Basic Information

Insect: Acronicta psi
Gene Symbol: -
Assembly: GCA_946251945.1
Location: CAMIUM010000002.1:1917936-1927580[-]

Transcription Factor Domain

TF Family: MYB
Domain: Myb_DNA-binding domain
PFAM: PF00249
TF Group: Helix-turn-helix
Description: This family contains the DNA binding domains from Myb proteins, as well as the SANT domain family [1].
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 8 0.6 5.2e+02 1.1 0.0 5 20 480 495 480 498 0.95

2 8 0.6 5.2e+02 1.1 0.0 5 20 743 758 743 761 0.95

3 8 0.62 5.3e+02 1.0 0.0 5 20 1006 1021 1006 1023 0.95

4 8 1.2 1e+03 0.1 0.0 5 20 1269 1284 1269 1286 0.94

5 8 1.2 1e+03 0.1 0.0 5 20 1665 1680 1665 1682 0.94

6 8 0.6 5.2e+02 1.1 0.0 5 20 2061 2076 2061 2079 0.95

7 8 8.1 7e+03 -2.5 0.0 5 20 2259 2274 2259 2276 0.91

8 8 0.95 8.2e+02 0.4 0.0 5 20 2644 2659 2644 2663 0.95

#	of	c-Evalue	i-Evalue	score	hmm coord from	hmm coord to	ali coord from	ali coord to	env coord from	env coord to	acc
1	8	0.6	5.2e+02	1.1	5	20	480	495	480	498	0.95
2	8	0.6	5.2e+02	1.1	5	20	743	758	743	761	0.95
3	8	0.62	5.3e+02	1.0	5	20	1006	1021	1006	1023	0.95
4	8	1.2	1e+03	0.1	5	20	1269	1284	1269	1286	0.94
5	8	1.2	1e+03	0.1	5	20	1665	1680	1665	1682	0.94
6	8	0.6	5.2e+02	1.1	5	20	2061	2076	2061	2079	0.95
7	8	8.1	7e+03	-2.5	5	20	2259	2274	2259	2276	0.91
8	8	0.95	8.2e+02	0.4	5	20	2644	2659	2644	2663	0.95

Sequence Information

Coding Sequence: ATGCCTGAACTAAATAAAAGTACGAAGTCAGTGCAGCCACGAACAAAAAGCGCAGTTTTAAAGAAAAATAAAAACCCCTTTAAAGCAAATTACACCGTGAACTTAGTTTCTGAGCAGCGCATCACGGAATCCTCGTGTCCATTTAATTATCCTGGTCAAACGAAATGGAAAATCTACCGGTGTCAACTCAGTACTGCAGAGGAAACTTGTTGTTGTTCCTGTAACTCTGATGCAATGTTTGAAGTTATGAAAAGTCTGTACGACTGCTATAAAAAGAAAAATTGTGATGACTGTGAATGCATACTTTGTAGTCATCAACACCGAGAGGAAAGGCGGCTTGGGGAATTGAGAAAATCATTAGCTGAAGTAGGACTAAAGCCTACACCTAGTGAAAAGAAAATAAAAGCAGAACAAAAGAAAGCTGAAAAGTTATTACaagggaaaactccagcagaaaaagaacaaattttaaaagatttggtaaaagctaaaaaacctttgccggaaggaagaactgcatcagaaaaagctttaatcaagaaagtaagaacttcacttgggttgcctccggaaccaagaaatgctgcagaaaaagctaaattaaagagagccgaagcggcgggcatagttactcctttagaaggaaaaactcctgagcaaaaagaaagaatattgcgtggacttgcaatggaaggtgtttcactacctgaagcgagaacgccctcagaagcaaagctcattgataaggttcgtactgaacttggattacctccggaacctaaaactgaagatatgaaagacaaatacgcacgtgcaaccaaagctggcttaatgcagccactagaagggaaaacgcctgcgcaaaaagaaaagatattgcaaggcctacacgatatgggcataccgttgcctgaaggacgaacagcttctgagaaatcactaattgctaaaattaaatccaagccaattactttagcgccatcagaaaaaatgcgtcgagcaaaagccgatggactattaacacctctagaaggaaaaactccagaacagaaagaaaaaatattaaaaggactagcaatggctggtatacctctacctgaaggcaaaacagcttcagagaaaaagctaatcgataaggttcgtgctgaccttggtctgccacctgaacccaaaaataaagatatgagagataagcatgctaaagccgctgatgctggtttattagtaccattggaaggaaagtcaccgaaagagaaagaacgaattctaaaaggtctacatgatatgggaataccattgcctgagggacgaacaccctcggagaaagcacttgtagctaaaataaagggagctggaccaccactggataagctagctccgtcggagagaatgcgtcgagcgaaagccgctggactcataacgcctttagaagggaaaacaccggaacaaaaagaaaaaatactaaaagggctagcaatgcacggaattccactaccagaaggcaagacagcttccgaaaaaaaattgatcgacaaggtacgcgctgaccttggtttaccacctgaacctaagactccggaaatgagagacaaatacgaaaaggctgcaaatgctggtttattgcaacctttagaaggaaaaacacgtccacagaaagaaaaaatattgcaaggtttgcatgatatgggcatacctttacctgaaggacggacagcctctgaaaagtcattaattgctaaaattaaagcaaagccagttatcttagcaccatcggagaaaatgcgtcgagcaaaagcagcaggattactgacacctctagaaggcaaatctccagaacagaaagaaaaaatattgaaaggactagcaatggccggtatacctctacctgagggcaagacagcttcagagaaaaagctagtcgataaggttcgtgctgaacttggtctgccacctgaacccaaaaataaagatatgagagataagcatactaaagccgctgaagctggtttattagtaccattggaaggaaaatcaccgaaagagaaagaaagaattctaaaaggtctacatgatttgggtataccattacctgagggacgaacaccctcggagaaagcacttgtagctaaaataaagggagctggaccaccactggataagctagctccgtcggagagaatgcgtcgagcgaaagctgctggactcataacgcctttagaagggaaaactccggaacaaaaagaaaaaatactaaaagggctagcaatgcacggaattccactaccagaaggcaagacagcttccgaaaaaaaactgatcgacaaggtacgcgctgaccttggtttaccacctgaacctaagactccggaaatgagagacaaatacgaaaaggctgcaaatgctggtttattgcaacctttagaaggaaaaacacgtccacagaaagaaaaaatattgcaaggtttgcatgatatgggcatacctttacctgaaggacggacagcctctgaaaaatcattaattgctaaaattaaagcaaagccagttatcttagcaccatcagaaaaaatgcgccgagcaaaagcggcaggattactgacacctctagaaggaaaatctccagaacagaaagaaaaaatattgaaaggcctagcaatggctggcatacctctacccgaaggtaagacagcgtcacaaaaaaaacttattgataaagttcgcgccgaacttggtctaccacctgaacctaaaaataaagccatgcgagataagcacgcgcaagctgctgatgctggtttattagtgccattggaaggaaagtcacccaaagagaaagaaagaattctaaaaggtctacatgatttgggtataccactgcccgaggggcgaacaccctctgaaaaagctcttgtagctaaagtaaaggcagctgggccaccactggataagctagctccatcagagagaatgcgtcgagcgaaagccgctggactcataacgcctttagaagggaaaacaccggaacaaaaggaaaaaatactaaaagggctagcaatgcacggaattccactaccagtaggcaaaacagcttccgaaaaaaaattgatcgacaaggtacgcgctgaccttggtttaccacctgaacctaagactccggaaatgagagacaaatacgaaaaggctgcaaatgctggtttattgcaacctttagaaggaaaaacacgtccacagaaagaaaaaatattgcaaggtttgcatgatatgggcatacctttaccagaaggacggacagcctctgaaaagtcattaattgctaaaattaaagcaaagccagttaccttagcaccatcggagaaaatgcgtcgagccaaagcggcaggattactgacacctctagaaggcaaatctccagaacagaaagaaaaaatattgaaaggactagcaatggccggtatacctctacctgagggcaagacagcttcagagaaaaaactgattgataaggttcgtgctgaccttggtctaccacctgaacccaaaaataaggacatgagagataagtatgctaaagccgccgatgctgggttattagtgccattggaaggaaagtcaccgaaagagaaagaacgaattctaaaaggtctacatgatatgggaataccattgcctgaaggacgaacaccctctgaaaaagctcttgttgctaaagtaaagggagctggaccaccactggataagctagctccgtcagaaaaaatgcgacgagcgaaagccgcaggactcttaacgcccttagaaggaaaatctccggaacaaaaagaaaaaatactcaaagggctagcaatgcacggaattccactgcctgaaggaaagacagcttccgaaaaaaaattagtgaataaagttcgcgcagaacttggtttaccacctgaacccacgactccggaaatgagagagaaacatgcaaaagctgcgaatgctggcctactacagccactagaaggaaaaacgcgtccagaaaaggaaaaaatattgcagggtttgcatgatatgggcataccattgcctgaaggacgaacagcctctgagaaatcacttattgctaaaatcaaagcaaagcctgttactttagcgccatcagaaaaaatgcgtcgagcaaaagcagcgggactactaacacctctggaaggcaaaactccagaacagaaagaaaaaatattgaaaggcctagcaatggctggcatacctctaccagaaggtaagacagcgtcacaaaaaaagcttattgataaagttcgcgccgaacttggtctaccacctgaacctaaaaataaagccatgcgagataagcacgcgcaagctgctgatgctggtttattagtgccattggaaggaaagtcacccaaagagaaagaacgaattctaaaaggtctacacgatttgggtataccactgcccgaggggcgaacaccctctgaaaaagctcttgtagctaaagtaaaggcagctgggccaccactggataagctagctccatcagagagaatgcgtcgagcgaaagccgcaggattactgacacctttagaaggtaaaactccagaacagaaagaaaaaatattgaaaggactagcaatggcgggtatacctctacctgaaggcaagactgcttcagagaaaaagctaatcgataaggttcgtaccgatcttggtctaccacctgaacccaaaaataaggacatgagagataagtatgctaaagccgccgatgctgggttattagtgccattggaaggaaagtcaccgaaagagaaagaacgaattctaaaaggtctacatgatatgggaataccattgcctgaaggacgaacaccctctgaaaaagctcttgttgctaaagtaaagggagctggaccaccactggataagctagctccgtcagaaaaaatgcgacgagcgaaagccgcaggactcttaacgcccttagaaggaaaatctccggaacaaaaagaaaaaatactcaaagggctagcaatgcacggaattccactgcctgaaggaaagacagcttccgaaaaaaaattagtgaataaagttcgcgcagaacttggtttaccacctgaacccacgactccggaaatgagagagaaacatgcaaaagctgcgaatgctggcctactacagccactagaaggaaaaacgcgtccagaaaaggaaaaaatattgcagggtttgcatgatatgggcataccattgcctgaaggacgaacagcctctgagaaatcacttattgctaaaatcaaagcaaagcctgttactttagcgccatcagaaaaaatgcgtcgagcaaaagcagcgggactactaacacctctggaaggcaaaactccagaacagaaagaaaaaatattgaaaggcctagcaatggctggcatacctctaccagaaggtaagacagcgtcacaaaaaaagcttattgataaagttcgcgccgaacttggtctaccacctgaacctaaaaataaagccatgcgagataagcacgcgcaagctgctgatgctggtttattagtgccattggaaggaaagtcacccaaagagaaagaacgaattctaaaaggtctacacgatttgggtataccactgcccgaggggcgaacaccctctgaaaaagctcttgtagctaaagtaaaggcagctgggccaccactggataagctagctccatcagagagaatgcgtcgagcgaaagccgcaggattactgacacctttagaaggtaagactccagaacagaaagaaaaaatattgaaaggactagcaatggcgggtatacctctacctgaaggcaagactgcttcagagaaaaagctaatcgataaagttcgtactgatcttggtctaccaccggaacccaaaactaaagatatgagagataagtatgctaaagccgccgatgctggactattagtgccattggaaggaaagtcaccgaaagaaaaagaacgaattctaaaaggtctacaggatatgggaataccattgcctgagggacgaacagcatctgaaaaagctcttgtagctaaagttagggcagcagggccaccaccagataagctagccccatcagaaagaatgcgacgagcaaaagccgcagggctattaacgcctttagaaggtaaaactccagaacaaaaagaaaaaatactaaaagggctagcaatgcacggaattccactaccagaaggtaagacagcttccgaaaaaaaattgatcgacaaggtacgcgctgaccttggtttaccacctgaacctaagactccggaaatgagagacaaatatggtaaggccgcagtcgccggcttattgcaaccactggaaggcaaaacacctgctcagaaagaaaagattttacaaggtttacatgatatgggcatacctttgccggaaggacgaacggcctcggaaaaatcactgattgctaaaatcaaagcaaaacctcgggcattaacaccttcagaaaaaaggcgtcaagccaaaaccgcaggactactgactcctctagaaggcaaaacgccagaacaaaaagaaaaaattttgaaaggtttagcaatggcgggaatgcccttacctgagggaaaaactccctcggaaaagaaattaattgataagattcgtactgagcttggtttgcctcctgaacctacaacatcatcaatgaaaggaagacatgccaaagctgctgatgctgggttattgcagccgctagaaggcaaatctcctaaagaaaaagaaaaaattttaaagggtttagctgatttgggaataccacttcctgaaggaagaacaccttccgaaaaagctcttatagctaaagttaaaggcaaaacagcagcgtctataactacagataagataagaaaagctaaagcggctggattgcttactcctcttaaaggcaaaactcccgaacagaaagagaatattttgaaaggcttggctaaagctggtcttccgcttcctgaagggagaacagcatcagaaaaagcgttgataaataaagttaaaaaagaattcggtatacctgaaagaacaccgtcagaaaaaatccgaaaagctaaagcagctggtcttttgacgccattagaaggtaaaacaccagcacaaaaagaaaaaatactaagaggtagagcagcagctggtctaccactacctataggtaaaactccctcagaaagagccttgatacaaaagataaaagatgatactgggtatatcacaccgtctccttcggaaagattacgaaaagctaaagctgctggtttgatcactccactaaaaggaaaatcaccttccgtgaaagagaaaattcttagaaatatgttggctgcaggagtgcctataccagaaggtgaaacaccatcggaaaaggaaatgataaagagacttacagcagactatccttctccaacactttcgcagaagatgaaaaaagcaaaagctgaaggactcttaactccattaaaaggaaaaacaccggaacaaaaaaagaaaattcttaaatcattaattaaagcagggcttcctctacctgaaccacagacagcatctgaaaaaaatttaatggataaaatcagacaagaagtcggattacctccagagccaaaaacgccttctatcaaagaaaaatacaaaaaagctcaagctgatggaatcataacgccactagaaggtaaaactccagctgaaaaagaaaaaatattacaaaaacttcacgatgctggaataccacttcctgagggtagaacaccatcggaaaaggagatgattaagaaaataaaagggtcaccacgcaaaaaaccgaaaaagaccctatccgaaaagatacgaaaagcaaaagctgaaggtttaatcacaccattagcaggaaaaacgccagaacagaaagaaaagatcatgagaggcttagcaaaacacggtttgccacttccagatgcgaaaacggcttcagaaaaaaaattagcagctaagatccgcaaggaacttggtctaccacctgaaccaaaaactccatctatgaaagaaagacacgaaaaagccgctgcagctggagttcttgttcctttggaaggattgagtccagctgaaaaagaaagagttcttagagctcaagcagatcatggtttacctctaccagaaggaaggactccatctgaaaaagcattgatagccaaaataaaagctgaacaagaaccccaaaagataccacctgaaaagttacaaaaagcaaaagaagctggcttacttacaccactggaaggtaagactccagctcaaaaagaaaaaataatcagggaccttgctgaagctggtctacccttgccagaaggtaaaacagcatctgagaaatctttgcttcatcgaatcagaactgaacttggaatagctccaccggcaacgacgccttctgagaaggcgattgtccgcaaggcgaaaacagatggattatttacgccacttgctggtaaaacaccagctcaaaaggaaaaaatactcagaggacttgctgaagcaggattgcctttgcccgtgggtaaaacgccttctgaaaaagaattaattaaaaaaataagaaccgagtccgggttacctccccttccaacgccttctgagaaaatgggtaagataAAAAAGAAATCTAAGAAAATCGGCGTTACATCAGAAAAGCTTGCCGCGAAGGGAGCGGGCGAAGGGTTTGCAGATGTTATGAAAGGAGAAACTTGTGATCGTGGCTGTGGTTGCGATAAGAAGAAAATCAGATTTAAGCACAGTTATGTCAAGATTAGAGTGACGTCTCCAGACATATCCGCCCTTTGCCCTTGCCCAGATGAGTGTATTCCAGGCGTCAAAGCTGGAGCTTTTATTGATAATGAGGGCATAAAAGTTACCGTGGGGCGTGCCGTTGGCGTACCTTCATACTCCAGAGAAGTTATTCAGATTCCAGATTGCGACAAAACTATTTTAAGTCATGATTGTAATTATAAATCACTAAACAGGCAGATAAAAGAAAGAATTTTATTTGATAAAAATTACAAGCAAAATGAGTTTTTTAGTAGCATAAATAAAGTGCGTAGTTATCAAACATATCCTAATAGAAATAATATGGATTATTTCCTTGACACCACAAGTTCTGACGAAAGCCGCAATAGCGTACTGGTACAGCATAATAAGCCATACGATGAAACTGAAAGCGACAGAGAGTTCTATTACTTCAATAGAACACCATACGAGCGAAGGGTTGCTGAACCTAATAAATTTGTTGACACCTCTAGAAGTTTCAAATCGTCAGTTGAGGTTTTCAAAGAACCTGTTGCAATGGACTATATGATAACAGACAATTCTCGTGACAGTTTTGATTCTATTCTCGTAATAAAAAGTGAAACATCATTAAGTTTAACTACAAACTCTAGCGAGAGTACGGATACAGTTAGTGAGATGTTGTCATCGACCAGTAGTGTCACATCTAATTCCACGCATTATTTCGGTTACCAGCTATCCAACGACCTTTTTAGCAATAGCTCCACCGAAGGAACAGACAGCTCTACAAATGGAATTCACCACAATGCCATTGGAACCTTAATAAGGTAA
Protein Sequence: MPELNKSTKSVQPRTKSAVLKKNKNPFKANYTVNLVSEQRITESSCPFNYPGQTKWKIYRCQLSTAEETCCCSCNSDAMFEVMKSLYDCYKKKNCDDCECILCSHQHREERRLGELRKSLAEVGLKPTPSEKKIKAEQKKAEKLLQGKTPAEKEQILKDLVKAKKPLPEGRTASEKALIKKVRTSLGLPPEPRNAAEKAKLKRAEAAGIVTPLEGKTPEQKERILRGLAMEGVSLPEARTPSEAKLIDKVRTELGLPPEPKTEDMKDKYARATKAGLMQPLEGKTPAQKEKILQGLHDMGIPLPEGRTASEKSLIAKIKSKPITLAPSEKMRRAKADGLLTPLEGKTPEQKEKILKGLAMAGIPLPEGKTASEKKLIDKVRADLGLPPEPKNKDMRDKHAKAADAGLLVPLEGKSPKEKERILKGLHDMGIPLPEGRTPSEKALVAKIKGAGPPLDKLAPSERMRRAKAAGLITPLEGKTPEQKEKILKGLAMHGIPLPEGKTASEKKLIDKVRADLGLPPEPKTPEMRDKYEKAANAGLLQPLEGKTRPQKEKILQGLHDMGIPLPEGRTASEKSLIAKIKAKPVILAPSEKMRRAKAAGLLTPLEGKSPEQKEKILKGLAMAGIPLPEGKTASEKKLVDKVRAELGLPPEPKNKDMRDKHTKAAEAGLLVPLEGKSPKEKERILKGLHDLGIPLPEGRTPSEKALVAKIKGAGPPLDKLAPSERMRRAKAAGLITPLEGKTPEQKEKILKGLAMHGIPLPEGKTASEKKLIDKVRADLGLPPEPKTPEMRDKYEKAANAGLLQPLEGKTRPQKEKILQGLHDMGIPLPEGRTASEKSLIAKIKAKPVILAPSEKMRRAKAAGLLTPLEGKSPEQKEKILKGLAMAGIPLPEGKTASQKKLIDKVRAELGLPPEPKNKAMRDKHAQAADAGLLVPLEGKSPKEKERILKGLHDLGIPLPEGRTPSEKALVAKVKAAGPPLDKLAPSERMRRAKAAGLITPLEGKTPEQKEKILKGLAMHGIPLPVGKTASEKKLIDKVRADLGLPPEPKTPEMRDKYEKAANAGLLQPLEGKTRPQKEKILQGLHDMGIPLPEGRTASEKSLIAKIKAKPVTLAPSEKMRRAKAAGLLTPLEGKSPEQKEKILKGLAMAGIPLPEGKTASEKKLIDKVRADLGLPPEPKNKDMRDKYAKAADAGLLVPLEGKSPKEKERILKGLHDMGIPLPEGRTPSEKALVAKVKGAGPPLDKLAPSEKMRRAKAAGLLTPLEGKSPEQKEKILKGLAMHGIPLPEGKTASEKKLVNKVRAELGLPPEPTTPEMREKHAKAANAGLLQPLEGKTRPEKEKILQGLHDMGIPLPEGRTASEKSLIAKIKAKPVTLAPSEKMRRAKAAGLLTPLEGKTPEQKEKILKGLAMAGIPLPEGKTASQKKLIDKVRAELGLPPEPKNKAMRDKHAQAADAGLLVPLEGKSPKEKERILKGLHDLGIPLPEGRTPSEKALVAKVKAAGPPLDKLAPSERMRRAKAAGLLTPLEGKTPEQKEKILKGLAMAGIPLPEGKTASEKKLIDKVRTDLGLPPEPKNKDMRDKYAKAADAGLLVPLEGKSPKEKERILKGLHDMGIPLPEGRTPSEKALVAKVKGAGPPLDKLAPSEKMRRAKAAGLLTPLEGKSPEQKEKILKGLAMHGIPLPEGKTASEKKLVNKVRAELGLPPEPTTPEMREKHAKAANAGLLQPLEGKTRPEKEKILQGLHDMGIPLPEGRTASEKSLIAKIKAKPVTLAPSEKMRRAKAAGLLTPLEGKTPEQKEKILKGLAMAGIPLPEGKTASQKKLIDKVRAELGLPPEPKNKAMRDKHAQAADAGLLVPLEGKSPKEKERILKGLHDLGIPLPEGRTPSEKALVAKVKAAGPPLDKLAPSERMRRAKAAGLLTPLEGKTPEQKEKILKGLAMAGIPLPEGKTASEKKLIDKVRTDLGLPPEPKTKDMRDKYAKAADAGLLVPLEGKSPKEKERILKGLQDMGIPLPEGRTASEKALVAKVRAAGPPPDKLAPSERMRRAKAAGLLTPLEGKTPEQKEKILKGLAMHGIPLPEGKTASEKKLIDKVRADLGLPPEPKTPEMRDKYGKAAVAGLLQPLEGKTPAQKEKILQGLHDMGIPLPEGRTASEKSLIAKIKAKPRALTPSEKRRQAKTAGLLTPLEGKTPEQKEKILKGLAMAGMPLPEGKTPSEKKLIDKIRTELGLPPEPTTSSMKGRHAKAADAGLLQPLEGKSPKEKEKILKGLADLGIPLPEGRTPSEKALIAKVKGKTAASITTDKIRKAKAAGLLTPLKGKTPEQKENILKGLAKAGLPLPEGRTASEKALINKVKKEFGIPERTPSEKIRKAKAAGLLTPLEGKTPAQKEKILRGRAAAGLPLPIGKTPSERALIQKIKDDTGYITPSPSERLRKAKAAGLITPLKGKSPSVKEKILRNMLAAGVPIPEGETPSEKEMIKRLTADYPSPTLSQKMKKAKAEGLLTPLKGKTPEQKKKILKSLIKAGLPLPEPQTASEKNLMDKIRQEVGLPPEPKTPSIKEKYKKAQADGIITPLEGKTPAEKEKILQKLHDAGIPLPEGRTPSEKEMIKKIKGSPRKKPKKTLSEKIRKAKAEGLITPLAGKTPEQKEKIMRGLAKHGLPLPDAKTASEKKLAAKIRKELGLPPEPKTPSMKERHEKAAAAGVLVPLEGLSPAEKERVLRAQADHGLPLPEGRTPSEKALIAKIKAEQEPQKIPPEKLQKAKEAGLLTPLEGKTPAQKEKIIRDLAEAGLPLPEGKTASEKSLLHRIRTELGIAPPATTPSEKAIVRKAKTDGLFTPLAGKTPAQKEKILRGLAEAGLPLPVGKTPSEKELIKKIRTESGLPPLPTPSEKMGKIKKKSKKIGVTSEKLAAKGAGEGFADVMKGETCDRGCGCDKKKIRFKHSYVKIRVTSPDISALCPCPDECIPGVKAGAFIDNEGIKVTVGRAVGVPSYSREVIQIPDCDKTILSHDCNYKSLNRQIKERILFDKNYKQNEFFSSINKVRSYQTYPNRNNMDYFLDTTSSDESRNSVLVQHNKPYDETESDREFYYFNRTPYERRVAEPNKFVDTSRSFKSSVEVFKEPVAMDYMITDNSRDSFDSILVIKSETSLSLTTNSSESTDTVSEMLSSTSSVTSNSTHYFGYQLSNDLFSNSSTEGTDSSTNGIHHNAIGTLIR

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_01377439;
90% Identity: -
80% Identity: -