Basic Information

Insect: Notodonta dromedarius
Gene Symbol: -
Assembly: GCA_905147325.1
Location: LR990185.1:5187563-5220011[-]

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 6 0.48 6.7e+02 0.7 0.4 2 18 918 934 917 974 0.52

2 6 0.018 26 5.3 0.0 23 44 1186 1206 1170 1208 0.88

3 6 0.061 86 3.6 0.3 12 43 1267 1303 1253 1306 0.72

4 6 5.4 7.5e+03 -2.6 0.2 22 45 1425 1450 1407 1451 0.80

5 6 0.00013 0.19 12.1 0.4 2 44 1501 1552 1500 1554 0.85

6 6 0.00022 0.31 11.4 0.0 13 42 1655 1691 1650 1695 0.84

#	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	6	0.48	6.7e+02	0.7	0.4	2	18	918	934	917	974	0.52
2	6	0.018	26	5.3	0.0	23	44	1186	1206	1170	1208	0.88
3	6	0.061	86	3.6	0.3	12	43	1267	1303	1253	1306	0.72
4	6	5.4	7.5e+03	-2.6	0.2	22	45	1425	1450	1407	1451	0.80
5	6	0.00013	0.19	12.1	0.4	2	44	1501	1552	1500	1554	0.85
6	6	0.00022	0.31	11.4	0.0	13	42	1655	1691	1650	1695	0.84

Sequence Information

Coding Sequence: ATGGCTTCAGCACCAACTGAGCCATCTACCCCAACTTCTGAAGAGACGCCGTCACCATCAGCAGACCCTCAAGCCATAAACAAGTTTAATTGGCTCAAGAGAGCTCAGGCAGCCCGCAATAACCCTTTCGTGAAGCCAAGACCCTCGCTCACAAGAGAGAGTTCGACCGCAGAACTCTTCTCTAGAGAGAATTCCAGTTCAGACTTTTTCCAGAATTCTAGGCTGAATTTGTTTGAAACAGCGCCGAAGCCTGAAGTCACTTCTAGTGGATTTAAAAAGGGAGTCTCCTTCATAGGATGGCAACATCGGACCAGACTAGAGCGAGTCCTGCTCATTGCCAGCGCTGTACTGTTCGTGGCAGTGCTGCTGGCTCTCACACTGCTCCTCACCATCAGGACTCCGGACCTGCCGGTTCCACCTTGCTATCAGCCGGAGAACAGAGGTCCTCCAGTGTGCCTTAAGGGCTCATGCATTTACACCGCCAGTGAAGTGATCCGGGCCCTGGACGAGTCCCAGGACCCTTGCGAGGACTTCTACGAGTTCGCATGTGGGGGCTGGATCCGGAACAACCCCATCCCGGAGGGGAAGTCCAGCTGGGGCATTTTCAGCAAGATAGAACTGCAGAACCAGTTAATCATCAGATATGCACTTGAAAAGGTCAATGTGTCTGACCACAACGCGGGCGACGCGGAAGGAAAAGCACGAATTTACTACGACGCCTGCATCGATAAGAATGAGACGATTGAGAAGCTGGCAGAGAAACCCCTGGTCGCCGTCATCAAGAAGCTGGGTGGCTGGCACATACTGCCTAGTACGGTGTCCAAACAGAAGTGGGACCTGCAGAAATTGGTCCAGGATGTGCAGAACACGTATAATCTGGGAGGTCTTTTCAACTGGGCCGTGACGGAGGACGATCGTAATTCATCCAGGCATGTCATTGTGTTGGATCAAGGAGGCTTAAACCTGCCAACTCGTGATAATTACCTCAATAAAACTGCCCATAAAAAGGTGTTAGATGCGTACTTGGATTACATGACTCGTATCTGTGTCCTCCTCGGCGCCAGCAAGACGGAAGCGCGGCTGCAAATGAGCCGAGTGATACAGTTCGAGACGGAACTGGCTAATATAACTACCCCCTCCGAGGACAGGAGGGATGAGGAGGGCTTGTACAACCCTTTCACGATAAAAGAATGGCAGGTAGAAGCGCCGTTCATGAATTGGACTACTTTCTTCAATGATGCGTTCAAGTTGGTGAACAAAACGATCTTAGACAATGAAACGATCGTGGTGTATGCTCCGGACTACTTCAAGGACCTCACAAAGGTCATCAAGAAATACAGCAAGACAGAAGAAGACCAGAAGACACTGACAAGTTACATGATGTGGCAAGTGTCGAGATCCCTGTCCACTTACTTGTCTAAGTCTTTCCGCGACGCCACCAAGATATTACGCAAGGCGCTGTTCGGGTCGGAAGGGACGGAGGAATCTTGGCGATATTGCGTCACTGATACTAATAATGCTATAGGGTTCGCAGTAGGTGCGATGTTCGTTCGCGAGGTGTTCCACGGCGAGGCGAAGACTCAGGGTGAGATTATGATCAACAACATCCGCAACGCGTTCAAGCGGAACCTGAAGAATCTGGACTGGATGGACGCGGAGACCAGGAAGGCTGCGGAGATCAAGGCTGATGCTATCACTGATATGATAGGTTTCCCTGACTACATCCTCCACAAGGACGAGCTGGACAAACAGTACGAGGAACTGGTGGTGAAGCCCAATGAGTACTTCGCGAACAATATAGCGTTTAACGTGTACAGCCTCCAGAACGACCTGAACAAGCTGGATAAACCAGTGAACAAGACTAAATGGGGCATGACACCCTCAACGGTAAACGCGTACTACACCCCCACGAAGAACCAGATCGTATTCCCGGCGGGGATCCTGCAGCTGCCGTTCTACGACGGAGACAACCCTAAGAGTGTCAACTACGGAGCCATGGGGGTGGTGATGGGGCACGAGCTGACGCACGCCTTCGATGACCAGGGGAGGGAGTATGATCGGTTCGGAAACCTGAACCAATGGTGGAATAACCGGACAATAGCGCGATTCAAGAACCGCGCTAGGTGCATGCAATCTCAGTACTCGGGGTACAATGTGGATGGACAGCATCTCAACGGGAAGCAGACGCTTGGCGAGAACATAGCAGACAACGGTGGTCTGAAGGCTTCATTCCACGCGTACCTAGACTACAGCCGCGACGCCGAGGTGAACCTGACTCTGCCTGGACTCAAGTACAATCATCGACAACTGTTCTTCATCTCTTTCGCACAGGTATGGTGCTCAGCCATGACCAAAGAGTCGACCAAAATGCAAATAGAAAAGGATGACCACACAATAGCCAAGTACCGTGTGATCGGCCCGATATCGAACCTGGAGGAGTTTTCCCACGAGTTCCAGTGCCGCAAGGGATCCAAAATGAACCCTGAACACAAGTGCGAAGTCTGGTACAGAGAATTAGCAGTATTAAAAAAAAAGATGGAGCAGATTGTAGTGAAGAGTGAAATGCCCAATAATAGTGAGATTTTACTCTTCTATGTTGATGAAAACGGTGGCAATGAGGAAGGGGTATTGACAACAGTGGAAAGCATAGAACACCAAGCGGAAGAACTGCAGCAGGATAATTCTTATGTCATTGAGGATGTCGGTGAGCTGGCCAATGACTATGACCTGCTCCAAGCCACCAATCAGAAGGAAAACTGGACCGAGGATGACATTAAGAGACTACTAGTATTCTACAATGATAACAAACAAACCTTCATTTCTGGCACCACGAAGAAGGAACACCTCTGGACTGTTGCATGCAAGACCATGCTTGTCGGCAAAAATCCCAATTCGTGTGAAACTCAACTGCAAAATTTAAAAGCCAGCTACATAGAAATCTCTGATCAACTACAAAAAGGTGTCTACACTAAATGGCCTTACTTCGAAATCTGTCATCAGACGTTCCAAGACGATTATGATTCAGAAAAACCAGTTGAAGAATACGAAATACATGTTCAAAATGATGACAATGTACCCATGTACCAGAACCAAGGTTTTGTTGTCGTGAAGAAAGCCAATAACCGGTCCACGTCTGCTGATGAGAAAGTGCAGACAATGCTCAATTTGTACTTGAAACACAAGAAGTCGTTCCAACAGGATTATTGGAGACGTGGCTTATGGGAAACCATCGCAATGGAGATAGGTGAAGAAGACGGGGAATATTGGCAGAAGCGTTTCTTGAATTACAAGCAACATTACCTACGTTTGTTAGACAAACAGCGCGAGAACGGCGCTGGCACTATAAACTGGCCATATTTCTCCCTGTTCGAGAAAATCTTCGAGGACGACCAAGATTTTCGCAAGAAATACTTAGCTCCAAAAATTTTTGAAACACAAAACATTTCCATTGAAGCGCCCGTAGAATGGGATACCACTGAAAAGACAGTGCTAGTCAAGTACTGCTTTGATTGTTTCGACGAATTTCAGGACCATACGATACCGAAAAGTTTCCTGTGGAACGAGATTGGACGGCTCTTGGACAAAACTGCTGATGCATGCAAGCAGAAGTATGAAGAACTTAAGAGCGCCCATTTAGACAAATATATAGATGAAGGCTATGATATACGGTCACGAATACCCATAGAAATAGTATACGACAATATAATATCAAAGGAAATTGAATTGGAGGTAGCCAAGAACGAGAGTAGGTCATTGGAACATTGGAAGACCGAAGAGATCGACGAACTGGCGCATTTCTTTTACCAGAACATTGAAATGTATAAAGACCCTTTATGCCATTTTGTGTGTTGGGCCGCCGTTGCTAAGAAGCTGAAGAGGGATCTCGGAAGCTGCAGAGGGCAGTGGGAGGACCTGATCACGTTGTACAAATCAATTTTGGCCGATAAGAAAGAGAACCCAGATATGCAGATCGATTGGAGGTATATAGAATTGTTTGATAGGATATTCGACTACGGTATGGACGAAACATTGCTCGCGGGACATGACAGAGTGAAGGCAGTGAACGAGAACCAAGGACGTGGGAAAGTTGGGGTAAAAAAGGTGAAAATCAATCTCGACGAAAGCATCGAAGAAATTACTGACGACGACGAATCCTTCGACGAGGCGGGATTCGGTAAAGGCAGCAAAAGGCACTCGGGCGACTCGAAAGCATTCAAAATACTCGAATTCTACCAAAAGAATAAAGATAAATTCAACACAACGAAACGCAACAAACATTCCTTGTGGGAGGTACTGGCCAAACAGATTGGCATATCCGCCATCAAATGCTCCCATAGACTTCGCAATCTCAAGCAAGTGTACACAGCGTACGTACAAAGGGAGATAAACAAGCCGGAAATGCCAATACTCTGGCCGTATTACGCTTTATGCAAGAAAGTGTTTGGCTACAGAGCCATCAAGACCAAACTTAAAAGCGGCAAATTGGACTTCGAAGACACCGAAGAGTGGTCGGCTAAGGAAATAAAACTGTTAATCAATTACTTCTCTCGACATTTTCACGAGATCGAAAACAATATAGATGATATTGACCAGTGGTCGGAATTGGGTAAGGAGTTGGGTAAAAGCAGGGGGGCTTGCAAAGATAAGTTTATCGAGCTCCGGAAGTCGTATAGAAAGTTGAAGACTATGAGGAGCAGGAACCCTGATGTCAAGATATCTTGGAAGTACTTCAATATGTTTGCGCAGATTTATACTGAGAAGGAAGGCCAGGACTCGATGGAGGTGGAACTACTGGAACCAGAGGAGATTTGTGATCAAGAAGAAGACGATTATCAGTGCATCATCGTAATGTCAGAAGGCGAAGAAATGGAGAGCGCCCCAATACAAGACGACACATCGATAGTCACTAAACCAGTTAATAAATGGAATAAACGCACCAAGAAATGGCTATTAATCCTATATATTAACTATATTAGAACGCACAAAGGGAAGGAGATAATACCCAAAGATATGTGGGCAGAAATCGCGTCGAAATTACACGACAAGACCCCATTGTCTTGCAGAAAGATGTTTGCTAAACTGAAAGCCAACCACAAACAGGACGAACATGATCTCAATAAGAAAAAGACACCATACTACAAGTTATTAGAGAGGATTGTTCGTTTAAAGCCCAAATTCGCAAAATCTAAGACTAATCAAACTCTAACCGACGGACGGACTTATAAAGATGTGGCTCTACCTGACGACAAAGTAGAAATGGCGTTGACGCACTATTTACAACACATCCAAGACTTCAATGACCCCAAGTTTGAGAAGAAGTATCTGTGGACAGAATTGGCCAGCATCGTCTCCGAGCCAGTGACGAAGGTGTTTAATAAAATAAATTATTTAAAACAGTACAATACAGAAACAGGCGAAGTTGTTGGTGAGAAAACGCAATTTGCTGGACTGTTAAAAGAGATTATGGCCAAAGAAATGGCCGTCAAACTTGTGATCGACAATCAACCGAAGCCTGTGATTGATGAAGCAGTAACCGACGAAATATGGAGTGATGATGAAACGGGGAAACTACTAGAATGGTATCTGAGTAATTTGGACAAGTTCAAGAATCCCAAATATGTTAGGAGCTATCTGTGGATGGAAGCGGCCAGCATACTCAATAAAAGCGCAATAGTATGCTCCAAGAAGATGTATGAGATCAGAACTGAGTATAGGAATATGGTTCGGGAGAGACCTGAGGAGTTGAACAGCTGGAAGTTCCATGATTTGTGTCAGAAGATTTATGGAACGGGGAAGAAAGGGAATAGTGCTATTGCTAGTTAA
Protein Sequence: MASAPTEPSTPTSEETPSPSADPQAINKFNWLKRAQAARNNPFVKPRPSLTRESSTAELFSRENSSSDFFQNSRLNLFETAPKPEVTSSGFKKGVSFIGWQHRTRLERVLLIASAVLFVAVLLALTLLLTIRTPDLPVPPCYQPENRGPPVCLKGSCIYTASEVIRALDESQDPCEDFYEFACGGWIRNNPIPEGKSSWGIFSKIELQNQLIIRYALEKVNVSDHNAGDAEGKARIYYDACIDKNETIEKLAEKPLVAVIKKLGGWHILPSTVSKQKWDLQKLVQDVQNTYNLGGLFNWAVTEDDRNSSRHVIVLDQGGLNLPTRDNYLNKTAHKKVLDAYLDYMTRICVLLGASKTEARLQMSRVIQFETELANITTPSEDRRDEEGLYNPFTIKEWQVEAPFMNWTTFFNDAFKLVNKTILDNETIVVYAPDYFKDLTKVIKKYSKTEEDQKTLTSYMMWQVSRSLSTYLSKSFRDATKILRKALFGSEGTEESWRYCVTDTNNAIGFAVGAMFVREVFHGEAKTQGEIMINNIRNAFKRNLKNLDWMDAETRKAAEIKADAITDMIGFPDYILHKDELDKQYEELVVKPNEYFANNIAFNVYSLQNDLNKLDKPVNKTKWGMTPSTVNAYYTPTKNQIVFPAGILQLPFYDGDNPKSVNYGAMGVVMGHELTHAFDDQGREYDRFGNLNQWWNNRTIARFKNRARCMQSQYSGYNVDGQHLNGKQTLGENIADNGGLKASFHAYLDYSRDAEVNLTLPGLKYNHRQLFFISFAQVWCSAMTKESTKMQIEKDDHTIAKYRVIGPISNLEEFSHEFQCRKGSKMNPEHKCEVWYRELAVLKKKMEQIVVKSEMPNNSEILLFYVDENGGNEEGVLTTVESIEHQAEELQQDNSYVIEDVGELANDYDLLQATNQKENWTEDDIKRLLVFYNDNKQTFISGTTKKEHLWTVACKTMLVGKNPNSCETQLQNLKASYIEISDQLQKGVYTKWPYFEICHQTFQDDYDSEKPVEEYEIHVQNDDNVPMYQNQGFVVVKKANNRSTSADEKVQTMLNLYLKHKKSFQQDYWRRGLWETIAMEIGEEDGEYWQKRFLNYKQHYLRLLDKQRENGAGTINWPYFSLFEKIFEDDQDFRKKYLAPKIFETQNISIEAPVEWDTTEKTVLVKYCFDCFDEFQDHTIPKSFLWNEIGRLLDKTADACKQKYEELKSAHLDKYIDEGYDIRSRIPIEIVYDNIISKEIELEVAKNESRSLEHWKTEEIDELAHFFYQNIEMYKDPLCHFVCWAAVAKKLKRDLGSCRGQWEDLITLYKSILADKKENPDMQIDWRYIELFDRIFDYGMDETLLAGHDRVKAVNENQGRGKVGVKKVKINLDESIEEITDDDESFDEAGFGKGSKRHSGDSKAFKILEFYQKNKDKFNTTKRNKHSLWEVLAKQIGISAIKCSHRLRNLKQVYTAYVQREINKPEMPILWPYYALCKKVFGYRAIKTKLKSGKLDFEDTEEWSAKEIKLLINYFSRHFHEIENNIDDIDQWSELGKELGKSRGACKDKFIELRKSYRKLKTMRSRNPDVKISWKYFNMFAQIYTEKEGQDSMEVELLEPEEICDQEEDDYQCIIVMSEGEEMESAPIQDDTSIVTKPVNKWNKRTKKWLLILYINYIRTHKGKEIIPKDMWAEIASKLHDKTPLSCRKMFAKLKANHKQDEHDLNKKKTPYYKLLERIVRLKPKFAKSKTNQTLTDGRTYKDVALPDDKVEMALTHYLQHIQDFNDPKFEKKYLWTELASIVSEPVTKVFNKINYLKQYNTETGEVVGEKTQFAGLLKEIMAKEMAVKLVIDNQPKPVIDEAVTDEIWSDDETGKLLEWYLSNLDKFKNPKYVRSYLWMEAASILNKSAIVCSKKMYEIRTEYRNMVRERPEELNSWKFHDLCQKIYGTGKKGNSAIAS

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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