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
  • 1.7e-172
  • 370 sites
 Motif 1 Logo Motif 1 Logo
Motif 2
  • 5.5e-077
  • 61 sites
 Motif 2 Logo Motif 2 Logo
Motif 3
  • 5.2e-026
  • 71 sites
 Motif 3 Logo Motif 3 Logo
Motif 4
  • 2.8e-022
  • 37 sites
 Motif 4 Logo Motif 4 Logo
Motif 5
  • 7.5e-018
  • 57 sites
 Motif 5 Logo Motif 5 Logo
Motif 6
  • 2.8e-009
  • 34 sites
 Motif 6 Logo Motif 6 Logo
Motif 7
  • 8.5e-006
  • 19 sites
 Motif 7 Logo Motif 7 Logo
Motif 8
  • 1.6e-004
  • 13 sites
 Motif 8 Logo Motif 8 Logo
Motif 9
  • 5.2e-003
  • 24 sites
 Motif 9 Logo Motif 9 Logo
Motif 10
  • 4.5e-002
  • 24 sites
 Motif 10 Logo Motif 10 Logo

Further Analysis

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Motif 1

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Summary

Sequence Logo

E-value 1.7e-172
Width 8
Sites 370
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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

GC[AGT][AT]TAAA

Further Analysis

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Data Formats

View the motif in PSPM Format 
     PSSM Format 
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     FASTA Format 
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Sites

Click on any row to highlight sequence in all motifs.

Name Start p-value Sites
sko191_2 1 2.19e-05 T GCGTTAAA CGACAT
sko162_1 1 2.19e-05 C GCGTTAAA CTACAG
sko161_6 1 2.19e-05 C GCGTTAAA CCACAG
sko94_1 1 2.19e-05 A GCGTTAAA TGATAT
sko93_2 1 2.19e-05 A GCGTTAAA TGACAT
sko92_1 1 2.19e-05 A GCGTTAAA TGACAA
sko91_1 1 2.19e-05 A GCGTTAAA CTACAT
sko90_1 1 2.19e-05 A GCGTTAAA CGTCAT
sko89_1 1 2.19e-05 A GCGTTAAA CGATAT
sko88_1 1 2.19e-05 A GCGTTAAA CGACGT
sko87_1 1 2.19e-05 A GCGTTAAA CGACCT
sko86_104 1 2.19e-05 A GCGTTAAA CGACAT
sko85_28 1 2.19e-05 A GCGTTAAA CCACAG
sko84_1 1 2.19e-05 A GCGTTAAA CCAAAG
sko83_3 1 2.19e-05 A GCGTTAAA CAACAT
sko31_1 2 2.19e-05 AC GCGTTAAA CCACA
sko20_2 2 2.19e-05 AA GCGTTAAA CGACA
cca139_3 3 4.73e-05 TTT GCGATAAA ATGC
cca138_1 4 4.73e-05 TTTA GCGATAAA ATG
cca137_1 3 4.73e-05 TTN GCGATAAA ATGC
cca135_1 3 4.73e-05 TTG GCGATAAA ATGC
cca134_2 3 4.73e-05 TTC GCGATAAA ATGC
cca119_907 3 4.73e-05 TTA GCGATAAA ATGC
cca118_1 3 4.73e-05 TTA GCGATAAA ATGA
cca117_1 3 4.73e-05 TTA GCGATAAA ATAC
cca116_1 3 4.73e-05 TTA GCGATAAA AGGC
cca108_1 4 4.73e-05 TNTT GCGATAAA TGC
cca107_4 3 4.73e-05 TNA GCGATAAA ATGC
cca106_5 4 4.73e-05 TGTT GCGATAAA TGC
cca97_7 3 4.73e-05 TGA GCGATAAA ATGC
cca93_3 3 4.73e-05 TCA GCGATAAA ATGC
cca90_1 5 4.73e-05 TAGTA GCGATAAA TG
cca87_1 3 4.73e-05 TAG GCGATAAA ATGC
cca85_5 2 4.73e-05 TA GCGATAAA ATGCT
cca84_1 2 4.73e-05 TA GCGATAAA ATGCG
cca78_4 3 4.73e-05 TAA GCGATAAA ATGC
cca77_1 3 4.73e-05 TAA GCGATAAA AAGG
cca67_2 4 4.73e-05 GTTA GCGATAAA TGC
cca66_2 4 4.73e-05 GTTA GCGATAAA ATG
cca65_1 5 4.73e-05 GTGTT GCGATAAA TG
cca63_1 5 4.73e-05 GTGTA GCGATAAA TG
cca60_2 3 4.73e-05 GTA GCGATAAA ATGC
cca59_12 3 4.73e-05 GTA GCGATAAA ACGC
cca45_1 4 4.73e-05 GTAA GCGATAAA ATG
cca34_1 2 4.73e-05 GA GCGATAAA ATGCT
cca29_1 3 4.73e-05 CTA GCGATAAA ATGC
cca7_3 3 4.73e-05 AAT GCGATAAA ATGC
cca5_1 2 4.73e-05 AA GCGATAAA ATGCT
sko80_3 1 4.73e-05 A GCGATAAA CCACAT
cin9_1 2 4.73e-05 AC GCGATAAA AAGCG
cca48_1 3 8.72e-05 GTA GCATTAAA AGGC
sko190_1 1 8.72e-05 T GCATTAAA TGACAT
sko187_1 2 8.72e-05 TA GCATTAAA TACAT
sko177_4 1 8.72e-05 G GCATTAAA TGACAT
sko175_1 0 8.72e-05 GCATTAAA TTGAAAT
sko174_2 0 8.72e-05 GCATTAAA TGACATC
sko173_1 0 8.72e-05 GCATTAAA TGACATA
sko172_1 0 8.72e-05 GCATTAAA TAACATC
sko171_1 0 8.72e-05 GCATTAAA ATGACAT
sko160_1 1 8.72e-05 C GCATTAAA TGACAT
sko68_20 1 8.72e-05 A GCATTAAA TTACAT
sko67_1 1 8.72e-05 A GCATTAAA TTAAAT
sko66_2 1 8.72e-05 A GCATTAAA TGTCAT
sko65_2 1 8.72e-05 A GCATTAAA TGGCAT
sko64_2 1 8.72e-05 A GCATTAAA TGATAT
sko63_1 1 8.72e-05 A GCATTAAA TGACGT
sko62_366 1 8.72e-05 A GCATTAAA TGACAT
sko61_4 1 8.72e-05 A GCATTAAA TGACAC
sko60_6 1 8.72e-05 A GCATTAAA TGAAAT
sko59_5 1 8.72e-05 A GCATTAAA TAACAT
sko58_25 1 8.72e-05 A GCATTAAA CGACAT
sko57_1 1 8.72e-05 A GCATTAAA CAACAT
sko56_9 1 8.72e-05 A GCATTAAA AGACAT
sko18_1 2 8.72e-05 AA GCATTAAA TGACG
sko17_5 2 8.72e-05 AA GCATTAAA TGACA
cjc3_1 0 8.72e-05 GCATTAAA ATAGAGA
cca113_1 3 1.87e-04 TTA GCAATAAA ATGT
cca112_17 3 1.87e-04 TTA GCAATAAA ATGC
tsp37_1 2 1.87e-04 TG GCCTTAAA AGGAT
sko189_1 1 1.87e-04 T GCAATAAA TGACCT
sko178_3 1 1.87e-04 G GCTTTAAA TGGCAT
sko163_4 1 1.87e-04 C GCTTTAAA CCACAG
sko105_1 1 1.87e-04 A GCTTTAAA TTACAT
sko104_1 1 1.87e-04 A GCTTTAAA TGCCAT
sko103_5 1 1.87e-04 A GCTTTAAA TGACAT
sko79_3 1 1.87e-04 A GCCTTAAA CGACAT
sko45_1 1 1.87e-04 A GCAATAAA TTACAT
sko44_2 1 1.87e-04 A GCAATAAA TGTCAT
sko43_1 1 1.87e-04 A GCAATAAA TGATGT
sko42_1 1 1.87e-04 A GCAATAAA TGATCT
sko41_5 1 1.87e-04 A GCAATAAA TGACCT
sko40_32 1 1.87e-04 A GCAATAAA TGACAT
sko39_2 1 1.87e-04 A GCAATAAA TCATCT
sko38_1 1 1.87e-04 A GCAATAAA TAACAT
sko37_2 1 1.87e-04 A GCAATAAA CGACAT
csa11_1 3 1.87e-04 GTC GCTTTAAA ACCG
dre36_1 3 1.87e-04 GCT GCTTTAAA TAGC
dre24_125 2 1.87e-04 CT GCTTTAAA TAGCC
gga4_1 3 1.87e-04 TGT GCCTTAAA ACCA
oga10_1 5 1.87e-04 CTTTT GCCTTAAA AG
nve6_15 1 2.49e-04 C GCTATAAA AGTCTA
cca130_1 3 2.49e-04 TTA GCTATAAA ATGC
cca114_15 3 2.49e-04 TTA GCCATAAA ATGC
cca105_1 3 2.49e-04 TGT GCCATAAA AGGC
cca103_1 4 2.49e-04 TGTA GCCATAAA GGC
cca102_1 4 2.49e-04 TGTA GCCATAAA AGG
cca82_1 2 2.49e-04 TA GCCATAAA AGGC
cca81_1 2 2.49e-04 TA GCCATAAA AAGGC
cca54_1 3 2.49e-04 GTA GCCATAAA TGGC
cca53_1 3 2.49e-04 GTA GCCATAAA ATGC
cca52_385 3 2.49e-04 GTA GCCATAAA AGGC
cca51_1 3 2.49e-04 GTA GCCATAAA AGG
cca50_3 3 2.49e-04 GTA GCCATAAA AGAC
cca49_1 3 2.49e-04 GTA GCCATAAA AGAA
cca32_1 3 2.49e-04 GAA GCCATAAA AGGC
hro54_1 3 2.49e-04 ATA GCTATAAA GGAG
dgr8_4 2 2.49e-04 GA GCCATAAA AGCAA
dgr2_33 2 2.49e-04 AT GCCATAAA AGCAA
sko142_3 1 2.89e-04 A GTGTTAAA CGACAT
sko141_1 1 2.89e-04 A GTGTTAAA CCACAG
cca132_5 3 3.35e-04 TTA GTGATAAA ATGC
tsp53_1 2 3.35e-04 TG GTGATAAA AGGAT
tsp52_1 2 3.35e-04 TG GTGATAAA AGGAA
sko140_1 1 3.35e-04 A GTGATAAA CGACAT
rsp35_1 1 3.65e-04 T GCGAGAAA GACCCG
rsp21_1 0 3.65e-04 GCGAGAAA GACCGGC
rsp20_28 0 3.65e-04 GCGAGAAA GACCCGC
lgi34_1 3 3.65e-04 TTT GCGAGAAA GACC
lgi28_1 1 3.65e-04 T GCGAGAAA GACCCA
lgi21_1 0 3.65e-04 GCGAGAAA TACCCGC
lgi20_1 0 3.65e-04 GCGAGAAA GGCCCGC
lgi19_1 0 3.65e-04 GCGAGAAA GATCCGC
lgi18_1 0 3.65e-04 GCGAGAAA GACTCGC
lgi17_2 0 3.65e-04 GCGAGAAA GACCTGC
lgi16_4 0 3.65e-04 GCGAGAAA GACCCGT
lgi15_111 0 3.65e-04 GCGAGAAA GACCCGC
lgi14_8 0 3.65e-04 GCGAGAAA GACCCAC
lgi13_1 0 3.65e-04 GCGAGAAA GACAAGC
lgi12_1 0 3.65e-04 GCGAGAAA GAACTGG
lgi11_2 0 3.65e-04 GCGAGAAA GAACCGC
lgi10_1 0 3.65e-04 GCGAGAAA AACCCAC
tsp42_1 2 4.57e-04 TG GTATTAAA AGAAA
sko193_11 1 4.57e-04 T GTATTAAA TTACAT
sko192_2 1 4.57e-04 T GTATTAAA TTAAAT
sko182_1 0 4.57e-04 GTATTAAA TTTACAT
sko181_1 0 4.57e-04 GTATTAAA TTACATC
sko179_3 1 4.57e-04 G GTATTAAA TTACAT
sko168_1 2 4.57e-04 GA GTATTAAA TTACA
sko166_1 3 4.57e-04 GAA GTATTAAA TACA
sko164_9 1 4.57e-04 C GTATTAAA TTACAT
sko149_1 2 4.57e-04 AT GTATTAAA TTACA
sko129_5 1 4.57e-04 A GTATTAAA TTTCAT
sko128_2 1 4.57e-04 A GTATTAAA TTCCAT
sko127_1 1 4.57e-04 A GTATTAAA TTCAAT
sko126_2 1 4.57e-04 A GTATTAAA TTATAT
sko125_2 1 4.57e-04 A GTATTAAA TTACTT
sko124_317 1 4.57e-04 A GTATTAAA TTACAT
sko123_1 1 4.57e-04 A GTATTAAA TTACAG
sko122_1 1 4.57e-04 A GTATTAAA TTACAC
sko121_1 1 4.57e-04 A GTATTAAA TTACAA
sko120_37 1 4.57e-04 A GTATTAAA TTAAAT
sko119_1 1 4.57e-04 A GTATTAAA TGGCAT
sko118_10 1 4.57e-04 A GTATTAAA TGACAT
sko117_2 1 4.57e-04 A GTATTAAA TCAAAT
sko116_6 1 4.57e-04 A GTATTAAA TAACAT
sko115_2 1 4.57e-04 A GTATTAAA GTACAT
sko114_1 1 4.57e-04 A GTATTAAA ATACAT
sko33_1 2 4.57e-04 AC GTATTAAA TTACA
sko30_1 1 4.57e-04 A CCGTTAAA CCAAAG
sko23_1 2 4.57e-04 AA GTATTAAA TTTCA
sko22_1 2 4.57e-04 AA GTATTAAA TTCAT
sko21_1 2 4.57e-04 AA GTATTAAA TTACA
cca111_1 3 7.00e-04 TTA CCGATAAA ATGC
tsp57_4 2 7.00e-04 TG GTTTTAAA AGGAT
tsp49_1 2 7.00e-04 TG GTCTTAAA GGGAT
tsp48_342 2 7.00e-04 TG GTCTTAAA AGGAT
tsp47_1 2 7.00e-04 TG GTCTTAAA AGGAC
tsp46_1 2 7.00e-04 TG GTCTTAAA AAAAT
tsp40_1 2 7.00e-04 TG GTAATAAA AGGAC
tsp33_2 2 7.00e-04 TC GTCTTAAA AGGAT
tsp26_2 3 7.00e-04 GTG GTCTTAAA GGAT
tsp25_3 3 7.00e-04 GTG GTCTTAAA AGGA
tsp19_2 1 7.00e-04 G GTCTTAAA AGGGAT
tsp18_4 1 7.00e-04 G GTCTTAAA AGGATT
tsp17_4 1 7.00e-04 G GTCTTAAA AAGGAT
tsp16_2 2 7.00e-04 GG GTCTTAAA AGGAT
tsp10_1 2 7.00e-04 CG GTCTTAAA AGGAT
tsp8_2 2 7.00e-04 AG GTCTTAAA AGGAT
min6_8 4 7.00e-04 ATTT GTTTTAAA TAT
nvi18_1 4 7.00e-04 GTAA GTAATAAA CAA
sko144_6 1 7.00e-04 A GTTTTAAA TTACAT
sko143_2 1 7.00e-04 A GTTTTAAA ATACAT
sko139_2 1 7.00e-04 A GTCTTAAA TTTCAT
sko109_2 1 7.00e-04 A GTAATAAA TTACAT
sko24_1 2 7.00e-04 AA GTCTTAAA TTACA
sko14_16 1 7.00e-04 A ACGTTAAA CGACAT
sko13_1 1 7.00e-04 A ACGTTAAA CGAAAT
sko12_1 1 7.00e-04 A ACGTTAAA CCACAG
dre43_1 2 7.00e-04 TT GTTTTAAA TAGCC
dre29_9 2 7.00e-04 CT GTTTTAAA TGGCC
dre28_42 2 7.00e-04 CT GTTTTAAA TAGCC
dre27_1 2 7.00e-04 CT GTTTTAAA AAGCC
dre5_18 2 7.00e-04 CA GTTTTAAA TAGCC
gac19_1 3 7.00e-04 CAC GTTTTAAA GGAT
gac18_9 3 7.00e-04 CAC GTTTTAAA AGAT
rno7_1 0 7.00e-04 GTAATAAA AACTCCC
nve2_1 0 8.84e-04 ACGATAAA GCACTTG
cca109_3 3 8.84e-04 TTA ACGATAAA ATGC
tsp55_1 2 8.84e-04 TG GTTATAAA AGGAT
sko55_3 1 8.84e-04 A GCATGAAA TGACAT
rsp19_1 0 9.48e-04 GCAAGAAA GACCCGC
lgi9_1 0 9.48e-04 GCAAGAAA GATCCGC
lgi8_1 0 9.48e-04 GCAAGAAA GACCCAC
cpo9_1 3 9.48e-04 ACA GCAAGAAA AAAA
lgi25_1 0 1.06e-03 GCTAGAAA GACCCGC
cbr2_4 2 1.06e-03 TA GAGTTAAA AGGGG
sko98_1 1 1.06e-03 A GCGTTACA CCACAG
cca123_2 3 1.19e-03 TTA GCGATACA ATGC
cca98_1 3 1.19e-03 TGA GCGATACA ATGC
cca58_8 4 1.19e-03 GTAG CCATTAAA GGC
cca47_1 4 1.19e-03 GTAC CCATTAAA GGC
sko108_1 1 1.19e-03 A GGGTTAAA CGACAT
sko81_1 1 1.19e-03 A GCGATACA CCACAT
sko29_3 1 1.19e-03 A CCATTAAA TGACAT
cin28_1 3 1.19e-03 TCG CCATTAAA ACCG
cin7_1 3 1.19e-03 ACG CCATTAAA AGCG
cca131_1 3 1.41e-03 TTA GGGATAAA ATGC
cca126_4 3 1.41e-03 TTA GCGATCAA ATGC
cca89_1 3 1.41e-03 TAG GGGATAAA ATGC
cca79_2 3 1.41e-03 TAA GCGATCAA ATGC
sko97_1 1 1.41e-03 A GCGTTAAT TGAAAT
sko96_2 1 1.41e-03 A GCGTTAAT CGACAT
sko9_1 1 1.41e-03 A ACATTAAA TGTCAT
sko8_6 1 1.41e-03 A ACATTAAA TGACAT
sko7_4 1 1.41e-03 A ACATTAAA TAACAT
odi20_1 2 1.41e-03 GC GCGATCAA AGGGT
cin10_1 2 1.41e-03 AC GCGATCAA AAGCG
dre3_1 2 1.41e-03 AT CCTTTAAA TAGGC
rsp32_1 1 1.69e-03 T CCTATAAA ATCCNC
rsp31_1 1 1.69e-03 T CCTATAAA AATCCC
rsp30_1 2 1.69e-03 TC CCTATAAA ATCCC
rsp9_15 2 1.69e-03 AT CCTATAAA ATCCC
cca122_2 3 1.69e-03 TTA GCGATAAT ATGC
cca94_1 3 1.69e-03 TCA GCGATAAT ATGC
cca62_1 6 1.69e-03 GTAGTA GCGATAAT G
cca46_1 3 1.69e-03 GTA CCCATAAA AGGC
cca35_1 3 1.69e-03 GAT CCCATAAA ATGC
cca24_1 3 1.69e-03 CCC CCCATAAA AGGC
hro118_1 4 1.69e-03 TTGA ACTTTAAA GAG
hro112_1 3 1.69e-03 TCA CCTATAAA GGAG
hro109_1 3 1.69e-03 TAT ACTTTAAA GGAG
hro103_1 3 1.69e-03 TAC CCTATAAA GGAG
hro76_1 3 1.69e-03 GAA CCTATAAA GGAG
hro71_1 3 1.69e-03 CCC CCTATAAA AGAG
hro53_2 3 1.69e-03 ATA CCTATAAA GGAG
hro52_1 3 1.69e-03 ATA CCCATAAA AGAG
hro9_4 3 1.69e-03 AAA ACTTTAAA GGAG
dwi5_7 2 1.69e-03 TG CCTATAAA ACCCT
sko100_2 1 1.69e-03 A GCGTTATA CGACAT
sko99_1 1 1.69e-03 A GCGTTATA CCACAG
sko5_1 1 1.69e-03 A ACAATAAA TGACAT
csa62_1 3 1.69e-03 TTG GCGTTATA AGCG
tru3_2 2 1.69e-03 TA ACTTTAAA AGGCC
cca125_1 3 1.82e-03 TTA GCGATATA ATGC
cca44_1 3 1.82e-03 GTA ACCATAAA AGTC
hro106_1 4 1.82e-03 TATA ACTATAAA GAG
hro101_3 2 1.82e-03 TA ACTATAAA GGAGC
hro100_1 2 1.82e-03 TA ACTATAAA AGGAG
hro95_20 3 1.82e-03 TAA ACTATAAA GGTG
hro94_5 3 1.82e-03 TAA ACTATAAA GGAG
hro92_1 4 1.82e-03 TAAA ACTATAAA GGA
hro85_1 3 1.82e-03 GTA ACTATAAA GGAG
hro84_2 4 1.82e-03 GTAA ACTATAAA GGA
hro63_1 3 1.82e-03 CAA ACTATAAA GGAG
hro60_1 3 1.82e-03 ATT ACTATAAA GGAG
hro57_1 3 1.82e-03 ATG ACTATAAA GGAG
hro42_9 3 1.82e-03 ATA ACTATAAA TGAG
hro41_1 3 1.82e-03 ATA ACTATAAA GGGG
hro40_248 3 1.82e-03 ATA ACTATAAA GGAG
hro39_2 3 1.82e-03 ATA ACTATAAA AGAG
hro36_2 3 1.82e-03 ANA ACTATAAA GGAG
hro33_1 3 1.82e-03 AGG ACCATAAA GGAG
hro30_2 3 1.82e-03 AGA ACTATAAA GGAG
hro27_1 3 1.82e-03 ACA ACTATAAA GGAG
hro22_6 1 1.82e-03 A ACTATAAA ATGGAG
hro21_6 1 1.82e-03 A ACTATAAA AAGGAG
hro20_9 1 1.82e-03 A ACTATAAA AAAGAG
hro19_6 1 1.82e-03 A ACTATAAA AAAAAG
hro3_243 3 1.82e-03 AAA ACTATAAA GGAG
hro2_4 3 1.82e-03 AAA ACTATAAA GAAG
hro1_21 3 1.82e-03 AAA ACTATAAA AGAG
oga2_1 7 1.82e-03 ACCAAGG GCGATATA
cca64_1 4 1.97e-03 GTGT GCCATANA GGC
api5_1 1 1.97e-03 A GAATTAAA ATGTTT
sko74_2 1 1.97e-03 A GCATTACA TGACAT
sko73_1 1 1.97e-03 A GCATTACA GGACAT
sko51_1 1 1.97e-03 A GCAGTAAA TGATAT
sko50_13 1 1.97e-03 A GCAGTAAA TGACAT
sko49_4 1 1.97e-03 A GCAGTAAA CGACAT
sko36_1 1 1.97e-03 A GAATTAAA TTACAT
sko35_1 1 1.97e-03 A GAATTAAA CGACAT
csa2_1 2 1.97e-03 AG GCGTTTAA AGGCG
dre8_1 2 1.97e-03 CT GAATTAAA TAGCC
cca128_2 3 2.35e-03 TTA GCGATTAA ATGC
cca83_1 2 2.35e-03 TA GCCGTAAA AGGCT
isc7_1 2 2.35e-03 TT GAAATAAA GGTAG
api37_2 2 2.35e-03 TT GATTTAAA TAATG
sko107_1 1 2.35e-03 A GGATTAAA TGATAT
sko106_9 1 2.35e-03 A GGATTAAA TGACAT
sko102_1 1 2.35e-03 A GCTGTAAA TTACAT
sko101_1 1 2.35e-03 A GCTGTAAA TGACAT
sko47_2 1 2.35e-03 A GCAATACA TTACAT
sko34_1 1 2.35e-03 A GAAATAAA TGACAT
csa60_1 3 2.35e-03 TTC GACTTAAA AGCG
cin13_1 2 2.35e-03 AC GCGATTAA AGGCG
cin12_3 2 2.35e-03 AC GCGATTAA AAGCG
pma51_2 2 2.35e-03 TA GCGATTAA TTTAC
dre42_6 2 2.35e-03 TT GATTTAAA TAGCC
dre41_2 1 2.35e-03 T GATTTAAA TAGCCA
dre35_1 3 2.35e-03 GCT GATTTAAA TAGC
dre19_1 2 2.35e-03 CT GATTTAAA TTTCC
dre18_1 2 2.35e-03 CT GATTTAAA TTGCC
dre17_2 2 2.35e-03 CT GATTTAAA TAGTC
dre16_1 2 2.35e-03 CT GATTTAAA TAGCT
dre15_2886 2 2.35e-03 CT GATTTAAA TAGCC
dre14_4 2 2.35e-03 CT GATTTAAA TAGCA
dre13_1 2 2.35e-03 CT GATTTAAA TAGAC
dre12_3 2 2.35e-03 CT GATTTAAA TAACC
dre11_4 2 2.35e-03 CT GATTTAAA AAGCC
tbe1_1 2 2.35e-03 AA GAAATAAA TCTGA
cpo45_1 1 2.35e-03 G GCATTCAA GTCCTG
oga11_1 4 2.35e-03 GAAT GGATTAAA TCA
tad5_1 3 2.71e-03 CAT GATATAAA ATGA
tad2_1 3 2.71e-03 AAT GATATAAA TAGA
cca57_1 3 2.71e-03 GTA GCCATACA AGGC
cca38_1 3 2.71e-03 GCA GACATAAA AGGC
tsp38_1 2 2.71e-03 TG GGCTTAAA AGGAT
tsp4_1 1 2.71e-03 A GATATAAA ATGGAT
sko188_1 2 2.71e-03 TA GCATTAAT GACAT
sko176_2 0 2.71e-03 GCATTAAT TGAAATC
sko72_1 1 2.71e-03 A GCATTAAT TGACAT
sko71_93 1 2.71e-03 A GCATTAAT TGAAAT
sko70_1 1 2.71e-03 A GCATTAAT AGAAAT
sko19_1 2 2.71e-03 AA GCATTAAT GACAT
odi43_1 3 2.71e-03 TTT GATATAAA TCGT
odi6_2 3 2.71e-03 ATT GATATAAA TACA
odi2_1 6 2.71e-03 AAAATT GATATAAA T
cmi2_2 3 2.71e-03 AGT GGTTTAAA TGTT
sar11_1 1 2.71e-03 G GGAATAAA GAAATA
ttr5_2 2 2.71e-03 TG GCCTTCAA GAGGC
tad3_1 3 2.93e-03 AAT GGTATAAA GAGA
cca61_6 3 2.93e-03 GTA GGCATAAA AGGC
hro56_1 3 2.93e-03 ATA GGTATAAA GGAG
hro34_1 1 2.93e-03 A GGTATAAA AAGGAG
sko75_3 1 2.93e-03 A GCATTATA TGACAT
sko46_1 1 2.93e-03 A GCAATAAT TGAAAT
csa7_1 3 2.93e-03 CGC GGTATAAA TTAG
ttr3_1 2 2.93e-03 TG GCCATCAA GAGGC
dre25_1 2 3.09e-03 CT GCTTTATA TAGCC
sko78_10 1 3.21e-03 A GCATTTAA TGACAT
sko77_1 1 3.21e-03 A GCATTTAA CGACAT
odi31_1 3 3.21e-03 TCT GCTATATA AGGC
odi19_1 3 3.21e-03 GAA GCTATATA AGCT
tru6_1 1 3.21e-03 T GCATTTAA AGAGGC
ete9_1 6 3.21e-03 GGAGAA GTGAGAAA G
laf15_2 3 3.21e-03 CGC GCCATATA TAAA
hro18_1 2 3.51e-03 AA ATGTTAAA TAAAG
bmo45_1 6 3.51e-03 TGTGCA ATGTTAAA C
sko95_1 1 3.51e-03 A GCGTTAAG CGACAT
cca121_1 3 3.66e-03 TTA GCGATAAG CTGC

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
cjc3_1 8.72e-05
oga2_1 1.82e-03
oga10_1 1.87e-04
oga11_1 2.35e-03
rno7_1 7.00e-04
cpo9_1 9.48e-04
cpo45_1 2.35e-03
tbe1_1 2.35e-03
ttr3_1 2.93e-03
ttr5_2 2.71e-03
sar11_1 2.71e-03
laf15_2 3.21e-03
ete9_1 3.21e-03
gga4_1 1.87e-04
tru3_2 1.69e-03
tru6_1 3.21e-03
gac18_9 7.00e-04
gac19_1 7.00e-04
dre3_1 1.41e-03
dre5_18 7.00e-04
dre8_1 1.97e-03
dre11_4 2.35e-03
dre12_3 2.35e-03
dre13_1 2.35e-03
dre14_4 2.35e-03
dre15_2886 2.35e-03
dre16_1 2.35e-03
dre17_2 2.35e-03
dre18_1 2.35e-03
dre19_1 2.35e-03
dre24_125 1.87e-04
dre25_1 3.09e-03
dre27_1 7.00e-04
dre28_42 7.00e-04
dre29_9 7.00e-04
dre35_1 2.35e-03
dre36_1 1.87e-04
dre41_2 2.35e-03
dre42_6 2.35e-03
dre43_1 7.00e-04
cmi2_2 2.71e-03
pma51_2 2.35e-03
cin7_1 1.19e-03
cin9_1 4.73e-05
cin10_1 1.41e-03
cin12_3 2.35e-03
cin13_1 2.35e-03
cin28_1 1.19e-03
csa2_1 1.97e-03
csa7_1 2.93e-03
csa11_1 1.87e-04
csa60_1 2.35e-03
csa62_1 1.69e-03
odi2_1 2.71e-03
odi6_2 2.71e-03
odi19_1 3.21e-03
odi20_1 1.41e-03
odi31_1 3.21e-03
odi43_1 2.71e-03
sko5_1 1.69e-03
sko7_4 1.41e-03
sko8_6 1.41e-03
sko9_1 1.41e-03
sko12_1 7.00e-04
sko13_1 7.00e-04
sko14_16 7.00e-04
sko17_5 8.72e-05
sko18_1 8.72e-05
sko19_1 2.71e-03
sko20_2 2.19e-05
sko21_1 4.57e-04
sko22_1 4.57e-04
sko23_1 4.57e-04
sko24_1 7.00e-04
sko29_3 1.19e-03
sko30_1 4.57e-04
sko31_1 2.19e-05
sko33_1 4.57e-04
sko34_1 2.35e-03
sko35_1 1.97e-03
sko36_1 1.97e-03
sko37_2 1.87e-04
sko38_1 1.87e-04
sko39_2 1.87e-04
sko40_32 1.87e-04
sko41_5 1.87e-04
sko42_1 1.87e-04
sko43_1 1.87e-04
sko44_2 1.87e-04
sko45_1 1.87e-04
sko46_1 2.93e-03
sko47_2 2.35e-03
sko49_4 1.97e-03
sko50_13 1.97e-03
sko51_1 1.97e-03
sko55_3 8.84e-04
sko56_9 8.72e-05
sko57_1 8.72e-05
sko58_25 8.72e-05
sko59_5 8.72e-05
sko60_6 8.72e-05
sko61_4 8.72e-05
sko62_366 8.72e-05
sko63_1 8.72e-05
sko64_2 8.72e-05
sko65_2 8.72e-05
sko66_2 8.72e-05
sko67_1 8.72e-05
sko68_20 8.72e-05
sko70_1 2.71e-03
sko71_93 2.71e-03
sko72_1 2.71e-03
sko73_1 1.97e-03
sko74_2 1.97e-03
sko75_3 2.93e-03
sko77_1 3.21e-03
sko78_10 3.21e-03
sko79_3 1.87e-04
sko80_3 4.73e-05
sko81_1 1.19e-03
sko83_3 2.19e-05
sko84_1 2.19e-05
sko85_28 2.19e-05
sko86_104 2.19e-05
sko87_1 2.19e-05
sko88_1 2.19e-05
sko89_1 2.19e-05
sko90_1 2.19e-05
sko91_1 2.19e-05
sko92_1 2.19e-05
sko93_2 2.19e-05
sko94_1 2.19e-05
sko95_1 3.51e-03
sko96_2 1.41e-03
sko97_1 1.41e-03
sko98_1 1.06e-03
sko99_1 1.69e-03
sko100_2 1.69e-03
sko101_1 2.35e-03
sko102_1 2.35e-03
sko103_5 1.87e-04
sko104_1 1.87e-04
sko105_1 1.87e-04
sko106_9 2.35e-03
sko107_1 2.35e-03
sko108_1 1.19e-03
sko109_2 7.00e-04
sko114_1 4.57e-04
sko115_2 4.57e-04
sko116_6 4.57e-04
sko117_2 4.57e-04
sko118_10 4.57e-04
sko119_1 4.57e-04
sko120_37 4.57e-04
sko121_1 4.57e-04
sko122_1 4.57e-04
sko123_1 4.57e-04
sko124_317 4.57e-04
sko125_2 4.57e-04
sko126_2 4.57e-04
sko127_1 4.57e-04
sko128_2 4.57e-04
sko129_5 4.57e-04
sko139_2 7.00e-04
sko140_1 3.35e-04
sko141_1 2.89e-04
sko142_3 2.89e-04
sko143_2 7.00e-04
sko144_6 7.00e-04
sko149_1 4.57e-04
sko160_1 8.72e-05
sko161_6 2.19e-05
sko162_1 2.19e-05
sko163_4 1.87e-04
sko164_9 4.57e-04
sko166_1 4.57e-04
sko168_1 4.57e-04
sko171_1 8.72e-05
sko172_1 8.72e-05
sko173_1 8.72e-05
sko174_2 8.72e-05
sko175_1 8.72e-05
sko176_2 2.71e-03
sko177_4 8.72e-05
sko178_3 1.87e-04
sko179_3 4.57e-04
sko181_1 4.57e-04
sko182_1 4.57e-04
sko187_1 8.72e-05
sko188_1 2.71e-03
sko189_1 1.87e-04
sko190_1 8.72e-05
sko191_2 2.19e-05
sko192_2 4.57e-04
sko193_11 4.57e-04
dwi5_7 1.69e-03
dgr2_33 2.49e-04
dgr8_4 2.49e-04
bmo45_1 3.51e-03
nvi18_1 7.00e-04
api5_1 1.97e-03
api37_2 2.35e-03
isc7_1 2.35e-03
cbr2_4 1.06e-03
min6_8 7.00e-04
tsp4_1 2.71e-03
tsp8_2 7.00e-04
tsp10_1 7.00e-04
tsp16_2 7.00e-04
tsp17_4 7.00e-04
tsp18_4 7.00e-04
tsp19_2 7.00e-04
tsp25_3 7.00e-04
tsp26_2 7.00e-04
tsp33_2 7.00e-04
tsp37_1 1.87e-04
tsp38_1 2.71e-03
tsp40_1 7.00e-04
tsp42_1 4.57e-04
tsp46_1 7.00e-04
tsp47_1 7.00e-04
tsp48_342 7.00e-04
tsp49_1 7.00e-04
tsp52_1 3.35e-04
tsp53_1 3.35e-04
tsp55_1 8.84e-04
tsp57_4 7.00e-04
hro1_21 1.82e-03
hro2_4 1.82e-03
hro3_243 1.82e-03
hro9_4 1.69e-03
hro18_1 3.51e-03
hro19_6 1.82e-03
hro20_9 1.82e-03
hro21_6 1.82e-03
hro22_6 1.82e-03
hro27_1 1.82e-03
hro30_2 1.82e-03
hro33_1 1.82e-03
hro34_1 2.93e-03
hro36_2 1.82e-03
hro39_2 1.82e-03
hro40_248 1.82e-03
hro41_1 1.82e-03
hro42_9 1.82e-03
hro52_1 1.69e-03
hro53_2 1.69e-03
hro54_1 2.49e-04
hro56_1 2.93e-03
hro57_1 1.82e-03
hro60_1 1.82e-03
hro63_1 1.82e-03
hro71_1 1.69e-03
hro76_1 1.69e-03
hro84_2 1.82e-03
hro85_1 1.82e-03
hro92_1 1.82e-03
hro94_5 1.82e-03
hro95_20 1.82e-03
hro100_1 1.82e-03
hro101_3 1.82e-03
hro103_1 1.69e-03
hro106_1 1.82e-03
hro109_1 1.69e-03
hro112_1 1.69e-03
hro118_1 1.69e-03
cca5_1 4.73e-05
cca7_3 4.73e-05
cca24_1 1.69e-03
cca29_1 4.73e-05
cca32_1 2.49e-04
cca34_1 4.73e-05
cca35_1 1.69e-03
cca38_1 2.71e-03
cca44_1 1.82e-03
cca45_1 4.73e-05
cca46_1 1.69e-03
cca47_1 1.19e-03
cca48_1 8.72e-05
cca49_1 2.49e-04
cca50_3 2.49e-04
cca51_1 2.49e-04
cca52_385 2.49e-04
cca53_1 2.49e-04
cca54_1 2.49e-04
cca57_1 2.71e-03
cca58_8 1.19e-03
cca59_12 4.73e-05
cca60_2 4.73e-05
cca61_6 2.93e-03
cca62_1 1.69e-03
cca63_1 4.73e-05
cca64_1 1.97e-03
cca65_1 4.73e-05
cca66_2 4.73e-05
cca67_2 4.73e-05
cca77_1 4.73e-05
cca78_4 4.73e-05
cca79_2 1.41e-03
cca81_1 2.49e-04
cca82_1 2.49e-04
cca83_1 2.35e-03
cca84_1 4.73e-05
cca85_5 4.73e-05
cca87_1 4.73e-05
cca89_1 1.41e-03
cca90_1 4.73e-05
cca93_3 4.73e-05
cca94_1 1.69e-03
cca97_7 4.73e-05
cca98_1 1.19e-03
cca102_1 2.49e-04
cca103_1 2.49e-04
cca105_1 2.49e-04
cca106_5 4.73e-05
cca107_4 4.73e-05
cca108_1 4.73e-05
cca109_3 8.84e-04
cca111_1 7.00e-04
cca112_17 1.87e-04
cca113_1 1.87e-04
cca114_15 2.49e-04
cca116_1 4.73e-05
cca117_1 4.73e-05
cca118_1 4.73e-05
cca119_907 4.73e-05
cca121_1 3.66e-03
cca122_2 1.69e-03
cca123_2 1.19e-03
cca125_1 1.82e-03
cca126_4 1.41e-03
cca128_2 2.35e-03
cca130_1 2.49e-04
cca131_1 1.41e-03
cca132_5 3.35e-04
cca134_2 4.73e-05
cca135_1 4.73e-05
cca137_1 4.73e-05
cca138_1 4.73e-05
cca139_3 4.73e-05
lgi8_1 9.48e-04
lgi9_1 9.48e-04
lgi10_1 3.65e-04
lgi11_2 3.65e-04
lgi12_1 3.65e-04
lgi13_1 3.65e-04
lgi14_8 3.65e-04
lgi15_111 3.65e-04
lgi16_4 3.65e-04
lgi17_2 3.65e-04
lgi18_1 3.65e-04
lgi19_1 3.65e-04
lgi20_1 3.65e-04
lgi21_1 3.65e-04
lgi25_1 1.06e-03
lgi28_1 3.65e-04
lgi34_1 3.65e-04
nve2_1 8.84e-04
nve6_15 2.49e-04
rsp9_15 1.69e-03
rsp19_1 9.48e-04
rsp20_28 3.65e-04
rsp21_1 3.65e-04
rsp30_1 1.69e-03
rsp31_1 1.69e-03
rsp32_1 1.69e-03
rsp35_1 3.65e-04
tad2_1 2.71e-03
tad3_1 2.93e-03
tad5_1 2.71e-03
 
0
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6
8
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14

Time 2506.2 secs.

Motif 2

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Summary

Sequence Logo

E-value 5.5e-077
Width 8
Sites 61
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

TCTTG[GA]GG

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
sma4_1 5 5.71e-06 CAGGC TCTTGGGG CG
mdo6_6 6 5.71e-06 GCGAGC TCTTGGGG C
mdo3_1 6 5.71e-06 CCAAGC TCTTGGGG C
cho8_1 6 5.71e-06 GTAGGC TCTTGGGG C
pva9_1 6 5.71e-06 TTGAGG TCTTGGGG C
pva8_13 6 5.71e-06 TCGAGC TCTTGGGG C
pva3_2 6 5.71e-06 TCGACC TCTTGGGG C
pva2_1 6 5.71e-06 TCGAAC TCTTGGGG C
pva1_1 6 5.71e-06 TCCAGC TCTTGGGG C
ssc4_1 6 5.71e-06 GCGGGC TCTTGGGG C
cfa4_3 6 5.71e-06 GCAGGC TCTTGGGG C
mmu2_39 5 5.71e-06 CAGGC TCTTGGGG CT
mmu1_3 5 5.71e-06 AAGGC TCTTGGGG CT
tsy5_4 6 5.71e-06 GCAGGC TCTTGGGG C
mac1_12 6 5.71e-06 CCGGGC TCTTGGGG C
ppy4_1 7 5.71e-06 GCCATGC TCTTGGGG
ppy3_1 7 5.71e-06 GCCAGGC TCTTGGGG
ppy2_3 6 5.71e-06 CCGGGC TCTTGGGG C
hsa3_15 6 5.71e-06 CTGGGC TCTTGGGG C
hsa2_2 6 5.71e-06 CCGGGC TCTTGGGG C
cho7_7 3 1.61e-05 GGC TCTTGAGG CTCC
dno3_1 4 1.61e-05 GGGC TCTTGAGG C
dno2_4 6 1.61e-05 GCGGGC TCTTGAGG C
sar9_1 6 1.61e-05 CTGGCT TCTTGAGG G
sar7_1 6 1.61e-05 CGGGCT TCTTGAGG G
eeu1_16 6 1.61e-05 TTGGCT TCTTGAGG C
pva6_6 6 1.61e-05 TCGAGC TCTTGAGG C
mlu15_1 6 1.61e-05 TCGGGC TCTTGAGG C
mlu13_4 6 1.61e-05 GTGGGC TCTTGAGG C
mlu11_1 6 1.61e-05 GCGGGC TCTTGAGG T
mlu10_11 6 1.61e-05 GCGGGC TCTTGAGG C
mlu8_1 6 1.61e-05 GCGCGC TCTTGAGG C
mlu6_1 5 1.61e-05 CGGGC TCTTGAGG CT
vpa3_4 6 1.61e-05 GCGGGC TCTTGAGG C
fca4_25 6 1.61e-05 GCAGGC TCTTGAGG C
fca2_1 6 1.61e-05 CTAGCC TCTTGAGG C
fca1_1 6 1.61e-05 CCAGTC TCTTGAGG C
tbe5_1 6 1.61e-05 TCGGGC TCTTGAGG C
str1_5 6 1.61e-05 GCAGGC TCTTGAGG C
oga16_1 6 1.61e-05 TCTCCC TCTTGAGG C
oga14_3 6 1.61e-05 TCCCCC TCTTGAGG C
oga9_1 7 1.61e-05 CTCTCCC TCTTGAGG
oga8_1 5 1.61e-05 CTCCC TCTTGAGG CT
pca3_3 6 2.65e-05 GTGGGT TCTTAGGG C
pca2_6 6 2.65e-05 GTGGCT TCTTAGGG C
laf20_5 6 2.65e-05 GCAGGC TCTTAGGG C
pva5_1 6 2.65e-05 TCGAGC TCTTAGGG T
pva4_1 6 2.65e-05 TCGAGC TCTTAGGG C
eca4_1 6 2.65e-05 GAGGCT TCTTAGGG G
bta3_1 6 2.65e-05 CAGGGC TCTTAGGG C
bta2_2 6 2.65e-05 AGGGGC TCTTAGGG C
mdo5_5 6 3.31e-05 GCGAGC TCTAGGGG C
cca33_1 3 6.41e-05 GAC TCTAGAGG ATCC
cca31_1 1 6.41e-05 C TCTAGAGG ATCCCA
hro113_1 0 6.41e-05 TCTAGAGG ATCCCCG
hro75_1 1 6.41e-05 C TCTAGAGG ATCCCC
tsy4_1 6 6.73e-05 GCAGGC TCTCGGGG C
cpo60_1 6 7.04e-05 TGAGGT CCTTGGGG T
pva7_1 6 8.08e-05 TCGAGC TCTTGGAG C
fca3_6 6 1.11e-04 GCAGGC TCTTGAAG G
cjc4_3 6 1.22e-04 GCCGCC TTTTGGGG C

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
hsa2_2 5.71e-06
hsa3_15 5.71e-06
ppy2_3 5.71e-06
ppy3_1 5.71e-06
ppy4_1 5.71e-06
mac1_12 5.71e-06
cjc4_3 1.22e-04
tsy4_1 6.73e-05
tsy5_4 5.71e-06
oga8_1 1.61e-05
oga9_1 1.61e-05
oga14_3 1.61e-05
oga16_1 1.61e-05
mmu1_3 5.71e-06
mmu2_39 5.71e-06
str1_5 1.61e-05
cpo60_1 7.04e-05
tbe5_1 1.61e-05
fca1_1 1.61e-05
fca2_1 1.61e-05
fca3_6 1.11e-04
fca4_25 1.61e-05
cfa4_3 5.71e-06
vpa3_4 1.61e-05
bta2_2 2.65e-05
bta3_1 2.65e-05
ssc4_1 5.71e-06
eca4_1 2.65e-05
mlu6_1 1.61e-05
mlu8_1 1.61e-05
mlu10_11 1.61e-05
mlu11_1 1.61e-05
mlu13_4 1.61e-05
mlu15_1 1.61e-05
pva1_1 5.71e-06
pva2_1 5.71e-06
pva3_2 5.71e-06
pva4_1 2.65e-05
pva5_1 2.65e-05
pva6_6 1.61e-05
pva7_1 8.08e-05
pva8_13 5.71e-06
pva9_1 5.71e-06
eeu1_16 1.61e-05
sar7_1 1.61e-05
sar9_1 1.61e-05
laf20_5 2.65e-05
pca2_6 2.65e-05
pca3_3 2.65e-05
dno2_4 1.61e-05
dno3_1 1.61e-05
cho7_7 1.61e-05
cho8_1 5.71e-06
mdo3_1 5.71e-06
mdo5_5 3.31e-05
mdo6_6 5.71e-06
sma4_1 5.71e-06
hro75_1 6.41e-05
hro113_1 6.41e-05
cca31_1 6.41e-05
cca33_1 6.41e-05
 
0
2
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6
8
10
12
14

Time 2709.4 secs.

Motif 3

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Summary

Sequence Logo

E-value 5.2e-026
Width 8
Sites 71
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

TATATAAT

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
tad1_1 5 1.15e-04 AATAG TATATAAT TA
nve48_1 3 1.15e-04 TTT TATATAAT AGAT
nve47_1 1 1.15e-04 T TATATAAT AGATAG
nve41_1 5 1.15e-04 TGTTA TATATAAT AT
nve39_1 3 1.15e-04 TGT TATATAAT TGAT
nve38_2 3 1.15e-04 TGT TATATAAT GGAT
nve37_3 3 1.15e-04 TGT TATATAAT ATCT
nve36_52 3 1.15e-04 TGT TATATAAT ATAT
nve35_4 3 1.15e-04 TGT TATATAAT AGGT
nve34_2 3 1.15e-04 TGT TATATAAT AGCT
nve33_482 3 1.15e-04 TGT TATATAAT AGAT
nve32_1 3 1.15e-04 TGT TATATAAT AGAG
nve31_2 3 1.15e-04 TGT TATATAAT AGAC
nve30_3 3 1.15e-04 TGT TATATAAT AGAA
nve29_10 3 1.15e-04 TGT TATATAAT ACAT
nve20_2 3 1.15e-04 TAT TATATAAT AGAT
nve19_1 0 1.15e-04 TATATAAT AGAT
nve12_1 2 1.15e-04 GT TATATAAT ATATA
nve11_1 2 1.15e-04 GT TATATAAT AGATA
nve10_1 3 1.15e-04 GAG TATATAAT AGAT
nve9_1 4 1.15e-04 CTGT TATATAAT AGA
mha8_1 5 1.15e-04 TTTTC TATATAAT GA
mha7_1 5 1.15e-04 TTTTC TATATAAT AA
mha3_2 5 1.15e-04 TCTTC TATATAAT AA
min14_1 5 1.15e-04 TTTTC TATATAAT AA
min9_3 5 1.15e-04 TCTTC TATATAAT TA
min7_1 5 1.15e-04 CCTTC TATATAAT AA
min5_1 5 1.15e-04 ATTTC TATATAAT AA
min3_1 5 1.15e-04 ACTAC TATATAAT AA
dgr3_4 4 1.15e-04 CAAA TATATAAT CCC
odi44_5 5 1.15e-04 TTTGA TATATAAT GT
odi39_1 5 1.15e-04 TTTAA TATATAAT GT
odi30_1 0 1.15e-04 TATATAAT ATAATGT
odi26_4 5 1.15e-04 GTTGA TATATAAT GT
odi24_1 5 1.15e-04 GTTCA TATATAAT GT
odi23_2 5 1.15e-04 GTTAA TATATAAT GT
odi18_1 5 1.15e-04 CTTGA TATATAAT GT
odi1_1 5 1.15e-04 AAAAA TATATAAT GC
nve28_1 3 2.47e-04 TGT TATATAAA ATGT
nve27_68 3 2.47e-04 TGT TATATAAA ATCT
nve26_4 3 2.47e-04 TGT TATATAAA ATAT
nve25_2 3 2.47e-04 TGT TATATAAA AGAT
nve18_1 3 2.47e-04 TAA TATATAAA ATCT
nve8_1 4 2.47e-04 CTGT TATATAAA TCT
nve3_3 5 2.47e-04 ACTGT TATATAAA AT
bgl6_1 1 2.47e-04 A TATATAAA C
bgl5_1 5 2.47e-04 ATAAA TATATAAA CA
bgl3_10 6 2.47e-04 AATAAA TATATAAA C
hro110_1 3 2.47e-04 TAT TATATAAA GGAG
hro23_1 3 2.47e-04 AAC TATATAAA AGAG
laf16_2 7 2.47e-04 CTCAGCA TATATAAA
nve40_1 3 3.10e-04 TGT TATATAGT AGAT
sko167_1 5 3.10e-04 GAAGT TATATAGT GA
odi41_1 5 3.10e-04 TTTAG TATATAGT GT
odi40_1 5 3.10e-04 TTTAA TATATAGT GT
odi35_1 5 3.10e-04 TTCAG TATATAGT GT
odi15_1 5 3.10e-04 CACGA TATATAGT GT
odi8_1 5 3.10e-04 ATTGA TATATAGT GT
min12_1 5 4.09e-04 TTCCT TTTATAAT AA
dmo2_1 4 4.09e-04 CACA TTTATAAT GCA
odi36_3 5 4.09e-04 TTCAG TTTATAAT GC
odi14_5 5 4.09e-04 ATTGA TTTATAAT GT
odi3_1 5 4.09e-04 AATGA TTTATAAT GT
mlu14_1 5 4.09e-04 TACCT TTTATAAT TA
rno8_1 7 4.09e-04 GTGTAAA TTTATAAT
nve46_1 3 5.08e-04 TGT TATTTAAT AGAT
sko137_4 2 5.08e-04 AG TATTTAAT TACAT
sko136_1 2 5.08e-04 AG TATTTAAT TAAAT
sko135_1 2 5.08e-04 AG TATTTAAT GATAT
odi11_1 5 5.08e-04 ATTGA TATTTAAT GC
odi5_1 5 5.08e-04 ATCGG TATTTAAT GC

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 4.09e-04
mlu14_1 4.09e-04
laf16_2 2.47e-04
odi1_1 1.15e-04
odi3_1 4.09e-04
odi5_1 5.08e-04
odi8_1 3.10e-04
odi11_1 5.08e-04
odi14_5 4.09e-04
odi15_1 3.10e-04
odi18_1 1.15e-04
odi23_2 1.15e-04
odi24_1 1.15e-04
odi26_4 1.15e-04
odi30_1 1.15e-04
odi35_1 3.10e-04
odi36_3 4.09e-04
odi39_1 1.15e-04
odi40_1 3.10e-04
odi41_1 3.10e-04
odi44_5 1.15e-04
sko135_1 5.08e-04
sko136_1 5.08e-04
sko137_4 5.08e-04
sko167_1 3.10e-04
dmo2_1 4.09e-04
dgr3_4 1.15e-04
min3_1 1.15e-04
min5_1 1.15e-04
min7_1 1.15e-04
min9_3 1.15e-04
min12_1 4.09e-04
min14_1 1.15e-04
mha3_2 1.15e-04
mha7_1 1.15e-04
mha8_1 1.15e-04
hro23_1 2.47e-04
hro110_1 2.47e-04
bgl3_10 2.47e-04
bgl5_1 2.47e-04
bgl6_1 2.47e-04
nve3_3 2.47e-04
nve8_1 2.47e-04
nve9_1 1.15e-04
nve10_1 1.15e-04
nve11_1 1.15e-04
nve12_1 1.15e-04
nve18_1 2.47e-04
nve19_1 1.15e-04
nve20_2 1.15e-04
nve25_2 2.47e-04
nve26_4 2.47e-04
nve27_68 2.47e-04
nve28_1 2.47e-04
nve29_10 1.15e-04
nve30_3 1.15e-04
nve31_2 1.15e-04
nve32_1 1.15e-04
nve33_482 1.15e-04
nve34_2 1.15e-04
nve35_4 1.15e-04
nve36_52 1.15e-04
nve37_3 1.15e-04
nve38_2 1.15e-04
nve39_1 1.15e-04
nve40_1 3.10e-04
nve41_1 1.15e-04
nve46_1 5.08e-04
nve47_1 1.15e-04
nve48_1 1.15e-04
tad1_1 1.15e-04
 
0
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6
8
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14

Time 2905.7 secs.

Motif 4

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Summary

Sequence Logo

E-value 2.8e-022
Width 8
Sites 37
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

TTTTACCT

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
csa64_1 6 2.22e-05 TTTCCA TTTTACCT C
csa61_1 7 2.22e-05 TTCTCCA TTTTACCT
csa58_9 7 2.22e-05 TGTTTCA TTTTACCT
csa57_1 7 2.22e-05 TGTTTAA TTTTACCT
csa55_1 7 2.22e-05 TGTTCGA TTTTACCT
csa52_115 7 2.22e-05 TGTTCCA TTTTACCT
csa44_3 7 2.22e-05 TGTTCAA TTTTACCT
csa42_12 7 2.22e-05 TGTTATA TTTTACCT
csa41_1 7 2.22e-05 TGTTACA TTTTACCT
csa39_2 7 2.22e-05 TGGTCCA TTTTACCT
csa37_1 7 2.22e-05 TGCTCTA TTTTACCT
csa35_8 7 2.22e-05 TGCTCCA TTTTACCT
csa34_2 7 2.22e-05 TGATATA TTTTACCT
csa20_1 4 2.22e-05 TCCA TTTTACCT CTG
csa18_1 7 2.22e-05 TATTATA TTTTACCT
csa15_2 7 2.22e-05 TAATCCA TTTTACCT
csa13_1 7 2.22e-05 GTTCGCA TTTTACCT
csa12_1 7 2.22e-05 GTTCCCA TTTTACCT
csa10_1 7 2.22e-05 GGTTCAA TTTTACCT
csa8_6 7 2.22e-05 CGTTCCA TTTTACCT
csa4_1 1 2.22e-05 A TTTTACCT
csa3_1 7 2.22e-05 AGTTCCA TTTTACCT
csa56_2 7 3.44e-05 TGTTGCA TTTTACCC
csa51_1 7 3.44e-05 TGTTCCA TTTTACCC
csa14_1 7 3.44e-05 NNNNNNN NTTTACCT
csa63_8 7 6.02e-05 TTGTTCC ATTTACCT
csa54_1 7 6.02e-05 TGTTCCC ATTTACCT
csa40_1 7 6.02e-05 TGGTTCC ATTTACCT
min15_1 0 1.20e-04 TTTTTCCT TAAATAT
csa59_8 7 1.20e-04 TGTTTTA TTTTACTT
csa53_14 7 1.20e-04 TGTTCCA TTTTACTT
csa45_1 7 1.20e-04 TGTTCAA TTTTACTT
csa36_2 7 1.20e-04 TGCTCCA TTTTACTT
csa9_1 7 1.20e-04 CGTTTCA TTTTTCCT
rsp43_1 0 1.43e-04 TTTTCCCT ATAGAAT
csa47_1 7 1.43e-04 TGTTCCA CTTTACCT
csa48_2 7 1.55e-04 TGTTCCA TTCTACCT

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
csa3_1 2.22e-05
csa4_1 2.22e-05
csa8_6 2.22e-05
csa9_1 1.20e-04
csa10_1 2.22e-05
csa12_1 2.22e-05
csa13_1 2.22e-05
csa14_1 3.44e-05
csa15_2 2.22e-05
csa18_1 2.22e-05
csa20_1 2.22e-05
csa34_2 2.22e-05
csa35_8 2.22e-05
csa36_2 1.20e-04
csa37_1 2.22e-05
csa39_2 2.22e-05
csa40_1 6.02e-05
csa41_1 2.22e-05
csa42_12 2.22e-05
csa44_3 2.22e-05
csa45_1 1.20e-04
csa47_1 1.43e-04
csa48_2 1.55e-04
csa51_1 3.44e-05
csa52_115 2.22e-05
csa53_14 1.20e-04
csa54_1 6.02e-05
csa55_1 2.22e-05
csa56_2 3.44e-05
csa57_1 2.22e-05
csa58_9 2.22e-05
csa59_8 1.20e-04
csa61_1 2.22e-05
csa63_8 6.02e-05
csa64_1 2.22e-05
min15_1 1.20e-04
rsp43_1 1.43e-04
 
0
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8
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14

Time 3087.5 secs.

Motif 5

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Summary

Sequence Logo

E-value 7.5e-018
Width 8
Sites 57
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

TATAAG[CG]G

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
cja2_8 6 2.19e-05 CGAGCA TATAAGCG A
csa32_4 7 2.19e-05 TCTCTGT TATAAGCG
csa29_17 7 2.19e-05 TCGCTGT TATAAGCG
csa28_1 7 2.19e-05 TCGCTAT TATAAGCG
csa25_2 7 2.19e-05 TCGCGGT TATAAGCG
csa24_1 7 2.19e-05 TCGCGAT TATAAGCG
csa23_1 7 2.19e-05 TCGCGAG TATAAGCG
csa19_1 7 2.19e-05 TCAGGAT TATAAGCG
csa16_1 7 2.19e-05 TAGCTGT TATAAGCG
csa6_1 7 2.19e-05 CGCATGT TATAAGCG
cin33_1 7 2.19e-05 TCGCGGT TATAAGCG
cin17_1 7 2.19e-05 CCCTCTT TATAAGCG
cin14_1 7 2.19e-05 ACGCGAT TATAAGCG
cin8_1 7 2.19e-05 ACGCCAT TATAAGCG
cin6_2 7 2.19e-05 ACACGAT TATAAGCG
hro105_1 5 4.73e-05 TAGAG TATAAGGG AG
hro96_1 5 4.73e-05 TAAAC TATAAGGG AG
hro4_1 5 4.73e-05 AAAAC TATAAGGG AG
bfl1_2 5 4.73e-05 GCGCC TATAAGGG CG
csa38_1 7 6.62e-05 TGGCTGT TATAACCG
csa21_1 7 6.62e-05 TCGCAAA TATAACCG
cin35_1 7 6.62e-05 TTGCATT TATAACCG
cin32_1 7 6.62e-05 TCGCGGT TATAACCG
cin30_2 7 6.62e-05 TCGCGAT TATAACCG
cin29_2 7 6.62e-05 TCGCCAT TATAACCG
cin26_1 7 6.62e-05 TCGCAAT TATAACCG
cin21_1 7 6.62e-05 GCGCGGT TATAACCG
hro61_1 5 8.82e-05 ATTAC TATAACGG AG
hro55_1 5 8.82e-05 ATAGC TATAACGG AG
csa27_1 7 1.63e-04 TCGCTAG TATAAGCA
csa31_1 7 1.75e-04 TCGCTGT TATGAGCG
cin19_1 7 1.75e-04 CTATAGT TATGAGCG
pma21_1 4 1.75e-04 TACA TATGAGCG TTC
hro117_2 5 2.61e-04 TTAAC TATAATGG AG
hro116_1 7 2.61e-04 TGGTNAC TATAAGGA
hro114_1 5 2.61e-04 TGAAC TATAATGG AG
hro111_1 5 2.61e-04 TCAAC TATAATGG GC
hro108_3 5 2.61e-04 TATAC TATAATGG AG
hro97_70 5 2.61e-04 TAAAC TATAATGG AG
hro83_1 7 2.61e-04 GNATAAC TATAAGGA
hro65_2 4 2.61e-04 CAAT TATAATGG AGC
hro43_2 5 2.61e-04 ATAAC TATAATGG AG
hro5_5 5 2.61e-04 AAAAC TATAATGG AG
der1_38 4 2.61e-04 GGAG TATAAGGA CAC
dse1_28 4 2.61e-04 AGAG TATAAGGA CAC
dsi1_14 4 2.61e-04 AGAG TATAAGGA CAC
dme6_2 4 2.61e-04 NNNN TATAAGGA CAC
dme3_1 4 2.61e-04 NGAG TATAAGGA CAC
dme2_1 4 2.61e-04 AGAG TATAAGGA CTC
dme1_203 4 2.61e-04 AGAG TATAAGGA CAC
csa30_1 7 3.12e-04 TCGCTGT TATAGGCG
cin34_1 7 3.12e-04 TCGCGTC TAAAAGCG
cin27_1 7 3.12e-04 TCGCAGG TAAAAGCG
cin18_1 7 3.12e-04 CCGCTGT TATAGGCG
cin16_1 7 3.12e-04 CCAGATG TAAAAGCG
csa33_1 7 3.90e-04 TGAAGTT TAAAAGGG
csa26_1 7 3.90e-04 TCGCTAG TATAACCA

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
pma21_1 1.75e-04
bfl1_2 4.73e-05
cin6_2 2.19e-05
cin8_1 2.19e-05
cin14_1 2.19e-05
cin16_1 3.12e-04
cin17_1 2.19e-05
cin18_1 3.12e-04
cin19_1 1.75e-04
cin21_1 6.62e-05
cin26_1 6.62e-05
cin27_1 3.12e-04
cin29_2 6.62e-05
cin30_2 6.62e-05
cin32_1 6.62e-05
cin33_1 2.19e-05
cin34_1 3.12e-04
cin35_1 6.62e-05
csa6_1 2.19e-05
csa16_1 2.19e-05
csa19_1 2.19e-05
csa21_1 6.62e-05
csa23_1 2.19e-05
csa24_1 2.19e-05
csa25_2 2.19e-05
csa26_1 3.90e-04
csa27_1 1.63e-04
csa28_1 2.19e-05
csa29_17 2.19e-05
csa30_1 3.12e-04
csa31_1 1.75e-04
csa32_4 2.19e-05
csa33_1 3.90e-04
csa38_1 6.62e-05
dme1_203 2.61e-04
dme2_1 2.61e-04
dme3_1 2.61e-04
dme6_2 2.61e-04
dsi1_14 2.61e-04
dse1_28 2.61e-04
der1_38 2.61e-04
cja2_8 2.19e-05
hro4_1 4.73e-05
hro5_5 2.61e-04
hro43_2 2.61e-04
hro55_1 8.82e-05
hro61_1 8.82e-05
hro65_2 2.61e-04
hro83_1 2.61e-04
hro96_1 4.73e-05
hro97_70 2.61e-04
hro105_1 4.73e-05
hro108_3 2.61e-04
hro111_1 2.61e-04
hro114_1 2.61e-04
hro116_1 2.61e-04
hro117_2 2.61e-04
 
0
2
4
6
8
10
12
14

Time 3266.1 secs.

Motif 6

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Summary

Sequence Logo

E-value 2.8e-009
Width 7
Sites 34
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

GA[CT]CC[GC]C

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
rsp38_1 8 9.04e-06 TTCGAGAA GACCCGC
rsp20_28 8 9.04e-06 GCGAGAAA GACCCGC
rsp19_1 8 9.04e-06 GCAAGAAA GACCCGC
lgi25_1 8 9.04e-06 GCTAGAAA GACCCGC
lgi15_111 8 9.04e-06 GCGAGAAA GACCCGC
lgi4_1 7 9.04e-06 CGAGAAA GACCCGC C
lgi6_1 8 1.68e-05 GAGAGAAA GACCCCC
lgi19_1 8 3.33e-05 GCGAGAAA GATCCGC
lgi9_1 8 3.33e-05 GCAAGAAA GATCCGC
lgi23_1 8 4.98e-05 GCGAGTAA GACCCAC
lgi14_8 8 4.98e-05 GCGAGAAA GACCCAC
lgi8_1 8 4.98e-05 GCAAGAAA GACCCAC
lgi5_1 8 4.98e-05 GAGAGAAA GACCCAC
rno10_1 3 4.98e-05 TGT GACCCAC AGGTT
lgi32_1 8 8.05e-05 TGGCCCAA GACTCGC
lgi31_19 8 8.05e-05 TGGCCAAA GACTCGC
lgi30_11 8 8.05e-05 TGGACAAA GACTCGC
lgi29_3 8 8.05e-05 TGGAAAAA GACTCGC
lgi18_1 8 8.05e-05 GCGAGAAA GACTCGC
lgi1_1 4 8.05e-05 CAAA GACTCGC CTGA
cca99_1 4 8.05e-05 TGAG GATCCCC ATGC
cca13_1 2 8.05e-05 AG GATCCCC AAATGC
cca12_1 2 8.05e-05 AG GATCCCC AAAATG
hro74_1 6 8.05e-05 CTAGAG GATCCCC AG
bta1_1 1 8.05e-05 A GATCCCC TGGAGAA
cpo66_1 3 8.05e-05 TTT GATCCCC GGTAC
cpo10_1 4 8.05e-05 ACTG GATCCCC CCAG
rsp21_1 8 9.59e-05 GCGAGAAA GACCGGC
rsp18_1 7 9.59e-05 GAGAAAA GACCGGC C
lgi20_1 8 9.59e-05 GCGAGAAA GGCCCGC
lgi27_1 8 1.27e-04 TCGAGAAC AACCCGC
lgi26_1 8 1.27e-04 TCGAGAAA AACCCGC
lgi3_1 8 1.27e-04 CGAGAAAG AACCCGC
cca25_1 6 1.57e-04 CCGGGG GATCCAC GC

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
rno10_1 4.98e-05
cpo10_1 8.05e-05
cpo66_1 8.05e-05
bta1_1 8.05e-05
hro74_1 8.05e-05
cca12_1 8.05e-05
cca13_1 8.05e-05
cca25_1 1.57e-04
cca99_1 8.05e-05
lgi1_1 8.05e-05
lgi3_1 1.27e-04
lgi4_1 9.04e-06
lgi5_1 4.98e-05
lgi6_1 1.68e-05
lgi8_1 4.98e-05
lgi9_1 3.33e-05
lgi14_8 4.98e-05
lgi15_111 9.04e-06
lgi18_1 8.05e-05
lgi19_1 3.33e-05
lgi20_1 9.59e-05
lgi23_1 4.98e-05
lgi25_1 9.04e-06
lgi26_1 1.27e-04
lgi27_1 1.27e-04
lgi29_3 8.05e-05
lgi30_11 8.05e-05
lgi31_19 8.05e-05
lgi32_1 8.05e-05
rsp18_1 9.59e-05
rsp19_1 9.04e-06
rsp20_28 9.04e-06
rsp21_1 9.59e-05
rsp38_1 9.04e-06
 
0
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6
8
10
12
14

Time 3449.9 secs.

Motif 7

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Summary

Sequence Logo

E-value 8.5e-006
Width 8
Sites 19
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

ACAT[CA]TGA

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
pma38_1 1 1.89e-05 T ACATCTGA GTGTTC
pma37_3 1 1.89e-05 T ACATCTGA CTGTGC
pma36_2 1 1.89e-05 T ACATCTGA ATTTGC
pma35_2 1 1.89e-05 T ACATCTGA ATGTGT
pma34_130 1 1.89e-05 T ACATCTGA ATGTGC
pma33_1 1 1.89e-05 T ACATCTGA ATGTAC
pma32_2 1 1.89e-05 T ACATCTGA ATATGC
pma8_1 1 1.89e-05 C ACATCTGA ATGTGC
pma7_1 2 1.89e-05 AT ACATCTGA ATGTG
pma5_1 0 1.89e-05 ACATCTGA ATGTGCG
pma27_2 1 5.88e-05 T ACATATGA GTTTTC
pma26_2 1 5.88e-05 T ACATATGA GTGTTT
pma25_91 1 5.88e-05 T ACATATGA GTGTTC
pma24_1 1 5.88e-05 T ACATATGA GTGTAC
pma23_1 1 5.88e-05 T ACATATGA GTGGTC
pma22_1 1 5.88e-05 T ACATATGA GTGATC
pma20_4 1 5.88e-05 T ACATATGA ATGTGC
pma4_1 0 5.88e-05 ACATATGA GTGTTC
pma3_1 0 5.88e-05 ACATATGA AGTGTTC

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
pma3_1 5.88e-05
pma4_1 5.88e-05
pma5_1 1.89e-05
pma7_1 1.89e-05
pma8_1 1.89e-05
pma20_4 5.88e-05
pma22_1 5.88e-05
pma23_1 5.88e-05
pma24_1 5.88e-05
pma25_91 5.88e-05
pma26_2 5.88e-05
pma27_2 5.88e-05
pma32_2 1.89e-05
pma33_1 1.89e-05
pma34_130 1.89e-05
pma35_2 1.89e-05
pma36_2 1.89e-05
pma37_3 1.89e-05
pma38_1 1.89e-05
 
0
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12
14

Time 3632 secs.

Motif 8

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Summary

Sequence Logo

E-value 1.6e-004
Width 8
Sites 13
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

TTGGGACT

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
dpu26_1 0 1.04e-05 TTGGGACT GGGAGGG
dpu16_1 2 1.04e-05 CA TTGGGACT GGGAG
dpu12_2 1 1.04e-05 A TTGGGACT TGGAGG
dpu11_1 1 1.04e-05 A TTGGGACT GTGAGG
dpu10_74 1 1.04e-05 A TTGGGACT GGGAGG
dpu9_1 1 1.04e-05 A TTGGGACT GGGACG
dpu8_2 1 1.04e-05 A TTGGGACT GCGAGG
dpu7_2 1 1.04e-05 A TTGGGACT GAGATG
dpu6_1 1 1.04e-05 A TTGGGACT ATTAGG
dpu5_1 5 1.04e-05 ATCCA TTGGGACT GG
dpu14_1 1 3.84e-05 A TTGGGTCT GGGAGG
dpu13_1 1 3.84e-05 A TTGGGATT GGGAGG
laf1_1 2 3.84e-05 AA TTGGGATT ATATA

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
laf1_1 3.84e-05
dpu5_1 1.04e-05
dpu6_1 1.04e-05
dpu7_2 1.04e-05
dpu8_2 1.04e-05
dpu9_1 1.04e-05
dpu10_74 1.04e-05
dpu11_1 1.04e-05
dpu12_2 1.04e-05
dpu13_1 3.84e-05
dpu14_1 3.84e-05
dpu16_1 1.04e-05
dpu26_1 1.04e-05
 
0
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6
8
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14

Time 3811.6 secs.

Motif 9

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Summary

Sequence Logo

E-value 5.2e-003
Width 8
Sites 24
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

TAAAGGAG

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
hro99_1 0 2.94e-05 TAAAGGAG
hro93_1 7 2.94e-05 TAAAACT TAAAGGAG
hro73_1 7 2.94e-05 CTACCTC TAAAGGAG
hro59_19 7 2.94e-05 ATTAATA TAAAGGAG
hro50_37 7 2.94e-05 ATAATTA TAAAGGAG
hro49_1 7 2.94e-05 ATAAGTA TAAAGGAG
hro37_3 7 2.94e-05 ATAAATA TAAAGGAG
hro29_1 7 2.94e-05 AGAAATA TAAAGGAG
hro8_1 7 2.94e-05 AAAACTC TAAAGGAG
hro51_1 7 4.55e-05 ATAATTA TGAAGGAG
hro45_7 7 4.55e-05 ATAACTA TGAAGGAG
hro38_1 7 4.55e-05 ATAAATA TGAAGGAG
hro7_2 7 4.55e-05 AAAACTA TGAAGGAG
hro44_2 7 5.95e-05 ATAACTA TCAAGGAG
hro31_1 7 5.95e-05 AGAACTA TCAAGGAG
hro13_1 6 5.95e-05 AAACTA TCAAGGAG G
hro98_1 7 8.49e-05 TAAACTT TAATGGAG
hro78_1 6 8.49e-05 GACTAA TAATGGAG C
hro64_1 7 8.49e-05 CAAACTT TAATGGAG
hro14_1 7 8.49e-05 AAACTGT TAATGGAG
hro70_1 7 9.88e-05 CCAACTA TACAGGAG
hro69_1 6 9.88e-05 CATCTA TACAGGAG C
hro107_1 7 1.24e-04 TATAATA TTAAGGAG
hro47_16 7 1.24e-04 ATAACTA TTAAGGAG

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
hro7_2 4.55e-05
hro8_1 2.94e-05
hro13_1 5.95e-05
hro14_1 8.49e-05
hro29_1 2.94e-05
hro31_1 5.95e-05
hro37_3 2.94e-05
hro38_1 4.55e-05
hro44_2 5.95e-05
hro45_7 4.55e-05
hro47_16 1.24e-04
hro49_1 2.94e-05
hro50_37 2.94e-05
hro51_1 4.55e-05
hro59_19 2.94e-05
hro64_1 8.49e-05
hro69_1 9.88e-05
hro70_1 9.88e-05
hro73_1 2.94e-05
hro78_1 8.49e-05
hro93_1 2.94e-05
hro98_1 8.49e-05
hro99_1 2.94e-05
hro107_1 1.24e-04
 
0
2
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8
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12
14

Time 3985.2 secs.

Motif 10

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Summary

Sequence Logo

E-value 4.5e-002
Width 8
Sites 24
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

AA[TC][GT]ACAT

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
sko195_2 7 3.99e-05 TTGCCTA AATGACAT
sko154_1 7 3.99e-05 CAGTATA AATGACAT
sko148_4 7 3.99e-05 ATCATTA AATGACAT
sko112_1 7 3.99e-05 AGTATAA AATGACAT
sko110_3 7 3.99e-05 AGTACTA AATGACAT
sko54_1 6 3.99e-05 AGCATA AATGACAT
sko53_4 7 3.99e-05 AGCATAA AATGACAT
sko48_4 7 3.99e-05 AGCACTA AATGACAT
sko16_2 7 3.99e-05 AAGCATA AATGACAT
sko11_1 7 3.99e-05 AACATTG AATGACAT
sko1_1 7 3.99e-05 AAAATTA AATGACAT
sko156_5 7 6.18e-05 CATTTTA AACGACAT
sko146_1 7 6.18e-05 ATCATTA AACGACAT
sko82_1 7 6.18e-05 AGCGTAA AACGACAT
sko15_7 7 6.18e-05 AAGCATA AACGACAT
sko180_1 7 1.25e-04 GTACTAA AATTACAT
sko152_1 7 1.25e-04 ATTATTC AATTACAT
sko151_3 7 1.25e-04 ATTATTA AATTACAT
sko138_3 7 1.25e-04 AGTCCTA AATTACAT
sko113_9 7 1.25e-04 AGTATAA AATTACAT
sko111_5 7 1.25e-04 AGTACTA AATTACAT
sko27_7 7 1.25e-04 AATATTA AATTACAT
sko4_3 1 1.25e-04 A AATTACAT CCAATT
dpu1_1 0 1.59e-04 AACTACAT AATAACG

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
sko1_1 3.99e-05
sko4_3 1.25e-04
sko11_1 3.99e-05
sko15_7 6.18e-05
sko16_2 3.99e-05
sko27_7 1.25e-04
sko48_4 3.99e-05
sko53_4 3.99e-05
sko54_1 3.99e-05
sko82_1 6.18e-05
sko110_3 3.99e-05
sko111_5 1.25e-04
sko112_1 3.99e-05
sko113_9 1.25e-04
sko138_3 1.25e-04
sko146_1 6.18e-05
sko148_4 3.99e-05
sko151_3 1.25e-04
sko152_1 1.25e-04
sko154_1 3.99e-05
sko156_5 6.18e-05
sko180_1 1.25e-04
sko195_2 3.99e-05
dpu1_1 1.59e-04
 
0
2
4
6
8
10
12
14

Time 4159.9 secs.

All Motifs

 Top

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
Motif 6
Motif 7
Motif 8
Motif 9
Motif 10
Name Combined p-value Motif Location
hsa2_2 5.48e-02
hsa3_15 2.54e-02
ppy2_3 5.48e-02
ppy3_1 4.03e-02
ppy4_1 5.79e-02
mac1_12 5.48e-02
cjc3_1 3.47e-02
tsy4_1 1.02e-01
tsy5_4 5.19e-02
oga8_1 2.54e-02
oga9_1 1.48e-02
oga14_3 1.98e-01
oga16_1 1.63e-01
mmu1_3 1.40e-03
mmu2_39 1.71e-03
rno10_1 9.72e-02
str1_5 1.14e-01
cpo10_1 3.39e-01
cpo60_1 1.37e-01
cpo66_1 2.69e-01
tbe5_1 1.05e-01
fca1_1 1.29e-01
fca2_1 1.10e-01
fca4_25 1.14e-01
cfa4_3 5.19e-02
vpa3_4 1.16e-01
bta1_1 3.34e-02
bta2_2 1.22e-01
bta3_1 1.22e-01
ssc4_1 5.47e-02
eca4_1 3.22e-02
mlu6_1 2.85e-02
mlu8_1 2.25e-01
mlu10_11 1.16e-01
mlu11_1 9.33e-02
mlu13_4 5.96e-02
mlu15_1 1.05e-01
pva1_1 7.82e-02
pva2_1 6.28e-02
pva3_2 2.15e-02
pva4_1 1.45e-01
pva5_1 1.42e-01
pva6_6 1.92e-01
pva7_1 1.50e-01
pva8_13 8.39e-02
pva9_1 1.91e-02
eeu1_16 1.11e-02
sar7_1 2.16e-02
sar9_1 1.39e-02
laf1_1 2.71e-02
laf20_5 1.19e-01
pca2_6 2.42e-02
pca3_3 3.36e-02
dno2_4 1.16e-01
dno3_1 1.10e-01
cho7_7 2.85e-02
cho8_1 2.49e-02
mdo3_1 7.22e-02
mdo5_5 5.73e-02
mdo6_6 8.78e-02
pma3_1 6.53e-02
pma4_1 4.73e-02
pma5_1 1.67e-02
pma7_1 3.01e-02
pma8_1 2.86e-02
pma20_4 4.79e-02
pma21_1 1.42e-02
pma22_1 7.60e-02
pma23_1 6.87e-02
pma24_1 6.11e-02
pma25_91 6.85e-02
pma26_2 6.42e-02
pma27_2 4.24e-02
pma32_2 1.16e-01
pma33_1 6.97e-02
pma34_130 2.70e-02
pma35_2 3.50e-02
pma36_2 4.42e-02
pma37_3 2.68e-02
pma38_1 8.53e-02
bfl1_2 6.41e-03
cin6_2 5.44e-02
cin8_1 2.54e-02
cin9_1 7.82e-02
cin14_1 1.97e-02
cin17_1 1.81e-02
cin21_1 1.18e-01
cin26_1 2.47e-02
cin29_2 4.39e-02
cin30_2 2.44e-02
cin32_1 6.87e-02
cin33_1 2.53e-02
cin35_1 7.37e-03
csa3_1 2.37e-02
csa4_1 7.31e-03
csa6_1 1.07e-02
csa8_6 5.55e-02
csa10_1 1.06e-01
csa12_1 4.83e-02
csa13_1 1.79e-02
csa14_1 2.97e-01
csa15_2 2.87e-02
csa16_1 3.62e-02
csa18_1 3.33e-02
csa19_1 9.01e-03
csa20_1 7.08e-02
csa21_1 3.26e-02
csa23_1 4.41e-02
csa24_1 8.77e-03
csa25_2 2.53e-02
csa28_1 2.57e-02
csa29_17 3.99e-02
csa32_4 4.21e-02
csa34_2 4.68e-02
csa35_8 5.61e-02
csa37_1 1.20e-01
csa38_1 8.84e-02
csa39_2 3.82e-02
csa40_1 1.11e-01
csa41_1 1.46e-02
csa42_12 3.99e-02
csa44_3 1.23e-01
csa51_1 6.80e-02
csa52_115 5.53e-02
csa54_1 6.11e-02
csa55_1 7.06e-02
csa56_2 2.21e-02
csa57_1 6.86e-02
csa58_9 6.80e-02
csa61_1 7.39e-02
csa62_1 2.48e-03
csa63_8 1.52e-01
csa64_1 7.06e-02
sko1_1 4.65e-03
sko5_1 3.04e-03
sko8_6 9.72e-04
sko11_1 7.55e-03
sko14_16 2.32e-03
sko15_7 1.17e-02
sko16_2 7.03e-03
sko17_5 1.14e-02
sko18_1 1.14e-02
sko19_1 1.21e-02
sko20_2 2.70e-02
sko29_3 1.33e-03
sko31_1 2.66e-02
sko34_1 2.27e-03
sko35_1 3.16e-03
sko37_2 1.39e-03
sko40_32 7.88e-04
sko48_4 2.46e-02
sko49_4 1.81e-02
sko50_13 7.63e-03
sko53_4 2.77e-03
sko54_1 3.91e-03
sko55_3 4.82e-03
sko56_9 2.92e-03
sko57_1 3.55e-02
sko58_25 5.38e-04
sko59_5 1.42e-02
sko60_6 3.99e-03
sko61_4 1.74e-03
sko62_366 2.52e-04
sko63_1 1.31e-03
sko64_2 3.35e-03
sko65_2 2.83e-03
sko66_2 1.11e-02
sko67_1 2.63e-02
sko68_20 3.93e-03
sko77_1 7.63e-04
sko78_10 4.04e-04
sko79_3 4.84e-04
sko80_3 1.66e-02
sko82_1 1.92e-02
sko83_3 2.48e-02
sko84_1 5.91e-02
sko85_28 1.04e-02
sko86_104 3.42e-04
sko87_1 9.93e-04
sko88_1 1.85e-03
sko89_1 6.18e-03
sko90_1 1.45e-02
sko91_1 3.97e-03
sko92_1 1.04e-03
sko93_2 1.44e-04
sko94_1 1.45e-03
sko101_1 3.72e-03
sko103_5 7.83e-05
sko106_9 2.02e-03
sko108_1 4.08e-03
sko110_3 1.85e-02
sko112_1 6.48e-04
sko118_10 1.81e-04
sko140_1 1.44e-03
sko142_3 9.85e-04
sko146_1 1.17e-02
sko148_4 8.78e-03
sko154_1 1.55e-03
sko156_5 3.87e-04
sko160_1 2.52e-04
sko161_6 1.04e-02
sko162_1 1.94e-02
sko171_1 1.37e-04
sko172_1 1.42e-02
sko173_1 2.25e-04
sko174_2 2.25e-04
sko175_1 1.78e-02
sko177_4 2.52e-04
sko187_1 2.64e-02
sko188_1 1.21e-02
sko190_1 2.52e-04
sko191_2 3.42e-04
sko195_2 1.21e-02
dpu5_1 1.02e-01
dpu6_1 2.31e-01
dpu7_2 2.34e-02
dpu8_2 7.82e-02
dpu9_1 1.36e-01
dpu10_74 5.55e-02
dpu11_1 8.99e-02
dpu12_2 1.66e-02
dpu13_1 7.50e-02
dpu14_1 1.98e-02
dpu16_1 4.20e-02
dpu26_1 3.34e-02
cja2_8 1.76e-02
sma4_1 9.89e-03
hro3_243 4.00e-04
hro4_1 8.38e-04
hro5_5 1.17e-03
hro7_2 2.19e-02
hro8_1 3.12e-03
hro9_4 1.05e-03
hro13_1 1.72e-02
hro14_1 6.63e-02
hro27_1 2.35e-04
hro29_1 3.73e-04
hro30_2 3.68e-04
hro31_1 1.81e-02
hro33_1 5.06e-03
hro36_2 4.01e-04
hro37_3 3.71e-04
hro38_1 5.07e-03
hro40_248 3.99e-04
hro43_2 1.17e-03
hro44_2 1.81e-02
hro45_7 2.19e-02
hro49_1 2.37e-03
hro50_37 3.89e-04
hro51_1 8.98e-03
hro53_2 2.52e-04
hro54_1 2.10e-04
hro55_1 7.78e-03
hro56_1 5.63e-04
hro57_1 7.17e-04
hro59_19 5.26e-04
hro60_1 7.30e-04
hro61_1 9.63e-03
hro63_1 4.00e-04
hro64_1 8.60e-03
hro65_2 6.37e-04
hro69_1 7.13e-02
hro70_1 1.90e-02
hro73_1 1.22e-03
hro74_1 1.43e-01
hro75_1 2.49e-03
hro76_1 1.82e-04
hro78_1 2.27e-02
hro85_1 3.99e-04
hro93_1 3.34e-03
hro94_5 3.99e-04
hro96_1 8.38e-04
hro97_70 1.17e-03
hro98_1 7.97e-03
hro99_1 3.21e-03
hro101_3 3.56e-04
hro103_1 7.80e-04
hro105_1 3.17e-03
hro108_3 3.28e-03
hro109_1 1.36e-03
hro110_1 6.58e-05
hro112_1 2.52e-04
hro113_1 2.52e-03
hro114_1 1.17e-03
hro117_2 1.04e-03
cca5_1 1.05e-01
cca7_3 2.45e-02
cca12_1 5.03e-01
cca13_1 3.61e-01
cca29_1 7.78e-02
cca31_1 2.70e-02
cca33_1 6.19e-02
cca34_1 9.01e-02
cca45_1 1.50e-01
cca48_1 2.12e-02
cca59_12 8.55e-02
cca60_2 7.78e-02
cca63_1 1.21e-01
cca65_1 1.45e-01
cca66_2 1.31e-01
cca67_2 1.68e-01
cca77_1 3.66e-02
cca78_4 6.77e-02
cca84_1 4.32e-02
cca85_5 7.02e-02
cca87_1 9.42e-02
cca90_1 1.19e-01
cca93_3 8.76e-02
cca97_7 6.55e-02
cca99_1 2.65e-01
cca106_5 9.78e-02
cca107_4 6.80e-02
cca108_1 5.16e-02
cca116_1 4.21e-02
cca117_1 1.14e-01
cca118_1 1.52e-02
cca119_907 6.43e-02
cca134_2 5.95e-02
cca135_1 5.69e-02
cca137_1 4.67e-02
cca138_1 4.27e-02
cca139_3 3.23e-02
lgi1_1 1.50e-01
lgi4_1 1.25e-01
lgi5_1 8.14e-02
lgi6_1 4.89e-02
lgi8_1 3.16e-02
lgi9_1 3.00e-02
lgi14_8 2.16e-02
lgi15_111 6.45e-03
lgi18_1 2.65e-02
lgi19_1 1.75e-02
lgi20_1 4.43e-02
lgi23_1 7.54e-02
lgi25_1 2.99e-03
lgi29_3 2.11e-01
lgi30_11 2.60e-01
lgi31_19 2.29e-01
lgi32_1 3.33e-01
rsp18_1 1.55e-01
rsp19_1 1.10e-02
rsp20_28 6.45e-03
rsp21_1 1.23e-02
rsp38_1 1.95e-02
 
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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: 0.347   C: 0.164   G: 0.190   T: 0.299

Background letter frequencies (from dataset with add-one prior applied):
A: 0.346   C: 0.164   G: 0.190   T: 0.299

Stopping Reason
Stopped because nmotifs = 10 reached. Program ran on compute-0-9.local.
show model parameters...

Explanation of MEME Results

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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.