Basic Information

Insect: Nymphula nitidulata
Gene Symbol: -
Assembly: GCA_947347705.1
Location: OX374638.1:17552252-17572842[+]

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 3 0.00033 0.17 12.8 0.9 32 61 317 346 313 349 0.91

2 3 0.00033 0.17 12.8 0.9 32 61 998 1027 994 1030 0.91

3 3 0.12 61 4.6 1.0 31 62 1564 1595 1560 1598 0.73

#	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	3	0.00033	0.17	12.8	0.9	32	61	317	346	313	349	0.91
2	3	0.00033	0.17	12.8	0.9	32	61	998	1027	994	1030	0.91
3	3	0.12	61	4.6	1.0	31	62	1564	1595	1560	1598	0.73

Sequence Information

Coding Sequence: ATGGGTTCGCAGCCGGCCAATCTCCAACACAGTGCGGCTGCCCTCGGGCATTGCACGGCCGCACAAACCCGTAGCCCTGCATTTATGTGGGGTCGGGGGCTGGGCGTATggggcttgccctgtgcgtctggtcgtgaggaagaaaacctctataaaaaatcacccTCGGGGGGCCCCCTTGGGGGGCCAGTGGAGCTTCGGCTCGTGGTATGGCGGCCTTCAAGGCCGCGGTCCGCTTCATGCGGACGGTGTCGGGAGCTTTTGCTCGTGGCGCAGTCGCGCCTTTGTTGGAAAGTCGGGAGTTGCTCCAGCAGGAGCCTGAGATCGATGGACAAAGCGCCCTGTCCTCAAGTGAGTGGCGCGGAGAGTGGAGATGAAGATGATGTGAGGGACGCGAGCAAAACTGCGTCGGACTTCGGCTCGTGTTGGTCAGTCGACAGCGTCGAATCACAAATCAGTAGGAAGAGGGCAAGATCCCCGATAAAGAAGGGGTCAAATTATAGAAAGGCATCTGGCACCGACAGCGCATCCAGCGCAGAGTCTGAGAAGGCGCCGAAGCCCAAAAAACCTGCCGCTAGTCGTGGCCGCGGCCGTCCTATCAAAACCGGGGACTATGCCGGCCTCGCCAAAGCTAAGAGGGAATACAGCGCTGCATTGCGCGAGTCTATGCGCCTGGAGGCCGAGAAGGAGGTCGCCGCTGAATTAATTCAAAGGCGTTTGCGGTCGGAGTCGGCGGCGTCACGGCAGTCTGACCATTCCGACATCATGTCCGTGGAGGAGGAGCCTTGTGCTGCCAAGCTCTACCAATCTGTTGAGAGTGAGATTACCTCGATTCTGAAGCTCGTGTCCAGCTCGAGTAATTTGAAGGGCACGTATCAAAAAGCCATAAAGATGTCCGCCGCGTCAATCAAAGAGCACACACAGGCGCTTCTTCGTTGCACCATCAACGAAGAAGTGAGCAAGTTGACGCGGGAAAATAAGCGCTTGGAAGGCAGTATTCAGGACCTGCAGAGACAACTGGACGAGTTGCGCGCCAAGAGTAGTGCGCCTTCTCAGTCAGCCTCAGCAGTCCAGCCTACCCTGAACGCTGAAGAGATCGTCCGTGCTGTCACTACAGTGGTTGACGACAAGCTCCGCGCGGCGATGACATCAGTCACAAACATCATCGACGCCAGAATTGAGGGCCTGAAGATACCAGATCGTCCACGGCCACCGTTGGCCGCGGATAAAAAGAAAGAAGCTGCTCAATCGAAACCAACATTTGCAGCTACAGTGAAGGCGTCTCCCGTCATTAAGTCAAAATGCGGGACAATGACTTTAATCCCCTGCACATCGTCCCAAAAAAAGGGTAAAGGCAAGGGGAAGGGGAAGAGGACGGCTTCTGCGCCGACCACAAACCCAGTGACAAACCCGGAGCCCGGCCCGTCAACATCGTCTGCGCCCCTGCCAACCGCCCCCGTTTCTGAGGAGGAGGCGGAATGGAGTACAGTAGGGAAAAACGGGAAACAGAAGAAGACGCAGCCAGCTGTGACCCCTGGTCCAAAGCCTCAAGCCAAGGGCACCAAAGGCGCGCAGGCAAAGGCCAAAAAGCCCCGAAAGATTAGGGAGCCACGCTCGGCGGCCgtggttattactatcagcccagaggcggtacaacgcggcgtttcgtacgccgacgtaataaagaaggcccgaaatggtataaatcttgtagacgtcggcgtcgaccagccgctgcaaataaaaacagcggtcactggcgccaaaatattggaggttcgtggagaagaccagggctccaaagcagacgcgtttgctgaaaagctaatagctctctttgaggaagatgaggacgtccgaatcgccagacccacaaagtccattgagatatccatctccggcctggatgattcggtggagaaggaagacattgtgtcagccattgccaataagggcaactgcgcgcaccactctgtcagggttggtgaaatccggcctggacctggcagcatgggcgttgcttgggcttcatgccctgtgggcgccgccaagaagCCGGCCAATCTCCAACACAGTGCGGCTGCCTTCGGGCATTGCACGGCCGCACAAACCCGTAGCCCTGCATTTATGTGGGGTCGGGGGCTGGGCGTATggggcttgccctgtgcgtctggctgtgaggaagaaaacctctataaaaaatcaccctCGGGGGGCCCCCTTGGGGGGCCAGTGGAGCTTCGGCTCGTGGTATGGCGGCCTTCAAGGCCGCGGTCCGCTTCATGCGGACGGTGTCGGGAGCTTCTGCTCGTGGCGCAGTCGCGCCTTTGTTGGAAAGTCGGGAGTTGCTCCACAAGGAGCCTGAGATCGAAGGACAAAGCGCCCTGTCCGCAAGTGAGTGGCGCGGAGAGTGGCGATGAGGATGATGTGAGGGACGCGAGCAAAACTGCGTCGGACTTCGGCTCGTGTTGGTCAGTCGACAGCGTCGAATCTCAAATCAGCAGGAAGAGGGCAAGATCCCCGATAAAGAAGGGGCCAAATTATAGAAAGGCATCTGGCACCGACAGCGCATCCAGCGCAGAGTCTGAGAAGGCGCCGAAGCCCAAAAAACCTGCCGCTAGTCGTGGCCGCGGCCGTCCTATCAAAACCGGGGACTATGCCGGCCTCGCCAAAGCTCAGAGGGAATACAGCGCTGCATTGCGCGAGTCTATGCGCCTGGAGGCCGAGAAGGAGGTCGCCGCGGAACTAATTCAAAGGCGTTTGCGGTCGGAGTCGGCGGCGTCACGGCAGTCTGACTATTCTGATGTTATGTCGGTGGAGGAGGAGCCTAGTGCTACCAAACTGTATCAGTCTGTCGAGAGCGAGATAAGCTCGATACTCAAGCTCGTGTCCAGCTCGAGCAATCTCAAGGGCACCTATCAAAAGGCGATTAAGCTGTCCGTCTCTTCGATTAAGGAGCACACGCAAGCGCTTCTTCGTTGCACCATCAACGAAGAAGTGAGCAAGTTGACGCGGGAAAATAAGCGCTTGGAAGGCAGTATTCAGGACCTGCAGAGACAACTGGACGAGTTGCGCGCCAAGAGTAGTGCGCCTTCTCAGTCAGCCTCAGCAGTCCAGCCTACCCTGAACGCTGAAGAGATCGTCCGTGCTGTCACTACAGTGGTTGACGACAAGCTCCGCGCGGCGATGACATCAGTCACAAACATCATCGACGCCAGAATTGAGGGCCTGAAGATACCAGATCGTCCACGGCCACCGTTGGCCGCGGATAAAAAGAAAGAAGCTGCTCAATCGAAACCAACATTTGCAGCTACAGTGAAGGCGTCTCCCGTCATTAAGTCAAAATGCGGGACAATGACTTTAATCCCCTGCACATCGTCCCAAAAAAAGGGTAAAGGCAAGGGGAAGGGGAAGAGGACGGCTTCTGCGCCGACCACAAACCCAGTGACAAACCCGGAGCCCGGCCCGTCAACATCGTCGGCGCCCCTGCCAACCGCCCCCGTTTCTGAGGAGGAGGCGGAATGGAGTACAGTAGGGAAAAACGGGAAACAGAAGAAGACGCAGCCAGCTGTGACCCCTGGTCCAAAGCCTCAAGCCAAGGGCACCAAAGGCGCGCAGGCAAAGGCCAAAAAGCCCCGAAAGATTAGGGAGCCACGCTCGGCGGCCgtggttattactatcagcccagaggcgTGGAGCTTCGGTTCTTCGGAGGTGTCTGCGGTTGAGCTCTGCTCCCGCGGTGGACACTCTGGTTTCCGAGTGTCGTGGGCCGCTCTCGGCGCTCCTCTGTTTCGTCAGAAGAGGCAGGAGACGCGGTGGTTTGACAGGAGGAGAACGGGCTGTTTGTCGGCTCGTGGCGTAGTTTCGCCTTGTCTAGGAGTTTTATCTCCTGCGGGAGCTCTATCTCTCGCTGACGTTGACACGAGGTCATACAATCCCGCTGACCACGGGCGCTTGTCGTTATCTCGGGCGGCTAGTGTGAAATTGGTTACGAGTGAGAGTGGTGAGGAAGTCGGCACTAATAAGTCCGGCTGTTCTGAGAAGGGAACGGAAGCAGCAAGACTGTGGAGCAAGTCTGATATGGAGACCGAGACAGATGGGTCGGGATACGAGACCCCTTGTGCCGCAAAACAAGCGAATTCAACTGCGAAGTTTTTGAAGGACGGTAACGAGTCGGACGATTCAATGCCTGCCAGGAACACACGAAGCCGTTCTACTGTAGGGAAGCGAAAGAGGGAGGAGAGACGCAATAGTAGAAGCCGTAGCGACTCATCGTCCAACGAGTCAGTGATATTCAGGCCATCATCAGCTGCGCCGGGATCTACTGCGAAAAGAGGACGCGGACGGCCACCAACAGTTGGCACCTTCGTTGGGTATGGCAAAGCCAAAGAAGAGAGGGAGAGAAAACGGCTTGACATTGCGGAGGATATCACAGCGAAGGAGATTGCTGACTTAGCTAGAGATTTTACGGGCGGGGAAAAAGGAAGAAAAGTACCCGACAAACTGGACAAAGACATCGACAACCCGTCAGCCCCTGGGCTTATCGAAATGGGTAAACAAGCGGTAAAAGTGTTCGAGACCATGCTTGAAAAGTCCCAGAGACTGAAGGGCAGCGTCAAGGGAGAGATGAAGCGGGCCTGTGTTTTGATGGGCGAGGTAATGGACAGGATAGGTGCCCTAACTATCACAGAAGAGACCAAAATGCTCCACCGCGAGAATGACCACCTCAAAAATGAAATGAGGATGATGAGGGAGAGGACAGAGCGAATCGAGAAAGACCTGGAGGAATGCAGATATCAACTCATTCGCAATACTGCTGCTGCAGACAAACCTCCGGCGCCTCCAAAGGATCCACGCCTTCAGGATAGGCAGAAAGAGAAGGACGAGGACAGGCTGCGGGCGGAAATTCTTGCATCCGTCCGAAACATGATGGAAGCTAACACAGAGGCCATCCTGAGGAGGCTTCCTCCGCTTGCGCCTGAACCCAGCCTCAGGCCACCTCTTGCAGCCGACGTGAAACGCCAAGCGGAGGCTAAGGAAACTCCTACAGAACCTGGCGAGAAGGATAGACCCAAGAAAGCGAAAAAGAGAAGGAGTAAGAAGAATGAGGAGACGAAGGTCAACCAACCAAGGATTGAAAACACTCCTCTCCCTTGCAACCCGTCGCAACCATCGACCTCTGCTGCAGTTCAGAACCAGCAGCAGGAAGAAGGGTGGAACACGGTGGTGAGTAAGAACACCTTGAGAAAGGAGAAAAGGGAAAAGGCAAAGAATCTGCAGGAGGTTACACGCAGCAAGACTACGGGGAAATCTAAAGGTGGCCCCGAAGTTCCCAAAAGGAAAAATCGGAAGCCTAGACTGCGTGAAAGGAAGACTGCAGCAGTGGTCGTTGACATTCTGCAGTCGGAAAAAGATAAGGGCTTGACATTTGCCGACGTAATGAAGCAGGCAAAAGAAAAAGTTGACCTTAAAGAATTGGGGATCACCGGCATAAACTTTAGGAGGTCGGTCGCGGGGGCACTTGTCCTCGAGCTTCCCAAGGAGGCCGGTGTTGCAGAGGCTCAAAGGCTTGAAGAAACCCTCAGGGAAAAGCTCCCTATagcggtccgggtcacgcgccctattaaaaaggcggaaataagggtgcttggaatggacgactcagtgacctgcgaggagTCCGCGTCCGCGCTGAGTCTGCGTCCGCGGTCGGTCCGCGTCCGCGGTCGGCCCGCGTCCGCGGTCAGTCCGCGTCCGCGGTCGGTCCGCGTCCGCGGTCGGTCCGCGTCCGCGGGTCCGTGGGTCCGCGTCCGCGGCCGCGAGCTATTCATACTACACATGTTATCTCTATTCTTATGTTAG
Protein Sequence: MGSQPANLQHSAAALGHCTAAQTRSPAFMWGRGLGVWGLPCASGREEENLYKKSPSGGPLGGPVELRLVVWRPSRPRSASCGRCRELLLVAQSRLCWKVGSCSSRSLRSMDKAPCPQVSGAESGDEDDVRDASKTASDFGSCWSVDSVESQISRKRARSPIKKGSNYRKASGTDSASSAESEKAPKPKKPAASRGRGRPIKTGDYAGLAKAKREYSAALRESMRLEAEKEVAAELIQRRLRSESAASRQSDHSDIMSVEEEPCAAKLYQSVESEITSILKLVSSSSNLKGTYQKAIKMSAASIKEHTQALLRCTINEEVSKLTRENKRLEGSIQDLQRQLDELRAKSSAPSQSASAVQPTLNAEEIVRAVTTVVDDKLRAAMTSVTNIIDARIEGLKIPDRPRPPLAADKKKEAAQSKPTFAATVKASPVIKSKCGTMTLIPCTSSQKKGKGKGKGKRTASAPTTNPVTNPEPGPSTSSAPLPTAPVSEEEAEWSTVGKNGKQKKTQPAVTPGPKPQAKGTKGAQAKAKKPRKIREPRSAAVVITISPEAVQRGVSYADVIKKARNGINLVDVGVDQPLQIKTAVTGAKILEVRGEDQGSKADAFAEKLIALFEEDEDVRIARPTKSIEISISGLDDSVEKEDIVSAIANKGNCAHHSVRVGEIRPGPGSMGVAWASCPVGAAKKPANLQHSAAAFGHCTAAQTRSPAFMWGRGLGVWGLPCASGCEEENLYKKSPSGGPLGGPVELRLVVWRPSRPRSASCGRCRELLLVAQSRLCWKVGSCSTRSLRSKDKAPCPQVSGAESGDEDDVRDASKTASDFGSCWSVDSVESQISRKRARSPIKKGPNYRKASGTDSASSAESEKAPKPKKPAASRGRGRPIKTGDYAGLAKAQREYSAALRESMRLEAEKEVAAELIQRRLRSESAASRQSDYSDVMSVEEEPSATKLYQSVESEISSILKLVSSSSNLKGTYQKAIKLSVSSIKEHTQALLRCTINEEVSKLTRENKRLEGSIQDLQRQLDELRAKSSAPSQSASAVQPTLNAEEIVRAVTTVVDDKLRAAMTSVTNIIDARIEGLKIPDRPRPPLAADKKKEAAQSKPTFAATVKASPVIKSKCGTMTLIPCTSSQKKGKGKGKGKRTASAPTTNPVTNPEPGPSTSSAPLPTAPVSEEEAEWSTVGKNGKQKKTQPAVTPGPKPQAKGTKGAQAKAKKPRKIREPRSAAVVITISPEAWSFGSSEVSAVELCSRGGHSGFRVSWAALGAPLFRQKRQETRWFDRRRTGCLSARGVVSPCLGVLSPAGALSLADVDTRSYNPADHGRLSLSRAASVKLVTSESGEEVGTNKSGCSEKGTEAARLWSKSDMETETDGSGYETPCAAKQANSTAKFLKDGNESDDSMPARNTRSRSTVGKRKREERRNSRSRSDSSSNESVIFRPSSAAPGSTAKRGRGRPPTVGTFVGYGKAKEERERKRLDIAEDITAKEIADLARDFTGGEKGRKVPDKLDKDIDNPSAPGLIEMGKQAVKVFETMLEKSQRLKGSVKGEMKRACVLMGEVMDRIGALTITEETKMLHRENDHLKNEMRMMRERTERIEKDLEECRYQLIRNTAAADKPPAPPKDPRLQDRQKEKDEDRLRAEILASVRNMMEANTEAILRRLPPLAPEPSLRPPLAADVKRQAEAKETPTEPGEKDRPKKAKKRRSKKNEETKVNQPRIENTPLPCNPSQPSTSAAVQNQQQEEGWNTVVSKNTLRKEKREKAKNLQEVTRSKTTGKSKGGPEVPKRKNRKPRLRERKTAAVVVDILQSEKDKGLTFADVMKQAKEKVDLKELGITGINFRRSVAGALVLELPKEAGVAEAQRLEETLREKLPIAVRVTRPIKKAEIRVLGMDDSVTCEESASALSLRPRSVRVRGRPASAVSPRPRSVRVRGRSASAGPWVRVRGRELFILHMLSLFLC

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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