Basic Information

Insect: Orthosia gracilis
Gene Symbol: -
Assembly: GCA_947562075.1
Location: OX387277.1:12143711-12181685[-]

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 0.13 1.2e+02 3.6 0.0 26 60 1423 1457 1418 1481 0.84

2 7 0.049 44 5.0 0.0 28 58 1589 1619 1579 1623 0.58

3 7 0.0079 7.1 7.5 0.1 26 60 1622 1656 1616 1660 0.74

4 7 2.1 1.9e+03 -0.3 0.1 38 53 1777 1792 1756 1807 0.45

5 7 0.023 21 6.0 0.2 28 60 1910 1942 1901 1947 0.69

6 7 0.0044 3.9 8.3 0.2 25 61 2180 2216 2159 2219 0.91

7 7 0.35 3.2e+02 2.2 0.0 27 52 2334 2359 2320 2369 0.68

#	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	0.13	1.2e+02	3.6	0.0	26	60	1423	1457	1418	1481	0.84
2	7	0.049	44	5.0	0.0	28	58	1589	1619	1579	1623	0.58
3	7	0.0079	7.1	7.5	0.1	26	60	1622	1656	1616	1660	0.74
4	7	2.1	1.9e+03	-0.3	0.1	38	53	1777	1792	1756	1807	0.45
5	7	0.023	21	6.0	0.2	28	60	1910	1942	1901	1947	0.69
6	7	0.0044	3.9	8.3	0.2	25	61	2180	2216	2159	2219	0.91
7	7	0.35	3.2e+02	2.2	0.0	27	52	2334	2359	2320	2369	0.68

Sequence Information

Coding Sequence: ATGTGTGTCAATATAGGCAGGTACATACAATGCGATGTTCAAAGGGATACGTCGTTAGGACTAGTTGAAGTAGCCAACGATGACGAAAGAAGCCGTCATCACCGCAGGGCTAAGAATCACTCTGACGAACACGATGACGATTACTCCGAGGAGGAGGACTGGCATGCAAGACGGAAACATCATAGAAAGGAGGGTGGAGATAATTTCATTTCTAATGAAATGAGACTAATGTTGGGAGTCAGAAGCCACAAGGAAAGCAGTGAACTACTGCATCAACTGACCGGCCACCGTGATGAAGCATCCGCTGTGAAATACATCGAAAATATAACAGGACTTACAGATCAGCAACATGTCTTCGAATTCCTGAGGAAGTGCAAAGGTTCCAGGAATTTTAAGTTCGTGGTGGATTTCTTAAAGCTTATGGATGAGTCTAGTCCACATATAAGTATAATTGTGGAGCTCTTGCGTCAAATGACAAACGAAAATGACGTACTAAAGGCGTTCGCTATTATGAAGCCACTGATTGGCCATGACGACTTTGATGGCGTTTATGAGAGTCTTCAAAAGATATCCGGAGAAAAAAATCCGCATGAAATTGCCGATTACTTCATGCATGTAACTCATACTAATGGGGTGGAAGGACTGAAATTGGAGATATTGAAGCTGACCAGTGGCATTGGTCCGGCAGAGTTTCCCAAACTACTGAAAGTGTTGCTGCCTGAAATAGACATGAAAGGAGCATTCAATCTTTTGATATTAGGAACTCGAACTATTGATATCGGCGATGCTATCAATTCTGTTAATCGTCTGTTGAATACCAAGTCACTGACAGAGAGTATAATCCTACTGAGAACTGTTACTAAGCAGACACAATTAAAATATGCGTTGGAAGAATTGACACAATCACTAAATCGAGGCAGTCTGAGAGTAATTATAGAAAATCTCTACAAGATCGGTGGTTGTGAGAACTTGTTAGAAGTTCAGCAGATCTTCGAAGATGTCTTTGGCACTGATATATTAAACATAATCCACAAGATCAACAAAGTGACGAAGCGTCAGGATGCTCTCTACTTCCTTAGCTCCTTACTGGATGTCACGCAGACGACAAGCGTCAGACAGGCTAAGAGCGTCGTCATGAGTCTGACGGCTAAAGACATGAGTTTCTTCGACGTTTTGGAACAAATTCGCATCAAATCTGGATGTGAAGACATTATATATTTCTTCAAGAGAATGATGTCTATTACTGGGACAAAGTCTATCCAAGAGGCTTGGCAAGTTATGATCACTGTGACTTCCATTAGGGATATTTTTGTATTCTTCGACAAAGTATACAAGTACAGCAGTGTAGAGATCATAGTGTTTTTGGAAACTTTACTGAGAGTTACCAATGCTACTAATGTTCGAGTTGCTGCTTCTATGTTGAGCAAGATTTGTGGAGTTGATGATTTCTTCGATATCATTCAGCTGCTATTTGATATTACTGAAATGGATTTGGAAGAAGCAGTATTTGTGTGTGAAGACTACACTTCGACTGACACCATACTCGATGCGATAAAATACATAAAACAGAACAAACCGCGCATAGAACGCCCAACAACGACAACAACAACGACAACAACAACACAGAAACCAACAACAACAACAGAAGACTTCTCCAGCGAAGAAGAACTTGACGACGATGATTCTTTCGAAGAAGTTATTGAGAAAGTTACACTTACGAGTATACCACTTTGTTATACGACGGAATCAAGCTCTACCAGTTCAGCTGTACCCTGTGGATTTGCCAGTAGTGCTACTGATCAAGCTAAAACGACTGATCAAGCTATTCCGCCAGAAGAAATTATTACTAAAGCAGAAGCAATTATTACAAAACAAGCTTTTACTGTTGCTGATCAAGTTTCTACAACAGACGAAACTGCCACAACGGATCCAGTGACCTCTAATATTCAGGCTTCTACCACTGATAAAGCTACGAAAGGGGAAGCTGCGATAGAGCAAGCTGTGATAGTACAAGCTGCGACAGAACAAGCTACAACTGAAAAACTAATAACAACAGAATTGTATAAAACCGAACAACAAGCAAGTTCTACTACTGAGGAAGCTACGACGGAATTGACATCGACAGAAGCGGCCACAACAGAAGCTGCTTTATTGGAAGTGACTTCGATAGAGCAAGCCACGACGGACAAAGCTGCGACGGAGCAAGCTACGACAGTACAAACTATAACAAAGCTAGCTAAGACTGATTCGACGTCGATAGAAGAAGCTGTGACTGAGCAAGCTACGACAGAAGTAACCTCGGCTGAAGAAGCCACGACAGAAGTGACTGTGACAGAAAAGGCTACGACACAACAAGTGACTGAATTGCCATCTACAGAAGCGGCCACGATAGAAGCAGCTTCAACGGAAAAGACACTGACAGAAGCAGTCACGACAGTAGCGGCCATGACAGAAGCAGCTTTAACTGAAGTGATATTGACAGAAGCAGCTTCAACGGAAGTGTCATCTAAAAAAGCAGCCACTTCAGGAGCAGCCATGGCAGAAGCAACTTCAACGGACGCGCCATCGACAGAAGCAGCCACTACAGTAGCAGCAATGACAGAAGCAGCTTCAACGGAAGTGCCATCGACAGAAGCAGCAACGAGAGAAAAGTCTACGACACAGCAAGTGACTGAATTGTCATCTACAGAAGCGGCAACGAAAGAAGCAGCTTTAACTGAAGTGACATTGACAGAAGCAGCTTCAACGGAAGAGACATTGACAGAAGCAGTTTCAACGGACGTGTCATCGACAGAAACAGTCACGACAGTAGCGGCCATGACAGAAGCATTTTCAACGGAAGAGACATTGACAGAAGCAGCTTCAACGAAAGTGACATTGACAGAAGCAGACACTACAGTAGCAGCCATGACAGAAGCAGCTTCAACGGAAGAAATATTGACAGAAGCAGCAACGAAAGAAGCAGTTTCAACGGAAGCGACATCAACAGAAGCGGCCACGACAGAAGTATCTTCGACAGAAGAAGCTGCGACACAGCAATCTACGACAGAAATGGCATCGACAGAAACTGCTACTACAGAGCAAGCCACTACGGAGAAATCTTTGACAGAGCAAGCTACCAGAGAAGTGGCATCAACTGAAGCAGCCATGACAGACCAAGAAACGACAAATCAGGCTACGACAGAAATAGTTTCCACAGAAGCAACTACAACAGAAGTAACTGCGACAGAAGAAGCAGCTATAGATGTGTCTTCAACAGAAGCTACTTTGACAGAAGAAGTTTCAACAGCAGTGACTTCTACAGAAATTACTTCGACGGAAGTAATTTCGTCAGAAGTGACTTCGACAGAGGAGGATACAATAGAAGCAGCTTCAACTCAAGTGACTTCGGCAGAAGCAACCACGACAGCTGTGACTCCGACAGAAGACGCAACTACAAAACAAACTGCAACACAACACGCTACTACAGAGCAAGCTATGGCAGAAATTACTTTGACAGAAGCGACTACAACAGAAGTTACTTTGACAGAAGAAGCCATAACAGAGCAAGCTAGGGCAGAAGTAACTTCTACAGAAGTGACTTCGACAGAAGCAGCAGCTACAAAAGTGATTTCGCTGGAAGATGTCACAACTGAAGTGGCTTCGACAGAAGCAGCTACGGAAGAAGTGACTTCATCAGAAGGAGCTACAGTAGAGCAAGCTACGACAGAAGCGACTTCGACAGAAGAAGTTTCAACAGCAGTGACTTCTACAGAAATGACTTCGATAGAAGCAGTTTCGTCAGAAGTGACTTCGACAGAGCAGGATACGATAGAAGCAGCTTCAACGCAAGTGACTTCGGCAGAAGCAACCACGAAAGGTGTGACTCCGACAGAAAAAGCAACTTCAGAACAAGCTGCAACACAACAAGCTATGACAGAAATTACTTCAATAGAAGAGGTTACGACAGAGCTAGCCACAACAGAAGCAGTCACGATAGAAGTGACAGCGACAGAAGAAGCTACGACAGAAGTCACTACTACTTCTACAGAACAAGTTAGAAATACAGAGACAGCTACGAGCACAACTGATCAAAAGAATACCCCTGCGACGGAAGAGTTCATAACAACGATTACAGAACAACAAACTTCAGAGGAAGTTAACACAGATGTAGCTACTGAACAACCAACAACTGAGCGACAGACAACTGCACTTGAAACAACAGAAGCTGATAGTGTAACAAATGAAGCTGATGGTTTAATAATTGAAGCTGATAGTTTAACAACTAAAGCTGATAGTTTAACAACTGAAGCTGATAGTTTTACAACTGAAGCTGATAGTTTAACAACTGAAGCTGATAGTTTAACAACTGAAGCTGATAGTTTAACAACTGTATTTGATAGTTTAACAACTGAAGCTGACAGTTTAACAACTGATGCTGCCAGTTTAAGAACGGATATTACCGAGGAACAACTAGCAACTGAGCAAGTAACTATTGAGCTACTTGCAACTGAAGAAGGAAAGGAAGAAGCTGTTATTATAATAACAGAACTGACTGATGAACAACCATTTACTGAACAACCAACAACTGAGCAAGCAACTACTGAGCAACCAACAATTGAGCAAGTAACTACTGAACTGTCAACAACAGAAGCTGCTTCAACGATTTCAGAACAACAAACTACAGAGGAAGTTAACATAGATGTAGCTACTGAACAACCAACAACTGAGCGACAGACAACTGCACTTGAAACAACAGAAGCTGATAGTGTAACAAATGAAGCTGATAGTTTAACAAATGATACTGATACTTTAACAACTGAAGCTGATAGTTTAACAACTGAAGCAGATAGTTTAACAACTGAAGCTGATAGTTTAACAACTGAAGCTGATAATTTAACAACTGAAGCTGATAGTTTAACAACTGAAGCTGAAAGTTTAACCACTGAAGCTGATAGTTTAACAACTGATACTGCCAGTTTAAGAACGGATATTACCAAGGAACAACTAGCAACTGAGCAAGTAACTACTGAGCTATTTACAACTGAAGAAGGAAATAAAGAAGCTGTTATTATAACAACAGAACTGACTGATGAACAACCATTTACTGAACAACCGACAACTGAGCAAGCAACTACTGTGCAACTAACAACTGAGCAAGTAACTACTGAACTGTCAACAACAGAAGCTGCTTCAACGATTTCAGAACAACAAACTGCAGGGGAAGTTAACACAAAAGTAGCTACTGAACAACCAACAACTGAGCGACAGACAAATGCATTTGAAACAACAGAAGCTAATAGTTTAACAAATGAAGCTGACAGTTTAACAACTGAATCTGACAGTTCAACAACTGAAGCTGACAGTTTAACAACTGAAGCTGATAGTTTAGGAACTGAAGCTGCCAGTTTAAGAACGGATATCACCAAGGAACAACTAGCAACTGAAAAAGTAACTACTGAGCTACTTACAACTGAAGAAGGAAATAAAGAAGCTGTTATTATAACAACAGAACTGACTGATGAACAACCATTTACTGAACAACCGACAACTGAGCAAGCAACTACTGAGCAATTAACAACTGAGCAAGTAACTACTGAACTGTCAACAACAGAAGCTGCTTCAAAGATTTCAGAACAACAAACTGCAGAGACAGTTAACACAGAAGTAGCTACTGAACAACCAACAACTGAGCGACAGACAAATGCATTTGAAACAACAGAAGCCAATAGTTTAACAAATGAAGCTGATAGTTTAGCAATTGAAGCTGATAGTTTAACAACTGAAGCTAAAAGCTTAACAACTGAAGCTGATAGTTTAACAACTGAAGCTGACAGTTTAAGAACTGATATTACCAAGGAACAACTAGCAACTGAGCAAGTAACTACTGAGCTACTTACAACTGAAGAAGGAAATAAAGAAGCTGTTATTATAACAACAGAACTGACTGATGAACAACCATTTACTGAACAACCGACAACTGAGCAAGCAACTACTGAGCAACTAACAACTGAGCAAGTAACTACTGAACTGTCAACAACAGAAGCTGCTTCAACGATTTCAGAACAACAAACTGCAGGGGAAGTTAACACAAAAGTAGCTACTGAACAACCAACAACTGAGCGACAGACAAATGCATTTGAAACAACAGAAGCTAATAGTTTAACAAATGAAGCTGACAGTTTAAGAACGGATATTACCAAGGAACAACTAGCAACTGAGCAAGTAACTACTGAGCTACTTACAACTGAAGAAGGAAATAAAGAAGCTGTTATTATAACAACAGAACTGACTGATGAACAACCATTTACTGAACAACCGACAACTGAGCAAGCAACTACTGAGCAACTAACAACTGAGCAAGTAACTACTGAACTGTCAACAACAGAAGCTGCTTCAACGATTTCAGAACAACAAACTGCAGAGGAAGTTAACACAAAAGTAGCTACTGAACAACCAACAACTGAGCGACAGACAAATGCATTTGAAACAACAGAAGCTAATAGTTTAACAAATGAAGCTGATAGTTTAGCAATTGAAGCTGATAGTTTAACAACTGAAGCTAATAATAACTTAACAACTGAAGCTGATAGTTTAACAACTGAAGCTGATAGTTTAACAACTGAAGCTGATAGTTTAACAACTGAAGCTGACAGTTTAAGAACGGATATTACCAAGGAACAACTAGCAACTGAGCAAGTAACTACTGAGCTACTTACAACTGAAGAAGGAAATAAAGAAGCTGTTATTATAACCACAGAACTGACTGATGAACAACCGTTTACTGAACAACCGACAACTGAGCAAGCAACTACTGAGCAAGTAACTACTGAACTGTCAACAACAGAAGCTGCTTCAAAGATTTCAGAACAACAAACTGCAGAGGAAGTTAACACAGAAGTAACTACTGAACAACCAACAACTGAGCGACAGACAACTGCACTTGAAACAACAGAAGCTGATAGTGTAACAAATGAAGCTGATAGTTTAACAACTGAATCTGACAGTTCAACAACTGAAGCTGACAGTTTAACAACTGAAGCTGACAGTTTAACAACTGAAGCTGATAGTTTAGGAACTGAAGCTGCCAGTTTAAGAACGGATATCACCAAGGAACAACTAGCAACTGAAAAAGTAACTACTGAGCTACTTACAACTGAAGAAGGAAAGAAAGAAGCTGTTATTACAACTACAGAACTGACTACTGAACAACCAATCACTGATGAACAGACAACTGAGCAAGCAACTAATGAGGAACCGACAACTAAGCAAGCAACTACATTGGAACCGACGACTGAGCAACAACCAATAACTCAACTACCAACTACTGAAGCTGCTGGATCAACTACGGAAATAATAACCACTAAAGAACTATCAACAACTATGTTCCCAACAACTGAACAAGGTACTATAGAACAACCAACAACTGAGCTGCCAAAAATAGAAGATGCCAGTTCAACAACTCAGGAACCAACAACTGAAGCTATTTCTCCAACAATTCAGCAATTGACAATAGAAAGTGTTACTACTATAACTGAAGATGTGACTTGTGATCCAGAAGATTTAGAATCAGATGAATCTGTTGAATATATTGATAGTGAAACGACTACAAAGAAATTGGAATCAGTTGTAGAGGAAACTGGCGAACCATCTACTGAGAAATTTGATTCGGATGAAAAAGATAAGAAACTAACTACTGACACAGCTACTGATCAATCTACATCTGAAGGTTGGATAGTATACACAGACAGTGGACCGACTACCGAAAAGGAATCTGAGGAATCATATGAATACATAGATGGTGAATCTACTACAGAAAATATTGCATCGGGCGAATCGGTTGCAGAGGAATCTGAAGAACTCACAACAGAACCATTAGAATCAGACGAAGAAGATGAAGATTCAAGTACAGATAAATTGGAATTGGATGTATTTATTGAATACTTAGATGGAACGCCTACTACAGAGAAACCTGAATCGGACGAACATGAAAATGAGGAATCGAGTACAGAGGAAAGGATTGAATACGTAGAAGAGGAACCGAATACTAAGAAATCTGAATCTGAAGAAATAACTGAAGAGGACAATGTAGAACCCACTACAGAGGCATTTGAATCTGATGAATGGTTTGAGTGGGCAGCTGATGAGAAACTGATTGCCAAGAAAATATTACCATCAGAATCACTGTCAGCTAGAACAGTATCGTACAGCTCAGAATATGTGGATATAACTCAATCAACTAAAGCGACAACAGATATTACTGAAATAGCAGAACAGCCAACATCAGAAGAACCGACTTCCACAAAAGCTGTTGCTTCGCAAACTGAGCAGCTAATAGCAGAAAGAATTTTAACAACTGATCAGTCCACAACAGAAAATGTTGCTCCATCTACAGAAAATGATTTTGCAACACCTGAGGAATTAACAACTGGAGCCATTGGTTCAACAACTGATCAGTCGACAATAGAAGGTGTTGTTTCAACAACTGATCAGTCAACAACAGAAGGTGTCGTTTCAACAACTGGTGAATTAACAACAGATGCTGTTGAAACAACAACCGAGCAATTTACTACTGAAGGTGTTACTATAACCGCAATCAATTCAATTGATGAAGCAATTTCTCCATCAATTGAAGAATTGACAATAGCAACTGCTGGATTAATAACTACGGAAAATGCAACAACTCTACAAGAAGTGTCAACTGATGCATCAACTGAACACTTACTACGTGAAACAACAGAACTTACTTCATACAACTTAGAAGCATATGCAGAAAGCGCTAGTGTACTCGAAACTGAGCAACCATCTACAACTGAATTTGTTATAGAACCCACCACACAACAACCAACCACTTTAGCTCAACCTGATTTACCACCTACAGAATTAATTGATACTGAATTAAATCAAGATGTGCCTTCTGAAGAGTCGACAACAGAATTAAGGATCTGCTTACCTGAGGATTATATAGACGAGGGTTCTGGCGAAGGATCAGGCGAAATTGATTACGAAGAAGAACCGACAGGAGTTACTGACGCTGAATTCGGTTCTAGACAGGAACCTACGTTTGATGACAATGGAAAGGAATCTATTGATTACCAGATCATGCCAGTAGCTCAACAAATATTCACAGATCTTCCTTTAGAAGAATTTTTAACAACAGAAAAATTTACAGTATTTGAATCTGGAACAACGGAAATGCCTGTAACAGAAGTATTTACAACAGATCAAGTGACAATTGAACAAAAACCGGATGAAGGTTCATTAGCAGCTTTCGCCTCAGCAACTGATCAAGTAATAACAGAAGGTGTTGGTTCAACAACTGATCAAGTAACATCAGAAGAAGATACAACTGAGGAACAAAATAATGTTCCAGAATCAGTCAAATATTACGATGAAATAACAGAGTCCGATAAACAAACTCCGGATCAAACAACTGTAGAAGGTGATGATTCTGACGAAGATGAGGAAGAACTTGTCGAATATCATGAAGAACCAGATACAGTTGAAGAAAAACCAACAACAGAAGCTGAAACAACAGAAGAGACCACTATAAAAGGTGAATTTCAGGAAAAAACAGAGCAACCAGAATTTAGTGAGAAGCCCTTTTACGTTACGACCGAATTGGCGAGTTCGGTCGAAAATGTTGATATACCAGTTAAAGAAAAAACAACCACGGAAGGTGATAATAATGAAAAGACAACCACCGAAGCTAATGTCACAGATCAAACAACCACAGAATATTCTAATTCAGAGGAAGAAGAATCAGAGCAAACTAAATCATATGCAGAACCGGAACATGTTGAAGAATCTGTCGAATATTATGAAGGAGTACCAAATACAGATGAAGAACAGGGAACTACAGAGGGTGATATCAAAGAAGGAGATTCAACAGAAAAGACAACCACTGAACGTGATGCTTCTGAGGAAGAAGAATCAGGACAATCAGTCGAAGAAACCATCGAATATTATGACGAAGAACCTGATAAAGTTGAAGAAGAATCTACGGAACAGATCACTACAGAAGCCGACAGTACTGAAGATGTAACATACGAAACGTATACTGAACAACCAATAGATGATGATAGAGCAACCGAGACATACGAAAGAAAAGAAACCTATGAGCCCCAATATAAAGATGAAACTACTGAGCAGACAATGGGGGATGATGATGATGTAACGGAAATAGTGTCCGAGAATTATGATGATGATAATATTGAGCAATCAGATACTACAGAATCGGTTATTGATGAAGATGCTTCAACGACAGAACAATCTGCATCTGAACAAGATACTACGACACCACAATTATTTTCAACAGAAGAACCAACTACATTAATAAACCAGGAAACAGCAACAGATCAGGTTGCCACTGAACAAAAAGGAACAACAACAGATCATGATACCACTGATCAAAAAGCAACAACAACAGATCAGGTTACCACTGAACAACAAGGATCAACTACTGAACCGTTTACAACATCGGCGCATATAGAAACAACGGAATTGCCAACGACAGAAAAAGAAAAAATCATTACAGAACAAAATTCAAGCGCCGAAGAGACTACAACCAGTACTGAGAAAGAAGCTACCACTGAACAGCAAATAAAGATTCAGGAAACAGGAGCTATTGAGCTAACCACATCTGAAGAAGTAACATTTCAACCAAGCACTACAACACATGATCCTAATTTAACAGAAGAATTGTCTTCATTAAAACCTACAATAGAAGAATTAACTACAGAACTACCCACTGAACGCATAACAACAGAAGAGCAACCAACAACAACTATACAAAAAGATACCACAACATATTTAGAAGCCACAACGTATGCAGCTGAACCTAAGCCACCAGGATTGCAAGCTGTGAAATTTGAAACTGAAGTGCAAATGCCGAAAGCGGGCGGAAAGTTGTGTCTGGACCAGGGGCGAAAAGATATAATGAACGCCCTAGAAACCAACATGCGTATGAAAATCCTGCTGATACCGAATGGACCGAATGGAAAGAATTGTTACTGCTCTTGTGACAATACCAGCCCTCCCGCCATCATACCATTGGACGAACTACCGCAGGAAGGCGATATTGAAAAATAG
Protein Sequence: MCVNIGRYIQCDVQRDTSLGLVEVANDDERSRHHRRAKNHSDEHDDDYSEEEDWHARRKHHRKEGGDNFISNEMRLMLGVRSHKESSELLHQLTGHRDEASAVKYIENITGLTDQQHVFEFLRKCKGSRNFKFVVDFLKLMDESSPHISIIVELLRQMTNENDVLKAFAIMKPLIGHDDFDGVYESLQKISGEKNPHEIADYFMHVTHTNGVEGLKLEILKLTSGIGPAEFPKLLKVLLPEIDMKGAFNLLILGTRTIDIGDAINSVNRLLNTKSLTESIILLRTVTKQTQLKYALEELTQSLNRGSLRVIIENLYKIGGCENLLEVQQIFEDVFGTDILNIIHKINKVTKRQDALYFLSSLLDVTQTTSVRQAKSVVMSLTAKDMSFFDVLEQIRIKSGCEDIIYFFKRMMSITGTKSIQEAWQVMITVTSIRDIFVFFDKVYKYSSVEIIVFLETLLRVTNATNVRVAASMLSKICGVDDFFDIIQLLFDITEMDLEEAVFVCEDYTSTDTILDAIKYIKQNKPRIERPTTTTTTTTTTQKPTTTTEDFSSEEELDDDDSFEEVIEKVTLTSIPLCYTTESSSTSSAVPCGFASSATDQAKTTDQAIPPEEIITKAEAIITKQAFTVADQVSTTDETATTDPVTSNIQASTTDKATKGEAAIEQAVIVQAATEQATTEKLITTELYKTEQQASSTTEEATTELTSTEAATTEAALLEVTSIEQATTDKAATEQATTVQTITKLAKTDSTSIEEAVTEQATTEVTSAEEATTEVTVTEKATTQQVTELPSTEAATIEAASTEKTLTEAVTTVAAMTEAALTEVILTEAASTEVSSKKAATSGAAMAEATSTDAPSTEAATTVAAMTEAASTEVPSTEAATREKSTTQQVTELSSTEAATKEAALTEVTLTEAASTEETLTEAVSTDVSSTETVTTVAAMTEAFSTEETLTEAASTKVTLTEADTTVAAMTEAASTEEILTEAATKEAVSTEATSTEAATTEVSSTEEAATQQSTTEMASTETATTEQATTEKSLTEQATREVASTEAAMTDQETTNQATTEIVSTEATTTEVTATEEAAIDVSSTEATLTEEVSTAVTSTEITSTEVISSEVTSTEEDTIEAASTQVTSAEATTTAVTPTEDATTKQTATQHATTEQAMAEITLTEATTTEVTLTEEAITEQARAEVTSTEVTSTEAAATKVISLEDVTTEVASTEAATEEVTSSEGATVEQATTEATSTEEVSTAVTSTEMTSIEAVSSEVTSTEQDTIEAASTQVTSAEATTKGVTPTEKATSEQAATQQAMTEITSIEEVTTELATTEAVTIEVTATEEATTEVTTTSTEQVRNTETATSTTDQKNTPATEEFITTITEQQTSEEVNTDVATEQPTTERQTTALETTEADSVTNEADGLIIEADSLTTKADSLTTEADSFTTEADSLTTEADSLTTEADSLTTVFDSLTTEADSLTTDAASLRTDITEEQLATEQVTIELLATEEGKEEAVIIITELTDEQPFTEQPTTEQATTEQPTIEQVTTELSTTEAASTISEQQTTEEVNIDVATEQPTTERQTTALETTEADSVTNEADSLTNDTDTLTTEADSLTTEADSLTTEADSLTTEADNLTTEADSLTTEAESLTTEADSLTTDTASLRTDITKEQLATEQVTTELFTTEEGNKEAVIITTELTDEQPFTEQPTTEQATTVQLTTEQVTTELSTTEAASTISEQQTAGEVNTKVATEQPTTERQTNAFETTEANSLTNEADSLTTESDSSTTEADSLTTEADSLGTEAASLRTDITKEQLATEKVTTELLTTEEGNKEAVIITTELTDEQPFTEQPTTEQATTEQLTTEQVTTELSTTEAASKISEQQTAETVNTEVATEQPTTERQTNAFETTEANSLTNEADSLAIEADSLTTEAKSLTTEADSLTTEADSLRTDITKEQLATEQVTTELLTTEEGNKEAVIITTELTDEQPFTEQPTTEQATTEQLTTEQVTTELSTTEAASTISEQQTAGEVNTKVATEQPTTERQTNAFETTEANSLTNEADSLRTDITKEQLATEQVTTELLTTEEGNKEAVIITTELTDEQPFTEQPTTEQATTEQLTTEQVTTELSTTEAASTISEQQTAEEVNTKVATEQPTTERQTNAFETTEANSLTNEADSLAIEADSLTTEANNNLTTEADSLTTEADSLTTEADSLTTEADSLRTDITKEQLATEQVTTELLTTEEGNKEAVIITTELTDEQPFTEQPTTEQATTEQVTTELSTTEAASKISEQQTAEEVNTEVTTEQPTTERQTTALETTEADSVTNEADSLTTESDSSTTEADSLTTEADSLTTEADSLGTEAASLRTDITKEQLATEKVTTELLTTEEGKKEAVITTTELTTEQPITDEQTTEQATNEEPTTKQATTLEPTTEQQPITQLPTTEAAGSTTEIITTKELSTTMFPTTEQGTIEQPTTELPKIEDASSTTQEPTTEAISPTIQQLTIESVTTITEDVTCDPEDLESDESVEYIDSETTTKKLESVVEETGEPSTEKFDSDEKDKKLTTDTATDQSTSEGWIVYTDSGPTTEKESEESYEYIDGESTTENIASGESVAEESEELTTEPLESDEEDEDSSTDKLELDVFIEYLDGTPTTEKPESDEHENEESSTEERIEYVEEEPNTKKSESEEITEEDNVEPTTEAFESDEWFEWAADEKLIAKKILPSESLSARTVSYSSEYVDITQSTKATTDITEIAEQPTSEEPTSTKAVASQTEQLIAERILTTDQSTTENVAPSTENDFATPEELTTGAIGSTTDQSTIEGVVSTTDQSTTEGVVSTTGELTTDAVETTTEQFTTEGVTITAINSIDEAISPSIEELTIATAGLITTENATTLQEVSTDASTEHLLRETTELTSYNLEAYAESASVLETEQPSTTEFVIEPTTQQPTTLAQPDLPPTELIDTELNQDVPSEESTTELRICLPEDYIDEGSGEGSGEIDYEEEPTGVTDAEFGSRQEPTFDDNGKESIDYQIMPVAQQIFTDLPLEEFLTTEKFTVFESGTTEMPVTEVFTTDQVTIEQKPDEGSLAAFASATDQVITEGVGSTTDQVTSEEDTTEEQNNVPESVKYYDEITESDKQTPDQTTVEGDDSDEDEEELVEYHEEPDTVEEKPTTEAETTEETTIKGEFQEKTEQPEFSEKPFYVTTELASSVENVDIPVKEKTTTEGDNNEKTTTEANVTDQTTTEYSNSEEEESEQTKSYAEPEHVEESVEYYEGVPNTDEEQGTTEGDIKEGDSTEKTTTERDASEEEESGQSVEETIEYYDEEPDKVEEESTEQITTEADSTEDVTYETYTEQPIDDDRATETYERKETYEPQYKDETTEQTMGDDDDVTEIVSENYDDDNIEQSDTTESVIDEDASTTEQSASEQDTTTPQLFSTEEPTTLINQETATDQVATEQKGTTTDHDTTDQKATTTDQVTTEQQGSTTEPFTTSAHIETTELPTTEKEKIITEQNSSAEETTTSTEKEATTEQQIKIQETGAIELTTSEEVTFQPSTTTHDPNLTEELSSLKPTIEELTTELPTERITTEEQPTTTIQKDTTTYLEATTYAAEPKPPGLQAVKFETEVQMPKAGGKLCLDQGRKDIMNALETNMRMKILLIPNGPNGKNCYCSCDNTSPPAIIPLDELPQEGDIEK

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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