Basic Information

Insect: Drosophila hydei
Gene Symbol: ct
Assembly: GCA_003285905.2
Location: NW:2242315-2324145[-]

Transcription Factor Domain

TF Family: CUT
Domain: Homeobox|CUT
PFAM: PF02376
TF Group: Helix-turn-helix
Description: The CUT domain is a DNA-binding motif which can bind independently or in cooperation with the homeodomain, often found downstream of the CUT domain. Multiple copies of the CUT domain can exist in one protein (eg Swiss:P10180).
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 6.4e-27 4.1e-23 80.7 0.0 3 72 957 1027 955 1032 0.95

2 3 6.3e-32 4.1e-28 96.8 0.0 3 77 1443 1518 1441 1520 0.96

3 3 3.9e-31 2.5e-27 94.2 0.0 3 76 1711 1785 1709 1788 0.96

#	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	3	6.4e-27	4.1e-23	80.7	3	72	957	1027	955	1032	0.95
2	3	6.3e-32	4.1e-28	96.8	3	77	1443	1518	1441	1520	0.96
3	3	3.9e-31	2.5e-27	94.2	3	76	1711	1785	1709	1788	0.96

Sequence Information

Coding Sequence: ATGCAGCCAACATTGCCACAAGCCGCTGGGACAGCCGATATGGATCTGACGGCTGTTCAATCAATCAACGATTGGTTTTTCAAAAAggagcaaatttatttattggcaCAATTTTGGCAACAGCGCGCTACATTAGCCGAGAAGGAAGTGAACACACTCAAGGAGCAACTATCCACAGGCACGcccggcagcaacagcgacagtaacagcgacaacaacaacacatccGAGTcagcactagcagcagcagcagcaacagcagcagcagcagcaacagcagcagcagcaacatcattgGCCAGCGGCGAAGAGGAAGCCACTGGCaatagcgagagcgagagcgacaaGCTGCTGAATAGCTCGATTGTTGCAGCGGCCATAACGCTGCAACAGAACGGCGGCAATCTGCTGGCCAACACAAATACACCGTCGCCATCGCCGCCGTTGCTCAgcgccgagcagcagcaacagttgcagagCAGCCTGCAAaacggcgtcggcgtcggcggcgCTTGCTTGAATCCCAAGCTCTTCTTCAATCACGCCCAACAAATGATGATggaagcggcagcggctgctgcagcggcggcccgggcagcagcagcggcagcccagcagcagcaacagcagcaatcgcCAATGCATTCGCCAATCGCGGCCACCGCaataagcacaacaacaacagcagcagcagcagcagcagcagccgcaacagcagcagcagccacacaaCAGCAATCGGCAAGGGATATTGCTGAGCCAATagccagcagcaattgcaacgacgacgatgaggacgacgacgaggaggaCGCGTCGATGCAATCGAATGTGGCGCATGCCGATGGCGATTTAGACGATGATGATATGGAGCTGGAGCCGGAGCATGTTGCTGATACGGGCAGCATTGCTGCCGTAGAGCCAACATTGGCCAGAACTGAAAATGTTGTCGATGCGAACGCGAACGCAAGCACAGCCAACAATGATCAACgcgatgataatgatgatgatgatgatgacgatgatgatgagggCGATGATCGCAATGTCGATGCCGTTGTGGCTGCTGATGGACGGCAGGACGAGCTAGAAGCTAGTTTAAacgtgaacaacaacaacaacaatgctgaTAGCAACAATAGCTGTAGTcggaagaacaacaacaacaacaagaacaacaacagtgaaACGCAACATGTTGCACTGCGTGATAATAATGTAAATGAGCAACATGTGGCACATAGCGCCGAGGATGACGAttgcaccaacaacaatactaacaccaacaacaacaacaacagcagcagcaatgagaAGCGCAAAAAGCgcaacgccagcaacaacaacaataacaacaacaacaacaaccagcccGCTGTACTGTTAGCTGCCAAAGACAAAGAGATTAAAGCACTTTTGGATGAGTTGCAACGCCTGCGAGCTTTGGAACAAACTCACCTGGTACAAATCCAGAGGCTCGAAGAGCATTTGGAGGTGAAGCGACAGCACATAATGCGCTTGGAGGCCCGCTTGGATAAGCAGCAGATAAATGAGGCCCTGGCCGAGGCTACGGCattggctgccgctgctaatGCCGCTgcgacaaacaacaacaataacaacaatagcaacagcaacaacaataacagcagcagcaacaacaacaacaatcacagtAGCCagagcagcgacaacaacaacgtcgtATTCAAGACATCTGATCTAACATCGAGCCATCGGCTCAacaacgacgatgacgacgacgatgacaatGATCACGATAATGAGCTGCGCGATgccgacggcgacggcgatgatgatgaggacCTGCACATGACCAACAGcgagcagcatcagcagcaacagcaacattcaGCTTTAGTCAACAATCGCCACGATGATGAGCAGGACAAGGACAATGCCGAGGACCACGACGCCGAAATGTCGaatgccacagccacagcggACAGCAATGAGCTGAAAATCAAAAAGGAGCAGCACCCACTGGACTTGAATGTGCTCAGTCCACAATCGGCCATTGCCACAGCCGCCgcggccgcagcagccgctgcctgTGCCAACGATCCCAATAAATTCCAAGCCCTGCTACTGGAGCGGACCAAAGCTTTTGCCGCCGAGGCGCTCAAGAATGGCAGCAGCGATGCAGTTAGCGATGATGCCGCCACACACCATCaactccagcagcaacagcagcagcagcagcaacagcagcagcaacagccacagctgcagcagcagcaacttctgcacaacagcagcaatagcagcagcagcagcatcgccgGCAGCGATCCGCtgaatcatcatcatcatgcgCACCACCATGGCCATGCGCATGGCCAACTGTTGCATACGGCTCACCATTTACATCATGGCGCCGACTCGAACTCATCCAGCGCCAACAGCACACCGAACAGCACCGCCCAGCTGGCGGCGAGCATTGCCAGCACGCTGAACGGCAACAAGTCGCTGCTgcaggcagcggctgctgccaatgtggctgccgccgctgttgcagttgccgaggacaacaacaacagtctgACTCCGAATGCGAATGCAGCTGTGGCCGCCGCCGCGATGGCTGCACATGCCCAGCATGCCGCCGCCTTGGGTGCACCCAGCTTTCTGCCCAATCTTCCCAGCCTGCCGGCTTTCCAGTTTGcggctgccgccgccgctggcCAAGAGGCGCGTGCGCATTTTCGCTTTGCGGACGCcgagctgcaactgcagccggGCGTTTCGATGGCGGGTCGATTGGGCGAATCGCTGATACCCAAAGGTGATCCCATGGAGGCCAAGCTGCAGGAGATGCTGCGCTACAACATGGACAAATATGCCAATCAGGCGCTCGATACGCTGCACATCTCGCGTCGCGTTCGCGAACTGCTCTCCGTACACAACATTGGCCAGCGGCTGTTTGCCAAATACATATTGGGCCTGTCCCAGGGCACCGTCTCCGAGCTGCTCAGCAAGCCAAAGCCCTGGGATAAGCTGACTGAGAAGGGTCGCGACAGCTACCGCAAGATGCATGCCTGGGCCTGTGATGATAATGCCGTCATGCTGCTCAAATCCCTCATACCCAAGAAAGATTCTGGACTGCCTCAGTATGCTGGTCGCGGCGCTGGCGGCGATGATTCCATGTCCGAGGATCGCCTCGCACACATACTCAGCGAAGCTTCCTCCCTGATGAAGAGCAACGTGGTCgccgcccagcagcagcagcagcagcaacaacaggagcATCAGCGCCGTCATGCCAGCGACGATACGCACAGCAACGATGACAGCAAATCGCCGCCACAGAGCTGCAGCTCGCCGTTCTTCAAGGTGGAGCATCagatcaagcagcagcagcaacagcagcagcagctgcacgtCTCTGAGCACGCGCAGCGGGAGCAACGCgaggcagctgccgccgccgccgctgttgccgtccatcagcagcagcagcagcgtgagCAGCGCGAACAGCGTGAGGCCGTTCAGcgcgagcaacagcagcgtttGCGTCACGAGGATCTCGCCCAGGACAAAATGGCGCGTCTCTACCAGGAGCTAATGGCGCGCACACCGCGCGAAGCAGCCTTCCCTAGctTTTTGTTGTCGCCCTTCTTTAGCGGCGCCGCGGGCATGCCTGGAGCAGCCGCCAATCCATTCCCCGCCGCAATGGCCGCCGATGAGAATATGCGCCATGCCTTCGAGCGTGAGATCgtgaagctgcagcagcagcagcagcaacaacagcagcaggcgcaggcCGCCAACTTTCCCAACTTTTCCAGTTTGAtggcactgcagcagcaggtgctgaATGGCGCGCAGGATCTGTCGCTGGCCGGCAAGGATATCAAGCTGAATGGCCAGCGCTCGGCGCACGATCagcacagcggcagcagcagctccaaggATGGCGAGCGCGGCGATGATGCTGATCGCAGCTTTCCCGCCCTGCCACATCCACGCAAATCGGAGGGCGGCAACACACCCGCACCGCCCGCACCGCCAGCCGTCAATgccgccggcagcagcagcaatccgATCGCGGGCAGCGTCGCTGTGGCCAGCGGCCATGGCAGCAACTCGGCAGCGCCCAGTCCATTGAGCAACTCGATACTGCCGCCAGCGCTGAGCAGCCAGGGCGAGGAGTTTGCGGCGACAGCGAGCCCGCTGCAGCGCATGGCATCCATAACCAATTCGCTGATTACACAGCCGCCCGTGACACCGCACCACTCGCAGCCACAGCGACCCACTAAGGCGGTGCTGCCGCCCATcacgcagcagcagttcgACATGTTCAACAATCTGAACACGGAGGACATTGTGCGACGCGTCAAGGAGGCGCTCTCCCAGTACAGCATCTCGCAGCGCCTGTTCGGTGAGTCCGTGCTGGGCTTGTCGCAGGGTTCGGTCTCTGATCTGCTGGCGCGACCCAAGCCCTGGCACATGCTCACCCAGAAGGGCCGCGAGCCGTTCATACGCATGAAAATGTTTCTGGAGGACGAGAATGCGGTGCACAAGCTGGTGGCCAGCCAGTACAAGATAGCGCCCGAGAAGCTAATGCGCACGGGCAGCTACAGCGGCAGTCCACAGATGCCCCAGGGCCTGGCCAACAAGATGCAGGCCACGCTGCCCATGCAGAAGATGATGAACGAACTGAAGCTGCAGGAGCCGGCACAGGCACAGCACATCATGCAGCAGATGCAGGCAGCGGCTGCCATGTCCGCggccatgcagcagcagcaggcggcggcTGCCCAAGCGGCTGCCGTCCagcaggcccaggcccaggcacAGGCTCAGCAgagccatcagcagcagcagcagcagcaggcgcagcagcaggcccagcagctgctccatcATCAGAATATGCTATTGACATCGCCCGGCCTGCCGCCCCAGCATGCCATCAGCTTGCCAGCGGCGAGCACGCCCAGCGGCCAGGCTGCCATTGGCAATCCGACAGCCAGCTCCACGCCCGGCAGCAACGAGAAGAAGCCGATGATGATGCCCGTGCATGGCGGAGCACATGCGCCGAATGCCATGCGCAGCCTGCACCAGCATATGTCGCCAACCGTTTATGAGATGGCCGCGCTGACACAGGATCTGGACACGCACGATATAACCACCAAGATTAAGGAGGCGCTGCTCGCCAACAACATCGGCCAGAAGATCTTCGGCGAGGCGGTGCTGGGACTATCGCAAGGCTCCGTATCGGAGCTGCTGAGTAAACCGAAGCCCTGGCACATGCTCTCCATCAAGGGTCGCGAGCCCTTCATACGCATGCAGCTGTGGCTGAGCGATGCCAACAATGTGGagcgcctgcagctgctgaagaACGAGCGTCGGGAGGCGAGCAAGCGACGCCGCAGCACTGGACCCAATCAGcaggacaacagcagcgataCGTCCAGCAATGATACGAACGATTTCTACACGAGCAGCCCGGGTCCCGGCTCGGTGGGCTCTTCTGTGGGCGGTGCACCGCCCAGCAAGAAGCAGCGTGTGCTCTTCTCGGAGGAGCAGAAGGAGGCTCTGCGCCTGGCCTTTGCTCTGGATCCATATCCCAATGTGGGCACCATCGAGTTTCTCGCCAACGAGCTGAGCCTGGCCACGCGCACCATCACCAACTGGTTCCACAACCACCGCATGCGGCTCAAGCAGCAGGTGCCACACGGCCAGCCCGGCCAGGACAATCCCATACCCAGTCGAGAGAATACCAATGCCACGCCCTTCGATCCCGTCCAGTTCCGCatactgctgcagcagcgtctCGTCGAGCTGCACAAGGAGCGCATGGGCCTGAGTGGTGCGCCCATACCCTACCCACCGTACTTTGCCGCCGCCGCTCTGCTCGGTCGCAGCTTGGCGGGCATTCCAGgcgctgcagcggctgctggtgcagcggcagctgcggcCGCTGCCGTCGGCGCCGCTGGCGGTGATGAGCTGCAAGCGCTCAATCAGGCCTTCAAGGAGCAGATGAGCGGCCTGGACCTGTCCATGCCAACGCTGAAGCGTGAGCGCAGCGATGACTATCAGGATGAGCTGGAGCTAGATGCTAGCGGTCACAATATGAGCGACAACGAGTCCATTGAAGGTGGCCACGAGCCAGAGAACACTCCCATATCCGAGTACGAGAAGGCGCTGCAGAAGTCGGCGCTCGCCTCAGCCGCTGGCTACTTGAACAATGCGGTGCGCAGCTCGCGTCGCAAGCCCGCTGCACCACAGTGGGTCAATCCGGCTGGCGCCAGCACGCCCACGGCAGCGGGCGCTGCTATCGCAGCCAGCGATAACAGCGGCAGCGAGCGCATTATCAACGGCGTCTGCATTATGCAAGCCTCCGACTATGGACGCGATGAGGGCGACAGTGTCAAGGGCGGCGACTCGAATGCCGATGCCGAGCACGACGATCATGCGCAGCTGGAGATTGAGCAGCGCTTCATGGAGCCGGAGGTGCGCATCAAGCAGGAggaggacgacgacgatgagcaGTCCTCgcacctgcagcagcagcagcagcagcaacagcagctggacgATGAGAGCGCCGAGAAGCAGCTGAAGGTGATCAACGAGGAGAAGCTGCGCATGGTGCGTGTGCGGCGACTCAGCAGCAATGGCGATGCCGATGAGCATTGCGCCGCAGTGCAGCaggcgacggcagcagcggcggcagcggcagcagcagcagcagctgtagcagcggcagcaactgctacGCCAGCAGCGGCCGCAGCGTGGAACTACTAA
Protein Sequence: MQPTLPQAAGTADMDLTAVQSINDWFFKKEQIYLLAQFWQQRATLAEKEVNTLKEQLSTGTPGSNSDSNSDNNNTSESALAAAAATAAAAATAAAATSLASGEEEATGNSESESDKLLNSSIVAAAITLQQNGGNLLANTNTPSPSPPLLSAEQQQQLQSSLQNGVGVGGACLNPKLFFNHAQQMMMEAAAAAAAAARAAAAAAQQQQQQQSPMHSPIAATAISTTTTAAAAAAAAATAAAATQQQSARDIAEPIASSNCNDDDEDDDEEDASMQSNVAHADGDLDDDDMELEPEHVADTGSIAAVEPTLARTENVVDANANASTANNDQRDDNDDDDDDDDDEGDDRNVDAVVAADGRQDELEASLNVNNNNNNADSNNSCSRKNNNNNKNNNSETQHVALRDNNVNEQHVAHSAEDDDCTNNNTNTNNNNNSSSNEKRKKRNASNNNNNNNNNNQPAVLLAAKDKEIKALLDELQRLRALEQTHLVQIQRLEEHLEVKRQHIMRLEARLDKQQINEALAEATALAAAANAAATNNNNNNNSNSNNNNSSSNNNNNHSSQSSDNNNVVFKTSDLTSSHRLNNDDDDDDDNDHDNELRDADGDGDDDEDLHMTNSEQHQQQQQHSALVNNRHDDEQDKDNAEDHDAEMSNATATADSNELKIKKEQHPLDLNVLSPQSAIATAAAAAAAAACANDPNKFQALLLERTKAFAAEALKNGSSDAVSDDAATHHQLQQQQQQQQQQQQQQPQLQQQQLLHNSSNSSSSSIAGSDPLNHHHHAHHHGHAHGQLLHTAHHLHHGADSNSSSANSTPNSTAQLAASIASTLNGNKSLLQAAAAANVAAAAVAVAEDNNNSLTPNANAAVAAAAMAAHAQHAAALGAPSFLPNLPSLPAFQFAAAAAAGQEARAHFRFADAELQLQPGVSMAGRLGESLIPKGDPMEAKLQEMLRYNMDKYANQALDTLHISRRVRELLSVHNIGQRLFAKYILGLSQGTVSELLSKPKPWDKLTEKGRDSYRKMHAWACDDNAVMLLKSLIPKKDSGLPQYAGRGAGGDDSMSEDRLAHILSEASSLMKSNVVAAQQQQQQQQQEHQRRHASDDTHSNDDSKSPPQSCSSPFFKVEHQIKQQQQQQQQLHVSEHAQREQREAAAAAAAVAVHQQQQQREQREQREAVQREQQQRLRHEDLAQDKMARLYQELMARTPREAAFPSFLLSPFFSGAAGMPGAAANPFPAAMAADENMRHAFEREIVKLQQQQQQQQQQAQAANFPNFSSLMALQQQVLNGAQDLSLAGKDIKLNGQRSAHDQHSGSSSSKDGERGDDADRSFPALPHPRKSEGGNTPAPPAPPAVNAAGSSSNPIAGSVAVASGHGSNSAAPSPLSNSILPPALSSQGEEFAATASPLQRMASITNSLITQPPVTPHHSQPQRPTKAVLPPITQQQFDMFNNLNTEDIVRRVKEALSQYSISQRLFGESVLGLSQGSVSDLLARPKPWHMLTQKGREPFIRMKMFLEDENAVHKLVASQYKIAPEKLMRTGSYSGSPQMPQGLANKMQATLPMQKMMNELKLQEPAQAQHIMQQMQAAAAMSAAMQQQQAAAAQAAAVQQAQAQAQAQQSHQQQQQQQAQQQAQQLLHHQNMLLTSPGLPPQHAISLPAASTPSGQAAIGNPTASSTPGSNEKKPMMMPVHGGAHAPNAMRSLHQHMSPTVYEMAALTQDLDTHDITTKIKEALLANNIGQKIFGEAVLGLSQGSVSELLSKPKPWHMLSIKGREPFIRMQLWLSDANNVERLQLLKNERREASKRRRSTGPNQQDNSSDTSSNDTNDFYTSSPGPGSVGSSVGGAPPSKKQRVLFSEEQKEALRLAFALDPYPNVGTIEFLANELSLATRTITNWFHNHRMRLKQQVPHGQPGQDNPIPSRENTNATPFDPVQFRILLQQRLVELHKERMGLSGAPIPYPPYFAAAALLGRSLAGIPGAAAAAGAAAAAAAAVGAAGGDELQALNQAFKEQMSGLDLSMPTLKRERSDDYQDELELDASGHNMSDNESIEGGHEPENTPISEYEKALQKSALASAAGYLNNAVRSSRRKPAAPQWVNPAGASTPTAAGAAIAASDNSGSERIINGVCIMQASDYGRDEGDSVKGGDSNADAEHDDHAQLEIEQRFMEPEVRIKQEEDDDDEQSSHLQQQQQQQQQLDDESAEKQLKVINEEKLRMVRVRRLSSNGDADEHCAAVQQATAAAAAAAAAAAAVAAAATATPAAAAAWNY

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00495757;
90% Identity: iTF_00519819;
80% Identity: iTF_00519819;