Optimizing the GATA-3 position weight matrix to improve the identification of novel binding sites
Description
Title: | Optimizing the GATA-3 position weight matrix to improve the identification of novel binding sites |
Authors: | Nandi, Soumyadeep Ioshikhes, Ilya |
Date: | 2012-08-22 |
Abstract: | Abstract Background The identifying of binding sites for transcription factors is a key component of gene regulatory network analysis. This is often done using position-weight matrices (PWMs). Because of the importance of in silico mapping of tentative binding sites, we previously developed an approach for PWM optimization that substantially improves the accuracy of such mapping. Results The present work implements the optimization algorithm applied to the existing PWM for GATA-3 transcription factor and builds a new di-nucleotide PWM. The existing available PWM is based on experimental data adopted from Jaspar. The optimized PWM substantially improves the sensitivity and specificity of the TF mapping compared to the conventional applications. The refined PWM also facilitates in silico identification of novel binding sites that are supported by experimental data. We also describe uncommon positioning of binding motifs for several T-cell lineage specific factors in human promoters. Conclusion Our proposed di-nucleotide PWM approach outperforms the conventional mono-nucleotide PWM approach with respect to GATA-3. Therefore our new di-nucleotide PWM provides new insight into plausible transcriptional regulatory interactions in human promoters. |
URL: | http://dx.doi.org/10.1186/1471-2164-13-416 http://hdl.handle.net/10393/33513 |
Collection | Libre accès - Publications // Open Access - Publications |
Files
12864_2011_Article_4296.pdf | 1.19 MB | Adobe PDF | Open |