MEME

For further information on how to interpret these results or to get a copy of the MEME software please access http://meme.nbcr.net.

If you use MEME in your research, please cite the following paper:
Timothy L. Bailey and Charles Elkan, "Fitting a mixture model by expectation maximization to discover motifs in biopolymers", Proceedings of the Second International Conference on Intelligent Systems for Molecular Biology, pp. 28-36, AAAI Press, Menlo Park, California, 1994.

Discovered Motifs   |   Block diagrams of Motifs   |   Program information   |   Explanation

Discovered Motifs

Motif Overview

Motif 1
  • 2.3e-361
  • 112 sites
 Motif 1 Logo Motif 1 Logo
Motif 2
  • 1.9e-270
  • 99 sites
 Motif 2 Logo Motif 2 Logo
Motif 3
  • 4.8e-168
  • 272 sites
 Motif 3 Logo Motif 3 Logo
Motif 4
  • 1.1e-128
  • 108 sites
 Motif 4 Logo Motif 4 Logo
Motif 5
  • 7.0e-107
  • 30 sites
 Motif 5 Logo Motif 5 Logo

Further Analysis

Submit all motifs to  
      
      
      
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Motif 1

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Summary

Sequence Logo

E-value 2.3e-361
Width 20
Sites 112
show more
PNG LOGOS require CONVERT from ImageMagick; see MEME installation guide
StandardReverse Complement

Download LOGO
   Orientation:    SSC:    Format:    Width: cm    Height: cm   

Regular expression

CGTC[CA][AC]CAACTTTTT[GT]C[CT][TG][CT]

Further Analysis

Submit this motif to  
      
      
      
      
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Data Formats

View the motif in PSPM Format 
     PSSM Format 
     BLOCKS Format 
     FASTA Format 
     Raw Format 
     or Hide

Sites

Click on any row to highlight sequence in all motifs.

Name Start p-value Sites
dse7_7 0 1.43e-11 CGTCCACAACTTTTTGCTGC CTGCTGCCTT
dse6_15 0 1.43e-11 CGTCCACAACTTTTTGCTGC CTGCTGCCTG
dsi3_1 0 1.43e-11 CGTCCACAACTTTTTGCTGC CTGCTGCTGC
dsi2_1 0 1.43e-11 CGTCCACAACTTTTTGCTGC CTGCTGCCTT
dsi1_11 0 1.43e-11 CGTCCACAACTTTTTGCTGC CTGCTGCCTG
dme8_1 0 1.43e-11 CGTCCACAACTTTTTGCTGC TTGCTGCCTG
dme7_13 0 1.43e-11 CGTCCACAACTTTTTGCTGC CTGCTGTCTG
dme6_1 0 1.43e-11 CGTCCACAACTTTTTGCTGC CTGCTGCNNN
dme5_1 0 1.43e-11 CGTCCACAACTTTTTGCTGC CTGCTGCCTT
dme4_186 0 1.43e-11 CGTCCACAACTTTTTGCTGC CTGCTGCCTG
dan6_1 0 3.57e-11 CGTCAACAACTTTTTGCCCC CATTTCTCCC
dan5_57 0 3.57e-11 CGTCAACAACTTTTTGCCCC CAGTTCTCCC
dan4_1 0 3.57e-11 CGTCAACAACTTTTTGCCCC C
dme3_2 0 1.13e-10 CGTCCACAACCTTTTGCTGC CTGCTGCCTG
dpe11_2 0 1.51e-10 CGTCACCAACTTTTTGCCTT TTGCCTTTTG
dpe10_2 0 1.51e-10 CGTCACCAACTTTTTGCCTT TTGCCTTGAA
dpe9_17 0 1.51e-10 CGTCACCAACTTTTTGCCTT TTGCCGTATT
dpe8_20 0 1.51e-10 CGTCACCAACTTTTTGCCTT TTACCTTTTG
dpe7_1 0 1.51e-10 CGTCACCAACTTTTTGCCTT TTACCTGTTG
dpe6_1 0 1.51e-10 CGTCACCAACTTTTTGCCTT TGACCTTTTG
dps8_28 0 1.51e-10 CGTCACCAACTTTTTGCCTT TTTGCCTTTT
dps7_1 0 1.51e-10 CGTCACCAACTTTTTGCCTT TTTGCCGTAC
dps6_2 0 1.51e-10 CGTCACCAACTTTTTGCCTT TTGTCGTATT
dps5_5 0 1.51e-10 CGTCACCAACTTTTTGCCTT TTGCCGTATT
dps4_1 0 1.51e-10 CGTCACCAACTTTTTGCCTT TTGCCGTATG
dps3_3 0 1.51e-10 CGTCACCAACTTTTTGCCTT TTGCCGTACT
dme9_2 0 1.51e-10 CGTCCACAACTTTTTGCTGN NNNNNNNNNN
dps2_1 0 2.54e-10 CGTCACCAACTTTTTGCCCT TTTGCCGTAT
dpe18_1 0 3.51e-10 CGTCGCCAACTTTTTGCCTT TTGCCGTATT
dpe1_1 0 4.17e-10 CGGCACCAACTTTTTGCCTT TTGTCGTATT
dse1_1 0 4.17e-10 CGTCCACAACTCTTTGCTGC CTACTGCCTG
dps9_1 0 6.20e-10 CGTCACCAACTTTTTGGCTT TTGCCGTATT
dpe12_1 0 7.50e-10 CGTCACCAACTTTTTGCTTT TTGCCTTTTG
dpe13_1 0 1.06e-09 CGTCACCAACTTTTTTCCTT TTGCCTTTTG
dpe16_1 0 1.20e-09 CGTCACCCACTTTTTGCCTT TTACCTTTTT
dan3_4 0 1.82e-09 CGTCAACAACTTTTTGCACC CAGTTCTCCC
dse4_1 0 2.12e-09 CGTCCACAACTTTTAGCTGC CTGCTGCCTG
dse3_1 0 2.12e-09 CGTCCACAACTGTTTGCTGC CTGCTGCCTG
dse8_1 1 2.95e-09 T CGTCCACAACTTTTTTGCTG CCTGCTGCC
dse5_1 0 3.41e-09 CGTCCACAACTTTTTCCTGC CTGCTGCCTG
der5_2 0 4.00e-09 CGTCGTCAACTTTTTGCTGC TTTCTAGCCT
der4_34 0 4.00e-09 CGTCGTCAACTTTTTGCTGC CTTCTAGCCT
der3_1 0 4.00e-09 CGTCGTCAACTTTTTGCTGC CCTCTAGCCT
dan8_1 0 4.51e-09 CGTTAACAACTTTTTGCCCC CAGTTCTCCC
dpe20_1 1 5.11e-09 T CGTCACCAACTTTTTTGCCT TTTACCTTT
dpe14_2 0 5.11e-09 CGTCACCAACTTTTTTGCCT TTTGCCGTAT
dpe2_1 0 5.11e-09 CGTCACAAACTTTTTGCCTT TTGTCGTATT
dps12_3 0 5.11e-09 CGTCACCAACTTTTTTGCCT TTTGTCGTAT
dps11_1 0 5.11e-09 CGTCACCAACTTTTTTGCCT TTTGCCGTAT
dps10_1 0 5.11e-09 CGTCACCAACTTTTTTGCCT TTTGACGTAT
dme1_6 0 7.63e-09 CATCCACAACTTTTTGCTGC CTGCTGCCTG
dps1_2 0 8.90e-09 CGTCACCAAATTTTTGCCTT TTTGCCTTTT
dpe5_1 0 1.15e-08 CGTCACCAACTTTTTGACTT TTGCCGTAAT
der2_1 0 1.48e-08 CGTCGTCAACTTTTTGCTCC TTCGTAGCCT
dme2_1 0 2.11e-08 CGTACACAACTTTTTGCTGC CTGCTGCCTG
pva5_1 3 3.90e-08 TTG CCGCCCCCTCTTTTTGCCGC TCTCCAG
dpe15_1 0 4.34e-08 CGTCACCAACTTTTTTTTTG CCTTTTGTCG
dvi13_1 1 6.82e-08 T CGTCCACAACTTTTTTTTAT AGCTCGAAC
dvi2_1 2 6.82e-08 AT CGTCCACAACTTTTTTTTAT AGCTCGAA
pva4_1 3 1.06e-07 TTG CCGCCCCCTCCTTTTGCCGC CCTCCAG
der6_1 0 1.17e-07 CGTCGTCAACTTTTTTGCTG CCTTCTAGCC
dse2_1 0 1.30e-07 CGTCCACAACTGTCTGCTGC CTGCTGCCTG
der1_1 0 1.78e-07 CGTCGTCAACTTTTTGCGTG TTCCAACTTT
dpe3_1 0 2.17e-07 CGTCACCAACTTATTGCATT TTACCTTATG
dvi12_1 1 3.24e-07 T CGTCCACAACTTTTTTTATA GCTCGAATA
dvi11_52 1 3.24e-07 T CGTCCACAACTTTTTTTATA GCTCGAACA
dpe17_2 0 3.92e-07 CGTCACTAACTTTTTTGCCT TTTGACGTAT
dmo3_1 7 4.74e-07 CGGCATC CGTTGACAACTTTTTTGTTG TTT
pva23_1 4 5.21e-07 TTTG CCGCCCCCTCCTTTTGCCTT CCTCCA
pva12_2 6 9.05e-07 TTGCCG CCGCCTCCTCCTTTTGCCGC CCTC
dya3_19 0 1.08e-06 CGTCGACCAACTTTTTGCTT TTTGCCTTTT
pva26_1 4 1.08e-06 TTTG CCGCGCCCTCCTTTTGCCAC CCTCCA
dan1_1 0 1.18e-06 CATCAAAAACTTTTTGCACC CACTCCTCCA
dan2_1 0 1.53e-06 CGTCAACAACTTTTGCCCCA GTTCTCCCCA
pva22_1 3 1.53e-06 TTG TCGCCCCCTCTTTTTTCCGC CCTCAAG
pva21_1 3 1.53e-06 TTG TCGCCCCCTCTTTTTTCCGC CCTCAAA
dmo5_1 7 1.82e-06 CGGCATC TGTTGACAACTTTTTTGTTC TTT
dgr9_1 1 1.98e-06 C CGTCCAAAACACTTTTTTTC TTAAACTTT
dgr7_1 1 2.15e-06 C CGTCAAAAACATTTTTTTCG TATTTTTTT
pva2_1 3 2.15e-06 TTG CCACCCCCTCTTTTTTCCGC CCTCAAG
dmo4_1 7 2.34e-06 CGGCATC TGTTCACAACTTTTTTGTTG TTT
dvi14_2 1 2.34e-06 T CGTCCTCAACTTTTTTTATA GCTCGAACA
pva8_1 3 2.34e-06 TTG CCGCCCCCTTTTTTTTCCGC CCTCCAG
dvi15_1 1 3.52e-06 T CGTTAACAACCTTTTTTTTA TAAATCAAT
pva25_1 4 3.52e-06 TTTG CCGCCCCTCCTTTTTGCCGC CCTCCC
dmo9_47 0 4.13e-06 CGTCCAAAACACTTTTTTAC TTTTTACGCC
dmo8_1 0 4.13e-06 CGTCCAAAACACTTTTTTAC TTTTTACACC
dmo7_1 0 4.13e-06 CGTCCAAAACACTTTTTTAC TTTTACGCCC
dmo1_1 2 4.13e-06 AT CGTCCAAAACACTTTTTTAC TTTTTACG
dmo14_1 7 4.47e-06 TGGCATC TGTTGACAACTTTTTTGTTG TTT
dmo6_2 7 4.47e-06 CGGCATC TGTTGACAACTTTTTTGTTG TTT
pva9_1 3 4.83e-06 TTG CCGCCCCCTTTTTTTTCTGC CCTGAAG
pva20_1 3 5.65e-06 TTG TCGCCCCCTCTTTTTTCCAC CCTCAAG
dmo2_1 3 6.10e-06 ATC TGTTAACAACTTTTTTATTC CAAAAAT
dvi7_1 1 6.10e-06 T CGGTCACAACTTTTTTAGTT TTATAAATA
dpe21_1 0 8.89e-06 TGTCAGCAAACTTTTTGCTC CTTTTTCTAG
pva6_1 3 9.57e-06 TTG CCGCCCCCTTTTTTTCCCGC CCTCCAG
dgr10_6 0 1.03e-05 CGTCAACAATACTTTTTTTT ATAGCAGCTG
pva18_1 3 1.11e-05 TTG TCGCCCCCTCCTTTTTCCAC CCTCAAG
pva14_1 3 1.11e-05 TTG CCGCTCCCTCCTTTTTCCGC CCTCAAG
pva19_1 3 1.19e-05 TTG TCGCCCCCTCTTTTATCCGC CCTCAAG
dya4_1 0 1.59e-05 CGTCGACCCACTTTTTGCTT TTTGCCTTTT
dya1_1 0 1.70e-05 CATCGACCAACTTTTTGCTT TTTGCCTTTT
pva3_1 3 1.70e-05 TTG CCGCCCCATTTTTTTTTCCG CCCTCAA
dgr15_2 1 1.96e-05 C TGTCCAAAACACTTTTTTGG AGCTTATGT
dya5_1 0 2.09e-05 CGTCGATCAACTTTTTGCTT TTTGCCTTTT
dvi6_1 2 2.24e-05 TC GGTCAACAATCTTTTTTTTT ATAAATAA
dvi10_1 2 2.40e-05 TC GGTTAACAACTTTTTTTGTT CTATTTTT
dmo11_1 0 2.75e-05 CGTCCGAAACACTTTTTTAC TTTTTACGCC
ssc4_1 4 2.75e-05 TTTG CCTCCCTCTCCTTTAGGCGC CGCCGC
dpe4_1 0 3.58e-05 CGTCACCAACTTNNNNNNNN NNNNNNNNNN
dme10_1 0 7.69e-04 CGTCCACAANNNNNNNNNNN NNNNNNNNNN

Block Diagrams

The height of the motif "block" is proportional to -log(p-value), truncated at the height for a motif with a p-value of 1e-10.
Click on any row to highlight sequence in all motifs. Mouse over the center of the motif blocks to see more information.

Name Lowest p-value Motif Location
ssc4_1 2.75e-05
pva2_1 2.15e-06
pva3_1 1.70e-05
pva4_1 1.06e-07
pva5_1 3.90e-08
pva6_1 9.57e-06
pva8_1 2.34e-06
pva9_1 4.83e-06
pva12_2 9.05e-07
pva14_1 1.11e-05
pva18_1 1.11e-05
pva19_1 1.19e-05
pva20_1 5.65e-06
pva21_1 1.53e-06
pva22_1 1.53e-06
pva23_1 5.21e-07
pva25_1 3.52e-06
pva26_1 1.08e-06
dme1_6 7.63e-09
dme2_1 2.11e-08
dme3_2 1.13e-10
dme4_186 1.43e-11
dme5_1 1.43e-11
dme6_1 1.43e-11
dme7_13 1.43e-11
dme8_1 1.43e-11
dme9_2 1.51e-10
dme10_1 7.69e-04
dsi1_11 1.43e-11
dsi2_1 1.43e-11
dsi3_1 1.43e-11
dse1_1 4.17e-10
dse2_1 1.30e-07
dse3_1 2.12e-09
dse4_1 2.12e-09
dse5_1 3.41e-09
dse6_15 1.43e-11
dse7_7 1.43e-11
dse8_1 2.95e-09
der1_1 1.78e-07
der2_1 1.48e-08
der3_1 4.00e-09
der4_34 4.00e-09
der5_2 4.00e-09
der6_1 1.17e-07
dya1_1 1.70e-05
dya3_19 1.08e-06
dya4_1 1.59e-05
dya5_1 2.09e-05
dan1_1 1.18e-06
dan2_1 1.53e-06
dan3_4 1.82e-09
dan4_1 3.57e-11
dan5_57 3.57e-11
dan6_1 3.57e-11
dan8_1 4.51e-09
dps1_2 8.90e-09
dps2_1 2.54e-10
dps3_3 1.51e-10
dps4_1 1.51e-10
dps5_5 1.51e-10
dps6_2 1.51e-10
dps7_1 1.51e-10
dps8_28 1.51e-10
dps9_1 6.20e-10
dps10_1 5.11e-09
dps11_1 5.11e-09
dps12_3 5.11e-09
dpe1_1 4.17e-10
dpe2_1 5.11e-09
dpe3_1 2.17e-07
dpe4_1 3.58e-05
dpe5_1 1.15e-08
dpe6_1 1.51e-10
dpe7_1 1.51e-10
dpe8_20 1.51e-10
dpe9_17 1.51e-10
dpe10_2 1.51e-10
dpe11_2 1.51e-10
dpe12_1 7.50e-10
dpe13_1 1.06e-09
dpe14_2 5.11e-09
dpe15_1 4.34e-08
dpe16_1 1.20e-09
dpe17_2 3.92e-07
dpe18_1 3.51e-10
dpe20_1 5.11e-09
dpe21_1 8.89e-06
dvi2_1 6.82e-08
dvi6_1 2.24e-05
dvi7_1 6.10e-06
dvi10_1 2.40e-05
dvi11_52 3.24e-07
dvi12_1 3.24e-07
dvi13_1 6.82e-08
dvi14_2 2.34e-06
dvi15_1 3.52e-06
dmo1_1 4.13e-06
dmo2_1 6.10e-06
dmo3_1 4.74e-07
dmo4_1 2.34e-06
dmo5_1 1.82e-06
dmo6_2 4.47e-06
dmo7_1 4.13e-06
dmo8_1 4.13e-06
dmo9_47 4.13e-06
dmo11_1 2.75e-05
dmo14_1 4.47e-06
dgr7_1 2.15e-06
dgr9_1 1.98e-06
dgr10_6 1.03e-05
dgr15_2 1.96e-05
 
0
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15
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30

Time 482.2 secs.

Motif 2

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Summary

Sequence Logo

E-value 1.9e-270
Width 20
Sites 99
show more
PNG LOGOS require CONVERT from ImageMagick; see MEME installation guide
StandardReverse Complement

Download LOGO
   Orientation:    SSC:    Format:    Width: cm    Height: cm   

Regular expression

AAAAAAAAAA[AG]AAA[AGT]AA[AT][AG]A

Further Analysis

Submit this motif to  
      
      
      
      
 Mouse-over buttons for more information.

Data Formats

View the motif in PSPM Format 
     PSSM Format 
     BLOCKS Format 
     FASTA Format 
     Raw Format 
     or Hide

Sites

Click on any row to highlight sequence in all motifs.

Name Start p-value Sites
phu3_1 8 3.06e-13 AAAAGAGC AAAAAAAAAAAAAAAAAAAA TG
mlu1_1 0 3.06e-13 AAAAAAAAAAAAAAAAAAAA AAAAGTCTTA
ocu2_1 2 7.72e-13 TA AAAAAAAAAAAAAAAAAAGA CAGTAAAA
bta3_1 5 9.39e-13 AATAA AAAAAAAAAAGAAAGAAAGA AAGAA
cho3_1 6 3.58e-12 AAAATT AAAAAAAAGAAAAAGAAAAA AAAC
ete2_1 0 1.79e-11 AAAAAAAAAAGAAAAGAAAA GAAAAGAAAA
rno7_1 3 2.53e-11 TTA AAAAAAGAAAAAGAAAAAAA AATACTT
dor1_1 8 3.04e-11 AAATATTG AAGAAAAAAAAAAAAAGAAA AG
ssc5_1 5 3.70e-11 TTTTA AAAAAAGAAAGAAAGAAAAG AAAAT
tbe3_1 1 8.87e-11 T AAAAAAAAAAGAAATAATAA TAATAATAA
phu6_1 8 1.08e-10 AAAGAGCA AAAAAAAAAAAAAAATGAGA AC
phu4_1 8 1.08e-10 AAAAGAGC AAAAAAAAAAAAAAATGAGA AC
cfa3_1 2 1.08e-10 TA AAAAAAGAAAGAAAGAAATA GAAAAATA
bta1_1 3 1.29e-10 AAA AAAAAAAAAAAAATTAAAAA AAAAAGT
dno2_1 10 2.18e-10 TCTCATGTTG AAAAGAAAAAAAAGAAAAGA
bta2_1 0 3.03e-10 AAAAAAAATAAAAATAAAAA TAAATGTGAA
rno5_1 0 3.03e-10 TAAAAAGAAAGAAAGAAAGA AATATCCATG
ete6_1 0 3.55e-10 TAAAAAAAAAAAAAGAGAAG CCACCTCTGT
vpa1_1 10 4.20e-10 ATCGTTGTTT AAAAAAAAAAAAAAATGAAG
oga6_1 7 4.20e-10 CTGCTTT TAAAAACAAAGAAAGAAAAA ATC
cjc1_1 1 4.91e-10 T AAAAAAAAAAAAAAAAGTTA CAAGTACAT
ete4_1 0 5.76e-10 AAAAGAAAAGAAAAAAGAAA GAAAAGGGGG
phu1_1 9 7.79e-10 AAAAAGAGC AAAAAAAAAAAAAATGAGAA C
cfa2_1 2 7.79e-10 TA AAAAAAAAAAAAAAACATTA TGCTGGCT
ete1_1 0 1.64e-09 AAAAAAAAAACAAAAACATA TATATATATA
oga11_1 8 1.91e-09 TTATTTTT AAAAAAAATTAAAAAAAAAA AA
oga1_1 1 2.20e-09 A AAAAAAGAAAAAAAGGGGGA AAAAAGAAA
cho2_1 2 2.94e-09 AA AACAAAGAAAGAAAGAAAGG AAGGAAGA
mlu7_1 4 2.94e-09 CAAA AACAAAAAAAGAAGCAAAAA ACATCA
phu5_1 9 3.39e-09 AAAAGAGCA AAAAAAAAATGAGAACAAGA C
phu2_1 10 3.39e-09 AAAAAGAGCA AAAAAAAAATGAGAACAAGA
mlu8_1 3 3.39e-09 TAA AAAAATAAAAATAAAAATAA AAAAATA
ete7_1 1 4.49e-09 T AAAAAAAAAAATTCAAAAAA CAAAACAAA
oga7_1 2 5.89e-09 GG AAAAAGAAAAGAAAAAATAG CCAGGCAT
tsy7_1 3 1.14e-08 TAA AAAAAAAAAAGAAAGGCTGG ACTTGGT
mlu2_1 3 1.30e-08 AAA AAAAAAAAAAAAGAGCCACA CTGGACA
vpa2_1 0 1.30e-08 TAAAAAAAAGAAAAAGGAGA TTATCTTTAT
oga2_1 0 1.30e-08 AAAAAAATAAATAAAAAGAA TTGAACACCA
tsy1_1 3 1.30e-08 AAA AAAAGAAAAGACAAGAAAAG ATAAATA
rno3_1 0 1.48e-08 ATAAAAAAAAAAAAAAGATC ACTTTTGCTG
rno1_1 0 1.68e-08 AAAAAAAAAAAAGGTACAGG CCCTAGTGGA
ete9_1 0 2.77e-08 TAAAAAGAGAGAGAGAGAGA ACAGATAGTC
ssc3_1 4 3.13e-08 TTTA AAAAGAGAAACAGAGACAGA GAGATG
phu8_1 7 3.99e-08 AAAGAGC AAAAATGAGAACAAGACAAA GTA
phu7_1 7 3.99e-08 AAAGAGC AAAAATGAGAACAAGACAAA AGT
ete8_1 0 3.99e-08 TAAAAAAAAAGAAGGAACAA TACTGGATCC
tbe5_1 2 5.07e-08 TT AAAAAAAAAAAAAATCTATG CACTGAAC
laf10_1 9 1.13e-07 CATACACCT TAAAAAAAAAAATACCAAAC T
mdo2_1 6 1.58e-07 TAGGGA AAAAAAAAAAGAGCACTGGA CTGG
ssc2_1 2 2.19e-07 TA AAAAATGTAAGAAATAAATA AAAAATTT
dno1_1 3 5.04e-07 AAA ATAAATAAATAAATAAATAA ATAAATA
ete12_1 0 6.17e-07 TTAAAAAAATAAATAAATAA TTTAAAAAAA
tbe2_1 5 6.17e-07 GAAAT ATAAATAAATAAATGAAATA TATCC
phu9_1 7 6.81e-07 AAAGAGC AAAAATGTGAACAAGACAAA GTA
phu10_1 6 7.52e-07 AAAGAG CAAAATGAGAACAAGACAAA GTAA
cho1_1 0 8.29e-07 AAAAAAAAAAACACTACTCA TACTATCCAC
ete11_1 3 8.29e-07 TTA AAAAAAGAAAAAAAGTCTTT GAGTTTT
oga10_1 2 1.01e-06 TT ATAAATAAATAAATGATAAA TAAATGGC
tsy3_1 6 1.01e-06 AAAATT AAAAAAAAATGCACACATAC ACAA
mlu3_1 1 1.11e-06 A AAAAAAAAAAAAAGGTCTTT GCCTATCTG
rno2_1 0 1.34e-06 AAAAATAATTAAAACAAAAT AATTTTATTA
cjc8_1 5 1.34e-06 TTTTG AAAAAAAAAGGAAACACTTT AGAGA
mlu5_1 0 1.77e-06 AAAAAAAAAAAATGTTATGT TTAAGTTTTA
cfa5_1 6 1.77e-06 TAGATT GAGAGAGAGAGAGAGAGAGA GCAG
cjc3_1 2 1.77e-06 TA TAAAATAAATAAATAAATAG GATCCAAG
tbe6_1 2 2.13e-06 TT AAAAAAAAAAAANNNNNNNN NNNNNNNN
cin8_4 5 3.05e-06 TGATT ATAAAACAAAATTTTCAAAA ATACG
cin3_1 5 3.05e-06 TAATT ATAAAACAAAATTTTCAAAA ATACG
sar7_1 6 4.33e-06 GATTTG CAAAATAAGGATGATAAAAA CACC
sma12_2 2 7.18e-06 TT AACAACCAAACAACCCATAA CCCACATC
sma11_17 2 7.18e-06 TT AACAACCAAACAACCCATAA CCCACACC
sma10_1 2 7.18e-06 TT AACAACCAAACAACCCATAA ACCACACC
mlu4_1 0 7.18e-06 AAAAAAAAAAAAGTCTTTGC CTATCTGTGG
tsy2_1 1 7.18e-06 A AAATAACAATAATAAATAAA GGCTGAAGG
cjc2_1 1 7.80e-06 T AAGAATGAAAAATAGTGATC CCCTTTGTG
cin4_1 5 8.46e-06 TAATT ATAAATCAAAATTCTCAAAA ATACG
mlu6_1 1 8.46e-06 A AAAAAAAATATCAATTATAA TTTAAACTG
ete3_1 0 9.18e-06 AAAAAAAAATCATGATGAGT GCAAAGAAGC
aca7_1 10 1.08e-05 ATTTCTTCTT TTTAAAAAAAATACTAATAA
cho7_1 9 1.08e-05 TTATCTCAA TAAAATGATGATTAAAAAAA A
cin9_1 5 1.17e-05 TGATT ATGAAACAAAATTTTCAAAA ATACG
eca4_1 4 1.17e-05 TGAT AATAAGGAAAATGAGAGGAG AAGGAG
oga4_1 0 1.48e-05 ATTAAAAAAAAATGGGGTGG CGCCTGTGGC
sar10_1 3 2.00e-05 TCC AAAAGGAAAGGCCCTAAAAA TATTTAC
tsy5_1 4 2.00e-05 ATCA CAGAAACAAAGAACTGAGTA TCCCAT
oga8_1 4 2.16e-05 TATA AAGAATATTGCAAGGAGAGA TGAGAA
meu4_1 9 2.51e-05 GAGGATGGA GAGAATCACAGAAAATAAAA T
sma13_1 2 3.12e-05 TT AACAACCAAACAACCCATAC CCACATCC
vpa3_1 1 3.12e-05 T AAAAACATTTAAAAATAGAG TTACCATAT
cho4_1 10 3.36e-05 TAGCACTGCA ATATACAAGGGAAGTAAAGA
oga18_1 3 3.36e-05 TTT TAAAAAAATAAAACACTTTC TCAAAGA
cin1_1 5 4.15e-05 GAATT ATAAATAAAATTTTCAAAAA TACGC
rno4_1 1 5.87e-05 T AAAAAAATTAATATATTATA CTATATAAA
cmi9_1 10 6.72e-05 TTTTTAATCA TTGAGAAAAACTAAACTTAA
tsy4_1 9 7.67e-05 AGAATATAC TTAAATATAACACAGAAAAT G
tsy15_1 3 9.95e-05 TTT TTTAAAAATAGAGGTAGAAC CTTTACA
cel3_2 10 1.20e-04 TTTGCATTTT TTTAGAATGACTAAAAAAAA
cin10_1 5 1.54e-04 TGATT CTAAAACTAAATTTTCAAAA ATACG
cho5_1 10 1.64e-04 TATGTGTTGT GAGAGCATGTGAAATAGAGA

Block Diagrams

The height of the motif "block" is proportional to -log(p-value), truncated at the height for a motif with a p-value of 1e-10.
Click on any row to highlight sequence in all motifs. Mouse over the center of the motif blocks to see more information.

Name Lowest p-value Motif Location
cjc1_1 4.91e-10
cjc2_1 7.80e-06
cjc3_1 1.77e-06
cjc8_1 1.34e-06
tsy1_1 1.30e-08
tsy2_1 7.18e-06
tsy3_1 1.01e-06
tsy4_1 7.67e-05
tsy5_1 2.00e-05
tsy7_1 1.14e-08
tsy15_1 9.95e-05
oga1_1 2.20e-09
oga2_1 1.30e-08
oga4_1 1.48e-05
oga6_1 4.20e-10
oga7_1 5.89e-09
oga8_1 2.16e-05
oga10_1 1.01e-06
oga11_1 1.91e-09
oga18_1 3.36e-05
rno1_1 1.68e-08
rno2_1 1.34e-06
rno3_1 1.48e-08
rno4_1 5.87e-05
rno5_1 3.03e-10
rno7_1 2.53e-11
dor1_1 3.04e-11
ocu2_1 7.72e-13
tbe2_1 6.17e-07
tbe3_1 8.87e-11
tbe5_1 5.07e-08
tbe6_1 2.13e-06
cfa2_1 7.79e-10
cfa3_1 1.08e-10
cfa5_1 1.77e-06
vpa1_1 4.20e-10
vpa2_1 1.30e-08
vpa3_1 3.12e-05
bta1_1 1.29e-10
bta2_1 3.03e-10
bta3_1 9.39e-13
ssc2_1 2.19e-07
ssc3_1 3.13e-08
ssc5_1 3.70e-11
eca4_1 1.17e-05
mlu1_1 3.06e-13
mlu2_1 1.30e-08
mlu3_1 1.11e-06
mlu4_1 7.18e-06
mlu5_1 1.77e-06
mlu6_1 8.46e-06
mlu7_1 2.94e-09
mlu8_1 3.39e-09
sar7_1 4.33e-06
sar10_1 2.00e-05
laf10_1 1.13e-07
ete1_1 1.64e-09
ete2_1 1.79e-11
ete3_1 9.18e-06
ete4_1 5.76e-10
ete6_1 3.55e-10
ete7_1 4.49e-09
ete8_1 3.99e-08
ete9_1 2.77e-08
ete11_1 8.29e-07
ete12_1 6.17e-07
dno1_1 5.04e-07
dno2_1 2.18e-10
cho1_1 8.29e-07
cho2_1 2.94e-09
cho3_1 3.58e-12
cho4_1 3.36e-05
cho5_1 1.64e-04
cho7_1 1.08e-05
mdo2_1 1.58e-07
meu4_1 2.51e-05
cmi9_1 6.72e-05
cin1_1 4.15e-05
cin3_1 3.05e-06
cin4_1 8.46e-06
cin8_4 3.05e-06
cin9_1 1.17e-05
cin10_1 1.54e-04
phu1_1 7.79e-10
phu2_1 3.39e-09
phu3_1 3.06e-13
phu4_1 1.08e-10
phu5_1 3.39e-09
phu6_1 1.08e-10
phu7_1 3.99e-08
phu8_1 3.99e-08
phu9_1 6.81e-07
phu10_1 7.52e-07
cel3_2 1.20e-04
sma10_1 7.18e-06
sma11_17 7.18e-06
sma12_2 7.18e-06
sma13_1 3.12e-05
aca7_1 1.08e-05
 
0
5
10
15
20
25
30

Time 702.8 secs.

Motif 3

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Summary

Sequence Logo

E-value 4.8e-168
Width 20
Sites 272
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PNG LOGOS require CONVERT from ImageMagick; see MEME installation guide
StandardReverse Complement

Download LOGO
   Orientation:    SSC:    Format:    Width: cm    Height: cm   

Regular expression

TTTT[TG][TC]T[TG]TTTT[TC][TA][AT][TA][TA][GA][CAT][AT]

Further Analysis

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Data Formats

View the motif in PSPM Format 
     PSSM Format 
     BLOCKS Format 
     FASTA Format 
     Raw Format 
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Sites

Click on any row to highlight sequence in all motifs.

Name Start p-value Sites
ame1_1 4 2.16e-07 ATTT TTTTTTTCTTTTTTATTGCA TATATA
apa12_1 2 2.93e-07 TT TTTTTTTGTTTTTGATTACA CCATTGAA
apa11_1 2 3.91e-07 TT TTTTTTTCTTTTTGATTGCA CCGAATCC
dpu24_1 3 1.15e-06 TGA ATTGTTTGTTTTCAATAACA AATTTCT
ami29_1 2 1.47e-06 TT TTTTTTTTTTTTTGATTACA CCATTGAA
ami25_1 1 1.47e-06 T TTTTTTTCTTTTTGATTACA CTATTGAAT
ami24_1 1 1.47e-06 T TTTTTTTCTTTTTGATTACA CCATTGAAT
ami22_2 0 1.47e-06 TTTTTTTCTTTTTGATTACA CCATTGAATT
apa16_1 5 1.47e-06 TTTTT TTTTTTTCTTTTTGATTACA CCATT
apa15_1 4 1.47e-06 TTTT TTTTTTTCTTTTTGATTACA CCGTTG
apa14_3 3 1.47e-06 TTT TTTTTTTCTTTTTGATTACA CCATTGA
apa10_2 2 1.47e-06 TT TTTTTTTCTTTTTGATTACA CCGTTGAA
apa9_15 2 1.47e-06 TT TTTTTTTCTTTTTGATTACA CCATTGAA
apa6_4 1 1.47e-06 T TTTTTTTCTTTTTGATTACA CCATTGAAT
apa2_1 2 1.47e-06 GT TTTTTTTCTTTTTGATTACA CCATTGAA
aae11_2 0 1.87e-06 TTTTGCATTTTTCATTTGCA TCCTGAGGGT
apa5_1 6 2.36e-06 TATTTA TTTTTCTTTTTTGATTAACA CCAT
aae21_1 1 2.36e-06 T TTTTGCATTTTTTATTTGCA TCTCGAGGG
aae20_1 1 2.36e-06 T TTTTGCATTTTTTATTTGCA TCCCGAGGG
aae16_1 0 2.36e-06 TTTTGCATTTTTTATTTGCA TCGTGAGGGT
aae15_6 0 2.36e-06 TTTTGCATTTTTTATTTGCA TCCTGGGGTG
aae14_1 0 2.36e-06 TTTTGCATTTTTTATTTGCA TCCTGAGTGG
aae13_90 0 2.36e-06 TTTTGCATTTTTTATTTGCA TCCTGAGGGT
acn3_1 4 2.95e-06 TTGC ATTTGCTTTTTTATATTGCA TGTAGT
acn2_3 4 2.95e-06 TTGC ATTTGCTTTTTTATATTGCA TGTAGA
mha9_1 0 3.67e-06 TTTTTTTGTTTTTATGAATA AAAAAATTTT
phu13_1 9 3.67e-06 CCCACAAAT TTTTTTTTTTTTTTTAAACA T
dpu29_9 3 6.82e-06 TGA TTAGTTTGTTTTCAATAACA ATTTTCT
dpu28_2 3 6.82e-06 TGA TTAGTTTGTTTTCAATAACA AATTTCT
nvi3_1 4 6.82e-06 CCAA TTTTTTTTTTTTTTTGAAAA TTTTGT
aae12_27 0 6.82e-06 TTTTGCATTTTTTATTTACA TCCTGAGGGT
cbe5_4 9 8.29e-06 TTTGCATTT TTTTGTTTTTTTTATTTCAA A
ami23_1 2 1.21e-05 TT TTTTTTCCTTTTTGATTACA CCATTGAA
apa13_1 4 1.21e-05 TTTT TTTTTTCCTTTTTGATTACA CCATTG
sma1_1 2 1.21e-05 AT TTTTGGTGTTTTTTAGACAT GCATTAAA
bma24_1 2 1.21e-05 AW TTTTGGTGTTTTTTAGACAT GYATTAAA
bma23_1 2 1.21e-05 AW TTTTGGTGTTTTTTAGACAT GCATTAAA
bma22_1 3 1.21e-05 ATT TTTTGGTGTTTTTTAGACAT GTATTAA
bma21_1 3 1.21e-05 ATT TTTTGGTGTTTTTTAGACAT GCATTAA
bma17_3 2 1.21e-05 AT TTTTGGTGTTTTTTAGACAT GYATTAAA
bma16_17 2 1.21e-05 AT TTTTGGTGTTTTTTAGACAT GTATTAAA
bma15_57 2 1.21e-05 AT TTTTGGTGTTTTTTAGACAT GCATTAAA
bma14_1 2 1.21e-05 AT TTTTGGTGTTTTTTAGACAT GCATT
bma9_1 3 1.21e-05 AAT TTTTGGTGTTTTTTAGACAT GCATTAA
bma7_68 2 1.21e-05 AA TTTTGGTGTTTTTTAGACAT GCATTAAA
apa3_1 3 1.45e-05 GTT TTTTTTTCTTTTGATAACCA TTGAATG
aca9_1 5 1.72e-05 ATTTC TTTTTTTTTTTTGAAATTCA AAGAA
min9_1 0 1.72e-05 TTTTTCAATTTTTACAAACA AGCTTTTTTT
phu30_1 8 1.72e-05 TTTTTTTT TTTTTTTTTTTTTTAACGTA AA
tca16_6 2 1.72e-05 CC TTTTTTTGTTTTATAACGCC TTAAATAA
aae6_1 0 1.72e-05 TTTGGCATTTTTTATTTGCA TCCTGAGGGT
dpu16_12 3 2.05e-05 TGA ATAGTTTGTTTTCAATAACA ATTTTCT
dpu15_47 3 2.05e-05 TGA ATAGTTTGTTTTCAATAACA AATTTCT
dpu3_2 5 2.05e-05 GATGA ATAGTTTGTTTTCAATAACA AATTT
bgl4_1 0 2.42e-05 TTTTTTTTTTTTTAATTATT TATCATTTTC
aca1_1 5 2.42e-05 AATAC TTTTTTTCTTTTAATTAAAT AATTA
dpu23_1 3 2.42e-05 TGA ATAGTTTGTTTTTAATAACA AATTTCT
ame16_2 1 2.42e-05 C TTTTTTTTTTTTCTCATGTA TTTTATCAA
min7_1 10 2.84e-05 TTTTTAATCA ATTTTTTGTTTTAGATAAAT
phu11_1 10 2.84e-05 CACACAAATT TTTTTTTTTTTTTTTTTTCA
bma2_3 2 3.33e-05 AA ATTTGGTGTTTTTTAGACAT GCATTAAA
phu28_1 7 3.33e-05 TTATTTT TTTTTTTTTTTTTGTTAAAT CAT
bta10_1 1 3.33e-05 T TTTTTTTTTTTTTAATTTTA GGCTTCCCT
bma20_4 2 3.89e-05 AT TTTTGGTGTTTTTTAGCCAT GCATTCAC
bma19_9 2 3.89e-05 AT TTTTGGTGTTTTTTAGCCAT GCATTAAA
bma18_1 2 3.89e-05 AT TTTTGGTGTTTTTTAGCCAT GCATTAA
bma10_2 2 3.89e-05 AC TTTTGGTGTTTTTTAGCCAT GCATTAAA
bma8_2 2 3.89e-05 AA TTTTGGTGTTTTTTAGCCAT GCATTAAA
dpu22_2 3 4.53e-05 TGA ATAGTTTGTTTTCTATAACA AATTTCT
ame20_1 1 4.53e-05 T TTTTTTTAATTTTATGAGAA TATTTTATA
acn1_6 4 5.26e-05 TTGC ATTTGCTTTTCTATATTGCA TGTAGA
hco31_2 5 5.26e-05 TTGGA ATTTTCTCTTATCATTAGCT TATAC
hco29_1 5 5.26e-05 TTGAG ATTTTCTCTTATCATTAGCT TATTC
hco22_21 5 5.26e-05 TTGAA ATTTTCTCTTATCATTAGCT TATTC
hco21_1 5 5.26e-05 TTGAA ATTTTCTCTTATCATTAGCT TAATT
cbe9_1 9 5.26e-05 TTTTGCATT TTTTTTTTTTTTTATTTTCT A
cbr3_1 5 5.26e-05 TTTGC TTTTTTTGTATTCAATTTCA TAATA
cbr2_4 5 5.26e-05 TTTGC TTTTTTTGTATTCAATTTCA TAAAT
dpu20_1 10 5.26e-05 TGAATAGTTT GTTTTCATTTTTCAATAACA
hco30_1 5 6.08e-05 TTGGA ATTTTCTCTTATCACTAGCT TATAC
cbe8_1 9 6.08e-05 TTTTGCATT TTTTTGTTTTTTTATTTTCT A
dpu25_1 3 6.08e-05 TGA CTAGTTTGTTTTCAATAACA AATTTCT
apa8_1 2 7.00e-05 TT TTTTTTTCTTTTTGATACAC CATTGATG
mha3_3 1 7.00e-05 C TTTTTCTTTTTTTTTTTGTT GCTTATGAC
dpu13_1 3 7.00e-05 TGA ATAGTTTATTTTCAATAACA AATTTCT
nvi13_1 6 7.00e-05 CCCGAT TTTTTGCTTTTTTTTGTAAA ATTC
tca11_1 1 7.00e-05 C CTTTTTTGTTTTATAACGCT TTAAATAAC
tca10_123 1 7.00e-05 C CTTTTTTGTTTTATAACGCT TTAAATAAA
tca9_1 1 7.00e-05 C CTTTTTTGTTTTATAACGCT TAAATAAAA
aae8_1 0 7.00e-05 TTTTGCATATTTTATTTGCA TCCTGAGGGT
mha10_1 4 8.04e-05 TTTT TTTGTTTTTTATGAATAAAA AATATT
dpu10_1 3 8.04e-05 TGA ATAGTTAGTTTTCAATAACA AATTTGG
nvi33_1 9 8.04e-05 TCTATTTTT TTTTTTATTTTTTGAGTTCA A
nvi19_1 8 8.04e-05 CCTATTTT TTTTTTATTTTTTGAGTTCA AC
nvi18_1 7 8.04e-05 CCTATTT TTTTTTATTTTTTGAGTTCA ACT
tca4_1 1 8.04e-05 C CTTTTCTGTTTTATAACGCT TTAAATAAA
aca3_1 3 9.21e-05 ATC TTTTTTTCTTTTCTTTATTA TTTTTAG
dpu11_1 3 9.21e-05 TGA ATAGTTCGTTTTCAATAACA AATTTCT
nvi28_1 6 9.21e-05 CTCACT TTTTGCCGTTTTTGAATAAC CATG
nvi17_1 7 9.21e-05 CCTATTT TTTTTCATTTTTTGAGTTCA ACT
nvi12_1 5 9.21e-05 CCCAA TTTTTTTATTTTGGAATAAT GCAAG
nvi10_1 7 9.21e-05 CCCAATT TTTTGGCATTTTTTTTTGAT TTT
xtr7_1 5 9.21e-05 TTGCA TTTTGCCATTTTGGCCAGCA GGAGG
dpu19_1 3 1.05e-04 TGA ATAGTTTGTTTTCAATACAA ATATCAA
phu12_1 9 1.05e-04 CCCAAAAAA TTTTTTTTTTTTAAAATTTA T
tca17_3 2 1.05e-04 CC TTTTTTTGTTTTATAACGTC TTAAATAA
dpu18_2 3 1.20e-04 TGA ATAGTTTGTTTTCAATAATA ATTTTCT
dpu17_1 3 1.20e-04 TGA ATAGTTTGTTTTCAATAATA AATTTCT
phu19_1 10 1.20e-04 CCCATTTTTA ATTTTTTTTTTTTTTTTTAA
nvi11_1 7 1.20e-04 CCCAATT TTTTGGCTTTTTTTTTCGAT ATT
nvi4_1 7 1.20e-04 CCCAATT TTTTGAAATTTTTATTAAAA AAT
tca8_26 1 1.20e-04 C CTTTTTTGTTTTATAACGCC TTAAATAAA
ame12_1 1 1.36e-04 C TTTTTTTTTTATCTTATGTA TTTTATCAA
bfl4_8 6 1.36e-04 GCCATC ATTTTTTATTTTTTTCAACT TTTT
bfl3_1 6 1.36e-04 GCCATC ATTTTTTATTTTTTTCAACT TNNN
bfl1_1 6 1.36e-04 ACCATC ATTTTTTATTTTTTTCAACT TTTT
mha7_1 2 1.54e-04 TT TTTTGGTTTTTTAAGATAAA AATACTTT
ame21_1 2 1.54e-04 TT TTTTTTTTTCTTCTCATGTA TTTTATCA
ame17_2 4 1.54e-04 CTTT TTTTTTTTTCTTCTCATGTA TTTTAT
bfl5_1 7 1.54e-04 GCCATCA TTTTTTATTTTTTTTCAACT TTT
vpa4_1 0 1.54e-04 TTTTTTTTTTTTACCATGAA TGACTGAAAA
mha4_1 3 1.74e-04 TCC TTTTTAATTTTTCGATTAAA ATATTTT
min13_1 1 1.74e-04 T TTTTGAAATTTTTTTTTGAA AAATAAATT
cbe7_1 7 1.74e-04 TTTTGCA TTTTTTTGTTTTTTATTTTC TAA
phu14_1 8 1.74e-04 CCCACAAT TTTTGTTTTTTTTTTGTTAT TT
ame19_1 0 1.74e-04 TTTTTTTATTTTCTTTTTTA TTTTATATAT
ame7_3 4 1.74e-04 CTTT TTTTTCTTTTTTTTTTTTTA ATCTTC
mha6_1 0 1.96e-04 TTTTAGTGTTTTTTATTAAA ATCTTCGTTA
cbr1_2 4 1.96e-04 TTTG ATTTTTTATATTCAATTGTA TAAATA
nvi5_1 6 1.96e-04 CCCAAT TTTTTGAAATTTTTATTACA AAAT
ame15_1 5 1.96e-04 CTTTT TTTTTTTATCTTCTCATGTA TTTTA
ame13_1 4 1.96e-04 CTTT TTTTTTTATCTTCTCATGTA TTTTAT
ame9_9 3 1.96e-04 CTT TTTTTTTATCTTCTCATGTA TTTTTTT
ame8_9 3 1.96e-04 CTT TTTTTTTATCTTCTCATGTA TTTTATC
ame5_1 2 1.96e-04 CT TTTTTTTATCTTCTCATGTA TTTTATCA
ame2_2 5 1.96e-04 CTCTT TTTTTTTATCTTCTCATGTA TTTTA
bma11_3 2 2.20e-04 AT CTTTGGTGTTTTTTAGCCAT GCATTAAA
hco27_1 5 2.20e-04 TTGAA TTTTTCTCTCATCATTAGAT TATTT
hco26_19 5 2.20e-04 TTGAA TTTTTCTCTCATCATTAGAT TATTC
cbe3_6 5 2.20e-04 TTTGC ATTTTGTTTTATTATTTTCA AATAA
nvi20_1 5 2.20e-04 CCTAT TTTTTTTTTTTTTTATTTTT TGAGT
ame4_1 1 2.20e-04 C TTTTTTCTTTTTTTCTTTAA TCTTCCAAT
nvi23_1 5 2.47e-04 CCTCT TTTTTTCATTTTTTTTTTAA GGCAA
ame14_1 5 2.47e-04 CTTTT TTTTTTCATTTTCTCATATA TTTTA
cin34_2 0 2.47e-04 TTTGTGTTTTATTACAACCA CAATACATTT
xtr10_1 5 2.47e-04 TTGCA TTTTGTCATTCTGACCAGCA GGAGG
ami1_1 10 2.77e-04 CTTATTGTTG GTATTTTTTTTTTTATTACA
hco23_3 5 2.77e-04 TTGAA ATTTTTTCTCATCACTAGCT TATAC
hco18_40 5 2.77e-04 TTGAA ATTTTCTCTCATCATTAGCT TATTC
hco17_39 5 2.77e-04 TTGAA ATTTTCTCTCATCATTAGCT TATAC
xtr5_1 5 2.77e-04 TTGCA TTTTGCCATTCTGACCAGCA GGTGG
xtr4_1 5 2.77e-04 TTGCA TTTTGCCATTCTGACCAGCA GGGGG
xtr3_47 5 2.77e-04 TTGCA TTTTGCCATTCTGACCAGCA GGAGG
xtr2_1 3 2.77e-04 TGC TTTTGCCATTCTGACCAGCA GGAGGCA
ame3_1 10 3.09e-04 CTTTTCTTTC TTTTTTTTTTTTTAATCTTC
vpa6_1 0 3.09e-04 TTTTTTTTTTTTTTCCTCCC CTCCTCCGGC
aca11_1 1 3.44e-04 T TTTTTTTCACTTAAATTAAA ACAAATAGA
dpu8_1 5 3.44e-04 TAATT TTTTTTTATTTTACCATAAA TTTTT
nvi34_1 6 3.44e-04 TTCAAT TTTTTGAATTTTTACCAAAC ATTT
dvi3_1 8 3.44e-04 CCTTCCAC ATTTTTTTTTATAGCTCGAA AA
sme9_20 0 3.83e-04 TTTTTTTGATTTCTTTTCTA TTGAAACAAT
sme8_1 0 3.83e-04 TTTTTTTGATTTCTTTTCTA TCAATTGAAA
nvi14_1 8 3.83e-04 CCCTCTCT TTTTGCCATTTTTTTTTGTC CA
vpa5_3 1 3.83e-04 T TTTTTTTTTTTTCTTTTTTT TTTTTTTTT
hco16_28 5 4.25e-04 TTGAA ATTTTCTCTCATCATTAGAT TAATT
phu25_1 8 4.25e-04 CTTCACCT TTTTGCTTTTCTCATCCTCA TC
phu18_2 9 4.25e-04 CCCATTCAA TTTTTTTTTTTTTTTTTTTT T
ame11_1 4 4.25e-04 CTTT TTTTTTCTTCTTCTCGTGTA TTTTAT
min12_1 1 4.71e-04 T TTTTGAAATTTTAATTTGAT TGTAAAACA
cbe4_7 6 4.71e-04 TTTGCA TTTTGTTTTCATATTTTAAA ATAA
nvi27_1 8 4.71e-04 CTCAATTT TTTGGCACTTTTGACATCAA AT
ame6_11 2 4.71e-04 CT TTTTTTTCTTCTCATGTATT TTATCATT
tca14_13 1 4.71e-04 C CTTTTTTGTTTTGTAACGTC TTAAATAAA
tca13_1 1 4.71e-04 C CTTTTTTGTTTTGTAACGTC TCAAATAAA
tca12_5 1 4.71e-04 C CTTTTTTGTTTTATAACGTC TTAAATAAA
tca7_1 1 4.71e-04 C CTTTTTTGTTTTAAAACATC TTAAATAAA
ami5_1 10 5.21e-04 TTCTTTATTA GTATTTTCTTTTTTTTTACA
bma4_6 2 5.21e-04 AA TTTTGGTGTTTCTTAGACAT GCATTAAA
nvi15_1 8 5.21e-04 CCTATCTT TTATTGCTTTTTTGAGTTCA AC
tca6_1 1 5.21e-04 C CTTTTTTGTTATATAACGCC TTAAATAAA
xtr1_1 5 5.21e-04 CTGCA TTTTGCAATTCTGGCCAGCA GGAGG
isc5_1 2 5.76e-04 TT TTCTTTTTTTTTTTTCTGCT CTCTTGGA
aae9_1 0 5.76e-04 TTTTGCATTTGTTATTTGCA TCCCGAGGGT
xtr6_2 5 5.76e-04 TTGCA TTTTGCCATTCTGGCCAGCA GGAGG
aca4_1 0 6.34e-04 ATCTTTTTTTTTCTCCTGAA AGTTTTCCCT
hco15_1 5 6.34e-04 TTGAA ATTTTCTCTCATCATTAGAC TAATT
hco14_14 5 6.34e-04 TTGAA ATTTTCTCTCATCATCAGCT TATAC
cfa9_1 0 6.34e-04 TTTTTTCTTCTTGTTTTGCC TTCCTTAACT
dpu26_2 3 6.98e-04 TGA TTAATTTGTTTTCAATAACA ATTTTCT
dpu21_1 3 6.98e-04 TGA ATAGTTTGTTTTCTAATAAC AAATTTC
tca19_1 2 6.98e-04 TT TTTTTCCACTTTAAATTGAA ATAAAATT
aae18_2 1 6.98e-04 T TTTGCATTTTTTTATTTGCA TCCTGGGGT
aae17_1 1 6.98e-04 T TTTGCATTTTTTTATTTGCA TCCTGAGGG
hco6_2 5 7.67e-04 TTGAA ATTTTCCCTCATCATTAGCT TATAC
dpu12_2 3 7.67e-04 TGA ATAGTTGGTTTTCAATAACA AATTTCT
tca15_1 4 7.67e-04 CCTT TTTTTGTATTATGATGTCCC AAATTA
tca3_10 1 7.67e-04 C CTTTCTTGTTTTATAACGCT TTAAATAAA
sar3_1 7 7.67e-04 ACCAGGA TTTTGTTAAATTAATTAACA AAT
mha2_1 0 8.41e-04 CTTTTTCTTTTTTTTTTGTT GCTTATGACT
mha1_1 2 9.22e-04 CT TTTTCTTTTTTTTTTATGTT GCTTATGA
nvi22_1 7 9.22e-04 CCTCTCT TTTTGCCATTTTTAAGGAAC TTA
cin38_1 0 9.22e-04 TTTGTTTTTTTTGCACCAAA TAACTTGTTA
apa7_1 1 1.01e-03 T TTTTTTTCTTTTTGATTATG CCATTGAAT
min16_2 9 1.10e-03 TTTTTTCGA ATTTTTTTTTTGGAAAAATA T
dpu27_1 3 1.10e-03 TGA TTAGTTTGTTTAAAATAACA AATTTCT
bta7_1 5 1.10e-03 TTCTT TTCTTTTCTTTTCTTTTTCT TTTTT
bta6_1 10 1.10e-03 TTCTTTTCTT TTCTTTTCTTTTCTTTTTCT
cre3_1 5 1.20e-03 TTTGC CTTTTTTATTCTCAATTTAT ATTAT
nvi25_1 1 1.20e-03 C CTCTTTTTTTTTTGCAAAAA TCCTTANNN
nvi6_1 7 1.20e-03 CCCAATT TTTTGAAATTTTTTTATTAA CTT
ame10_1 4 1.20e-03 CTTT TTTTTTCCTTCTCATGTATT TTATCA
bgl3_1 5 1.31e-03 TTTTT TTTTTGAATATTTAAAAATT ATTTA
bgl2_14 4 1.31e-03 TTTT TTTTGGATATTTAAAAATTA TTTATC
sme4_1 1 1.31e-03 T TTTTGATTTCTTTCTATGAA CATCGATCA
sme3_1 1 1.31e-03 T TTTTGATTTCTTTCTATGAA AATTCCATC
phu17_1 6 1.31e-03 CCCATA TTTTTTTTTTTTCCATCTTT ATTA
nvi29_1 2 1.31e-03 CT CTCTTTTGTTTTCATTTCAT TTTTTCGA
tca1_2 1 1.31e-03 C CTCTTTTGTTTTATAACGCC TTAAATAAA
ppy1_4 10 1.31e-03 TTTCTTTGGC TTTTGGCTTTTTCTTTCCTC
min14_2 1 1.42e-03 T TTTTGTTAATTTTAGGATAA AAAATTATT
nvi2_1 6 1.42e-03 CCAAAT TTTTTTTGTCTCTATTTTAA TTAT
aae3_1 1 1.42e-03 C TTTGTGCATTTTTAATNNNN NNNNNNNNN
bfl6_2 8 1.42e-03 GTCATCCT TTTGTCCTTTTTTTTTCGTC TA
ami21_1 2 1.67e-03 TT TTTTGTTGTATTTTCTTTTT TTTATTAC
min17_1 1 1.67e-03 T TTTTTGAAATTTTTACAAAC GAGCTTTTT
ppa11_3 10 1.67e-03 TTTTGCCGAA TTTTTATTTTTGCATCTGAA
aca6_1 0 1.81e-03 ATTTATTTTTTTAAAATAAT TTTTACAATA
hco19_5 5 1.81e-03 TTGAA ATTTTCTCTCTACATTAGCT TATAC
tca18_1 3 1.81e-03 TCT TTTTGCACTTTTAACATTTC AAATAAT
aae7_1 1 1.81e-03 T TTTGAATTTTTTTATTTGCA TCCTGAGGG
phu24_1 8 1.96e-03 CTTCACCT TTTTGCTTTTCTCAGCCTCA TC
nvi16_1 5 1.96e-03 CCTAT TTTTTGATATTTTTCACGAC TTTTT
nvi7_1 6 1.96e-03 CCCAAT TTTTTGATATTTTTCACGAC TTTT
aga1_10 8 1.96e-03 CTTCACCT TTTTGCTTTTCTCAGCCTCA TC
apo3_2 9 2.12e-03 TGACATTGG TTTTGCTTTTTTGTGTGGCC A
sme6_1 9 2.12e-03 TTTTTTGAT TTCTTTTCTATTGAAAACAA T
nvi32_1 6 2.12e-03 TCCATT TTTGGCACTTTTTTCGATTT GTGT
nvi31_1 3 2.12e-03 CTT ATTTTTTGCTTTTAACAATC GGCATTT
min6_1 0 2.29e-03 TTTTGTTGCTTTTCAATGTT CGTGATTTAA
isc1_2 0 2.29e-03 ATTTTGTTTTTAAATACGCT GGTGCTTTCT
tca2_1 1 2.29e-03 C CTTTCTTGTTATATAACGCT TTAAATAAA
laf25_6 9 2.47e-03 TTACGCCTC CTTTTCTCTTTTGCCGCCAA C
hco20_3 5 2.66e-03 TTGAA ATTTTCTCTGATCATTAGCT TATTC
tca5_1 2 2.66e-03 CC TTTTTGTTTTATAACGCTTT AAATAAAA
ami8_1 10 2.86e-03 TTTATCGTTG GTATTTTCTTTTTTTTATTA
aca2_1 2 2.86e-03 AA TTTTTGTTTTCTGTTTTTTT TGTTGTTT
dpu7_1 3 2.86e-03 TAA AAAGTTTGTTTTCAATAACA AATTTCT
nvi24_1 7 2.86e-03 CCTCTTT TTTTGCGCTTTTATTTTATT TTC
aae10_1 0 2.86e-03 TTTTGCATTTTTATTTGCAT CCTGAGGGTG
ami10_1 10 3.08e-03 TTTATTGTTG GTATTTTTTTTTTTTTTATT
ami9_1 10 3.08e-03 TTTATTGTTG GTATTTTCTTTTTTTTTATT
sme7_25 1 3.08e-03 T TTTTTGATTTCTTTTCTATT GAAACAATT
sme5_15 0 3.08e-03 TTTTTGATTTCTTTTCTATT GAAACAATTC
aca10_1 0 3.31e-03 TTTTCTTTTTTGAAATTCAA ATAATTATTC
cin2_1 1 3.31e-03 G TTTTCGTCATTTATCCAAAA AGTTTAGAC
ami7_1 10 3.55e-03 TTTATCGTTG GTATTTTCTTTTTTTAATTA
pva17_1 10 3.55e-03 TTGCTGCCCC CTTTTTTTTTCTGCCCTGAA
eca2_1 3 3.55e-03 GTC ATTTTACATTTCTATCAGCA ATGTAGG
nvi9_1 6 3.80e-03 CCCAAT TTTTTGCATTTTACCTTTAT TTTT
hco25_1 5 4.07e-03 TTGAA TTTTTCTCTCACCATTAAAT TATTC
bgl1_1 3 4.35e-03 TTT TTTTGTGGATATTTAAAAAT TATTTAT
hco10_2 5 4.35e-03 TTGAA ATTTTCTCAAATCATTAGAT TATTT
hco9_1 5 4.35e-03 TTGAA ATTTTCTCAAATCATTAGAT TAATT
phu29_1 0 4.35e-03 TTTTTTTTTATTCCCCTTAA TCAATTTTTT
tad1_1 8 4.65e-03 CCCTACTT ATTTCTTTTTTTGGCGTCAC TT
min11_1 1 4.65e-03 T TTTTGAAAAATTTTTTTGCA AAAAATTTT
dgr6_1 3 4.65e-03 CCA TTTTGGTGTTTCAACACTTT TTTTTGT
hco28_1 4 4.97e-03 TTGA ATTTTTCTCTCTCATTAGAT TATTCT
phu22_1 9 4.97e-03 CCCTCAGAA TTCTCTTTTTTTTATAGGAA A
mlu9_1 3 5.65e-03 TTA ATTGGGATTTTTTTAGCCCG CCCCATC
phu26_1 7 1.20e-02 TCCCACA ATTTTTTTTTNNNNNNNNNN NNN
ola2_1 5 2.59e-02 TCCCG CTTTGCTGNNNNNNNNNNCT TTCCT

Block Diagrams

The height of the motif "block" is proportional to -log(p-value), truncated at the height for a motif with a p-value of 1e-10.
Click on any row to highlight sequence in all motifs. Mouse over the center of the motif blocks to see more information.

Name Lowest p-value Motif Location
ppy1_4 1.31e-03
cfa9_1 6.34e-04
vpa4_1 1.54e-04
vpa5_3 3.83e-04
vpa6_1 3.09e-04
bta6_1 1.10e-03
bta7_1 1.10e-03
bta10_1 3.33e-05
eca2_1 3.55e-03
mlu9_1 5.65e-03
pva17_1 3.55e-03
sar3_1 7.67e-04
laf25_6 2.47e-03
xtr1_1 5.21e-04
xtr2_1 2.77e-04
xtr3_47 2.77e-04
xtr4_1 2.77e-04
xtr5_1 2.77e-04
xtr6_2 5.76e-04
xtr7_1 9.21e-05
xtr10_1 2.47e-04
ola2_1 2.59e-02
bfl1_1 1.36e-04
bfl3_1 1.36e-04
bfl4_8 1.36e-04
bfl5_1 1.54e-04
bfl6_2 1.42e-03
cin2_1 3.31e-03
cin34_2 2.47e-04
cin38_1 9.22e-04
dvi3_1 3.44e-04
dgr6_1 4.65e-03
aga1_10 1.96e-03
aae3_1 1.42e-03
aae6_1 1.72e-05
aae7_1 1.81e-03
aae8_1 7.00e-05
aae9_1 5.76e-04
aae10_1 2.86e-03
aae11_2 1.87e-06
aae12_27 6.82e-06
aae13_90 2.36e-06
aae14_1 2.36e-06
aae15_6 2.36e-06
aae16_1 2.36e-06
aae17_1 6.98e-04
aae18_2 6.98e-04
aae20_1 2.36e-06
aae21_1 2.36e-06
tca1_2 1.31e-03
tca2_1 2.29e-03
tca3_10 7.67e-04
tca4_1 8.04e-05
tca5_1 2.66e-03
tca6_1 5.21e-04
tca7_1 4.71e-04
tca8_26 1.20e-04
tca9_1 7.00e-05
tca10_123 7.00e-05
tca11_1 7.00e-05
tca12_5 4.71e-04
tca13_1 4.71e-04
tca14_13 4.71e-04
tca15_1 7.67e-04
tca16_6 1.72e-05
tca17_3 1.05e-04
tca18_1 1.81e-03
tca19_1 6.98e-04
ame1_1 2.16e-07
ame2_2 1.96e-04
ame3_1 3.09e-04
ame4_1 2.20e-04
ame5_1 1.96e-04
ame6_11 4.71e-04
ame7_3 1.74e-04
ame8_9 1.96e-04
ame9_9 1.96e-04
ame10_1 1.20e-03
ame11_1 4.25e-04
ame12_1 1.36e-04
ame13_1 1.96e-04
ame14_1 2.47e-04
ame15_1 1.96e-04
ame16_2 2.42e-05
ame17_2 1.54e-04
ame19_1 1.74e-04
ame20_1 4.53e-05
ame21_1 1.54e-04
nvi2_1 1.42e-03
nvi3_1 6.82e-06
nvi4_1 1.20e-04
nvi5_1 1.96e-04
nvi6_1 1.20e-03
nvi7_1 1.96e-03
nvi9_1 3.80e-03
nvi10_1 9.21e-05
nvi11_1 1.20e-04
nvi12_1 9.21e-05
nvi13_1 7.00e-05
nvi14_1 3.83e-04
nvi15_1 5.21e-04
nvi16_1 1.96e-03
nvi17_1 9.21e-05
nvi18_1 8.04e-05
nvi19_1 8.04e-05
nvi20_1 2.20e-04
nvi22_1 9.22e-04
nvi23_1 2.47e-04
nvi24_1 2.86e-03
nvi25_1 1.20e-03
nvi27_1 4.71e-04
nvi28_1 9.21e-05
nvi29_1 1.31e-03
nvi31_1 2.12e-03
nvi32_1 2.12e-03
nvi33_1 8.04e-05
nvi34_1 3.44e-04
phu11_1 2.84e-05
phu12_1 1.05e-04
phu13_1 3.67e-06
phu14_1 1.74e-04
phu17_1 1.31e-03
phu18_2 4.25e-04
phu19_1 1.20e-04
phu22_1 4.97e-03
phu24_1 1.96e-03
phu25_1 4.25e-04
phu26_1 1.20e-02
phu28_1 3.33e-05
phu29_1 4.35e-03
phu30_1 1.72e-05
dpu3_2 2.05e-05
dpu7_1 2.86e-03
dpu8_1 3.44e-04
dpu10_1 8.04e-05
dpu11_1 9.21e-05
dpu12_2 7.67e-04
dpu13_1 7.00e-05
dpu15_47 2.05e-05
dpu16_12 2.05e-05
dpu17_1 1.20e-04
dpu18_2 1.20e-04
dpu19_1 1.05e-04
dpu20_1 5.26e-05
dpu21_1 6.98e-04
dpu22_2 4.53e-05
dpu23_1 2.42e-05
dpu24_1 1.15e-06
dpu25_1 6.08e-05
dpu26_2 6.98e-04
dpu27_1 1.10e-03
dpu28_2 6.82e-06
dpu29_9 6.82e-06
isc1_2 2.29e-03
isc5_1 5.76e-04
cre3_1 1.20e-03
cbr1_2 1.96e-04
cbr2_4 5.26e-05
cbr3_1 5.26e-05
cbe3_6 2.20e-04
cbe4_7 4.71e-04
cbe5_4 8.29e-06
cbe7_1 1.74e-04
cbe8_1 6.08e-05
cbe9_1 5.26e-05
hco6_2 7.67e-04
hco9_1 4.35e-03
hco10_2 4.35e-03
hco14_14 6.34e-04
hco15_1 6.34e-04
hco16_28 4.25e-04
hco17_39 2.77e-04
hco18_40 2.77e-04
hco19_5 1.81e-03
hco20_3 2.66e-03
hco21_1 5.26e-05
hco22_21 5.26e-05
hco23_3 2.77e-04
hco25_1 4.07e-03
hco26_19 2.20e-04
hco27_1 2.20e-04
hco28_1 4.97e-03
hco29_1 5.26e-05
hco30_1 6.08e-05
hco31_2 5.26e-05
acn1_6 5.26e-05
acn2_3 2.95e-06
acn3_1 2.95e-06
ppa11_3 1.67e-03
min6_1 2.29e-03
min7_1 2.84e-05
min9_1 1.72e-05
min11_1 4.65e-03
min12_1 4.71e-04
min13_1 1.74e-04
min14_2 1.42e-03
min16_2 1.10e-03
min17_1 1.67e-03
mha1_1 9.22e-04
mha2_1 8.41e-04
mha3_3 7.00e-05
mha4_1 1.74e-04
mha6_1 1.96e-04
mha7_1 1.54e-04
mha9_1 3.67e-06
mha10_1 8.04e-05
bma2_3 3.33e-05
bma4_6 5.21e-04
bma7_68 1.21e-05
bma8_2 3.89e-05
bma9_1 1.21e-05
bma10_2 3.89e-05
bma11_3 2.20e-04
bma14_1 1.21e-05
bma15_57 1.21e-05
bma16_17 1.21e-05
bma17_3 1.21e-05
bma18_1 3.89e-05
bma19_9 3.89e-05
bma20_4 3.89e-05
bma21_1 1.21e-05
bma22_1 1.21e-05
bma23_1 1.21e-05
bma24_1 1.21e-05
sma1_1 1.21e-05
sme3_1 1.31e-03
sme4_1 1.31e-03
sme5_15 3.08e-03
sme6_1 2.12e-03
sme7_25 3.08e-03
sme8_1 3.83e-04
sme9_20 3.83e-04
apo3_2 2.12e-03
aca1_1 2.42e-05
aca2_1 2.86e-03
aca3_1 9.21e-05
aca4_1 6.34e-04
aca6_1 1.81e-03
aca9_1 1.72e-05
aca10_1 3.31e-03
aca11_1 3.44e-04
bgl1_1 4.35e-03
bgl2_14 1.31e-03
bgl3_1 1.31e-03
bgl4_1 2.42e-05
apa2_1 1.47e-06
apa3_1 1.45e-05
apa5_1 2.36e-06
apa6_4 1.47e-06
apa7_1 1.01e-03
apa8_1 7.00e-05
apa9_15 1.47e-06
apa10_2 1.47e-06
apa11_1 3.91e-07
apa12_1 2.93e-07
apa13_1 1.21e-05
apa14_3 1.47e-06
apa15_1 1.47e-06
apa16_1 1.47e-06
ami1_1 2.77e-04
ami5_1 5.21e-04
ami7_1 3.55e-03
ami8_1 2.86e-03
ami9_1 3.08e-03
ami10_1 3.08e-03
ami21_1 1.67e-03
ami22_2 1.47e-06
ami23_1 1.21e-05
ami24_1 1.47e-06
ami25_1 1.47e-06
ami29_1 1.47e-06
tad1_1 4.65e-03
 
0
5
10
15
20
25
30

Time 901.6 secs.

Motif 4

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Summary

Sequence Logo

E-value 1.1e-128
Width 20
Sites 108
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PNG LOGOS require CONVERT from ImageMagick; see MEME installation guide
StandardReverse Complement

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   Orientation:    SSC:    Format:    Width: cm    Height: cm   

Regular expression

TGCC[TC][CTG][CT][CT][GC][CT][CGT][TC][CTG][GT][CG][CGT][CT][CTG][CT]C

Further Analysis

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Data Formats

View the motif in PSPM Format 
     PSSM Format 
     BLOCKS Format 
     FASTA Format 
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Sites

Click on any row to highlight sequence in all motifs.

Name Start p-value Sites
ttr8_34 2 9.60e-11 TT TGCCTCCCGCTCCGCCCGCC TTCTCCTT
ttr3_1 2 2.26e-10 TT TGCCGCCCGCTCCGCCCGCC TTCTCCTT
ttr7_2 2 1.09e-09 TT TGCCTCCCGCTCCGCCCCGC CTTCTCCT
ttr6_3 2 6.63e-09 TT TGCCTCCCGCTCCGCCCACC TTCTCCTT
ttr10_7 2 8.18e-09 TT TGCCTCCCGCTCCTCCCGCC TTCTCCTT
ttr1_1 2 8.18e-09 TA TGCCTCCCGCTCCTCCCGCC TTCTCCTT
ttr4_1 2 1.23e-08 TT TGCCTCCAGCTCCGCCCGCC TTCTCCTT
fca8_2 1 1.49e-08 T TGCCTTCTGCCTTGGCCTCC TTGACCTGT
ttr5_1 2 1.81e-08 TT TGCCTCCCACTCCGCCCGCC TTCTCCTT
fca12_3 1 7.81e-08 T TGCCTTTTGCCTTGGCCTCC GTGACCTGT
eca5_1 1 1.10e-07 T TGCCTCCCGCCGCCTCCCTC TCCTTTTGC
tgu2_13 7 1.29e-07 CTTTTGC TGCCTGCTGGCCAGAGGGCC TCT
fca7_1 8 1.29e-07 TTGCCTTC TGCCTGTTGCCTCTGGCCTC AT
ocu4_22 1 2.88e-07 T TGCCCCGCGGCACCCTCCCC TTTTGCTCG
oan7_17 4 3.36e-07 TTGC TGCCGCCCCACCCGACCGGC TGCCCT
oan3_1 3 3.36e-07 TGC TGCCGCCCCACCCGACCGGC TGCCCTT
dno3_4 1 3.36e-07 T TGCCACCAGCCTCCCCCTCC CTCTCGCTC
laf34_1 3 3.36e-07 TTT TGCCCCTTGCCGAGAGCCTC TTCTCTT
eeu4_6 4 3.36e-07 TTGC TGCCTGCCTGCCTGCCTGCC TGCCTG
eeu3_6 4 3.36e-07 TTGC TGCCTGCCTGCCTGCCTGCC TGCCTC
tsy12_1 1 3.91e-07 T TGGCCTCCCTCTCGGCGGCC ATCATTTTT
tsy11_1 2 3.91e-07 TT GGCCTCCCTCTCCGCGCCTC TTTTTTGC
fca6_1 8 4.54e-07 TTGCCTTC GGCCTGTTGCGTCTGGCCTC CT
cho11_1 1 5.26e-07 T TGCCAGGCGCCGCCCGTCTC CCTGCCTCC
fca5_12 8 5.26e-07 TTGCCTTC GGCCTGTTGCCTCTGGCCTC CT
fca2_1 8 5.26e-07 TTGCCCTT GGCCTGTTGCCTCTGGCCTC CT
tgu1_1 7 1.62e-06 CTTTTGC TGCCTGCTGGCCAGACGACC TCT
eca3_1 1 1.85e-06 T CGCCTCCTGCTTGTGGTTCC CTCCTGTTT
cjc7_3 2 1.85e-06 TT TGGCTCTTCCGACGGCTCCC TGCCTTCT
tni9_1 5 2.11e-06 TTTCG TGCCCTTTGAGTGGGTGTTC TGTCC
tni4_1 5 2.11e-06 TTTCA TGCCATTTGAGTGGGCTTTC TGTCC
pva24_1 5 2.40e-06 TTTGC CGCCCCTCCTTTTGCCGCCC TCCAG
pva11_1 4 2.40e-06 TTGC CGCCCCTCCTTTTGCCGCCC TCTAGC
pva10_2 4 2.40e-06 TTGC CGCCCCTCCTTTTGCCGCCC TCCAGC
laf21_1 3 2.73e-06 TCG TGCCTCCTCCCGAGAGTCTC CTCTCTT
tgu3_3 4 3.10e-06 CTTT TTCCTCCTGAGGGGGGCGCG TGCTTT
sar17_1 10 3.10e-06 TTTGCGGGCG TGGGGGGCGGGGGGGGGGCC
tni12_1 5 3.51e-06 TTTCG TGCCCTTTGAGTGGGTTTTC TGTCT
tni11_32 5 3.51e-06 TTTCG TGCCCTTTGAGTGGGTTTTC TGTCC
tni10_1 5 3.51e-06 TTTCG TGCCCTTTGAGTGGGTTTTC TCTCC
tni8_1 5 3.51e-06 TTTCG TGCCATTTGGGTGGGTTTTC TGTCC
tni6_2 5 3.51e-06 TTTCA TGCCCTTTGAGTGGGTTTTC TGTCC
dor4_23 6 3.51e-06 TTTTGC CTCCACCCGGCCCGTGGGCC CGCC
dor3_1 6 3.51e-06 TTTTAC CTCCACCCGGCCCGTGGGCC CGCC
sar15_1 2 3.98e-06 TT TGCGGGCGGGGGGGGCCTTC CTGTCTTT
fca13_1 8 4.50e-06 TTGCCTTT TGCCTTTGGCCTTTGGCCTC CT
tni15_1 4 5.08e-06 TTTG TGCCCTTTGAGTGGCTTTTC TGTCCT
tni1_1 4 5.08e-06 TTCG TGCCCTTTGAGTGGCTTTTC TATCCT
eeu5_1 5 5.08e-06 TTTGC TGCCTGCCTGCCTGCTCTGC ACCGC
bta9_1 6 5.08e-06 TTTGCC TGCCCTCTCCTTTAGCCCCC GCCC
cho8_3 1 5.73e-06 T TGCCAGGCACATCGCGTCCC CTTGCCTAC
tni7_6 5 7.27e-06 TTTCG TGCCATTTGAGTGGGTTTTC TGTCC
tni5_3 5 7.27e-06 TTTCA TGCCATTTGAGTGGGTTTTC TGTCC
cho13_3 1 7.27e-06 T TGCCTGGCAGGTTGTGTCCC CTTTCCTCC
tni3_1 5 8.16e-06 TTTCA TGCCATTTGAGTAGGGTTTC TGTCC
eeu2_2 4 8.16e-06 TTGC TGCCTGCCTGCCTGCCTCTG CAGCGC
opr3_5 2 8.16e-06 TT TGCGCCCGGCCCATGCCCGC TCCCTCCT
oga5_1 1 9.16e-06 C TGCCTCTTGCTGGGTGCAGC GGCTCATGC
mlu12_2 5 1.15e-05 TTGAT TGCCATTTTCTGAGCCCGCC CCATC
tbe7_2 3 1.15e-05 TTT GGCCTCCAGCCCCGTCCCTT TTGTCAC
fca9_1 8 1.29e-05 TTGCCTTT GGCCTTTGGCCTTTGGCCTC CT
eeu1_1 8 1.44e-05 TTGCGTCC GTCCGTCCGTGCTGCCTGCC TG
cho15_3 1 1.79e-05 T TGCCTGGCATGTTGTGTCCC CTTTCCTCC
cho14_1 1 1.79e-05 T TGCCTGGCATGTTGTGTCCC CTTTCCNNN
fca10_9 8 1.79e-05 TTGCCTTT GGCCTTTTGCCTTCGGCCTG TT
cjc4_1 1 1.79e-05 T TGGCCTTTCGCTCCCCTGCC TCTTTCCTC
pca3_3 7 1.99e-05 TTTGCGC CTCCTCCCGCTTTTGCTCCC GCG
fca3_1 1 1.99e-05 T TGCCCTTTGCTTTGGGCTCA TTGACCTCT
tni13_1 5 2.46e-05 TTTCG TGGCCTTTGAGTGGGTTTTC TGTCC
sar16_1 10 3.70e-05 TTTGCGGGCG TGGGGGGCGGGGGGGGGCCT
mlu15_12 5 4.09e-05 TTGAT TGCCATTTTTTGAGCCCGCC CCATC
opr1_1 2 4.09e-05 TT TGCCCCCAGCCAGAAGCCCG GCCCATGC
tsy14_1 1 4.09e-05 T TGGCTGCCCTCTCTGCGCCT TCTTTTTTG
tni2_1 4 4.52e-05 TTCG TGCCGTCTGAGTTTGTTTTC TGTCCT
dpu9_1 5 6.05e-05 TCAGT CGTCTGCTGAGTCGCGCCCG AAGTG
ocu5_1 1 6.05e-05 T TGCTCCGCGGCACCCTCCGC TTTTGCTCC
cjc6_1 2 6.05e-05 TT TGCTCCCTCCTTCTTCCCCC TTTTGTCG
mlu13_1 5 6.65e-05 TTGAT TGCCATTTTTGAGCCCGCCC CATAC
cjc5_1 1 8.02e-05 T TGGCTTTCGCTCCCCTGCCT CTTTCCTCT
oga15_3 10 1.06e-04 TTGCTTTTGC TTCCGTCAGTCGCCCGCCTC
oga12_1 1 1.06e-04 T TGCCTCTTCTTCCTTTGGCC AGTCACAGT
esc5_1 0 1.26e-04 TGCTCTCCGCTTATCTCGGC ATTTGTTTCC
pca2_2 7 1.26e-04 TTTGCGC CTCCTCCCGCTTTTGCTACC GCG
cfa8_2 10 1.26e-04 TTTTTTCTTC GGCCTTCCTGTCCGTCCCTT
cho12_1 1 1.38e-04 T TGCCAGTCATATTGAGTCCC CTTGGCTCC
cho10_1 1 1.38e-04 T TGCCAGGCACATTGAGTTCC CTTGGCTCC
pva7_1 4 1.38e-04 TTGC CGCCCCCTTTTTTTCTGCCC TGAAGC
tsy10_1 1 1.38e-04 T TGGCCGCCCTCTCCACGCGG TCTTTTTTG
pca4_2 2 1.64e-04 TT TGCGCCTCCTCCGCGTTTGC TTTTGCCG
pva16_1 4 1.64e-04 TTGC CGCTTTCCAGCCAGGGTGTC CGTGGA
tsy9_1 5 1.64e-04 TTGAC TGCCCTCTCTGTGCCTTCTT TTTTG
bta8_1 2 1.79e-04 TT TGCCTCCCCTCTCCTTTGGG CTTTCCTC
sar14_1 1 1.95e-04 T TTGCGGGAGGGGGGGCCTTC CTGTCTTTC
pva1_1 5 1.95e-04 TTGCA GTCCTCTCCTTTTGCTGCCC TCCAG
mlu10_1 6 2.12e-04 TTCTAT TGCGATTTTTTGAGGCCGCC CCAT
mmu2_41 7 2.12e-04 TTTGGAC TCCCCTCTGTCTCTCTCTCC CTT
dor5_1 6 2.30e-04 TTTTGC CTCCACCCGGCCCGTGGNNN NNNN
dno4_1 1 2.50e-04 T TGCCACGCGCTGCTCACTCT CGCTCGCGC
cin20_1 2 2.71e-04 TT TGCGTTTTGCGTTTCTTTTC GTCTTTCG
mlu16_1 7 3.19e-04 TTGTTTT TGCCCTTCCCATCCTCCCTT TGG
str2_4 3 3.19e-04 TTG CGCCCCCTTCCCACACGCAC TTTTCTT
oga16_1 7 3.45e-04 TTGCTTT TTGCTTCCGTCAGTCGCCCG CCT
isc6_1 8 4.36e-04 TTTTTTTC TGCTCTCTCGGAGGGTTGTG TC
pca5_2 4 4.71e-04 TTTG CGCCTCCTCCGCTTTTGCTT TTGCCG
ocu1_1 0 5.08e-04 GGCCGGTGCTGCGGCTCACT AGGCTATCCT
ttr2_1 1 8.47e-04 T TGCCTCCCGTGATNNNNNNN NNNNNNNNN
pva13_1 1 1.28e-03 T TGCCGCCTCCTCNNNNNNNN NNNNNNNNN
str1_1 3 1.66e-03 TTG CGCCCCCTCCCACACNNNNN NNNNNNN

Block Diagrams

The height of the motif "block" is proportional to -log(p-value), truncated at the height for a motif with a p-value of 1e-10.
Click on any row to highlight sequence in all motifs. Mouse over the center of the motif blocks to see more information.

Name Lowest p-value Motif Location
cjc4_1 1.79e-05
cjc5_1 8.02e-05
cjc6_1 6.05e-05
cjc7_3 1.85e-06
tsy9_1 1.64e-04
tsy10_1 1.38e-04
tsy11_1 3.91e-07
tsy12_1 3.91e-07
tsy14_1 4.09e-05
oga5_1 9.16e-06
oga12_1 1.06e-04
oga15_3 1.06e-04
oga16_1 3.45e-04
mmu2_41 2.12e-04
dor3_1 3.51e-06
dor4_23 3.51e-06
dor5_1 2.30e-04
str1_1 1.66e-03
str2_4 3.19e-04
opr1_1 4.09e-05
opr3_5 8.16e-06
ocu1_1 5.08e-04
ocu4_22 2.88e-07
ocu5_1 6.05e-05
tbe7_2 1.15e-05
fca2_1 5.26e-07
fca3_1 1.99e-05
fca5_12 5.26e-07
fca6_1 4.54e-07
fca7_1 1.29e-07
fca8_2 1.49e-08
fca9_1 1.29e-05
fca10_9 1.79e-05
fca12_3 7.81e-08
fca13_1 4.50e-06
cfa8_2 1.26e-04
ttr1_1 8.18e-09
ttr2_1 8.47e-04
ttr3_1 2.26e-10
ttr4_1 1.23e-08
ttr5_1 1.81e-08
ttr6_3 6.63e-09
ttr7_2 1.09e-09
ttr8_34 9.60e-11
ttr10_7 8.18e-09
bta8_1 1.79e-04
bta9_1 5.08e-06
eca3_1 1.85e-06
eca5_1 1.10e-07
mlu10_1 2.12e-04
mlu12_2 1.15e-05
mlu13_1 6.65e-05
mlu15_12 4.09e-05
mlu16_1 3.19e-04
pva1_1 1.95e-04
pva7_1 1.38e-04
pva10_2 2.40e-06
pva11_1 2.40e-06
pva13_1 1.28e-03
pva16_1 1.64e-04
pva24_1 2.40e-06
eeu1_1 1.44e-05
eeu2_2 8.16e-06
eeu3_6 3.36e-07
eeu4_6 3.36e-07
eeu5_1 5.08e-06
sar14_1 1.95e-04
sar15_1 3.98e-06
sar16_1 3.70e-05
sar17_1 3.10e-06
laf21_1 2.73e-06
laf34_1 3.36e-07
pca2_2 1.26e-04
pca3_3 1.99e-05
pca4_2 1.64e-04
pca5_2 4.71e-04
dno3_4 3.36e-07
dno4_1 2.50e-04
cho8_3 5.73e-06
cho10_1 1.38e-04
cho11_1 5.26e-07
cho12_1 1.38e-04
cho13_3 7.27e-06
cho14_1 1.79e-05
cho15_3 1.79e-05
oan3_1 3.36e-07
oan7_17 3.36e-07
tgu1_1 1.62e-06
tgu2_13 1.29e-07
tgu3_3 3.10e-06
tni1_1 5.08e-06
tni2_1 4.52e-05
tni3_1 8.16e-06
tni4_1 2.11e-06
tni5_3 7.27e-06
tni6_2 3.51e-06
tni7_6 7.27e-06
tni8_1 3.51e-06
tni9_1 2.11e-06
tni10_1 3.51e-06
tni11_32 3.51e-06
tni12_1 3.51e-06
tni13_1 2.46e-05
tni15_1 5.08e-06
cin20_1 2.71e-04
dpu9_1 6.05e-05
isc6_1 4.36e-04
esc5_1 1.26e-04
 
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Time 1051.6 secs.

Motif 5

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Summary

Sequence Logo

E-value 7.0e-107
Width 20
Sites 30
show more
PNG LOGOS require CONVERT from ImageMagick; see MEME installation guide
StandardReverse Complement

Download LOGO
   Orientation:    SSC:    Format:    Width: cm    Height: cm   

Regular expression

[AG][AC][AG][CG]C[CT][TG]GGTGG[CT][AG][CT]AGTGG

Further Analysis

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Data Formats

View the motif in PSPM Format 
     PSSM Format 
     BLOCKS Format 
     FASTA Format 
     Raw Format 
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Sites

Click on any row to highlight sequence in all motifs.

Name Start p-value Sites
laf18_1 2 4.99e-14 TA GAGCCCTGGTGGCGCAGTGG TTAAGAGC
laf7_1 3 4.94e-13 AGG AAACCCTGGTGGTGCAGTGG TTAAGAC
laf23_1 3 7.43e-13 TGG AAACCCTGGTGGCATAGTGG CTAAGTG
laf19_1 8 7.43e-13 TATCATGG AAACCCTGGTGGCATAGTGG TT
laf12_1 2 7.43e-13 GG AAACCCTGGTGGCATAGTGG TTAAGAGC
laf17_1 5 1.63e-12 TAGAG AGGCCCTGGTGGCACAGTGG TTAAA
laf27_1 6 3.87e-12 TTATGG AAACCCTGGTGGCACAGTGA TTAA
laf20_1 7 3.87e-12 TATGAAG AAGCCCTGGAGGCACAGTGG TTA
laf9_1 5 5.41e-12 ATTGG AAACCCTGGTGGCCTAGTGG TTAAG
laf33_1 4 3.30e-11 TTTG GGGCCCTGGTGGTGTAGTGG TTAAGC
laf30_1 3 2.24e-10 TTG GAGCCCTGGAGATGCAGTGG CCGCTAA
laf13_1 2 2.24e-10 GG AAACGCTGGTGGGATAGTGG TTAAGTAA
cfa7_1 5 5.27e-10 TTGGA CAGCCCGGGTGGCTCAGCGG TTTAG
meu12_1 5 8.83e-10 TGGGG ACAGCTGGGTGATGCAGTGG ATAGA
meu5_1 6 9.76e-10 GTAGGG ACAGTCAGGTGGTGCAGTGG ATAG
cfa6_1 9 1.45e-09 TTCTTTGGG GCACCTGGGTGGCTCAATGG T
laf31_1 3 2.34e-09 TTG GAGCCCTGGTTGTGCAATGG TTAAGAG
laf35_1 6 3.40e-09 TTTTGG ACATTCTGGTGGCATAGTGG TTAA
meu10_1 4 8.27e-09 TAGA GCAGATAGGTGACACAGTGG ATAGAC
oan4_1 4 1.07e-08 TGGA GAAGCAGTGTGGCTCAGTGG AAAGAG
cfa1_1 3 3.62e-08 GGA ATGCCTGGGTGGCTCAGCAG TTTAGCG
laf22_1 3 4.56e-08 TGG AAACCCTGGCGACATAGTAA TTAAGTG
rno8_1 10 4.92e-08 TTAGGGCTGG AGAGATAGATGGCTCAGTGG
apa1_1 8 7.71e-08 CCTTTGGG AAGTCAGGCTGGCGTAGTGA AC
meu13_1 4 8.30e-08 TGGG GCTGCTAGGTGGTGTAGTGA CTAGTA
laf32_1 3 1.03e-07 TTG GAGCCTTGATTGTACAGAGG TTAAGTG
pca1_1 2 1.37e-07 GG AAACCCTATTGACCTAGTGG TTAAGTGC
laf26_1 6 2.08e-07 TTAGAG GAGCCCTGGTGGGCCTGCTG GGCC
laf14_1 2 2.08e-07 GG AAATCCTGATGGTGTCATGG TTAAGAGC
meu15_1 10 3.34e-07 TTCCTTAGGG GTAGGTAGGTGGTGGAGTGA

Block Diagrams

The height of the motif "block" is proportional to -log(p-value), truncated at the height for a motif with a p-value of 1e-10.
Click on any row to highlight sequence in all motifs. Mouse over the center of the motif blocks to see more information.

Name Lowest p-value Motif Location
rno8_1 4.92e-08
cfa1_1 3.62e-08
cfa6_1 1.45e-09
cfa7_1 5.27e-10
laf7_1 4.94e-13
laf9_1 5.41e-12
laf12_1 7.43e-13
laf13_1 2.24e-10
laf14_1 2.08e-07
laf17_1 1.63e-12
laf18_1 4.99e-14
laf19_1 7.43e-13
laf20_1 3.87e-12
laf22_1 4.56e-08
laf23_1 7.43e-13
laf26_1 2.08e-07
laf27_1 3.87e-12
laf30_1 2.24e-10
laf31_1 2.34e-09
laf32_1 1.03e-07
laf33_1 3.30e-11
laf35_1 3.40e-09
pca1_1 1.37e-07
meu5_1 9.76e-10
meu10_1 8.27e-09
meu12_1 8.83e-10
meu13_1 8.30e-08
meu15_1 3.34e-07
oan4_1 1.07e-08
apa1_1 7.71e-08
 
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Time 1170.4 secs.

All Motifs

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Combined Block Diagrams

Non-overlapping sites with a p-value better than 0.0001.
The height of the motif "block" is proportional to -log(p-value), truncated at the height for a motif with a p-value of 1e-10.
Click on any row to highlight sequence in all motifs. The motif blocks have tool tips with more information.

Motif 1
Motif 2
Motif 3
Motif 4
Motif 5
Name Combined p-value Motif Location
cjc1_1 2.32e-05
cjc2_1 2.38e-02
cjc3_1 1.16e-02
cjc4_1 1.78e-02
cjc5_1 5.09e-02
cjc6_1 1.49e-02
cjc7_3 8.30e-03
cjc8_1 4.38e-03
tsy1_1 1.30e-04
tsy2_1 1.29e-02
tsy3_1 8.70e-03
tsy4_1 2.21e-02
tsy5_1 5.73e-02
tsy7_1 1.73e-04
tsy11_1 1.02e-03
tsy12_1 2.81e-03
tsy14_1 6.36e-02
tsy15_1 1.26e-01
oga1_1 1.23e-05
oga2_1 3.64e-04
oga4_1 2.19e-02
oga5_1 6.42e-03
oga6_1 2.00e-05
oga7_1 7.38e-05
oga8_1 6.31e-03
oga10_1 1.67e-03
oga11_1 4.47e-05
oga18_1 5.08e-02
rno1_1 7.10e-05
rno2_1 3.54e-03
rno3_1 4.47e-04
rno4_1 6.84e-02
rno5_1 1.11e-05
rno7_1 2.30e-06
rno8_1 8.11e-05
dor1_1 6.09e-07
dor3_1 1.40e-02
dor4_23 1.35e-02
dor5_1 6.75e-02
opr1_1 8.12e-02
opr3_5 2.33e-02
ocu2_1 3.30e-08
ocu4_22 8.84e-05
ocu5_1 6.89e-03
tbe2_1 3.26e-03
tbe3_1 2.08e-06
tbe5_1 3.26e-04
tbe6_1 1.80e-02
tbe7_2 7.95e-03
fca2_1 3.96e-03
fca3_1 9.54e-03
fca5_12 4.43e-03
fca6_1 3.59e-03
fca7_1 1.86e-03
fca8_2 3.51e-05
fca9_1 4.17e-02
fca10_9 2.94e-02
fca12_3 2.21e-04
fca13_1 2.24e-02
cfa1_1 2.37e-05
cfa2_1 1.81e-05
cfa3_1 2.35e-06
cfa5_1 2.62e-04
cfa6_1 1.50e-06
cfa7_1 1.71e-06
vpa1_1 1.61e-05
vpa2_1 3.27e-04
vpa3_1 6.00e-02
ttr1_1 8.00e-05
ttr3_1 4.79e-06
ttr4_1 1.18e-04
ttr5_1 7.84e-05
ttr6_3 3.24e-05
ttr7_2 2.35e-05
ttr8_34 2.35e-06
ttr10_7 8.00e-05
bta1_1 8.54e-06
bta2_1 2.04e-05
bta3_1 5.00e-08
bta9_1 1.87e-03
bta10_1 7.92e-02
ssc2_1 9.72e-04
ssc3_1 3.54e-05
ssc4_1 3.94e-04
ssc5_1 1.22e-06
eca3_1 1.99e-03
eca4_1 2.92e-02
eca5_1 6.66e-05
mlu1_1 7.61e-08
mlu2_1 7.84e-05
mlu3_1 9.65e-03
mlu4_1 1.15e-02
mlu5_1 4.17e-03
mlu6_1 2.39e-02
mlu7_1 7.68e-05
mlu8_1 1.39e-04
mlu12_2 1.38e-02
mlu13_1 1.71e-02
mlu15_12 7.80e-03
pva2_1 8.51e-05
pva3_1 5.79e-04
pva4_1 3.27e-07
pva5_1 1.73e-06
pva6_1 1.35e-04
pva8_1 7.96e-05
pva9_1 9.39e-05
pva10_2 6.66e-04
pva11_1 6.18e-04
pva12_2 3.37e-06
pva14_1 3.19e-04
pva18_1 3.78e-04
pva19_1 5.96e-04
pva20_1 4.32e-04
pva21_1 3.55e-05
pva22_1 5.18e-05
pva23_1 7.89e-06
pva24_1 6.64e-04
pva25_1 2.81e-05
pva26_1 2.95e-05
eeu1_1 3.03e-03
eeu2_2 6.96e-03
eeu3_6 1.24e-03
eeu4_6 1.27e-03
eeu5_1 4.19e-03
sar7_1 3.63e-03
sar10_1 3.99e-02
sar15_1 9.33e-03
sar16_1 1.12e-02
sar17_1 1.91e-03
laf7_1 5.01e-08
laf9_1 2.78e-07
laf10_1 1.11e-03
laf12_1 4.84e-08
laf13_1 4.17e-06
laf14_1 2.24e-03
laf17_1 2.71e-08
laf18_1 9.41e-10
laf19_1 4.39e-08
laf20_1 3.69e-08
laf21_1 1.02e-02
laf22_1 2.97e-04
laf23_1 6.17e-08
laf26_1 1.32e-04
laf27_1 2.09e-07
laf30_1 1.46e-06
laf31_1 2.73e-05
laf32_1 7.14e-04
laf33_1 2.15e-07
laf34_1 2.25e-03
laf35_1 2.08e-05
ete1_1 4.85e-05
ete2_1 1.21e-06
ete3_1 7.35e-04
ete4_1 3.36e-06
ete6_1 2.18e-05
ete7_1 6.30e-05
ete8_1 3.19e-04
ete9_1 3.90e-05
ete11_1 4.80e-03
ete12_1 4.03e-03
pca1_1 1.13e-03
pca3_3 9.70e-04
dno1_1 5.10e-03
dno2_1 1.35e-05
dno3_4 3.00e-05
cho1_1 5.31e-03
cho2_1 6.07e-05
cho3_1 3.42e-07
cho4_1 2.23e-02
cho7_1 5.82e-03
cho8_3 1.58e-02
cho11_1 3.57e-03
cho13_3 1.58e-02
cho14_1 3.86e-02
cho15_3 3.52e-02
mdo2_1 1.70e-03
meu4_1 2.65e-02
meu5_1 1.28e-05
meu10_1 1.00e-04
meu12_1 1.85e-05
meu13_1 1.09e-04
meu15_1 9.81e-04
oan3_1 1.95e-04
oan4_1 3.52e-05
oan7_17 4.42e-04
tgu1_1 8.89e-04
tgu2_13 3.32e-04
tgu3_3 1.46e-02
xtr7_1 3.57e-03
tni1_1 2.35e-03
tni2_1 9.73e-03
tni3_1 1.58e-02
tni4_1 9.22e-04
tni5_3 2.29e-03
tni6_2 6.22e-03
tni7_6 1.36e-03
tni8_1 5.74e-04
tni9_1 3.19e-03
tni10_1 8.18e-03
tni11_32 4.17e-03
tni12_1 4.17e-03
tni13_1 1.74e-02
tni15_1 3.59e-03
tru1_1 1.06e-02
cmi9_1 6.63e-02
cin1_1 2.87e-02
cin3_1 5.31e-03
cin4_1 2.87e-02
cin8_4 5.31e-03
cin9_1 1.85e-02
dme1_6 5.61e-05
dme2_1 1.27e-04
dme3_2 2.07e-06
dme4_186 3.33e-07
dme5_1 3.91e-07
dme6_1 5.23e-07
dme7_13 4.48e-07
dme8_1 3.78e-07
dme9_2 5.68e-06
dsi1_11 3.33e-07
dsi2_1 3.91e-07
dsi3_1 3.00e-07
dse1_1 3.60e-06
dse2_1 3.73e-05
dse3_1 6.85e-06
dse4_1 2.17e-05
dse5_1 1.66e-05
dse6_15 3.33e-07
dse7_7 3.91e-07
dse8_1 2.78e-05
der1_1 3.04e-04
der2_1 1.21e-05
der3_1 1.11e-05
der4_34 1.28e-05
der5_2 7.79e-06
der6_1 1.38e-04
dya1_1 1.78e-02
dya3_19 1.44e-03
dya4_1 4.37e-03
dya5_1 1.40e-02
dan1_1 1.10e-03
dan2_1 1.95e-03
dan3_4 1.25e-05
dan4_1 4.04e-08
dan5_57 4.33e-07
dan6_1 3.42e-07
dan8_1 2.26e-05
dps1_2 6.27e-06
dps2_1 1.19e-06
dps3_3 9.55e-08
dps4_1 6.98e-07
dps5_5 2.11e-07
dps6_2 7.63e-08
dps7_1 4.00e-07
dps8_28 1.61e-07
dps9_1 1.25e-06
dps10_1 5.59e-06
dps11_1 1.48e-05
dps12_3 1.10e-05
dps13_1 4.03e-02
dpe1_1 6.14e-08
dpe2_1 1.10e-06
dpe3_1 5.50e-04
dpe4_1 5.98e-02
dpe5_1 3.80e-06
dpe6_1 1.78e-06
dpe7_1 1.17e-06
dpe8_20 9.99e-07
dpe9_17 2.11e-07
dpe10_2 2.79e-08
dpe11_2 9.80e-07
dpe12_1 4.34e-06
dpe13_1 6.71e-06
dpe14_2 1.48e-05
dpe15_1 1.27e-04
dpe16_1 8.19e-07
dpe17_2 2.23e-04
dpe18_1 4.60e-07
dpe20_1 1.91e-05
dpe21_1 5.41e-03
dvi2_1 7.05e-04
dvi6_1 3.28e-04
dvi7_1 2.12e-03
dvi10_1 1.37e-02
dvi11_52 2.07e-04
dvi12_1 3.24e-04
dvi13_1 6.83e-04
dvi14_2 7.61e-04
dvi15_1 2.26e-03
dmo1_1 2.01e-02
dmo2_1 2.77e-03
dmo3_1 1.07e-03
dmo4_1 4.46e-03
dmo5_1 3.00e-03
dmo6_2 7.07e-03
dmo7_1 1.26e-02
dmo8_1 1.70e-02
dmo9_47 1.84e-02
dmo11_1 6.66e-02
dmo14_1 5.47e-03
dgr7_1 1.71e-03
dgr9_1 4.68e-03
dgr10_6 1.46e-03
dgr15_2 1.91e-02
aae6_1 1.05e-03
aae8_1 1.73e-02
aae11_2 2.50e-03
aae12_27 6.63e-03
aae13_90 1.65e-03
aae14_1 1.65e-03
aae15_6 1.20e-03
aae16_1 2.65e-04
aae20_1 1.58e-03
aae21_1 1.58e-03
tca4_1 2.10e-02
tca9_1 2.25e-02
tca10_123 2.44e-02
tca11_1 2.44e-02
tca16_6 8.07e-03
ame1_1 2.11e-03
ame16_2 5.97e-02
ame20_1 2.92e-02
nvi3_1 2.04e-02
nvi10_1 4.36e-02
nvi12_1 6.22e-02
nvi13_1 1.01e-01
nvi17_1 1.24e-01
nvi18_1 1.09e-01
nvi19_1 6.58e-02
nvi28_1 6.58e-02
nvi33_1 1.30e-01
phu1_1 3.63e-05
phu2_1 4.09e-05
phu3_1 5.65e-08
phu4_1 7.67e-06
phu5_1 4.09e-05
phu6_1 7.77e-06
phu7_1 8.48e-05
phu8_1 8.48e-05
phu9_1 2.16e-03
phu10_1 7.22e-04
phu11_1 3.65e-02
phu13_1 2.14e-03
phu28_1 7.13e-02
phu30_1 5.86e-02
dpu3_2 3.97e-02
dpu9_1 7.23e-02
dpu10_1 8.90e-02
dpu11_1 1.22e-01
dpu13_1 6.67e-02
dpu15_47 4.73e-02
dpu16_12 4.02e-02
dpu20_1 7.27e-02
dpu22_2 6.09e-02
dpu23_1 5.88e-02
dpu24_1 8.65e-03
dpu25_1 9.13e-02
dpu28_2 2.62e-02
dpu29_9 2.21e-02
cbr2_4 6.72e-02
cbr3_1 6.75e-02
cbe5_4 1.41e-02
cbe8_1 6.48e-02
cbe9_1 6.13e-02
hco21_1 5.68e-02
hco22_21 5.68e-02
hco29_1 8.15e-02
hco30_1 4.66e-02
hco31_2 4.38e-02
acn1_6 5.59e-02
acn2_3 7.99e-03
acn3_1 7.99e-03
min7_1 1.01e-02
min9_1 2.57e-02
mha3_3 4.82e-02
mha9_1 1.74e-03
mha10_1 1.82e-02
bma2_3 3.24e-02
bma7_68 1.66e-02
bma8_2 3.21e-02
bma9_1 1.02e-02
bma10_2 3.21e-02
bma14_1 1.98e-02
bma15_57 1.66e-02
bma16_17 2.33e-02
bma17_3 2.65e-02
bma18_1 2.68e-02
bma19_9 3.21e-02
bma20_4 4.96e-02
bma21_1 1.41e-02
bma22_1 1.79e-02
bma23_1 1.66e-02
bma24_1 2.65e-02
sma1_1 1.66e-02
sma10_1 2.08e-02
sma11_17 2.56e-02
sma12_2 2.56e-02
sma13_1 7.22e-02
aca1_1 6.95e-02
aca3_1 1.18e-01
aca7_1 4.01e-04
aca9_1 4.28e-02
bgl4_1 6.99e-02
apa1_1 5.62e-04
apa2_1 7.83e-04
apa3_1 3.68e-02
apa5_1 1.04e-02
apa6_4 8.24e-04
apa8_1 6.41e-02
apa9_15 7.67e-04
apa10_2 3.36e-04
apa11_1 8.03e-04
apa12_1 3.55e-04
apa13_1 1.91e-03
apa14_3 7.67e-04
apa15_1 3.86e-04
apa16_1 5.80e-03
ami22_2 8.24e-04
ami23_1 1.61e-03
ami24_1 8.24e-04
ami25_1 1.02e-03
ami29_1 2.00e-03
 
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MEME version
4.8.1 (Release date: Tue Feb 7 14:03:40 EST 2012)
Reference
Timothy L. Bailey and Charles Elkan, "Fitting a mixture model by expectation maximization to discover motifs in biopolymers", Proceedings of the Second International Conference on Intelligent Systems for Molecular Biology, pp. 28-36, AAAI Press, Menlo Park, California, 1994.
show training set...
Command line summary

Letter frequencies in dataset
A: 0.231   C: 0.206   G: 0.147   T: 0.415

Background letter frequencies (from dataset with add-one prior applied):
A: 0.231   C: 0.206   G: 0.147   T: 0.415

Stopping Reason
Stopped because nmotifs = 5 reached. Program ran on compute-0-13.local.
show model parameters...

Explanation of MEME Results

 Top

The MEME results consist of

  • The overview of all discovered motifs.
  • Information on each of the motifs MEME discovered, including:
    1. A summary table showing the width, number of contributing sites, log likelihood ratio, statistical significance, information content and relative entropy of the motif.
    2. A sequence LOGO.
    3. Downloadable LOGO files suitable for publication.
    4. A regular expression describing the motif.
    5. Some further analysis that can be performed on the motif.
    6. A list of data formats describing the motif.
    7. The contributing sites of the motif sorted by p-value and aligned with each other.
    8. The block diagrams of the contributing sites of the motif within each sequence in the training set.
  • A combined block diagram showing an optimized (non-overlapping) tiling of all of the motifs onto each of the sequences in the training set.
  • The version of MEME and the date it was released.
  • The reference to cite if you use MEME in your research.
  • A description of the sequences you submitted (the "training set") showing the name, "weight" and length of each sequence.
  • The command line summary detailing the parameters with which you ran MEME.
  • The reason why MEME stopped and the name of the CPU on which it ran.
  • This explanation of how to interpret MEME results.

Motifs

For each motif that it discovers in the training set, MEME prints the following information:

Summary Table

This summary table gives the main attributes of the motif.

E-value
The statistical significance of the motif. MEME usually finds the most statistically significant (low E-value) motifs first. The E-value of a motif is based on its log likelihood ratio, width, sites, the background letter frequencies (given in the command line summary), and the size of the training set. The E-value is an estimate of the expected number of motifs with the given log likelihood ratio (or higher), and with the same width and site count, that one would find in a similarly sized set of random sequences. (In random sequences each position is independent with letters chosen according to the background letter frequencies.)
Width
The width of the motif. Each motif describes a pattern of a fixed with as no gaps are allowed in MEME motifs.
Sites
The number of sites contributing to the construction of the motif.
Log Likelihood Ratio
The log likelihood ratio of the motif.The log likelihood ratio is the logarithm of the ratio of the probability of the occurrences of the motif given the motif model (likelihood given the motif) versus their probability given the background model (likelihood given the null model). (Normally the background model is a 0-order Markov model using the background letter frequencies, but higher order Markov models may be specified via the -bfile option to MEME.)
Information Content
The information content of the motif in bits. It is equal to the sum of the uncorrected information content, R(), in the columns of the LOGO. This is equal relative entropy of the motif relative to a uniform background frequency model.
Relative Entropy
The relative entropy of the motif, computed in bits and relative to the background letter frequencies given in the command line summary. It is equal to the log-likelihood ratio (llr) divided by the number of contributing sites of the motif times 1/ln(2),

re = llr / (sites * ln(2)).
Sequence LOGO

MEME motifs are represented by position-specific probability matrices that specify the probability of each possible letter appearing at each possible position in an occurrence of the motif. These are displayed as "sequence LOGOS", containing stacks of letters at each position in the motif. The total height of the stack is the "information content" of that position in the motif in bits. The height of the individual letters in a stack is the probability of the letter at that position multiplied by the total information content of the stack.

Note: The MEME LOGO differs from those produced by the Weblogo program because a small-sample correction is NOT applied. However, MEME LOGOs in PNG and encapsulated postscript (EPS) formats with small-sample correction (SSC) are available by clicking on the download button with "SSC" set to "on" under Download LOGO. The MEME LOGOs without small sample correction are similarly available. Error bars are included in the LOGOs with small-sample correction.

Modern web browsers supporting the canvas element and it's text manipulation functions as described in the html 5 standard, can render the sequence LOGOs without needing the images. The browsers which work with this feature are:

  • Firefox 3.5 and above
  • Safari 4 and above
  • Google Chrome 4 and above

Unfortunately Internet Explorer 8 does not support any html 5 features.

The information content of each motif position is computed as described in the paper by Schneider and Stephens, "Sequence Logos: A New Way to Display Consensus Sequences" but the small-sample correction, e(n), is set to zero for the LOGO displayed in the MEME output. The corrected information content of position i is given by 

            R(i) for amino acids   = log2(20) - (H(i) + e(n))   (1a) 
            R(i) for nucleic acids =    2    - (H(i) + e(n))    (1b)

where H(i) is the entropy of position i,

            H(l) = - (Sum f(a,i) * log2[ f(a,i) ]).             (2)

Here, f(a,i) is the frequency of base or amino acid a at position i, and e(n) is the small-sample correction for an alignment of n letters. The height of letter a in column i is given by 

            height = f(a,i) * R(i)                              (3)

The approximation for the small-sample correction, e(n), is given by:

            e(n) = (s-1) / (2 * ln(2) * n),                     (4)

where s is 4 for nucleotides, 20 for amino acids, and n is the number of sequences in the alignment.

The letters in the logos are colored as follows.
For DNA sequences, the letter categories contain one letter each.

NUCLEIC ACIDS COLOR
A RED
C BLUE
G ORANGE
T GREEN

For proteins, the categories are based on the biochemical properties of the various amino acids.

AMINO ACIDS COLOR PROPERTIES
A, C, F, I, L, V, W and M BLUE Most hydrophobic[Kyte and Doolittle, 1982]
NQST GREEN Polar, non-charged, non-aliphatic residues
DE MAGENTA Acidic
KR RED Positively charged
H PINK  
G ORANGE  
P YELLOW  
Y TURQUOISE  

J. Kyte and R. Doolittle, 1982. "A Simple Method for Displaying the Hydropathic Character of a Protein", J. Mol Biol. 157, 105-132.

Note: the "text" output format of MEME preserves the historical MEME format where LOGOS are replaced by a simplified probability matrix, a relative entropy plot, and a multi-level consensus sequence.

Download LOGO

Logos can be generated on the fly by the meme webservice and you may specify a number of options to customize them to your needs. The options are:

Orientation
Only valid for nucleotide motifs. Generate the standard view or the reverse complemented view of the motif.
SSC
Use small sample correction and show errorbars on the image. Small sample correction is used by the Weblogo program.
Format
The format of the generated image. If the image is to be used on the web then png is recommend. If the image is to be published then eps is recommended.
Width
The width of the generated image in centimetres.
Height
The height of the generated image in centimetres.

Regular Expression

This is a regular expression (RE) describing the motif. In each column, all letters with observed frequencies greater than 0.2 are shown; less-frequent letters are not included in the RE. MEME regular expressions are interpreted as follows: single letters match that letter; groups of letters in square brackets match any of the letters in the group. Regular expressions can be used for searching for the motif in sequences (using, for example, PatMatch) but the search accuracy will usually be better with the PSSM (using, for example MAST.)

Further Analysis

Either as a group or individually the motifs have a number of options for further analysis.

MAST
Finds the best matching positions for a set of motifs in each sequence provided to it, ranked by the combined score of each sequence. For more information about MAST please read the introduction.
FIMO
Finds all matches for a motif. For more information about FIMO please read the introduction.
TOMTOM
Compares a single motif to a database of motifs. For more information about TOMTOM please read the introduction.
GOMO
Identifies possible roles of DNA binding motifs. For more information about GOMO please read the introduction.
BLOCKS
Submit to Blocks Multiple Alignment Processor where you can do several things like create phylogeny trees and search the blocks against a database of other blocks (protein only). For more information about BLOCKS Multiple Alignment Processor please visit the website.
Data Formats

The extracted data is avaliable in the following formats.

PSPM Format
The motif itself is a position-specific probability matrix giving, for each position in the pattern, the observed frequency ("probability") of each possible letter. The probability matrix is printed "sideways"--columns correspond to the letters in the alphabet (in the same order as shown in the simplified motif) and rows corresponding to the positions of the motif, position one first. The motif is preceded by a line starting with "letter-probability matrix:" and containing the length of the alphabet, width of the motif, number of occurrences of the motif, and the E-value of the motif.
Note: Earlier versions of MEME gave the posterior probabilities--the probability after applying a prior on letter frequencies--rather than the observed frequencies. These versions of MEME also gave the number of possible positions for the motif rather than the actual number of occurrences. The output from these earlier versions of MEME can be distinguished by "n=" rather than "nsites=" in the line preceding the matrix.
PSSM Format
The position-specific scoring matrix corresponding to the motif is printed for use by database search programs such as MAST. This matrix is a log-odds matrix calculated by taking 100 times the log (base 2) of the ratio p/f at each position in the motif where p is the probability of a particular letter at that position in the motif, and f is the background frequency of the letter (given in the command line summary section.) This is the same matrix that is used above in computing the p-values of the occurrences of the motif in the Sites and Block Diagrams sections. The scoring matrix is printed "sideways"--columns correspond to the letters in the alphabet (in the same order as shown in the simplified motif) and rows corresponding to the positions of the motif, position one first. The scoring matrix is preceded by a line starting with "log-odds matrix:" and containing the length of the alphabet, width of the motif, number of characters in the training set, the scoring threshold (obsolete) and the motif E-value.
Note: The probability p used to compute the PSSM is not exactly the same as the corresponding value in the Position Specific Probability Matrix (PSPM). The values of p used to compute the PSSM take into account the motif prior, whereas the values in the PSPM are just the observed frequencies of letters in the motif sites.
BLOCKS Format
For use with BLOCKS tools.
FASTA Format
The FASTA format as described here.
Raw Format
Just the sites of the sequences that contributed to the motif. One site per line.
Sites

MEME displays the occurrences (sites) of the motif in the training set. The sites are shown aligned with each other, and the ten sequence positions preceding and following each site are also shown. Each site is identified by the name of the sequence where it occurs, the strand (if both strands of DNA sequences are being used), and the position in the sequence where the site begins. When the DNA strand is specified, '+' means the sequence in the training set, and '-' means the reverse complement of the training set sequence. (For '-' strands, the 'start' position is actually the position on the positive strand where the site ends.) The sites are listed in order of increasing statistical significance (p-value). The p-value of a site is computed from the the match score of the site with the position specific scoring matrix for the motif. The p-value gives the probability of a random string (generated from the background letter frequencies) having the same match score or higher. (This is referred to as the position p-value by the MAST algorithm.)

Block Diagrams

The occurrences of the motif in the training set sequences are shown as coloured blocks on a line. One diagram is printed for each sequence showing all the sites contributating to that motif in that sequence. The sequences are listed in the same order as in the input to make it easier to compare multiple block diagrams. Additionally the best p-value for the sequence/motif combination is listed though this may not be in ascending order as with the sites. The p-value of an occurrence is the probability of a single random subsequence the length of the motif, generated according to the 0-order background model, having a score at least as high as the score of the occurrence. When the DNA strand is specified '+', it means the motif appears from left to right on the sequence, and '-' means the motif appears from right to left on the complementary strand. A sequence position scale is shown at the end of each table of block diagrams.

Combined Block Diagrams

The motif occurrences shown in the motif summary may not be exactly the same as those reported in each motif section because only motifs with a position p-value of 0.0001 that don't overlap other, more significant motif occurrences are shown.

See the documentation for MAST output for the definition of position and combined p-values.