Pbuc032367.1


Basic Information
Transcription Factor Domain
Sequence Information
Similer Transcription Factors

Basic Information

Insect
Phalera bucephala
Gene Symbol
-
Assembly
GCA_905147815.1
Location
LR990624.1:29226993-29275164[+]

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 6 0.0037 4.4 8.9 0.5 32 61 266 295 262 297 0.90
2 6 0.0049 5.8 8.5 0.5 32 61 577 606 575 608 0.90
3 6 0.0043 5.1 8.7 0.4 32 61 997 1026 995 1028 0.91
4 6 0.0015 1.8 10.1 0.8 32 61 1262 1291 1260 1294 0.89
5 6 0.0069 8.2 8.0 0.4 32 60 1767 1795 1765 1798 0.89
6 6 0.0043 5.1 8.7 0.4 32 61 2487 2516 2485 2518 0.91

Sequence Information

Coding Sequence
ATGTCAAAGAAACAAGAGAtattaccccaggtgggtaccggcaaggccggagaatcccacccggagctccgaaaggactccggcaggccctcgtattctgggggggccactctgcgacatgatTTATACGACGACCATGGCTATCCCATTTTGGACACCGAACCCTGCactaacgacgaccttggcaaaACCAACTCGGACATTGAACCTGCAAAAAATGACGACCATAGAAATGCTCAGACGGATTCCGATGCAGGCGTATCGGCAAACGTCGCCTCGGCGACAAAGGCGGtagggaaggagctggaggcgagcgaaatgtccacctcggacgtggactccagctacgcccgaagcaccaccatgtggcgcaaaaagcggcccagaaggccggaaggcagccgttcgggctcaggcgagggctcggacgctgacgacccgccgaaacccctgcccaaacgcggaaggggacggcctcccaccactggacagtacgtgggatattGGGAGGCCAAGAAGAAGCTGGACAGAAAACAGCGAACCGACCAGACGggcgccgaggccgcactggccgccgagagtagttctcgtgcggcgtcgcgagcctcatCTAATCCCGACCCAgacgagctgctcctcgagGGGCTTAAAGgtaaagtggcccagtccctcgaaagcatacgggacgtggcccgtatATCTAAGGGGCTGAAGGGAACGTGCCAGAAGGCGCTAAAGttggcggccaactccatcgccgaagtggtggaggaggcgttttcccgcaccacctcggacgaggtccgccgtctgcaggtggagaacatccgcctccgcaagcagatggcggagatgaagAAGGAGCTGGATGTGGTGAAGAACATGGTCCTTGGCGACGAAGACAGGCCACAAGATCCGGCTCCAAAGGCGGCTCTCAAAGCGCCAGACGACGACCTGGCAAAAgtgggtaccggcaaggccggagaatcccacccggagctccgaaaggactccggcaggccctcgtattctgggggggccactctgcgacatgatCCATACGACGACCTTGGCTATCCCATTTTGGACACCGAACCGTGCACAAACGACGACCTTAGCAATACCAAACCGGATACTGATTCCAGCACAAATGTTGACAATGGTAATGCACAGACGGACTCTGCTGCAGGCGATTTGGCAAGCGTCGCCTCGGCGGCAAAGGCGATAGGAAAGGAGCTGGAGATGagtgaaatgtccacctcggacgtggactccagctacgcccgaagcaccaccatgtggcgcaaaaagcggcccagaagaccggaaggcagccgttcgggctcaggcgagggctcggacgctgacgacccgccgaaacccctgcccaaacgcggaaggggacggcctcccactactggacagtacgtgggatattGGGAGGCCAAGAAGAAGCTGGACAGAAAACAGCGAACTGACCAGACGggcgccgaggccgcactggccgccgagagtagttctcgtgcggcgtcgcgagcctcatCCAATCCCGACCCAgacgagctgctcctcgagGGGCTTAAAGATAAAGTGACCCAGTCCCTCGaaagcatacgggacgtggcccgtatATCTAAGGGGCTGAAGGGAACGTGCCAGAAGGCGCTAAAGttggcggccaactccatcgccgaagtggtggaggaggcgttttcccgcaccgcctcggacgaggtccgccgtctgcaggtggagaacatccgcctccgcaagcagatggcggagatgaagAAGGAGCTGGATGTGGTGAAGAACatggtccttggcgacgaggacaggCCACAAGATCCGGCTCCAAAGGCGGCTCTCAAAGCGCCAGACGACGACCTGGCAAAAGTAatcagggaggagatgggcaaagtcctccagagactctcgtttCTGGAGGGAaaagtattgcgccctcccttggcctccaagacgccgacggtgcccgttcctgcggcgacgtacgcgcagaaggccgcgcagaaggcgccgctgaaaaccccgagtcgcctctcggggcgggatGCCGTGCCGTCGACTTCGACGCGTGCGCCCGCACCCGTGCCGTCGACATCAGCGAAGATGACAAAATCCGGGTCGACCCTAGCCGCACCCGCGGCCCCCAAACCTCCCGCGGCTCAAAAAGCCAAAGGCAAACGACAGacagcgcctcccaatgccagagaggggggccagtgggaggtgggtaccggcaaggccggagaatcccacccggagctccgaaaggactccggcaggccctcgtattctgggggggccactctgcgacacgAAATACACGATGACCCTGGCAATCACAATCTGACTATCGATCTCTGCGAAAATGACGACAATGGCAATACACACACGGAATCTGTTGCATGCGATTTGGAAAACGTCGCTTCGGCGACAAAGACGGTAGGGGAGGAGCTGGTAGTGagtgaaatgtccacctcggacctggactccagcttcgcccgaagcaccaccatgtggcgcaaaaagcggccaagaagaccggaaggcagccgttcgggctcaggcgagggctcggacgctgacgaaCCGGCAAAACCGCAGTCCAAACGCGGTAGaggacgaccccccaccacgGGACAGTACGTGGGTTACTGGGACGCCAAAAAGAAGCTAGAAGCATCTCAGAGGCGGGCCCCTAAACAAAAGGCGGACCAATCGGTCatcgaggccgcactggccgccgggagtagttcccgtgcggcgtcgcgagcctcgtcgaATCCGGACGcggacgagctgctcctcgagGGACTCAAAGGCAGAGTGGCCGAGTCCCTCGAAAACATTCGGGACGTGGCCCGTATATCGAAGGGACTCAAGGGCACGTCTCAAAAGACCCTTAAGTTGGCGGTCAGCACTATTGACGAGGTGGTGCAAGAGGCGTTCTCCcgtaccgcctcggacgaggtccgccgtctgcaggttgaaaacatccgcctccgcaagcagatggcggaaatgaaaaaggagctggatgTGGTCAAGGCTATGGTCCTTGGAGACGAAGACAGGACACAAGATCCGGCTCCCACGGcggctcccaaagcgccagacACCGACCTGGCAACGGTGATTAGGGAGGAGATGAGCAATACCATACCGGAAACTGATTCTTGCACAAATGATAACATTGGCAATGCACAGACGGACGCTGCTGCATGCGATTCGGTAAGCGTCGCCTCGGCGGCAAAGCTGACAGGAGAAGAGGTAGAacggagcgaaatgtccacctcggacgtggactccgtctacgctcgaagtaccacgatgtggcgcaaaaagcgccccAGAAAGCCCGAAGgtagccgttcgggctcaggcgagggttcggacgctgacgacccgccgaaaccccagtcaaagcgcgggaggggacgaccccccaccactgGGCAGTATGTCGGGTACTGGGAGGCGAAAAAGAAGCTCCAACGTAGGGAGCAGACCGACCAGACGAGCGCCGAGGCCGAACTGGCCGCCGGAAGTTCTCGCGCGGCGTCCATAGCCTCGTCCAACCCAGATCCGGACGACCTACTGCTCGAAGGGCTGAAAGGCAGGGTGGCCGCGTCCCTCgagagcatacgggacgtggcccgcatatccaagggacttaagggcacGTCCCAGAAGGCCCTGAAGCTAGCGGCCAACgccatcgccgaagtggtggaggaggcgttttcccgcaccgcctcggacgaggttcgCCGATTGCAGGTGGAAAACACCCGCCTGCAAAGACAAATGGCGGACCTCAAAAAGGAACTGGACGTAGTTAAGGCGATGGTCCTTAACCCCGAGGACAGGCCAAAAGACCCGGCTCCCGAAGGGGCTCCCAAGGCGCCAGATACGGATCTAGCGACCGTGATCCGGGAGGAGATGGGGAGAGTCCTCCAGAGGCTCTCTTTTCTGGAAGGCAAAatcctgcgccctcccttggcctccgaaGCCGGCAAGACGCCTGCGACGCCCTTACCTGCCACGACGTACGCGcaaaaggccgcgcagaaggccgcgcagaaggcgccgcaaAGAGCCCCGAACCGCCCCTCGGGGTCGCCCGCTTCCgtaccgtcgacgtcggcgcaAACGTCCGAACCCGTGCCGATCCCAGCTGCACCCGCTGCTCCCAAAGCTCCCGtggcccaaaaagccaagggGAATAGGGGGACGACCAAGGGGCAGAAGAAGaaggcgcagcagcagcagccgccgccacttgaagccggagctgggggccgatgggaggtcgccggggccaaaaaggcccgaaaaaaggcggccaaaaaggaccagaaggcacgagcgcgcgaacgccggaggctccgcgctccggacaCATCGGCGGTCGTGCTGACACTGGCCCCCGGAGTGACAGACGTGACCTACGCGGCGATACTGCACCACGCCAGGTCAACTattgacatcggggagctcgggatcgaggggctcagggtgggtaccggcaaggccggagaatcccacccggagctccgaaaggactccggcaggccctcgtattctgggggggccactctgcgacatgcTCAATACGACGACCTTGGCTATCCCATTTTGGACACCGAAACGTGCACTAACGACGACCCTAGCAAAACCAAACCGGATACTGATCATAGCTCAAATGCTGACAATGGCGATGCACAGACGGACTCTGCTGCAGGCGATTTGGCGATAAGGCGAAAGACGAtagggaaggagctggaggcgagcgaaatgtccacctcggacatggactccagctacgcccgaagcaccaccatgtggcgcaaaaagcggcctagaaggccggaaggcagccgttcgggctcaggcgagggttcggaccctgacgacccgccgaaacccctgcccaaacgcggaaggggacggcctcccaccactggacagtacgtgggatattGGGAGGCCAAGAAGAAGCTGGACCGAAAACAGCGGACCGACCAGACGGGCGCCGAgaccgcactggccgccgagagtagttctcgtgcggcgtcgcgagcctcatCTAATCCCGACCCAGACGAGCTGCTCCTTGAGGGGCTAAAAGgtaaagtggcccagtccctcgaaagcatacgggacgtggcccgtatatctaaggggctcaagggcacgtgccagaaggcgttaaagctggcggccaactccatcgccgaagtggtggaggaggcgttttctcGCACCGCCTccgacgaggtccgccgtctgcaggtggagaacatccgcctccgcaagcagatggcggagatgaaaaaggagctggacgtggtgAAGACCatggtccttggcgacgaggacaggCCTCAAGATCCGGCTCCAGAGGCAgctcccaaagcgccagacACCAACCTGGCAACATTgatcagggaggagatgggtaaagtcctccagagactctcgtttctggagggcaaagtgTTGCGCCCTCCCTTAGCCTCGAAGACGCCGACGGTGCCTGCGATGACGTACGCGCAAAAGGCCGCCCAGAAAGCGCCGCCGAAAGCCCCGAGTCGCTcctcggggcgggacgccgtaCCGTCGACGTCAGCGCGGACTTCCcaacccgtgccgaccccatctgcacccgccgcccccaaggttcccgcggcccaaaaagccaaagGCAGTAAGGGGACGGTCAAGGGGCATAACAAGAAGGCACCGCAGAAACAGccagcgcctcccaatgccagagaggggggccagtgggaggttgcgggggccaaaggggcccaaaagaaggcggctagaagggccaaaaaggcgagagcgcgcgaacgccggaggctgcgcgctccaaactcatcggcggtcgtgctgaccctggcgcctggCGCAGAGGAGCGCGGAGTAACGTACGCCGCGATGATTCATCTCGCCAGGTCGTCTATCAAGATCggtgagctcgggatcgaggggcttagagccaagcgcaccgtaacaggtgcgcgcctgcttGAAATCCCGGGTGcaaccagctccccgaaggcggacgcgctagcggagaagctccgccaagagtTGTCGGTCGAGGATatcctcatctcgcggccctacaagtcggtGAGCCTCCGCATTagtgggctcgacgactcggtccgtctggaggagctcatcgccgcggtggccgaggtgggaggctgcgacccgcagcgggtgaagtgcggcgacatacgggcgggttacggaggcatgttctcggccgttgtgacctgccccgtggaggccgccaaaaagctggccgatgggaggcggctgctcgtgggctgggtgtccgcggacgtggcgctgctgcgggcgaggccgctgcgctgcttccgctgccaggtggaggggcacgtcggcgctctctgtccagtGGGAATAGCGGACAGCAGGGAGCGCTgtcacaactgcgggcagccgggacaccaggcgcgggattgcgcagGGGCCGCACACTGCCTAAGTTGCGGCAAACTCGGCAAGCCCGCCGATCATcgggcgggctcaaagacctgtgggtcacgcCCCACAGGAAAGAAGGCCCCAGTGCGCACTTTCGAGCGGCCAGCACCGCTCAGGACGCGCCAGACCGAGGCGGAAgtgggtaccggcaaggccggagaatcccacccggagctccgaaaggactccggcaggccctcgtattctgggggggccactctgcgacatgatTTATACGACGACCATGGCTATCCCATTTTGGACACCGAACCCTGCactaacgacgaccttggcaataccaaCTCGGATATTGAACCCTCCAAAAATGACGACCTTGCAAATACTCAGACGGACTCCAATGCACGCGTTTCGGCAAACGTCGCCTCGGCAGCGAAGACGGtagggaaggagctggaggcgagcgaaatgtccacctcggacgtggactccagctacgcccgaagcaccaccatgtggcgcaaaaagcggcctagGAGACcagaaggcagccgttcgggctcaggcgagggctcggacgctgacgacctgccgaaacccctgcccaaacgcggaaggggacggcctcccaccactggacagtatGTGGGATATTGGGAGGCCAAAAAGAAGCTGGACCGCAAACAGCAGACCAGCCAGAcgagcgccgaggccgcactggccgccgagagtagttcccgtgcggcgtcgcgagcctcgtcgaATCCCGACCCGGATGAGCTGCTCCTTGAGGGACTGAAAggcaaagtggcccagtccctcgagaACATACGGGATGTGGCCCGCATTTCAAAAGGGCTCAAGGGCACATGCCAGAAAGCCCTAAAGTTAGCGGCCAGCACAATCGATGAGGTGGTGCAAGAGGCGTTCTCCCggaccgcctcggacgaggtccgccgtctgcaggtggagaacatccgcctccgcaagcagatggcggagatgaaaaaggagctggacgtggtcaaggcgatggtccttggcgacgaggaTAGGCCACAAGATCCAGCTCCCAAGGCGACTCCCAAAGCGCCAGACACCGACCTGGCAACGCTCatcagggaggagatgggcaaagtcctccagagactctcgttcctggagggcaaaGACACCGATTTACATGTGAATAGGATACCAGTTGTTCTCGTGGAACGTCTTCCTGATGGTTCCGTCGCTTCTGTCGCGACAAAAGAGGGTAAGACTGCATTAAAATCGAGTCGAAAGTCCCTACCCGACTCAGACGACGAGCTTTCGGAGGGCACACTTGCTATAAAAGCAGCATATGAACTGCAGACAGAAATGAGGGAGGCCTGCGGGGCGTCGGACGAAGACGCCTCGTGGTCTGAAATGTCAGATTCGGGCGACTCGGTGGCTGGCCTTGAGCTTGCCACCGCCAGTAATAAGCGCCCACGTGGTACGGACCCGTCCAGCTCGGACGAGGTCCAGAAAAAGGTGGTGAAGGGGCCGCGTGGCCGTGGCCGTCCGCCAACGTGCGGTTTATACGGTGGCTACGCTAAGGCTATGAGGGAGTACGCAGCCCAAAAAAAGGACCTACTCGGGCACCAGGCCGGTCATGAAATGGCTGCTGCCACCCCGAGAGAGGAGGAGGTGCCCAGAACGGACGGCCCCCAGAAGAGCACCTCAAGTGCTAAAGAGGTTACCGGAGCGGCCGGCCACAAGGAAGCTGCGCTTAAAGAAGTGCAGAGTATCCTGTATGTGGCCGGCTCTTCCAAGAATTTGAAGGGGACCCACGTAAGGGCCCTTAAAGATGCCGCCAGCGCCATCAAGGGCGCAGTCGAGGGCATCTATGAGGCGTCGGTCCCCGAGGCGCTGAAGAGGGCAGAGGCGGAGATCACCCGGCtgaagaggctggccgggtggtataAGGACCAGGTCGCCTACCTGCAGACCTCCATCACGCCTCAGCGCCCGGTCACGCCACCAGCGGCATCCCCCATGGCGGCGGCTTCTTCCGCGGCTACGACCCCCGTAGCAGCTCCCCCCGCGGCACCGACCCCCGTAGCGGCTACGACCCCCGTGCCGGCTTCTCCTGCGGCAGTGGCCCCTGTGGCGGCTTCCCCAATATTGTCCCCCTCCCTGGCGGCGACGATAACAACCCCGACGATGGACCTGGAAcagatgcgcaggtccatcatcgacagcgtcggggtgatgCTGGACGCCCGCTTCGCGGCGCTGGAGGGGCGGCTCCTTCCTGAGCCGCGGATCCGCCCGCCGTTGGCGTCAGACAAGGCGACGGCGGAGCCAACTGCTGATGTGGCGCCTCCTCCCAAAAAAGGGAGAAAAGTGGCGAAAGCCCCCAAACGGAAGGAGCCTCCCCGCGCGCCGGTACCAAAACCAGCCCAGGTTGAGTCTGGCCCCGCACCCCTGCCGCCTGCCCCGGAAACCGCGGGGGGTCCGTGGACGGTGGTGGGCAAGCGGGGCAAGAAGAAAAGGCCCGCTcaggccgcccaaccggcgcAGCCCGCCGAGCCGGCTGTGCAAGCGCCTATGAGGACGAGGCGCAGGCGGAAACCAAGGCTTCGGACGCCGCGTTCGACGGTGGTGGCCGTCAAGCTACCGCCGGACGCCGAAACCCGCGGGGTGACATACGCCACCGTAATGGCCCGTGCGCGGCGGCTCATCAACCCGAGGGACTTGGGTATCGAGTCCCCTGTTTTCAAGGTGGGGAAAACGGGGGCACGACTCATTGAGATCCCGGGCGCCGATAGcggcccaaaggcggacgctctGGCGGCcgccatgagcgcggcgctggccgcggatGGGGTTATtgtgtacaggcccatcaagcgcgcctctttgcgcctggtgggcctggacgactccgtgacgaaggaggacgtcgcggaggcggtggcCCGTGCCGGGGGATGTCCGGACAGTGACGTGAAGACCGGGGAAGTGTTgcgcgaccggacaccccttggcacaattgtagttagctgccccatggaggcagctaaaaaggtggcggcgggcagaattctcgtcggtttcacctctgcgcaggtcaaactgctggaggtgaggccgatgagatgttatcgctgcctcgaggccgggcacgtgcgcgagcagtgccgggccgaagtAGATAGGGGCGCGCTTTGttacaggtgcgggcagccaggccataaggcctctgcgtgtagggctgccccctgttgcgctCTATGCGCTGCGGCCGGTcaaccaaccggccacatgctgggcggcagggcctgtccggcccgaaagcccggccgccgtcgaggaggcggatctgcggctcagccgcagccggccgcctctggcgccaccgaggcgcagaatgtggcggtgcccatggaataa
Protein Sequence
MSKKQEILPQVGTGKAGESHPELRKDSGRPSYSGGATLRHDLYDDHGYPILDTEPCTNDDLGKTNSDIEPAKNDDHRNAQTDSDAGVSANVASATKAVGKELEASEMSTSDVDSSYARSTTMWRKKRPRRPEGSRSGSGEGSDADDPPKPLPKRGRGRPPTTGQYVGYWEAKKKLDRKQRTDQTGAEAALAAESSSRAASRASSNPDPDELLLEGLKGKVAQSLESIRDVARISKGLKGTCQKALKLAANSIAEVVEEAFSRTTSDEVRRLQVENIRLRKQMAEMKKELDVVKNMVLGDEDRPQDPAPKAALKAPDDDLAKVGTGKAGESHPELRKDSGRPSYSGGATLRHDPYDDLGYPILDTEPCTNDDLSNTKPDTDSSTNVDNGNAQTDSAAGDLASVASAAKAIGKELEMSEMSTSDVDSSYARSTTMWRKKRPRRPEGSRSGSGEGSDADDPPKPLPKRGRGRPPTTGQYVGYWEAKKKLDRKQRTDQTGAEAALAAESSSRAASRASSNPDPDELLLEGLKDKVTQSLESIRDVARISKGLKGTCQKALKLAANSIAEVVEEAFSRTASDEVRRLQVENIRLRKQMAEMKKELDVVKNMVLGDEDRPQDPAPKAALKAPDDDLAKVIREEMGKVLQRLSFLEGKVLRPPLASKTPTVPVPAATYAQKAAQKAPLKTPSRLSGRDAVPSTSTRAPAPVPSTSAKMTKSGSTLAAPAAPKPPAAQKAKGKRQTAPPNAREGGQWEVGTGKAGESHPELRKDSGRPSYSGGATLRHEIHDDPGNHNLTIDLCENDDNGNTHTESVACDLENVASATKTVGEELVVSEMSTSDLDSSFARSTTMWRKKRPRRPEGSRSGSGEGSDADEPAKPQSKRGRGRPPTTGQYVGYWDAKKKLEASQRRAPKQKADQSVIEAALAAGSSSRAASRASSNPDADELLLEGLKGRVAESLENIRDVARISKGLKGTSQKTLKLAVSTIDEVVQEAFSRTASDEVRRLQVENIRLRKQMAEMKKELDVVKAMVLGDEDRTQDPAPTAAPKAPDTDLATVIREEMSNTIPETDSCTNDNIGNAQTDAAACDSVSVASAAKLTGEEVERSEMSTSDVDSVYARSTTMWRKKRPRKPEGSRSGSGEGSDADDPPKPQSKRGRGRPPTTGQYVGYWEAKKKLQRREQTDQTSAEAELAAGSSRAASIASSNPDPDDLLLEGLKGRVAASLESIRDVARISKGLKGTSQKALKLAANAIAEVVEEAFSRTASDEVRRLQVENTRLQRQMADLKKELDVVKAMVLNPEDRPKDPAPEGAPKAPDTDLATVIREEMGRVLQRLSFLEGKILRPPLASEAGKTPATPLPATTYAQKAAQKAAQKAPQRAPNRPSGSPASVPSTSAQTSEPVPIPAAPAAPKAPVAQKAKGNRGTTKGQKKKAQQQQPPPLEAGAGGRWEVAGAKKARKKAAKKDQKARARERRRLRAPDTSAVVLTLAPGVTDVTYAAILHHARSTIDIGELGIEGLRVGTGKAGESHPELRKDSGRPSYSGGATLRHAQYDDLGYPILDTETCTNDDPSKTKPDTDHSSNADNGDAQTDSAAGDLAIRRKTIGKELEASEMSTSDMDSSYARSTTMWRKKRPRRPEGSRSGSGEGSDPDDPPKPLPKRGRGRPPTTGQYVGYWEAKKKLDRKQRTDQTGAETALAAESSSRAASRASSNPDPDELLLEGLKGKVAQSLESIRDVARISKGLKGTCQKALKLAANSIAEVVEEAFSRTASDEVRRLQVENIRLRKQMAEMKKELDVVKTMVLGDEDRPQDPAPEAAPKAPDTNLATLIREEMGKVLQRLSFLEGKVLRPPLASKTPTVPAMTYAQKAAQKAPPKAPSRSSGRDAVPSTSARTSQPVPTPSAPAAPKVPAAQKAKGSKGTVKGHNKKAPQKQPAPPNAREGGQWEVAGAKGAQKKAARRAKKARARERRRLRAPNSSAVVLTLAPGAEERGVTYAAMIHLARSSIKIGELGIEGLRAKRTVTGARLLEIPGATSSPKADALAEKLRQELSVEDILISRPYKSVSLRISGLDDSVRLEELIAAVAEVGGCDPQRVKCGDIRAGYGGMFSAVVTCPVEAAKKLADGRRLLVGWVSADVALLRARPLRCFRCQVEGHVGALCPVGIADSRERCHNCGQPGHQARDCAGAAHCLSCGKLGKPADHRAGSKTCGSRPTGKKAPVRTFERPAPLRTRQTEAEVGTGKAGESHPELRKDSGRPSYSGGATLRHDLYDDHGYPILDTEPCTNDDLGNTNSDIEPSKNDDLANTQTDSNARVSANVASAAKTVGKELEASEMSTSDVDSSYARSTTMWRKKRPRRPEGSRSGSGEGSDADDLPKPLPKRGRGRPPTTGQYVGYWEAKKKLDRKQQTSQTSAEAALAAESSSRAASRASSNPDPDELLLEGLKGKVAQSLENIRDVARISKGLKGTCQKALKLAASTIDEVVQEAFSRTASDEVRRLQVENIRLRKQMAEMKKELDVVKAMVLGDEDRPQDPAPKATPKAPDTDLATLIREEMGKVLQRLSFLEGKDTDLHVNRIPVVLVERLPDGSVASVATKEGKTALKSSRKSLPDSDDELSEGTLAIKAAYELQTEMREACGASDEDASWSEMSDSGDSVAGLELATASNKRPRGTDPSSSDEVQKKVVKGPRGRGRPPTCGLYGGYAKAMREYAAQKKDLLGHQAGHEMAAATPREEEVPRTDGPQKSTSSAKEVTGAAGHKEAALKEVQSILYVAGSSKNLKGTHVRALKDAASAIKGAVEGIYEASVPEALKRAEAEITRLKRLAGWYKDQVAYLQTSITPQRPVTPPAASPMAAASSAATTPVAAPPAAPTPVAATTPVPASPAAVAPVAASPILSPSLAATITTPTMDLEQMRRSIIDSVGVMLDARFAALEGRLLPEPRIRPPLASDKATAEPTADVAPPPKKGRKVAKAPKRKEPPRAPVPKPAQVESGPAPLPPAPETAGGPWTVVGKRGKKKRPAQAAQPAQPAEPAVQAPMRTRRRRKPRLRTPRSTVVAVKLPPDAETRGVTYATVMARARRLINPRDLGIESPVFKVGKTGARLIEIPGADSGPKADALAAAMSAALAADGVIVYRPIKRASLRLVGLDDSVTKEDVAEAVARAGGCPDSDVKTGEVLRDRTPLGTIVVSCPMEAAKKVAAGRILVGFTSAQVKLLEVRPMRCYRCLEAGHVREQCRAEVDRGALCYRCGQPGHKASACRAAPCCALCAAAGQPTGHMLGGRACPARKPGRRRGGGSAAQPQPAASGATEAQNVAVPME*

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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