Basic Information

Insect: Herminia tarsipennalis
Gene Symbol: -
Assembly: GCA_945859575.2
Location: OX243844.1:77771-94534[-]

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 5 0.00033 0.28 12.2 0.1 30 60 177 207 172 210 0.91

2 5 0.00016 0.14 13.3 0.6 27 62 607 642 604 644 0.90

3 5 0.0014 1.2 10.2 1.6 30 59 772 801 758 805 0.67

4 5 0.00018 0.15 13.1 0.7 27 62 1240 1275 1236 1277 0.89

5 5 0.0087 7.5 7.7 0.2 31 60 1655 1684 1651 1687 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	5	0.00033	0.28	12.2	0.1	30	60	177	207	172	210	0.91
2	5	0.00016	0.14	13.3	0.6	27	62	607	642	604	644	0.90
3	5	0.0014	1.2	10.2	1.6	30	59	772	801	758	805	0.67
4	5	0.00018	0.15	13.1	0.7	27	62	1240	1275	1236	1277	0.89
5	5	0.0087	7.5	7.7	0.2	31	60	1655	1684	1651	1687	0.91

Sequence Information

Coding Sequence: ATGGACCCGCTGGTAGGTGGGTCAGGTACCGGTCCAAGGAAATTGACAGCTGAGCAACGCCGCGCTCAACAACAAAAGCGCGGCGCATCGCCGGGATTTGACGAGAACCTTCCTGAGGTTGACCTTGAGGTCCCCAGGAAGGTTCATTCTTCCCAAAGAGGGGGGTCGGTGGCGAGGTTCGCTCGCCCGAAGACACCCCCTGCAGTGACGGCAGCCGATGTCACGCCGAAAGTACCAACGTCCGGCGTGTTTTCCAGGCGCGACGCCTATAACAGAGGCCGTACGGAGGGAGAATTAGCTGCTGAGGAGCAGGTCCAGCAGTTGTTGGGTGGGCTCTGCCCTTCGGGAGGGGTTGGTACCCCGAAAACCGTAGAGGAACTCGTCCAATCGGCGACAAAATCTGtggcggttattgcgaatgtggccaccaaaagtaaaaacttgaagggcactttcgcaaaaggcttaaaggaggcagcCTCAGTCATAAAGGAGGTGGTGAAAACGTTGTCTGACCGTTCTGGTGACACTGAGGTGGAGATGAAGAAGATGCAGGCCGACAACACCTGCCTGAAGGAGGAAGTGAAGGCGCTCCGGGCCGAGATAGCACAATTGCGTGCCGATTTCGGTTCGACTAGAGCCGGTTTTGACCCGGCCCTAGTTAGCGCTGTGCCGACCGGTTCTGTTCCGGCTCGTATGGGAGAGCGACCATCTAGCGAATCCTTTACGGAGGCGCAGATGAGGCAGCTCGCACTTCTTTTCGGGGGCCTCTTCGATGCGCGCTTTGAGGGAATCAAGGCGCGCCTGCCCCCGGAACCGAGCTGCCGGCCGCCGCTCGCGGCGCATAAGCCCCCTCAGGGGCCAAAGATGCCACCCCCGGCGCCACCCCGTAAAGAAGGCCGCGCGGGGTCTTTTGCCACAGTGGCTGCCTCAGGGCAAGGTGCGCGGCCGCGGGGTGAAGATCCCCTGCCGCAGCGTATGTTAAGAGGAGCACCCCGGGCTTCCGTAGCGGGCACCTCAAGGGCTCCAACGGCCCAGGTCGGTGCCCCGGCGCCTGCGTCTGCCCCCGCCTCTGCCCCCTCTGGTGAGGAATGGCGAACGGCGGAGAGTAAGAAATCGCGGCGCCGGAAGATGAAGGAGgccacttccgccgctcctgtgcaggctactccggagggtcccgagcgcacttcgctcggggaatcccttgcggagccagtcggctccgtcagtcccgcgtactctgggggggacaaCCAACGACACATCCGCCCGTTGCCGAGCGGTAAATCCGGCACAAAGAAGAGCGCGAAGGTCGCGCTCCGAACCTCGAGCCGTATTTCTGCGGTTCGCGAGAAGGGTCGTAAGACCGTGAGAGGGGCTAAGGCGAGTGGGGCTCCATCCCCGTTGCCGCCTAAGGTCCCGCGTACGGGCTCTTTGACCGCCTCGGAGTCCTCCATTACGGACGTGGACGTAATGGAGGCTACTGAAGTCCACGACGACAAAGCGGTGCGTGACGAGCAGCCAGGCAGGCTCTGGGTTTCCCAGAAGCGTGGCCGCAGCCGCTCGCCGCCGCAGGAGGTGCCGGGGGTCTCCCAGACCCTCAGCAAAATACCTACAGCGCGTAGGGGAGGAGCCAGTGGCTCTGTTTTCTCCAGCAGGGAAAAATACCTGCGCACGCGCACGGAGGGCGAGCGCACCGCCGAAGACCGGGTGGTGCAGCTCCTCGCCGAGGACCAACGGTCGGGGGGGGACCTTGAATCCCCTCCTACTACGTCGGAACTCAATTTACGAGTGGTGGACGACCTGGCCGGTCGCACGGAAGCCACCACCAGGGAGATACAGCAGTTGCGCTCAGAGAACGCCACTCTGCGGTCGGACATGGCGGAGCTCCGCGCCGAGCTCGCCAGACTGCGGGCCGACCTGGCCTCCTCTAGACCCGGTTCATCGCGGGCTGTTTTGGCCAGTCCTGCGAAAACGCAGCCTTCACCCTCCTCCGGAGGTATTGAGGCGCAGTTGCGGCAACTGATGGGCTCTTTTGAGCGGGAGGCCTACAATAGAGGCCGCACGGAGGGAGAAAAAGTTGCTGAGGAGCAGGTCCAGCAACTGTTGGGTGAGCTTCGCCCGTCGGGGTTAGTTAGCTCCCCGAAAACAGTGGAGGAGCTCATGGAGTCGGCGGCCACCTCCATGAAAGTGATAGCGAACGTAGCTCAGAAGAGCAAAAACCTTAAAGGCACGTTCGCCAAGGGCCTGAAAGCGTCCGCCTCGACACTGAAGGAGGTGGTCGAGGCGCTGTTTGAGCGCTTCACCGCCAACGAGGCTGAGACGCAGAAGTTGCGCGCTGACAACGCCCGTCTGGAGGAAGAGTTGAAAGCTCTTCGCGCCGATTTAGCACAGATACGTGCTGATTTAGGATCGGCTAGTGCCGGTTCTGCCCCGGCCTTAGTTAGGGCTGTGCGGGCCGGTTCTGTCCCGGCCCATAGTGGAGAGCGCCCATCTGACGACTCCTTTAGTGAGGCGCAGATGAGGCAGCTCGCACTTCTTATCGGGGGCCTCATCGACGCTCGCCTTGAGGGCGTCAAGGCGCGTCTGCCCCCGGAACCGAGCTGTCGGCCACCGCTCGCGGCGCCCAAGCCGAAGGCCCCCTCTCAGGGGCCACAAAATGCACCCCCGGTGCCACCACCCCGTACAGGGGGACGCGCCGGGACATTAGACCGAGGTGCATGGCTGCGGGGTGGAGTTTCAAATCCTCCGCAGCGTTTGCCGAGAGGACCACCCCGTGCTGCCGTTGCGGGCGCTTCAAGCGTCCCAACGGCCCAGGTCTGTCCTCCGGTGCCAGCGTCTGCCTCCGCCTCTGCCCCCTCTAATGAGGAATGGCGCACTGCGGAGAGTAGGAAATCGCGGCGCCGGCAGAAGAAGAAGGCCACTCCTGCTGCTCATGTACAGGAGGTTGCCCCGGCAATAGAAAAGGAGGGTCCCGGGCGCACTTCGCTCGGGGAATCCCTTGCGGAGCCAGTCGGCTCCGTCAGTCCCGCGTACTCTGGGGGGGACACCCAACGACGCACCCGCCCTGTGCCGAGCGGTAAATCCGGCACCGAAAACAGCGCGAAGGTCGCGCTGCGAACATCGAGTCGCATTGCAGGCTCAAAGAAGGGTCGCAAGACAACGAGTCGGGCTAAGGCGAGTGGGGGTCCGTGGCCGTTGCCGCCGAAAGTCCCACGTACGGGGTCTTTGACCGCTTCTGAGTCCTCCATTACGGACGTGGACGTAATGGAGGATACCGAAGTCCACGAAGGGGGTATTGTCTGTGGCGAACAGCCAGGTAGGCTCTGGGCTTCCCAGAAGCGTAACCGCAGCCGTTCGCCGCAACAGGAAGTGCCGGGGGTCTCTCAGACTCCTAGCAAAATTCCGACCTCCCGCAGAGGAGGAATTGGTGGGTCAGTGTTCTCCAGTAGGGAGAAATACCTACGCACGCGCACGGAGGGTGAGCGCACCGCCGAAGACCGGGTGGTGCAGCTCCTCGCCGAGGACCAACGGTCGGGGGGGGACCTTGAATCCCCTCCTACTACGTCGGAACTCAAGGCGAGGGCCGGGGATGCGgtagccgcgatttacgaggtggctaccaaatccaccaatctgaagggcccctttgtgcgcggccttaaggaggcgggcgctaaactgctagtagtggtggacgacctggccggtcgcacggaagccACCACCAGGGAGATACAGCAGTTGCGCTCAGAGAACGCCACTCTGCGGTCGGACATGGCGGAGCTCCGCGCCGAGCTCGCCAGATTGCGGGCTGACTTGGTCTCCTCCCAAGCCGGTCCACCCCGGGCTGTTTTGACCAGTCCGGGCAAGAAGCAGCCTTCCACCTCTCCTGGAGGCATTGAGGCGCAGTTGCGGCAGTTAATGGGCTCATTCGAGTCCAAGATCGCTGCTCGCATCGGGAGTCTGGAGGCAAGATTGCCTCCGGTGCCGACCTCCCGCACACCGCCGGTCGCAAAGCCATACACGGCTACCGCTCCGACGCCCCTACCCTGTTCCGGGGGACGCGTTGGGACCTACGCGACACGCGCGGCGTCTGCGCCCAAGCAGAAGACGGCACGGTCTACGGCCCCTCCAGCGGTTGAGAGAACGCCAGCCCAGTCCCGGGGAGGCCCCCAGCCATCCCAGGTTTTGACGGCAGCACCATCTCCCGCGCCATCGGTCGCTCCACGTGCCCAGAAGGTCGAGGCTCGTGCCCCTGCGCCCGCACCTGCTCCCGCGCCCCTTGTCCCCGCTGATAAGGGCTGGCAGACGAGGAGCGTAACGCTACTGGAGAAGGAGAAGGAGAGAGAGGTGGAAGAAGTACGGCGAAGGAGCGCCGGTAGTAGGCCCTTAGAAGCGGCCGATTCCGGCCGGCTGGGTGGTTCGAGGACTTCGGTGACCTCAGCGTCGCTGGAGAGTTTGCTGCGATCGGGCCGTTTCGGCTCCGACTCCTCCATTAGCTCAGCGGTCAGCGACCCGACGATGTTCGGGTCAGGAAATGGTCCAGAGACCTCGATGGCTAGCGAAAGCCGCGCTCAACGTCAAAAGCGCGGTGTTTCTCCTGGAGACGACGAGAACCTTCCTGAGGTTGACCTCGAGGCCCCCAGGAAGATTCACTCATCCCAAAGGGGGGGTTCTGTGGCGAGATTTTCTCGCCCGAAAACACCCCCTGCAATGACGGCTGCCGACAACATTCCGGGCGCTTCAACAACTGGTGTGTTCTCTAGGCGGGAGGCCTACAATAGAGGCCGCACGGAAGGAGAAATAGCTGCTGAGGAGCGAGTCCAGCAGCTGTTGGGTGGACTCTGCCCGTCGGGAGGGGTCGGCGTCCCGAAATCTATGGAGGAACTCGTCCAGTCGGCGACTAAATCAGtggcgGAGGTAGTAAAGACGTTCTCCGAACATTCTGCTACCGCCGAGGTGGAGATGGAGAAGATGCGGGCCGACAACACCCGACTGAAGGAGGAACTAAAGGCGGTCCGGGCAGAGATGTCACAACTGCGTGCCGACTTCGGATCGCCTAGAGCCGGTTCTGTCCCGGCCCATAGTGGAGAGCGCCCGTCTGACGACTCCTTTACGGAGGCGCAGATGAGGCAGCTCTCACGTCTTATTGGGGGCATCGTCGACGCTCGCCTTGAGGGCGTTAAGGCGCGTCTGCCCCCAGAACCGAGCTGTCGGCCGCCGCTCGCGGGGCCCAAGCCCCCTAAGGGGCCACTGATGGCACGCCCGGCGCCACCACCGCGTACAGCGGGACGCGCTGGGTCTCTTAGAGCAGCGGGCACCTCAAGCGCCCAAACTGCTCAAGTCCGTCCCCCGGCGCCTGCGCCTGCTCCCGCCTCTGCTCCCTCTGTTGCGGCAGCTGATGGGCTCTTTCGAGTCCAAGATCGCTGCCCGCATCGGGAGTCTGGAGGCAAGGCTGCCTCCGGCGTCGACCTCCCGTACACCGCCGGTCGCAAAGCCGTACACGGCTACCGCTCCGACGCCCCTACCCTGTTCCGGGGGACGCGTCGTGACCTACGCGACAAGCGAGGCGTCTGCGCCGAAGAGGAAGACGGCACGAGCCCAGGCCCCTGTAGCCCGATCCCAGGGAGGCCCCCAGCCTACCCAGGGTTCAACGGCGGCACCATCGCCCGCCCCTTCTGTCGTTCCACGCGCCCAGAAGGTTGA
Protein Sequence: MDPLVGGSGTGPRKLTAEQRRAQQQKRGASPGFDENLPEVDLEVPRKVHSSQRGGSVARFARPKTPPAVTAADVTPKVPTSGVFSRRDAYNRGRTEGELAAEEQVQQLLGGLCPSGGVGTPKTVEELVQSATKSVAVIANVATKSKNLKGTFAKGLKEAASVIKEVVKTLSDRSGDTEVEMKKMQADNTCLKEEVKALRAEIAQLRADFGSTRAGFDPALVSAVPTGSVPARMGERPSSESFTEAQMRQLALLFGGLFDARFEGIKARLPPEPSCRPPLAAHKPPQGPKMPPPAPPRKEGRAGSFATVAASGQGARPRGEDPLPQRMLRGAPRASVAGTSRAPTAQVGAPAPASAPASAPSGEEWRTAESKKSRRRKMKEATSAAPVQATPEGPERTSLGESLAEPVGSVSPAYSGGDNQRHIRPLPSGKSGTKKSAKVALRTSSRISAVREKGRKTVRGAKASGAPSPLPPKVPRTGSLTASESSITDVDVMEATEVHDDKAVRDEQPGRLWVSQKRGRSRSPPQEVPGVSQTLSKIPTARRGGASGSVFSSREKYLRTRTEGERTAEDRVVQLLAEDQRSGGDLESPPTTSELNLRVVDDLAGRTEATTREIQQLRSENATLRSDMAELRAELARLRADLASSRPGSSRAVLASPAKTQPSPSSGGIEAQLRQLMGSFEREAYNRGRTEGEKVAEEQVQQLLGELRPSGLVSSPKTVEELMESAATSMKVIANVAQKSKNLKGTFAKGLKASASTLKEVVEALFERFTANEAETQKLRADNARLEEELKALRADLAQIRADLGSASAGSAPALVRAVRAGSVPAHSGERPSDDSFSEAQMRQLALLIGGLIDARLEGVKARLPPEPSCRPPLAAPKPKAPSQGPQNAPPVPPPRTGGRAGTLDRGAWLRGGVSNPPQRLPRGPPRAAVAGASSVPTAQVCPPVPASASASAPSNEEWRTAESRKSRRRQKKKATPAAHVQEVAPAIEKEGPGRTSLGESLAEPVGSVSPAYSGGDTQRRTRPVPSGKSGTENSAKVALRTSSRIAGSKKGRKTTSRAKASGGPWPLPPKVPRTGSLTASESSITDVDVMEDTEVHEGGIVCGEQPGRLWASQKRNRSRSPQQEVPGVSQTPSKIPTSRRGGIGGSVFSSREKYLRTRTEGERTAEDRVVQLLAEDQRSGGDLESPPTTSELKARAGDAVAAIYEVATKSTNLKGPFVRGLKEAGAKLLVVVDDLAGRTEATTREIQQLRSENATLRSDMAELRAELARLRADLVSSQAGPPRAVLTSPGKKQPSTSPGGIEAQLRQLMGSFESKIAARIGSLEARLPPVPTSRTPPVAKPYTATAPTPLPCSGGRVGTYATRAASAPKQKTARSTAPPAVERTPAQSRGGPQPSQVLTAAPSPAPSVAPRAQKVEARAPAPAPAPAPLVPADKGWQTRSVTLLEKEKEREVEEVRRRSAGSRPLEAADSGRLGGSRTSVTSASLESLLRSGRFGSDSSISSAVSDPTMFGSGNGPETSMASESRAQRQKRGVSPGDDENLPEVDLEAPRKIHSSQRGGSVARFSRPKTPPAMTAADNIPGASTTGVFSRREAYNRGRTEGEIAAEERVQQLLGGLCPSGGVGVPKSMEELVQSATKSVAEVVKTFSEHSATAEVEMEKMRADNTRLKEELKAVRAEMSQLRADFGSPRAGSVPAHSGERPSDDSFTEAQMRQLSRLIGGIVDARLEGVKARLPPEPSCRPPLAGPKPPKGPLMARPAPPPRTAGRAGSLRAAGTSSAQTAQVRPPAPAPAPASAPSVAAADGLFRVQDRCPHRESGGKAASGVDLPYTAGRKAVHGYRSDAPTLFRGTRRDLRDKRGVCAEEEDGTSPGPCSPIPGRPPAYPGFNGGTIARPFCRSTRPEG

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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