Basic Information

Insect: Anorthoa munda
Gene Symbol: -
Assembly: GCA_945859655.1
Location: CAMAOM010000273.1:484363-497087[+]

Transcription Factor Domain

TF Family: MYB
Domain: Myb_DNA-binding domain
PFAM: PF00249
TF Group: Helix-turn-helix
Description: This family contains the DNA binding domains from Myb proteins, as well as the SANT domain family [1].
Hmmscan Out: # of c-Evalue i-Evalue score bias hmm coord from hmm coord to ali coord from ali coord to env coord from env coord to acc

1 9 8.3 1.4e+04 -2.6 0.0 5 18 170 183 170 185 0.80

2 9 0.66 1.1e+03 0.9 0.0 5 20 308 323 308 325 0.92

3 9 6.6 1.1e+04 -2.3 0.0 5 20 783 798 783 800 0.90

4 9 0.82 1.4e+03 0.6 0.0 5 20 1501 1516 1501 1518 0.93

5 9 0.48 8.2e+02 1.4 0.0 5 20 1632 1647 1632 1649 0.93

6 9 0.48 8.2e+02 1.4 0.0 5 20 1763 1778 1763 1780 0.93

7 9 0.48 8.2e+02 1.4 0.0 5 20 1894 1909 1894 1911 0.93

8 9 0.82 1.4e+03 0.6 0.0 5 20 2025 2040 2025 2042 0.93

9 9 0.55 9.2e+02 1.2 0.0 5 20 2163 2178 2163 2180 0.93

#	of	c-Evalue	i-Evalue	score	hmm coord from	hmm coord to	ali coord from	ali coord to	env coord from	env coord to	acc
1	9	8.3	1.4e+04	-2.6	5	18	170	183	170	185	0.80
2	9	0.66	1.1e+03	0.9	5	20	308	323	308	325	0.92
3	9	6.6	1.1e+04	-2.3	5	20	783	798	783	800	0.90
4	9	0.82	1.4e+03	0.6	5	20	1501	1516	1501	1518	0.93
5	9	0.48	8.2e+02	1.4	5	20	1632	1647	1632	1649	0.93
6	9	0.48	8.2e+02	1.4	5	20	1763	1778	1763	1780	0.93
7	9	0.48	8.2e+02	1.4	5	20	1894	1909	1894	1911	0.93
8	9	0.82	1.4e+03	0.6	5	20	2025	2040	2025	2042	0.93
9	9	0.55	9.2e+02	1.2	5	20	2163	2178	2163	2180	0.93

Sequence Information

Coding Sequence: ATGTTTGAAATTATGAGAAGCTTGTACGAATGCTATAAAAAAAAAGATTGTAGAAATTGTACTTGTATCCTTTGTAGTCATTTAAAGCCagaagaaaagcaattctcagaaaaagaaaaacatctaagagaactagctatgaaaggtttgcctcttcctgaaggtaaaacagcatcagaaataaaactaattaacaaggtgcgcaccgatcttggtgcacctattgaaccgacaactaaagctattagagataaacatgaacaagcagctaaagctgggaaactactgccattggaaggcaaaatgttagctgagaaagaaaagatattgcaggatctatatgatatgggtataccattaccaaaaggacgtacaaaatcggaaaaggctttaatagctaaaataactggcaaaacaccgtccgaagcagtttccgaggctacggctccgtcggagcaaatgcgtagagcgaaagcagaaggattactgactcctctcaaaggcaaaacaccagaagaaagagaaaaaattcttaagagacttgctatgaaaggtttacctctccctgaaggtcaaacaccatcggaaaataaacttatcaaaaaggttcgcgccgaccttggtttacctattgagcctagaactaaatctattagaaacaaacatgaagaggcagcgaaagctggaaaattactgccattggagggcaaaactcatgcacagaaagaaaaaatattaaaaggtctacatgatatgggtattccgctacctgtaggacggacgccatcggaaaaagctatcattgccaaaatagcagcaagtcctcgtgcccctccaatggaagctttatcaacactgtcaccttcggagcgaatgcgtagagcaaaagcagaaggattactgactacgctcaaaggcaaaaccccagaagagagagaaaaaattctaaagggacttgctatgaaaggtttacctctccccgaaggtcaaacaccatcagaaaataaacttattgaaaaggttcgcaccaaccttggtctaccaattgagccaaaaactaaagctattagagatttacatgaaaaagcggcgaaagctggtaaactgctgccactggaaggaaaaacagctgcacagaaagaaaagatattaaagggcttacatgatatggatattccgctacctgtaggaaggacgccatcggagaaagctcttatagcaaaaatagcggcaagtcctcgtgaccttcgaaaggtggcttcagcgaccctgtcgccttcggagttaatgcgtagagcgaaagcagaaggattattgactacgctcaaaggcaaaacaccaaaagaaagagaaaaaattcttagaggacttgctatgaccggtttacctctccctgaaggtcaaacaccatcggaaaataaacttattgtaaaggtccgcaccgaccttggtgtacctattgagcctaaaactaaagctattagagatttacacgaaaaagcggcgaaagctggtaaactgctgccactggaaggaaaaacagctgcacagaaagaaaagatattaaagggcctacatgatatggatattccgctacctgtaggacggacgccatcggagaaagctcttatagcaaaaatagcggcaagccctcgtgaccttcgaaaggtggctccagcgaccctgtcgccttcggagttaatgcgtagagcgaaagcagaaggattattgactacgctcaaaggcaaaacaccaaaagaaagagaaaaaattcttagaggacttgctatgacaggtttacctctccctgaaggtcaaacaccatcggaaaataaacttattgaaaaggtccgcaccgaccttggtgtacctattgagcctaaaactaaagctattagagatttacacgaaaaagcggcgaaagctggcaaactgctgccactggaaggaaaaacagctgcacagaaagaaaagatattaaagggcctacatgatatggatattccgctacctgtaggcaggacgccatcggagaaagctcttattacaaaaatcaaaaagtcgccccgttcagctttttccctttctgaacagcttcgtaaggctaaagcggaaggattactaactcctatgaaaggcaaaacgccaaaacaaaaagaaaacattctgaagggactagctatgaaaggtatacctctccctgaggctcagtcaccgtctgaaaaaaaacttattgacaaggttcgcgctgacctaggtttacctaaagatcccacatcaatatctatgaaagacaaacacgagcaggctgctaaagctggcttacttcaaccattggaaggaaagacacctgcagaaaaagaaaagattttaaaaggtttacgtgatatgggaatcccattacctgaaggacggacaccatctgagaaagctatcatagcaaaagtcaaggcttcgccccgttccgccttttcaccttctgaacaattacgtaaagctaaggctgaaggattactcacaccgctcaaaggtaaaacacctaaacaaaaggcaaaaattctgaagggactagccatgaaaggtttacctctccctgaagcccaatcgccatcagaaaagaaactgattaacaagatgcgcgctgaccttggtctacctaaggatcccacaacgaaatctatgaaagagaaacatgaactagcagctaaagctggcttactacagccattagaaggcaagacacctgcagaaaaaactaaaatattaaaaggtttacgtgatattggaatcccattacccgaaggacggacaccatcagagaaagctctcatagcaaatgtcaaggcttcgccccgttccgccttttcaccttctgaacagctgcgtcaagctaaagcggaaggattacttactccgctcaaaggtaaaccaccagagcaaaaggaaaaaattcttaagggactagctatgaaaggtttacccctccctgaggctcaatcaccgtcagaaaaaaaacttattgacaaggttcgcgccgaccttggtctaccaaaggatccaacaacgaaatctatgaaagagaaacatgaactagcagctaaagctggcttactacagccattggaaggcaagacacctgcagaaaaagctaaaatattgaaaggtttacgtgacatcggaatcccactacccgaaggacggacaccatcagagaaagctctcatagcaaatgtcaaggcttcgccccgttccgccttttcaccttcagaacagctgcgtaaagctaaagcggaaggattacttactccgctcaaaggtaaaccaccagagcaaaaggaaaaaattctaaagggtctagctatgaaaggtttacccctccctgaggctcaatcaccgtcagaaaaaaaacttattgacaaggttcgcgccgaccttggtctaccaaaggatccaacaacgaaatctatgaaagagaaacatgaactagcagctaaagctggcttattacagccattggaaggcaagacacctacagaaaaagcaaaaatattgaaaggtttacgtgatatgggaattccattacctgaaggacggacaccatcagagaaagctcttatagcaaaagtcaagactatatctcgttctggcttttcaccttctgaacagctccgtaaagctaaagcggaaggattacttactccgctcaaaggtaaagcaccagagcaaaaagaaaaaattctgaagggactagctatgaaaggtttacctctacctgaggctcaatctccatcagaaaagaaacttattgaaaaagttcgcgctgaacttggtttacctaaggaacccaccacaaaatcaatgagagaaaaacacgaacaagcagctaaagctggcttattacagccattggaaggcaagacatcggcagagaaagaaaggacattaaaaggtctacatgatttaggaatcccattacctgaaggacggacaccatcagagaaagcactcatagcaatagtcaaggcttcgccccgttctaccttttcacccactgaacagctgcgtaaagctaaagctgaaggattacttactccgctcaaaggtaaaccaccagagcaaaaggaaaaaattctaaagggactagctatgaaaggtttgcccctccctgaggcacaatcaccgtccgaaaaaaaactcattgacaaggttcgcgccaaccttggtctaccaaaggatccaacaacgaaatctatgaaagaaaaacactatcaagcagctaaagccggcttacttcagccattggaaggcaaaacaccagcagagaaagcaaagatattaaaaggtttacgtgatatgggaattccattacctgaaggacggacgccatcagagaaagctcttatagcaaaagtcaaggctacgtcccgttctggcttttcaccttctgaacagctgcgtaaagctaaagcggaaggattacttactccgctcaaaggcaaaacaccagaagaaagagaaaaaattcttagaggacttgctatgataggtttacctctccctgaaggtcaaacaccatcggaaaataaacttattgaaaaggttcgcaccgaccttggtgtacctattgagcctaaaactaaagctattagagatttacacaaaaaagcggctaaagctggcaaacttctgccactggaaggaaaaacacctgcacagaaagaaaaaatattaaaaggtctacatgatatggatattccgttacctgtaggacggacgccatcagagaaagctcttatagcaaaaatcaagaagttgccccgtgcagccttttcaccttctgagcagctgcgtaaagctaaagcagaaggagtattgactacgctcaaaggcaaaacaccagaagaaaaagaaaaaattcttagaggacttgctatgataggtttacctctccctgaaggtcaaacaccatcggaaaataaacttattgaaaaggttcgcaccgaccttggtgtacctattgagcctaaaactaaagctattagagatttacacgaaaaagcggctaaagctggcaaacttctgccactggaaggaaaaacacctgcacagaaagaaaaaatattaaaaggtttatatgatatggatattccgttacctgtaggacggacgccatcagagaaagctcttatagcaaaaatcaagaagttgccccgtgcagccttttcaccttctgagcagctgcgtaaagctaaagcagaaggattattgactacgctcaaaggcaaaacaccagaagaaaaagaaaaaattcttagaggacttgctatgataggtttacctctccctgaaggtcaaacaccatcggaaaacaaacttattgaaaaggttcgtaccgaccttggtgtacctattgagcctaaaactaaagctattagagatttacacaaaaaagcggctaaagctggcaaacttctgccactggaaggaaaaacacctgcacagaaagaaaaaatattaaaaggtctacatgatatggatattccgttacctgtaggacggacgccatcagagaaagcacttatagcaaaaatcaagaagttgccccgtgcagccttttcaccttctgagcagctgcgtaaagctaaagcagaaggattattgactacgctcaaaggcaaaacaccagaagaaaaagaaaaaattcttagaggacttgctatgataggtttacctctccctgaaggtcaaacaccatcggaaaataaacttattgaaaaggttcgcaccgaccttggtgtacctattgagcctaaaactaaagctattagagatttacacaaaaaagcggctaaagctggcaaacttctgccactggaaggaaaaacacctgcacagaaagaaaaaatattaaaaggtctacatgatatggatattccgttacctgtaggacggacgccatcagagaaagcacttatagcaaaaatcaagaagttgccccgtgcagccttttcacctactgagcagctgcgtaaagctaaagcagaaggattattgactacgctcaaaggcaaaacaccagaagaaagagaaaaaattcttagaggacttgctatgataggtttacctctccctgaaggtcaaacaccatcggaaaataaacttattaaaaaggttcgcaccgaccttggtgtacctattgagcctaaaactaaagctattagagatttacacgagaaagcggcgaaagctggtaaactgctgccactggaaggaaaaacagctgcacagaaagaaaagatattaaagggcctacataatatggatattccgctacctgtaggacggacgccatcggagaaagctcttatagcaaaaatagcggcaagccctcgtgaccttcgaaaggtggctccagcgaccctgtcgccttcggagttaatgcgtagagcgaaagcagaaggattattgactacgctcaaaggcaaaacaccagaagaaagagaaaaaattcttaaaggacttgctatgataggtttacctctccctgaaggtcaaacaccatcggaaaacaaacttattgaaaaggttcgcaccgaccttggtgtacctattgagcctaaaactaaagctattagagatttacacgaaaaagcggcaaaatctggtaaactactgccactggaaggaaaaacacatgcacagaaagaaaagatattaaaagatctacatgatatgggtattccattacctgtagggcggacgccatcggaaaaagctcttatagccaaaataatggcaagtaTTGCAGAAAAAGGTGAAGGTGCGGCTGAATCAAAGAAACAAGCAGCAGGAATGACTGAACAGTATGAGGAAATTGTAAAAACAACAAAATGCGACCGTGCTTGCGGTTGTGATAAAAAGAAAATTAGATTCAAACATAGTTACGTCAAAATCAAAGTGACCTCTCCAGATATATCTTCCTTCTGCGATTGTCGTGATGAATGTTTCCCACGCGTGAAAAGTGGTGTCTTCGTTGACGGCGATGGTATAAAAGTTACCGTTGGGAGTGTTGTTGGTGTACCGTCATTTACAACGGGATATAAAAAACATAAGACATTTAAGAAAATTTCATCAAAAACGAACTACCCGTACAGTCATACTCGTATTGAGAGTGAAAGTCTTAAAAACTCAATAGACTCAAAATGTAAAGAGTTAAATCTTAAATCAGGTCTACGTTCTAATAAAGTAAATAGCATACTGAACATCTTTAGTAATATTGAAAGCAGTAGTACCAGACTATATAACACTGAAAGCGAGAATATCTACCAGCGGAGTAGTACAGCACTCGAAAGCGAGACCAGTAAATCAGACAAAACTAAGGGAAGTTTCAGACGGTTTCAACCATTAGGTGATAGAGGTAAAAAAGGCCTGTGTTCAAAAACTAAATCCACTGTAGGCAGTACTGGTTCAATTCTCGTATTAAAAAGTGAGATGTCACTAAACAGCACAATTTCAAACAAGACCATGGACATAATTAGTTTGACGTCAGTAATGGACAGCAGCATCACATCTAGCACCACGCATTTCTCGGGCTACCACTCTACCGACGACCCTCGCAGTAGTAGCTCACTAGAGGAACTATTACCAAGCGATGACTTGATCGACCACCCCGCAACTATTGAGGGACGCAAGAAACTATCAAATTTTGGAGCTGTATACCCAAAACGTGAATATACAATTATGACAGTGTCTCAAACAAAACTGGATTTTCTAAATAACAAGATGATTACGAATAAGCTGAACTCTGAAGAAAACCCTTTCCTGCTTAACAACAATTTGCAGAGTAAACTCGATGTGACGAAAATACTGAACAAGATTATATCAAATAAACGTTTCGCTGGTGCCTCCTCGATATTCATAGTAATACCATTGTCGGAAGATGAAGAGGAACAAGGTTCCTCCAACTGTGTTGATTCCAAAACTAGTACTCATTTGAGTAAAACTGAGAGCATTCTGAAAGATACCAGTCAAGTGGATCCGAATCCGGCTCTGAGACCAACTTCCTTTACCAAACGTGATGGACAACTTTGTGGAAAAGCAAAAAAGTTTTACTTGAAAGAGAAATCATCTTCCAATGACACAGACACCATGTTCCAAAATGAATCCATACAAGTTCTCCGACGTGTTGAAATGATGATAGATGAATTTCGACAAATCAGAAGACCGAATGAAATACATGTAGCAGTAATGCTAGAAAAATCAGTCCAAAGCGTTGAAGCTGAGACGTCTACAAATACGTCATGTTGCTGTTATCTTGAAGAACGATCTGATCTGAGCTGCAGCTCCGGTGGGCGTTATTCAGCGAAGGTTACATCTGGGCATAAAACACCACTATTCATGAAAGGTACCCGTTAA
Protein Sequence: MFEIMRSLYECYKKKDCRNCTCILCSHLKPEEKQFSEKEKHLRELAMKGLPLPEGKTASEIKLINKVRTDLGAPIEPTTKAIRDKHEQAAKAGKLLPLEGKMLAEKEKILQDLYDMGIPLPKGRTKSEKALIAKITGKTPSEAVSEATAPSEQMRRAKAEGLLTPLKGKTPEEREKILKRLAMKGLPLPEGQTPSENKLIKKVRADLGLPIEPRTKSIRNKHEEAAKAGKLLPLEGKTHAQKEKILKGLHDMGIPLPVGRTPSEKAIIAKIAASPRAPPMEALSTLSPSERMRRAKAEGLLTTLKGKTPEEREKILKGLAMKGLPLPEGQTPSENKLIEKVRTNLGLPIEPKTKAIRDLHEKAAKAGKLLPLEGKTAAQKEKILKGLHDMDIPLPVGRTPSEKALIAKIAASPRDLRKVASATLSPSELMRRAKAEGLLTTLKGKTPKEREKILRGLAMTGLPLPEGQTPSENKLIVKVRTDLGVPIEPKTKAIRDLHEKAAKAGKLLPLEGKTAAQKEKILKGLHDMDIPLPVGRTPSEKALIAKIAASPRDLRKVAPATLSPSELMRRAKAEGLLTTLKGKTPKEREKILRGLAMTGLPLPEGQTPSENKLIEKVRTDLGVPIEPKTKAIRDLHEKAAKAGKLLPLEGKTAAQKEKILKGLHDMDIPLPVGRTPSEKALITKIKKSPRSAFSLSEQLRKAKAEGLLTPMKGKTPKQKENILKGLAMKGIPLPEAQSPSEKKLIDKVRADLGLPKDPTSISMKDKHEQAAKAGLLQPLEGKTPAEKEKILKGLRDMGIPLPEGRTPSEKAIIAKVKASPRSAFSPSEQLRKAKAEGLLTPLKGKTPKQKAKILKGLAMKGLPLPEAQSPSEKKLINKMRADLGLPKDPTTKSMKEKHELAAKAGLLQPLEGKTPAEKTKILKGLRDIGIPLPEGRTPSEKALIANVKASPRSAFSPSEQLRQAKAEGLLTPLKGKPPEQKEKILKGLAMKGLPLPEAQSPSEKKLIDKVRADLGLPKDPTTKSMKEKHELAAKAGLLQPLEGKTPAEKAKILKGLRDIGIPLPEGRTPSEKALIANVKASPRSAFSPSEQLRKAKAEGLLTPLKGKPPEQKEKILKGLAMKGLPLPEAQSPSEKKLIDKVRADLGLPKDPTTKSMKEKHELAAKAGLLQPLEGKTPTEKAKILKGLRDMGIPLPEGRTPSEKALIAKVKTISRSGFSPSEQLRKAKAEGLLTPLKGKAPEQKEKILKGLAMKGLPLPEAQSPSEKKLIEKVRAELGLPKEPTTKSMREKHEQAAKAGLLQPLEGKTSAEKERTLKGLHDLGIPLPEGRTPSEKALIAIVKASPRSTFSPTEQLRKAKAEGLLTPLKGKPPEQKEKILKGLAMKGLPLPEAQSPSEKKLIDKVRANLGLPKDPTTKSMKEKHYQAAKAGLLQPLEGKTPAEKAKILKGLRDMGIPLPEGRTPSEKALIAKVKATSRSGFSPSEQLRKAKAEGLLTPLKGKTPEEREKILRGLAMIGLPLPEGQTPSENKLIEKVRTDLGVPIEPKTKAIRDLHKKAAKAGKLLPLEGKTPAQKEKILKGLHDMDIPLPVGRTPSEKALIAKIKKLPRAAFSPSEQLRKAKAEGVLTTLKGKTPEEKEKILRGLAMIGLPLPEGQTPSENKLIEKVRTDLGVPIEPKTKAIRDLHEKAAKAGKLLPLEGKTPAQKEKILKGLYDMDIPLPVGRTPSEKALIAKIKKLPRAAFSPSEQLRKAKAEGLLTTLKGKTPEEKEKILRGLAMIGLPLPEGQTPSENKLIEKVRTDLGVPIEPKTKAIRDLHKKAAKAGKLLPLEGKTPAQKEKILKGLHDMDIPLPVGRTPSEKALIAKIKKLPRAAFSPSEQLRKAKAEGLLTTLKGKTPEEKEKILRGLAMIGLPLPEGQTPSENKLIEKVRTDLGVPIEPKTKAIRDLHKKAAKAGKLLPLEGKTPAQKEKILKGLHDMDIPLPVGRTPSEKALIAKIKKLPRAAFSPTEQLRKAKAEGLLTTLKGKTPEEREKILRGLAMIGLPLPEGQTPSENKLIKKVRTDLGVPIEPKTKAIRDLHEKAAKAGKLLPLEGKTAAQKEKILKGLHNMDIPLPVGRTPSEKALIAKIAASPRDLRKVAPATLSPSELMRRAKAEGLLTTLKGKTPEEREKILKGLAMIGLPLPEGQTPSENKLIEKVRTDLGVPIEPKTKAIRDLHEKAAKSGKLLPLEGKTHAQKEKILKDLHDMGIPLPVGRTPSEKALIAKIMASIAEKGEGAAESKKQAAGMTEQYEEIVKTTKCDRACGCDKKKIRFKHSYVKIKVTSPDISSFCDCRDECFPRVKSGVFVDGDGIKVTVGSVVGVPSFTTGYKKHKTFKKISSKTNYPYSHTRIESESLKNSIDSKCKELNLKSGLRSNKVNSILNIFSNIESSSTRLYNTESENIYQRSSTALESETSKSDKTKGSFRRFQPLGDRGKKGLCSKTKSTVGSTGSILVLKSEMSLNSTISNKTMDIISLTSVMDSSITSSTTHFSGYHSTDDPRSSSSLEELLPSDDLIDHPATIEGRKKLSNFGAVYPKREYTIMTVSQTKLDFLNNKMITNKLNSEENPFLLNNNLQSKLDVTKILNKIISNKRFAGASSIFIVIPLSEDEEEQGSSNCVDSKTSTHLSKTESILKDTSQVDPNPALRPTSFTKRDGQLCGKAKKFYLKEKSSSNDTDTMFQNESIQVLRRVEMMIDEFRQIRRPNEIHVAVMLEKSVQSVEAETSTNTSCCCYLEERSDLSCSSGGRYSAKVTSGHKTPLFMKGTR

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: -
90% Identity: -
80% Identity: -