MOTIVATION: Transcription-factor binding sites (TFBS) in promoter sequences of higher eukaryotes are commonly modeled using position frequency matrices (PFM). The ability to compare PFMs representing binding sites is especially important for de novo sequence motif discovery, where it is desirable to compare putative matrices to one another and to known matrices. RESULTS: We describe a PFM similarity quantification method based on product multinomial distributions, demonstrate its ability to identify PFM similarity and show that it has a better false positive to false negative ratio compared to existing methods. We grouped TFBS frequency matrices from two libraries into matrix families and identified the matrices that are common and unique to these libraries. We identified similarities and differences between the skeletal-muscle-specific and non-muscle-specific frequency matrices for the binding sites of Mef-2, Myf, Sp-1, SRF and TEF of Wasserman and Fickett. We further identified known frequency matrices and matrix families that were strongly similar to the matrices given by Wasserman and Fickett. We provide methodology and tools to compare and query libraries of frequency matrices for TFBSs. AVAILABILITY: Software is available to use over the Web at http://rulai.cshl.edu/MatCompare SUPPLEMENTARY INFORMATION: Database and clustering statistics, matrix families and representatives are available at http://rulai.cshl.edu/MatCompare/Supplementary.
MOTIVATION: Transcription-factor binding sites (TFBS) in promoter sequences of higher eukaryotes are commonly modeled using position frequency matrices (PFM). The ability to compare PFMs representing binding sites is especially important for de novo sequence motif discovery, where it is desirable to compare putative matrices to one another and to known matrices. RESULTS: We describe a PFM similarity quantification method based on product multinomial distributions, demonstrate its ability to identify PFM similarity and show that it has a better false positive to false negative ratio compared to existing methods. We grouped TFBS frequency matrices from two libraries into matrix families and identified the matrices that are common and unique to these libraries. We identified similarities and differences between the skeletal-muscle-specific and non-muscle-specific frequency matrices for the binding sites of Mef-2, Myf, Sp-1, SRF and TEF of Wasserman and Fickett. We further identified known frequency matrices and matrix families that were strongly similar to the matrices given by Wasserman and Fickett. We provide methodology and tools to compare and query libraries of frequency matrices for TFBSs. AVAILABILITY: Software is available to use over the Web at http://rulai.cshl.edu/MatCompare SUPPLEMENTARY INFORMATION: Database and clustering statistics, matrix families and representatives are available at http://rulai.cshl.edu/MatCompare/Supplementary.
Authors: Jun Eguchi; Qing-Wu Yan; Dustin E Schones; Michael Kamal; Chung-Hsin Hsu; Michael Q Zhang; Gregory E Crawford; Evan D Rosen Journal: Cell Metab Date: 2008-01 Impact factor: 27.287
Authors: Jens Lichtenberg; Edwin Jacox; Joshua D Welch; Kyle Kurz; Xiaoyu Liang; Mary Qu Yang; Frank Drews; Klaus Ecker; Stephen S Lee; Laura Elnitski; Lonnie R Welch Journal: BMC Genomics Date: 2009-07-07 Impact factor: 3.969
Authors: Ying Zhang; Weisheng Wu; Yong Cheng; David C King; Robert S Harris; James Taylor; Francesca Chiaromonte; Ross C Hardison Journal: Nucleic Acids Res Date: 2009-11 Impact factor: 16.971