Basic Information

Gene Symbol
-
Assembly
GCA_907165275.1
Location
OU015650.1:15653680-15665983[+]

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 7.3e-06 0.0067 17.0 0.6 29 62 286 319 269 322 0.84
2 3 5.7e-06 0.0052 17.3 0.7 27 61 815 849 800 851 0.83
3 3 6.2e-05 0.057 14.0 0.2 31 61 1342 1372 1336 1375 0.86

Sequence Information

Coding Sequence
ATGATGTACGCTATGGAGTGGGAGAAGGATCTCGCTACCACGAGCGAGGCGCAAGTGAAGCAGGAGGTGACCTGGGAGGAGGGGTTTTACGTGGAGTCCCTCACCAAGCAACGTGATGACTTGATGGGTCAGGGCATCAAGGTGAGAGACCTCACCCCCTGGCAAAAGATGCTGCGCCAATGCTCTGAGGCGGAGATCGTGAAGGGCGTTCGCAAAGAACTGAGTTATAGGCACGAGCTGCTGCTGGCTAGGCGCAAGGAGCTTAGAGCAGCAGCTCGTGCCGCTGATGAGCTGGCATCGCGGCCGTCCGGGTCGGGCGCCGGAAAACCTGCCGCCTCCTCTTCAAGGGTACCTGTGGTGGTCTTGGAGAGGATTGTTGAGGCTCCGGCGTCCGAGCCGGGCGACCGCAGTGACTCGTCTGCTCCCTCGTCCCGTGATAGCAGCGTGTCGAGGAAGCGGATGAGGATGGATGCCGACGGAGACCCGTCAACTGCGGGGTCCGTGACCTTGCAGTTCGGGTCTCCGGAGTCCAAGCGCGGCCGCCGGCGTGGGGCGGAGGGCGGCCGCGCCATTGAGGCTGGGGAGCCCGAGCTCCTCGAGCTCGCACCGGGGGAGGACACGGCCAGGCGTGACGTTGCGGATCGCGTCGCCAGAGCCGGTAAGGGATCGGCCTCGGGGGTTGGGACTGCCTCGCTCAGCGAGACGGCCAGCGACCTCCGGGACCGCATCTTTGAGGACACGGAGGTCATCTGCCGTGTAGCTGCCGTATCTGCAAACCTTAAGGGGACGTGCGTCCGGGACCTTAAGGAAGCGGCTGCACGGATAGATGACAGGGTGAAAGCCCTCGCTGAGCGCTCCGTGTCCGATGAGACGGCCAGACTGGCGGCCGAGAACGCCCGCCTCCGGGCGGAGGTCGACGGACTTCGTAAGGAGTTCGCCGCCCTCCGCGCGGAGATCGCGAAGGCCAACTCGCCCCCGGTGAGACAAGAGGAGGCGGCGGTTCGGGACCAGCCTCTTTCCCGCGAAGTCATGGAGGCGATCCGCCACATGGTGGACGCTACCATCGCGGGGAGGCTGGTTCCGGACCGGCCACGACCACCCCTTCGACATGAAGGGCGGTCAGAGAGGGCGGGGGTGTCGGCGCAGCGTGTCACTGACGCTGTGCCGACCCCTCCGCGCCTAGTCCTGAAAGGGCAAAAAGGGGCCAAGGGACCTTCCCGGACGGCCCCCGAGATGGATTCTCCCCGTCCGCTGCCCCCGAGTACGGCGAATGTAGCCAGCTACTCGGAGGTAGTGAAACGGGGAAAGAAGAAAAAGAAGAGGAAGGGCAAGGCTGCCCCGACCTCGGCGCCTGCGGCACCGGCGAAGAACGGGGTCCGAGGCGTGCGCCTAAGACGACCGGAATGGCTCCGGTCGCCGTCGGTGCTGCCCGGCCCGTGGCTGGGCAAGAGTCATCCGCAGCGGTGGCACAGGCTGGGACGGCTCGTTCCCGCGACCCTCTGCTTTCAGAGGGAGCGATGGACGCGAGCTGACACCCCCCTCACCCACCTTCGTTGCTCCTGGGGGCGTTCCGTGGGGACGGGCGTCCTCATCAAGGAGCACGAGGAAGAAAGGCGCGCTCCGGACATCCCGGCGCGCCTTTACCCGAATCCCGAGTTCATTAAGAGCTGGAAGGGCTGGCCCGAGGACCTCACGACCCTCACAGAGCAGGAGATACACGACCAGGTCCGTCGGGAGTGTTCATCTCTTGTTAAGGAGTTCATTGAGGAACGGGCAGCCTTCCGCGATTCGGGTGATCCTTGCGACAGTCGTGGGCCAATCTGGGAGCTCGTGTGGACCCTCTCAGAGGAAGAGCTCCAAGAAGAGGTCAGACGCGACATGTCGTATAGGATCACATATTTCATAGACAAGAGGAAGCAGCAGCTAATAACTGCCACCCCCGCGGCGACTGCCGCTCCGCCGTCTGGTTCGGGCGTGGGGAAAATTGCCGCCCCCTCTTTGAAATCACCTGTTGTGGTTTTAGAGAGGATGGAGGTATCTCCAGCGTCGGTCTCGGGCGGCCGTGCGTCAGTCGCCTGCTCGTCCCGTGACAGCAGCGGGACAAGGAAACGACTGCGAGAGGGTATGGAGGAGGACGATCCGCTCTCCGACAGCTCCGCCGGATCCCAGTCGGGAGGCGACGGACCTAAGAGGGGGCGCAAGAGCGCTAGGGCGAAGTCGCGCAACGTAGAGGAGCGCGTCGCCAGAGCCGGAAAAGGCTCGGGCTCGGGGGTTGGGGCTGCCTCGCTCAATGAGGCATCTTGCGACCTTAGAGACCGTATTTTTGAGGACACGGAGGTCATCTGCCGTGTCGCCGTGACGGCGGGACACCTGAAGGGCACAGATATCCGGGCCCTGAAGGAAGCGGCGGCACGGATAGATGACAGGGTCAAGGCCCTCGCTGAACGCTCCGTCACTGAGGAGACAGCAAGGCTGACGTCGGAAAACGCTCGCCTTCGCGCGGAGGTTGACGGACTACGCAAGGAATTCGCCACCCTCCGCGCGGAGACGATCGGAGCTCGTAATGCTCCCACGCCACCCTCGTGTAGGCAGGATCAGGAAGCCCGGGAGCAACCTCTCTCTCAGGAGGTGTTGCTGGCCACGATCCGACACATGGTCGAGGCCGCAGTTGAGGGGAGACTGCTTCCGGAGCGACGACGCCCGCCCCTCCAACATGAGGGACGGTCGTCACAACAAGAGGCTGTGGCAACAGCTGCCAGCAATTGTGTGCCAGCACCTGAGAGCCAGCCCAAGAAGGGACCAAAGAAGGGATCCAAGAAGAGGGTAAAGGGACCCTCCCAACCGGTCCCAGAGAAGGATGCCCCCCGTTCACTCCCACCAGCTCCGGCGAATATGGACGCTGGCTACTCGGAGGTAGTGAAACGGGGGAAGAAAAAGAAGAAGGGAAAGGCTGCCCCGACATCGGCGCCTGGCGCACCGGCGAAGAAGTCTCCGCCGGGACAATCGGCGCCGGGAAGACCGCCCAAAGCGGCCGGAGCGACTCCGGCCGCCGCCGGTGAAGCCCAGCCCGCAGTGGCCGGGCAAGAATCCGCCATGGCGGGGAGGGGTGAGGGAGGACCACCTCTAGAACCAAGGTCCTCCAACATACGACAACCTACGCAATCCACATCGGAATGGAACTGGAGAGTTAGTGATGAGATGGTGGAGCAAATGAGGATGGAGGCTGAGCTGCAAAAACAGGTCACGCAGAAGCACCTTACGTTGGAGCTAGCCTCTACCCCTGGAAAGCTATCATGGCTGGAGGAAAGAATTGAGCAGTCTGAGCTCGCGCCCGATATTTTTGAGGGAGGCGGAGAAGAATTGGCGGACCGGTCGTCTGGGTCCGATGGCGGTTTGGTCACCGCCTCTTCTTTGATGTCATCGGCGGCGGCTCCGGAGGGGGTCGAGGCATTGTTGTCGTCTGATTCGGAGGAGATAATGTCGCTTGACTCCACTGCCGGCGGAGCAGCATCTGGCGGGAAGAGGAAGCGCCGAGAGCTGGAGGACTCTAGTGATACGTCCTCGGCGGATCCCCTTGGCGCTCCTCTTCCAAGAAGAGTGAAGCGGGGCTCCCCAGGGGCCGCACGAGAGAGGAGACGCACTGCAGCTGCCGACCGAACTGCACCCCCGTCGAAGGAGCGGGATGACGTGAGCGTTTCTCGGCGGGTGCCCATCGTTCTTATCGAAAGAATGGACATGGAGCGGGCAATGACGAAATCACCTGGTGGCTCCAAGAACTCCCAGACAGTTGCTGTAGGGGGTGGGGGTGGGAGTGGACGGGGGCCCGCATCTCCCATCGGTAAGTCTACCGGCTCGGCCATTGTTGGGCACAGAAGATGCGCCTCGTACCCGGATGATCTGGACCGGTTTGAGATGCCGGACTCTCGGACCATCGCGGAGCGTGTTGCTAGGGCGGGAGTCGGGTCACGTTCGGGGGTCGGGACGATCTCCGCCAATGTTGAAACAGCCGACCACCACTCTGTGTCTTCTGAAACGGACAAGCTCGCGGCGGAGAACACTCGCCTCCGTCGGGAAATGGAGGATCTCCGAAGGGAGATGATGTCCCTCCGCATGGAGGTGGCTAAGACCCAGCACGCTCCGCCAGTTGCACCGGAGAGGCGGAGGGGGGAGGTTCGGGAGCCGACCCTCAACCAAGAAATTATGCAGGCTATAGCCCACATGGTGGATGCTAAAATCGATGGGAGGCTGCTCCCGGACCGCCCGCGCCCGCCTCTCCGGCACGAGAGCCGGCTGCCTGTGAGGGCTGCACCTGATTTGGGTTCAGTTCCCCCCGAGGTATCTCCGGCTGTGACTGCTGGGGCGGGCCCGCCAGCACCTCTGGCTCAGTCTCATTCGGAAGAAGTGACAAGGAAAGAGAAGGGAACAAAAAATAATAAAAAAAAGAGGAAAAGAAAGAAAAAGAAGAAGAAGGCGGCTGGCGAGCCCGATCTGGGAGCACGCTCCGGGACAGCACCACGCCCACCACCATTGGCACCTGTATCTACGGAGCCCACATGGTCTGAGGTGGTGGGCAGGCGCAGAAAGCAGGGGAAGACGCCCGCTCCGAGTGTCCTCTGTTCACAAGAGGGCATAGCGGAGCGTGGTAGTAGCTCTCTCCCCATACCCTCGATGTCTCTGAGGGTATCCCACGGGATTCTGGGTGCCCTCCAAGAGAGACTTGAGGAGGAAGGCGCACCTGGTGTTCCAGTGCGCCTTCAACGCGAGAAGGTCGCCTCCGCTGGAGGCTCGTCGCTGGCGGGGAAGTGGATATGTTAA
Protein Sequence
MMYAMEWEKDLATTSEAQVKQEVTWEEGFYVESLTKQRDDLMGQGIKVRDLTPWQKMLRQCSEAEIVKGVRKELSYRHELLLARRKELRAAARAADELASRPSGSGAGKPAASSSRVPVVVLERIVEAPASEPGDRSDSSAPSSRDSSVSRKRMRMDADGDPSTAGSVTLQFGSPESKRGRRRGAEGGRAIEAGEPELLELAPGEDTARRDVADRVARAGKGSASGVGTASLSETASDLRDRIFEDTEVICRVAAVSANLKGTCVRDLKEAAARIDDRVKALAERSVSDETARLAAENARLRAEVDGLRKEFAALRAEIAKANSPPVRQEEAAVRDQPLSREVMEAIRHMVDATIAGRLVPDRPRPPLRHEGRSERAGVSAQRVTDAVPTPPRLVLKGQKGAKGPSRTAPEMDSPRPLPPSTANVASYSEVVKRGKKKKKRKGKAAPTSAPAAPAKNGVRGVRLRRPEWLRSPSVLPGPWLGKSHPQRWHRLGRLVPATLCFQRERWTRADTPLTHLRCSWGRSVGTGVLIKEHEEERRAPDIPARLYPNPEFIKSWKGWPEDLTTLTEQEIHDQVRRECSSLVKEFIEERAAFRDSGDPCDSRGPIWELVWTLSEEELQEEVRRDMSYRITYFIDKRKQQLITATPAATAAPPSGSGVGKIAAPSLKSPVVVLERMEVSPASVSGGRASVACSSRDSSGTRKRLREGMEEDDPLSDSSAGSQSGGDGPKRGRKSARAKSRNVEERVARAGKGSGSGVGAASLNEASCDLRDRIFEDTEVICRVAVTAGHLKGTDIRALKEAAARIDDRVKALAERSVTEETARLTSENARLRAEVDGLRKEFATLRAETIGARNAPTPPSCRQDQEAREQPLSQEVLLATIRHMVEAAVEGRLLPERRRPPLQHEGRSSQQEAVATAASNCVPAPESQPKKGPKKGSKKRVKGPSQPVPEKDAPRSLPPAPANMDAGYSEVVKRGKKKKKGKAAPTSAPGAPAKKSPPGQSAPGRPPKAAGATPAAAGEAQPAVAGQESAMAGRGEGGPPLEPRSSNIRQPTQSTSEWNWRVSDEMVEQMRMEAELQKQVTQKHLTLELASTPGKLSWLEERIEQSELAPDIFEGGGEELADRSSGSDGGLVTASSLMSSAAAPEGVEALLSSDSEEIMSLDSTAGGAASGGKRKRRELEDSSDTSSADPLGAPLPRRVKRGSPGAARERRRTAAADRTAPPSKERDDVSVSRRVPIVLIERMDMERAMTKSPGGSKNSQTVAVGGGGGSGRGPASPIGKSTGSAIVGHRRCASYPDDLDRFEMPDSRTIAERVARAGVGSRSGVGTISANVETADHHSVSSETDKLAAENTRLRREMEDLRREMMSLRMEVAKTQHAPPVAPERRRGEVREPTLNQEIMQAIAHMVDAKIDGRLLPDRPRPPLRHESRLPVRAAPDLGSVPPEVSPAVTAGAGPPAPLAQSHSEEVTRKEKGTKNNKKKRKRKKKKKKAAGEPDLGARSGTAPRPPPLAPVSTEPTWSEVVGRRRKQGKTPAPSVLCSQEGIAERGSSSLPIPSMSLRVSHGILGALQERLEEEGAPGVPVRLQREKVASAGGSSLAGKWIC

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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