional changes and to map expression data from multiple whole-genome expression experiments on metabolic pathways. This unit presents applications of the Pathway Processor software.
Integrating whole-genome expression results into metabolic networks with Pathway Processor / D.Cavalieri; P.Grosu. - In: CURRENT PROTOCOLS IN BIOINFORMATICS. - ISSN 1934-3396. - STAMPA. - -:(2004), pp. Unit 7.6-Unit 7.6. [10.1101/gr.226602]
Integrating whole-genome expression results into metabolic networks with Pathway Processor.
CAVALIERI, DUCCIO;
2004
Abstract
Genes never act alone in a biological system, but participate in a cascade of networks. As a result, analyzing microarray data from a pathway perspective leads to a new level of understanding the system. The authors' group has recently developed Pathway Processor (http://cgr.harvard.edu/cavalieri/pp.html), an automatic statistical method to determine which pathways are most affected by transcriptional changes and to map expression data from multiple whole-genome expression experiments on metabolic pathways. This unit presents applications of the Pathway Processor software.
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