Basic Information

Insect: Hestina assimilis
Gene Symbol: -
Assembly: GCA_016906905.1
Location: JAFDUZ010000005.1:38561-71783[+]

Transcription Factor Domain

TF Family: TF_bZIP
Domain: bZIP domain
PFAM: AnimalTFDB
TF Group: Basic Domians group
Description: bZIP proteins are homo- or heterodimers that contain highly basic DNA binding regions adjacent to regions of α-helix that fold together as coiled coils
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 7 0.00023 0.092 13.3 0.9 35 63 176 204 162 205 0.87

2 7 2.9e-05 0.012 16.1 0.7 33 63 520 550 513 552 0.89

3 7 0.00013 0.051 14.1 1.4 33 63 963 993 954 995 0.89

4 7 0.00012 0.049 14.2 1.1 31 60 1421 1450 1414 1454 0.89

5 7 0.00045 0.18 12.3 0.7 36 63 1810 1837 1798 1840 0.84

6 7 3.4e-05 0.014 15.9 1.6 32 63 2141 2172 2135 2173 0.91

7 7 3.4e-05 0.014 15.9 1.6 32 63 2500 2531 2494 2532 0.91

#	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	7	0.00023	0.092	13.3	0.9	35	63	176	204	162	205	0.87
2	7	2.9e-05	0.012	16.1	0.7	33	63	520	550	513	552	0.89
3	7	0.00013	0.051	14.1	1.4	33	63	963	993	954	995	0.89
4	7	0.00012	0.049	14.2	1.1	31	60	1421	1450	1414	1454	0.89
5	7	0.00045	0.18	12.3	0.7	36	63	1810	1837	1798	1840	0.84
6	7	3.4e-05	0.014	15.9	1.6	32	63	2141	2172	2135	2173	0.91
7	7	3.4e-05	0.014	15.9	1.6	32	63	2500	2531	2494	2532	0.91

Sequence Information

Coding Sequence: ATGTTGGAGGAAAGGTCGTTTTGTCTGGAAACGACCACTGACTCAGACGCTACGCAAGGACGCTTACCTCGTAAGCGATCCCGTTCTGGGTTGGGGACGTGCGACGGGGACTCCGATACGAGCGTGGAAACGGAGGTCGAAGTCCCAAAACAAAAAAGAGGCAGGGGAAGGCCTCCGACCACGGGGCAGTGGGTCGGCCTTTGGAAGGCCAAGCAGGACTTGGCCAAGAAGAAGGCAGCCTCCGAGTACGAGGAGGTCGTAAAGGACTTGGAGAAGAAAGCGCACGAAACGCGGATGAAGATGAATAAAAAGCGTCCTGAGCGTCCGCGAGAAGAGCAGCCGCTCACCAGCGCTACGGCAGCTGAACTTCACGGCGCCATAGAGGTGGAGTGCGGTCTGATCGCTGAGGCAGCGGGTAAGTCGTCGCATCTCAAAGGTCAGGCGCTACGAACCTTTAAGATGAGCGTAGCGTCGATCAAAGAAAGAGCGGCAGAACTGGCTTCGCTGACCTCAACGGAGGAAACGAGGCGGGTATTTAGAGAGAATGCTCGGCTCAAAGGGGAGGTGGCGGAACTGCGCGAAGAAATTGCGCAGCTCCGAGCGGAAGTGCGGGCGAAAATCCCTGCCGCACCACCGACTCCGAGGGAGACCGTGGCGGCAAAAGCAGCAGCCAGGCAGTCTCCGCTGCAAGAGTCTCCCAGCAAGAAGACTTTGGACCCTAAAAAGAAAGGCGCCAAAACCCTAAGTCAGGGGAGTGCAGCTCATTTAGCTCCAACACCCGGTGAAGAAGCCGGGTGGACAGTAGTGAGCAAAAAGAAGAAGGCCGCTAAGAAACAGGAGCAATCGCAACCAAAAGTGGGTGGCCTGCGGACGAATGTCGCTGGGGCGACAGGAGTCCGCATTGCACAGGCCCCCCGCGAGGATGAGAGCGAGCCTTATGGGTTTCTGCTCGCTCTCATGCCCAACAGGGCGAGGAGGGGGGGCTACAGTTCCGGGGGTGCGGAGGCGGTATCCGCCCAGACCGCACCATCGGTAGTATTGGAACGGTCGTTTCTTTCGGAAACGACTACCGATTCCGACGCGACAGCGGGACGCAAGCGGGTACCTCGCAAGCGATCCCGCTCAGGTTTGAGGACTTGTGACGGGGACTCCGACTCCAGCGTGGAGACCGAGGTCGAAGTCCCGAAACAGAAGAGAGGCAGGGGAAGGCCTCCTACAACGGGTCAATGGGTCGGCTTCCTAAAGGCTAAGCAGGAGCATGCTAAGGCCAGAGCTGACGCCGAGTATAGGGAGGCTGTAAGCAACCTAGAGAAGAGGGTGTACGACACACGGACCGCAGTAAAAGACAAGCGAGTCGAGTGTCCAGGAGTTCTTCAGCCGATGAGCAGGGCAACGGCGGAAGAACTGAATAAGGCCATCGACGCAGAGTGTGGGCTGATTGCAGAGGCGGCGGCAAAGTCCAAACACCTCAAAGGGCAGGTGCTGAGGACTTTCAATCTAAGTGTCGCGTCAATCAAAGAGCGGGCAGCTGAACTATCCTCACTGACCGTGTCTGAGGAGACTCGTAGGGTCTCAAGTGAAAACGCGCGGCTCAGAGATGAAGTTGCGGAACTGCGCAAGGAGATCGCGCAGCTCCGAACAGAAATAAAGGCGACCACGGGGCCAGCCGTCGCACCGACGAATCGGATGGAGACCGATGCCGCTCCTGTGGTGCCTCAGGGCGCGACGCCGGGTCGGTCTCTGGAAATGGAGGAATGGATGCGGGCGGCCATGCTGCAGATTGGCAACATGGTTAACGCCCGCATGGAATCATTAGAAGCGAGGCTAAACTTGCCACCAGAGCGAGTGCGTCCACCACTTGCAGCGGAGGCCAAAGCGGCCAAAACAGTGGCAAAGCAGCAGCCGCGACTCAGCGGGAAGGGAGCCAAAGCCCCTCAGAAAAAAGGTGCGGGCCTTGCGAAAGAAGGCGGCCAGAGACTGGAGGTGGCAGGCCCTTCAGCTTCAAAGAACAGCGAAGAGAACAGCTGGACACTAGTGGCCAAAAAGAAGAAGGCGAGCAAGAAGCCTTCACCGCCAACGAAGAAGAGCAAGGGGAAAGGGCCCAAAAAGCCCAAACGGAAACGTGCAGCCAAACCACCACGCACTCAGGCTGTGGTAATCGCTGCGCCGCAGGACGCCAGCATAAACTATGCGGACGTCCTAAAGAACGTGCGGACCCACGTGAACCTGGCCGAACTAGGGCTGGAGGGCGGGTTCAAGTTCCGCACGACGGCGACTGGCGCTCGTTTATTGGAGATGCCCCCTGCGGGGGGCTACAGTTTCGGGGGTGCGGAGGCGGTATCCGCCCAGACCGCACCATCGGTGGTTGAGGACAGGTCGTTTCTCTCAGAGACGACCACGGACTCAGAGGCGACGGCGGGAAGCAAGCGAGGTCCTCGCAAGCGATCCCGCTCAGGTTTGAGGACATGCGACGGGGACTCCGACTCCAGCGTGGAGACGGAGGTCGAGGTCCCCAAGCAAAAACGAGGCCGGGGAAGGCCTCCTACAACGGGGCAATGGGTCGGCTTTCTTAAGGCCAAACAAGACCTGGCCAAAACGAAGAAGGCCGCGGAGTACGAAGAGGCAGTGAGGGATTTGGAGAAGCGGGCTTATAAAACGCGAGTTGCGGTCCAAAGCAAACGGATTGAGTGCCCGCGAGAACAACTCCCGATCACCGAGGCGACGACGGCGGAGCTGCACAACGCCATCGAGGTGGAGTGTGGGCTCATCTCGGAGGCGGCGGCGAAGTCGTCGCACCTCAAGGGCCAAGTGATCAAGGCCTTTAAACAGAGCGTGGCTGCCATTAAGGAAAGGGCGGCTGAGCTAGCCTCATTGTCATCAACTGAGGAGTCAAGGCGTGTCTCTAAGGAGAACGCGCGGCTCAGGGGGGAGGTGGCGGAACTGCGCCAAGAAATTGCGCAGCTCCGGGCGGAAGTGCGGGCGTCAATCCCTGCCGCACCACCGACCCCCATGGAGACAGCGGTTCCGGGTGCAAGGTCGGCTCCGCCGGCTGACAGGGAAGAGTGGATGCGGGCGGCCATGCTGCAAATAGGCAACATGGTGAACGCCCGTATCGAGTCTTTGGAGGCGAGACTCAGCTTGCCTCCCGAGCGGGTGCGTCCGCCGCTGGCCGCCGATGCAAAGGCGGCAAAAGCAGCAGCCAAACAACCCACGACATCGAGTGGGAGGAAAGCTGCGGCCCCCAAGAAGGGTGCCGAAAAGTCAGAGGCTGCAACACCCTCAGCTGCAATTGCCGGGGAAGAGGCCTGGACCTTGGTCACCGGCAATAAAAGGGATAAGAAGAGGTCAGCTTCAAAACCGGCAGCCCAGCCGCTGCCGAAAACGAGGGAAAGGAAGGGGCCCAAGAAGCCTAAGAAGCCCAAGGCCAAGCGCAGGGCGAAACCACCGCGCACTCAGGCGGTCGTGATAGCCGCGCCGCCGGAGGAAAAGGCAGACTACGCCAGCATCCTCAAGAACGTGCGGGACCGGGTGAACTTGTCCGAACTCGGTATTGAGGGCGGGTTCAAGTTCCGCACGACGGCGACCGGCGCGCGGCTGTTAGAAATGCCCGCTGCTGTGAGCGCCGAGAAGGCGGACCAGTTAGCGGCGCACATTAAGAGCGTCATTCCGGAAACAATGAGGGTCGTCCGGCCACATAATTCCGGGGGTGCGGAGGCGGTATCCGCCCAGACCGCACCATCGGTGGTTGAGGACAGGTCGTTTCTGTCAGAGACGACCACGGACTCAGAGGCGACGGCGGGAAGCAAGCGAGGTCCTCGCAAGCGATCCCGTTCTGGATTACGAACATGCGACGGGGACTCCGACTCCAGCGTGGAGACGGAGGTCGAAGTCCCGAAGCAGAAGAGAGGCAGGGGAAGGCCTCCTACAACAGGAAAGTGGGTCGGGTTCCTGAAGGCTAAAACGGATCTAGCCAAGGCTAAGAAAGATGCCGAGTACCAGGAAGCCGTACAAACTATGGAAGAGCGGGTGTATGTGACGCGAAAAGAGGTGGAGAAAAAGCGTGTTGCATGCCCCAACGACGAGAAGGCGATCACTGTCGCATCGGCGACTGAGCTGCACAACGCCATCGAGGCAGAGTGCAGCCTCATTGCGGAGGCTGCGGCAAAATCGTCGCACCTTAAAGGTCAAGTCATGAGGACCTTTAAGCAGAGCGTTGCCTCGATCAAGGAGCGAGCTGCTGAGTTGTCCTCGCTGACCACGACTGAGGAGACGAGGCGGCTCTTCAAAGAGAATGCGCGACTCAGAGCGGAGGTGTCAGAGTTGCGCCAGGAGATTGCGCAACTTCGGACGGACCTATGGACCAGACCCGCTCCAATCGCACCACCGACTGGGAGACCTAGTCCAACGGCCATGGAAACAGAGGCCACTCCTAAGGTGCTTCCGGGCGAAGCGTCGGTCCAACCTGCGGACAAAGATGAATGGATGCGGGCGGCCATGCTAGAGATAGGGAGAATGGTAAACGCCCGCATAGAATCACTGGAGGCCAGGCTTAACCTGCCTCCCGAGAGAGTGCGCCCACCGCTGGCCGCCGATAGCAAGGTGGCCAATACAATGGCCAGGCAGCCTACGCTGCAAAAGAAGAAGAAGTCTGCGGGCCCCCAGAACAAGGGTGTCCAAAGCGTGCCGGAGGTGGTAGCACCTCCAGTCACGAACGCCGGTGATAGGGCCTGGACCCTGGTCACCGGCAAGAAAAATAAGAAGAAGTCGGCTTCTAAACCGACCACGCAGCCGCCACCCAAGGCCAAAAAGAGTAAAGGACATAAGAAGCCCAGTTCCGGAGGTGCGGAGGCGGTATCCGCCCAGACCGCACCAACGGCAGGTTGTAGCGAGGCTGCAATGGTAGAGGAGCGTTCGTTCTTGTCTGAGACCACCGACTCGGACGCCACGCAGGGACGAGAGCGGGCACCGCGCAAACGGTCCCGCTCGAGAATGAGGACGAGCGATGGCGAGTCCGACACGAGCTTGGAGACCGAAGTAGAGGTCCCCAAGCAAAAGAGAGGCCGGGGAAGACCTCCAACTACTGGCAAATGGGTTGGCTTCCTAAAAGCCAAACAGGACCTGTCGAAACAGAAGGCGGCCACGGAATATGAGGAGGCCGTGAAAAGCCTAGAGAAGAAGGCCCACGCGACTCGAATCGCGGTTCAGGGCAAGCGCACTGAGTGCCCGCGCGAGGAGCTGCCGCTCACTTGCGCAACATCAGAGGAGCTGCACAACGCCATCGAGGCGGAGTGCGGGCTCATAGCGGAGGCAGCAGGGAAGTCTTCCCACTTAAAAGGCCAGATTCTGCGGACATTTAAACTAAGTGTCGCTTCCATCAAGGAAAGGGCAGCAGAACTGGCCTCCCTGACCTCAACGGAGGAAACGAGGCGAGTGTTCCGAGAGAATGCTCGTCTCAAAGGAGAGGTGGCGGAACTGCGCCAGGAAATTGCGCAGCTCCGGTCGGAAGTGCGGGCGACAGTCTCTGCCGCACCACCGACTCCTATGGAGACCGCGATAGCTCCTGCGTCGAGCTCAAGCGCGAGGCCGGTTTCACCGGCAGAAAGAGAGGAGTGGATGCGGGCGGCCATGCTGGAGATAGGCTCCATGGTGAACGCCCGCATCGAGTCTCTGGAGGCGAGACTTAGCTTGCCTCCGGAGCGAATACGTCCGCCGCTGGCCGCCGATGCCAAGGCATCAAAAACTGTGGCCAAACAGCCTTCCACCAAACCCCAAAGTCGGAAGGCCGCAGCACCTTCAACTTCCAACGCCGGTGAAGAGGCCTGGACCCTCGGTGGCCTGAGCCAGGGAGGCTACAGTTCCGGGGGTGCGGAGGCGGTATCCGCCCAGACCGCACCATCGGTGGTTTTGGAACGGTCGTTCCTTTCGGAAACGACTACCGATTCCGACGCGACGGCGGGACGCAAGCGGGTACCTCGCAAGCGATCCCGCTCAGGTTTAAGGACGTGTGACGGGGACTCCGACTCCAGTGTGGAGACGGAGGTCGAGGTCCCTAAACTGAAGAGAGGCAGAGGACGGCCTCCGACCACGGGCCAGTGGGTCGGCTTCTTAAAGGCGAAGCAGGAGCACAGTAGGGCCAGAGCTGACGCCGAATACAAGGAGGCAGTAAGCAACTTAGAGAAGAGGGTGTACGACACACGGATCGCAATAAAGGACAAGCGAGTAGAGTGTCCAGGAGTTCTCCAGCCGATGACCAGTGCAACGGCTGAAGAGCTTAATAAGGCCATTGACGCAGAGTGTGGGCTGATCGCAGAGGCGGCGGCTAAGTCATCGCACCTGAAGGGGCAGGTCCTCCGGACCTTCAAGCTGAGCGTCGCGGCAATTAAAGAGCGAGCGGCGGAACTATCGTCACTGACCGTGTCGGAGGAGACTCGAAGGGTCTCAGCCGAGAACGCGCGACTCAGGGAAGAAGTCGCGGAACTACGCACGGAGATCGCGCAGCTCCGAGCGGAACTGAAGGTGGCCACAACGCCAGCAGTCGAACCGACGATTCGTATGGAGACCGAGGCTGCTCCTGCGGTGCCCCAGGGCGCGACGCCGCGTCGATCCTCGGATATGGATGAATGGATGCGGGCGGCCATGCTGCAGATTGGCAACATGGTTAACGCTCGCATCGAATCCTTGGAGGGGAGGCTGAATTTGCCACCCGAACGGGTTCGTCCACCATTGGCTGCCGATGCCAAGGCGACGAAAGCAGCGGCTCAACAGCCTACGCTCCTAAAAGAGAACACGAGCGGCAAGAAAGCTGCGGGCTCCAGAAAAAAGGGTGCCCAAAGACCGGGAACTGTAGTAGTTTCAAACGCTGGTGAGGAGGCCTGGACCCTCGTCACCGGCAAGAAAAAGAAGAGGTCCGCCCGAAAACCGGGGGCGAAGACTGAATCCAAGAAAGGGAAAGGGCCCAAAAAGACCGCACCATCGGTGGTTTTGGAACGGTCGTTCCTTTCGGAAACGACTACCGATTCCGACGCGACGGCGGGACGCAAGCGGGTACCTCGCAAGCGATCCCGCTCAGGTTTAAGGACGTGTGACGGGGACTCCGACTCCAGTGTGGAGACGGAGGTCGAGGTCCCTAAACTGAAGAGAGGCAGAGGAAGGCCTCCGACCACGGGCCAGTGGGTCGGCTTCTTAAAGGCGAAGCAGGAGCACAGTAGGGCCAGAGCTGACGCCGAATACAAGGAGGCAGTAAGCAACTTAGAGAAGAGGGTGTACGACACACGGATCGCAATAAAGGACAAGCGAGTAGAGTGTCCAGGAGTTCTCCAGCCGATGACCAGTGCAACGGCTGAAGAGCTTAATAAGGCCATTGACGCAGAGTGTGGGCTGATCGCAGAGGCGGCGGCTAAGTCATCGCACCTGAAGGGGCAGGTCCTCCGGACCTTCAAGCTGAGCGTCGCGGCAATTAAAGAGCGAGCGGCGGAACTATCGTCACTGACCGTATCGGAGGAGACTCGAAGGGTCTCAGCCGAGAACGCGCGACTCAGGGAAGAAGTCGCGGAACTACGCACGGAGATCGCGCAGCTCCGAGCGGAACTGAAGGTGGCCACAACGCCAGCCGTTGAACCGACGATTCGTATGGAGACCGAGGCTGCTCCTGCGGTGCCCCAGGGCGCGACGCCGCGTCGATCCTCGGATATGGATGAATGGATGCGGGCGGCCATGCTGCAGATTGGCAACATGGTTAACGCTCGCATCGAATCCTTGGAGGAGGCTGAATTTGCCACCCGAACGGGTTCGTCCACCATTGGCTGCCGATGCCAAGGCGACGAAAGCAGCGGCTCAACAGCCTACGCTCCTAAAAGAGAACACGAGCGGCAAGAAAGCTGCGGGCTCCAGAAAAAGGGTGCCCAAAGACCGGGAACTGTAGCAGTTTCAAACGCTGGTGAGGAGGCCTGGACCCTCGTCACCGGCAAGAAAAAGAAGAGGTCCGCCCGAAAACCGGGGGCGAAGACTGAATCCAAGAAAGGAAAGGGCCCAAAAGGTTAA
Protein Sequence: MLEERSFCLETTTDSDATQGRLPRKRSRSGLGTCDGDSDTSVETEVEVPKQKRGRGRPPTTGQWVGLWKAKQDLAKKKAASEYEEVVKDLEKKAHETRMKMNKKRPERPREEQPLTSATAAELHGAIEVECGLIAEAAGKSSHLKGQALRTFKMSVASIKERAAELASLTSTEETRRVFRENARLKGEVAELREEIAQLRAEVRAKIPAAPPTPRETVAAKAAARQSPLQESPSKKTLDPKKKGAKTLSQGSAAHLAPTPGEEAGWTVVSKKKKAAKKQEQSQPKVGGLRTNVAGATGVRIAQAPREDESEPYGFLLALMPNRARRGGYSSGGAEAVSAQTAPSVVLERSFLSETTTDSDATAGRKRVPRKRSRSGLRTCDGDSDSSVETEVEVPKQKRGRGRPPTTGQWVGFLKAKQEHAKARADAEYREAVSNLEKRVYDTRTAVKDKRVECPGVLQPMSRATAEELNKAIDAECGLIAEAAAKSKHLKGQVLRTFNLSVASIKERAAELSSLTVSEETRRVSSENARLRDEVAELRKEIAQLRTEIKATTGPAVAPTNRMETDAAPVVPQGATPGRSLEMEEWMRAAMLQIGNMVNARMESLEARLNLPPERVRPPLAAEAKAAKTVAKQQPRLSGKGAKAPQKKGAGLAKEGGQRLEVAGPSASKNSEENSWTLVAKKKKASKKPSPPTKKSKGKGPKKPKRKRAAKPPRTQAVVIAAPQDASINYADVLKNVRTHVNLAELGLEGGFKFRTTATGARLLEMPPAGGYSFGGAEAVSAQTAPSVVEDRSFLSETTTDSEATAGSKRGPRKRSRSGLRTCDGDSDSSVETEVEVPKQKRGRGRPPTTGQWVGFLKAKQDLAKTKKAAEYEEAVRDLEKRAYKTRVAVQSKRIECPREQLPITEATTAELHNAIEVECGLISEAAAKSSHLKGQVIKAFKQSVAAIKERAAELASLSSTEESRRVSKENARLRGEVAELRQEIAQLRAEVRASIPAAPPTPMETAVPGARSAPPADREEWMRAAMLQIGNMVNARIESLEARLSLPPERVRPPLAADAKAAKAAAKQPTTSSGRKAAAPKKGAEKSEAATPSAAIAGEEAWTLVTGNKRDKKRSASKPAAQPLPKTRERKGPKKPKKPKAKRRAKPPRTQAVVIAAPPEEKADYASILKNVRDRVNLSELGIEGGFKFRTTATGARLLEMPAAVSAEKADQLAAHIKSVIPETMRVVRPHNSGGAEAVSAQTAPSVVEDRSFLSETTTDSEATAGSKRGPRKRSRSGLRTCDGDSDSSVETEVEVPKQKRGRGRPPTTGKWVGFLKAKTDLAKAKKDAEYQEAVQTMEERVYVTRKEVEKKRVACPNDEKAITVASATELHNAIEAECSLIAEAAAKSSHLKGQVMRTFKQSVASIKERAAELSSLTTTEETRRLFKENARLRAEVSELRQEIAQLRTDLWTRPAPIAPPTGRPSPTAMETEATPKVLPGEASVQPADKDEWMRAAMLEIGRMVNARIESLEARLNLPPERVRPPLAADSKVANTMARQPTLQKKKKSAGPQNKGVQSVPEVVAPPVTNAGDRAWTLVTGKKNKKKSASKPTTQPPPKAKKSKGHKKPSSGGAEAVSAQTAPTAGCSEAAMVEERSFLSETTDSDATQGRERAPRKRSRSRMRTSDGESDTSLETEVEVPKQKRGRGRPPTTGKWVGFLKAKQDLSKQKAATEYEEAVKSLEKKAHATRIAVQGKRTECPREELPLTCATSEELHNAIEAECGLIAEAAGKSSHLKGQILRTFKLSVASIKERAAELASLTSTEETRRVFRENARLKGEVAELRQEIAQLRSEVRATVSAAPPTPMETAIAPASSSSARPVSPAEREEWMRAAMLEIGSMVNARIESLEARLSLPPERIRPPLAADAKASKTVAKQPSTKPQSRKAAAPSTSNAGEEAWTLGGLSQGGYSSGGAEAVSAQTAPSVVLERSFLSETTTDSDATAGRKRVPRKRSRSGLRTCDGDSDSSVETEVEVPKLKRGRGRPPTTGQWVGFLKAKQEHSRARADAEYKEAVSNLEKRVYDTRIAIKDKRVECPGVLQPMTSATAEELNKAIDAECGLIAEAAAKSSHLKGQVLRTFKLSVAAIKERAAELSSLTVSEETRRVSAENARLREEVAELRTEIAQLRAELKVATTPAVEPTIRMETEAAPAVPQGATPRRSSDMDEWMRAAMLQIGNMVNARIESLEGRLNLPPERVRPPLAADAKATKAAAQQPTLLKENTSGKKAAGSRKKGAQRPGTVVVSNAGEEAWTLVTGKKKKRSARKPGAKTESKKGKGPKKTAPSVVLERSFLSETTTDSDATAGRKRVPRKRSRSGLRTCDGDSDSSVETEVEVPKLKRGRGRPPTTGQWVGFLKAKQEHSRARADAEYKEAVSNLEKRVYDTRIAIKDKRVECPGVLQPMTSATAEELNKAIDAECGLIAEAAAKSSHLKGQVLRTFKLSVAAIKERAAELSSLTVSEETRRVSAENARLREEVAELRTEIAQLRAELKVATTPAVEPTIRMETEAAPAVPQGATPRRSSDMDEWMRAAMLQIGNMVNARIESLEEAEFATRTGSSTIGCRCQGDESSGSTAYAPKREHERQESCGLQKKGAQRPGTVAVSNAGEEAWTLVTGKKKKRSARKPGAKTESKKGKGPKG

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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