; compare-matrices -v 1 -mode matches -format1 transfac -file1 $RSAT/public_html/tmp/wwwrun/2014/09/03/peak-motifs.2014-09-03.182940_2014-09-03.182940_LkVj4M/results/discovered_motifs/positions_8nt_m2/peak-motifs_positions_8nt_m2.tf -format2 tf -file2 $RSAT/public_html/tmp/wwwrun/2014/09/03/peak-motifs.2014-09-03.182940_2014-09-03.182940_LkVj4M/peak-motifs_custom_motif_db.tf -mode matches -DR -uth offset_rank 1 -lth w 5 -lth Wr 0.3 -lth cor 0.75 -lth Ncor 0.4 -return matrix_name,matrix_id,cor,Ncor,logoDP,NIcor,NsEucl,SSD,NSW,match_rank,width,strand,offset,consensus,alignments_1ton -sort Ncor -o $RSAT/public_html/tmp/wwwrun/2014/09/03/peak-motifs.2014-09-03.182940_2014-09-03.182940_LkVj4M/results/discovered_motifs/positions_8nt_m2/peak-motifs_positions_8nt_m2_vs_db_Schmidt_CEBPa_motif ; Program version 1.118 ; Input files ; file2 /home/rsat/rsat/public_html/tmp/wwwrun/2014/09/03/peak-motifs.2014-09-03.182940_2014-09-03.182940_LkVj4M/peak-motifs_custom_motif_db.tf ; file1 /home/rsat/rsat/public_html/tmp/wwwrun/2014/09/03/peak-motifs.2014-09-03.182940_2014-09-03.182940_LkVj4M/results/discovered_motifs/positions_8nt_m2/peak-motifs_positions_8nt_m2.tf ; Output files ; alignments_1ton /home/rsat/rsat/public_html/tmp/wwwrun/2014/09/03/peak-motifs.2014-09-03.182940_2014-09-03.182940_LkVj4M/results/discovered_motifs/positions_8nt_m2/peak-motifs_positions_8nt_m2_vs_db_Schmidt_CEBPa_motif_alignments_1ton.tab ; match_table_txt /home/rsat/rsat/public_html/tmp/wwwrun/2014/09/03/peak-motifs.2014-09-03.182940_2014-09-03.182940_LkVj4M/results/discovered_motifs/positions_8nt_m2/peak-motifs_positions_8nt_m2_vs_db_Schmidt_CEBPa_motif.tab ; html_index /home/rsat/rsat/public_html/tmp/wwwrun/2014/09/03/peak-motifs.2014-09-03.182940_2014-09-03.182940_LkVj4M/results/discovered_motifs/positions_8nt_m2/peak-motifs_positions_8nt_m2_vs_db_Schmidt_CEBPa_motif_index.html ; alignments_1ton_html /home/rsat/rsat/public_html/tmp/wwwrun/2014/09/03/peak-motifs.2014-09-03.182940_2014-09-03.182940_LkVj4M/results/discovered_motifs/positions_8nt_m2/peak-motifs_positions_8nt_m2_vs_db_Schmidt_CEBPa_motif_alignments_1ton.html ; match_table_html /home/rsat/rsat/public_html/tmp/wwwrun/2014/09/03/peak-motifs.2014-09-03.182940_2014-09-03.182940_LkVj4M/results/discovered_motifs/positions_8nt_m2/peak-motifs_positions_8nt_m2_vs_db_Schmidt_CEBPa_motif.html ; prefix /home/rsat/rsat/public_html/tmp/wwwrun/2014/09/03/peak-motifs.2014-09-03.182940_2014-09-03.182940_LkVj4M/results/discovered_motifs/positions_8nt_m2/peak-motifs_positions_8nt_m2_vs_db_Schmidt_CEBPa_motif ; Matrices ; file1 1 matrices /home/rsat/rsat/public_html/tmp/wwwrun/2014/09/03/peak-motifs.2014-09-03.182940_2014-09-03.182940_LkVj4M/results/discovered_motifs/positions_8nt_m2/peak-motifs_positions_8nt_m2.tf ; file1 1 16 638 wrTGATTGTGCAAgad ; file2 1 matrices /home/rsat/rsat/public_html/tmp/wwwrun/2014/09/03/peak-motifs.2014-09-03.182940_2014-09-03.182940_LkVj4M/peak-motifs_custom_motif_db.tf ; file2 1 11 431 rTTGCacMAym ; Column content ; 1 id1 Identifier of the first matrix ; 2 id2 Identifier of the second matrix ; 3 name1 Name of the first matrix ; 4 name2 Name of the second matrix ; 5 cor Pearson coefficient of correlation between frequency matrices ; 6 Ncor Normalized correlation. Ncor = cor * Wr ; 7 logoDP Dot product between the logo matrices. ; 8 NIcor Normalized Pearson correlation between the information content matrices. NIcor = Icor * Wr ; 9 NSW Normalized Sandelin-Wasserman similarity. NSW = SW/w ; 10 SSD sum of squared distance. ; 11 NsEucl relative Euclidian similarity. NsEucl = (max(dEucl) - dEucl)/max(dEucl) ; 12 w1 Width of the first matrix ; 13 w2 Width of the second matrix ; 14 w Alignment length (number of overlapping columns between matrix 1 and matrix 2, as a function of the offset) ; 15 W Total alignment length (overlapping + non-overlapping columns). W = w1 + w2 - w ; 16 Wr Relative alignment length (overlap divided by the total alignemnt length). Wr = w/W ; 17 wr1 Alignment length relative to the width of the first matrix. wr1 = w/w1 ; 18 wr2 Alignment length relative to the width of the second matrix. wr2 = w/w2 ; 19 strand "strand", i.e. orientation of matrix 2 relative to matrix 1 (D=direct; R=reverse) ; 20 offset shift of the second matrix relative to the first matrix (negative:left; positive: right) ; 21 consensus1 IUPAC consensus of matrix 1 (dots represent non-aligned columns) ; 22 consensus2 IUPAC consensus of matrix 2 (dots represent non-aligned columns) ; 23 rcor Matching rank for cor ; 24 rNcor Matching rank for Ncor ; 25 rlogoDP Matching rank for logoDP ; 26 rNIcor Matching rank for NIcor ; 27 rNsEucl Matching rank for NsEucl ; 28 rSSD Matching rank for SSD ; 29 rNSW Matching rank for NSW ; 30 rank_mean Mean of the matching ranks on all selected metrics ; 31 match_rank Rank of the match (sorting by rank_mean) #id1 id2 name1 name2 cor Ncor logoDP NIcor NSW SSD NsEucl w1 w2 w W Wr wr1 wr2 strand offset consensus1 consensus2 rcor rNcor rlogoDP rNIcor rNsEucl rSSD rNSW rank_mean match_rank positions_8nt_m2 do560+do843_mmus_cebpa_liver_meme_top_m1 positions_8nt_m2 do560+do843_mmus_cebpa_liver_meme_top_m1 0.872 0.599 4.112 0.066 0.923 1.6831 0.91660 16 11 11 16 0.6875 0.6875 1.0000 R 3 ...GATTGTGCAAg.. KRTKGTGCAAY 1 1 1 1 1 1 1 1.0000 1 ; Host name rsat ; Job started 2014-09-03.190624 ; Job done 2014-09-03.190625 ; Seconds 0.36 ; user 0.36 ; system 0.02 ; cuser 0.33 ; csystem 0.01