Abstract:
We have recently developed a computational capability for (a) inference of individual response networks and (b) global transcription regulation networks in Synechococcus ...Show MoreMetadata
Abstract:
We have recently developed a computational capability for (a) inference of individual response networks and (b) global transcription regulation networks in Synechococcus sp. WH8102. The overall framework for inference of response networks can be summarized as follows. The framework employs a template-based network inference strategy. Under this framework, we first identify organisms that are known to have similar response systems to Synechococcus sp for a particular stimulus, and that have a large quantity of experimental data available, particularly microarray gene expression data. For each such "template" organism, we first build network models, and then map these template network models to Synechococcus sp. Through literature search and database search, we build a conceptual framework first for a specific response network in each template organism. The detailed network models will be then built through a series of predictions of gene functions, operon and regulon structures, transcription regulatory binding sites, protein-protein interactions and protein-DNA interactions, and incorporate these prediction results into the conceptual model. After the template network models are built, we map these models to Synechococcus sp through a constrained orthologous gene mapping scheme. The basic idea is to map genes of a network model to their predicted homologous genes under the constraints that these genes should belong to a group of co-regulated operons, which is predicted based on operon structure prediction and prediction of transcriptional regulatory binding sites. The mapped network models will then be refined and expanded through application of a genome-scale protein-protein interaction network, which is predicted through a series of computational prediction tools. We have applied this capability to derive a number of response networks in Synechococcus sp, such as phosphorus assimilation pathway, carbon fixation pathway, nitrogen assimilation pathway. Experiments a...
Date of Conference: 21-21 May 2004
Date Added to IEEE Xplore: 26 July 2004
Print ISBN:0-7695-2173-8