Basic Information

Insect: Euproctis similis
Gene Symbol: -
Assembly: GCA_905147225.1
Location: LR990109.1:129457-148930[-]

Transcription Factor Domain

TF Family: TSC22
Domain: TSC22 domain
PFAM: PF01166
TF Group: Basic Domians group
Description: These proteins are highly similar in a region of about 50 residues that include a conserved leucine-zipper domain most probably involved in homo- or hetero-dimerisation. Drosophila protein bunched [1] (gene bun) (also known as shortsighted), a probable transcription factor required for peripheral nervous system morphogenesis, eye development and oogenesis.
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 4 0.00036 0.64 11.2 0.0 11 44 210 243 204 262 0.93

2 4 0.00049 0.87 10.7 0.0 11 45 731 765 725 766 0.93

3 4 0.024 42 5.3 0.1 17 45 758 786 758 799 0.83

4 4 0.51 8.9e+02 1.1 0.3 22 44 1404 1426 1392 1439 0.60

#	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	4	0.00036	0.64	11.2	0.0	11	44	210	243	204	262	0.93
2	4	0.00049	0.87	10.7	0.0	11	45	731	765	725	766	0.93
3	4	0.024	42	5.3	0.1	17	45	758	786	758	799	0.83
4	4	0.51	8.9e+02	1.1	0.3	22	44	1404	1426	1392	1439	0.60

Sequence Information

Coding Sequence: ATGGCAACTAGCAAAAACTTAATtcctcaggtgggtaccggcgtagccggagaatcccaccctggcggacttccgccaggcagcccctccgtatctgaggggggcacCTACTGCCATGCTGCTGAAGAGAGCAGCAACACCTTTGAGGGCGCTACCCGCGCTGATATATCGGCCCTAGCCGATGCAACCAGACAGGACGTACCACCCACCTCTGGAAAATTCTGGAGGGGTGATGGAGGAGAGGAAGGGGAGCCCAGCTCGGGGCGATCCCGTTCCTCCTCAATTTCGGATGGGACAAAGGGGCAGAGCGTGGTCCTCAAATTTAAGAGGCCCAATTCGCCCCTAATTATCACAAGGACTGCGAGGGCGGATGGCGGCGGAgatagcgacagcgctatgtccgccgtctccgctgCCTCTATGGCCTCCGAGGGACAAGGGACGCAGCGGACGCGAAAGCGGAAACCGCGCAGTCCCTTGGACCTGGGAGGTGACAAAAAGAGGCTCACTACCGGAGACGACCAGGAGAAGAGCTCGCCCGATCTTGGGGCGGAAATCTTTGAAATACTGGCAAACATGGAGCGCACCGCCGAGAGGCCGAAAAGCTCAAAGGCTGACATCGCAAGAGCGGTGCGCTCCGGTATTGATAAGGTTCGAGACAAAATCTCGGAGATGTCCGCCAGGGCAGACACCCAGGACCGGGAGAACGCAAGCTTCCGGTCCCAAATGGCGGAGCTGTCTGCCCGAGTCATCTCTTTAGCTCGGGAACTTTCGGACCTGAAGGCGGAGAGGGGACGGGAGAAGGAGAAACCTGCGGCAACTGTCGCCAAAAGGGCTCCGGTAATAGATAAtacgcaggcggcggggaccTCCCGGGGGGAGACTTGCCCCCCGGTGGCACCACCGCCTGCTAAGAAGCAGGCGGTGAAAAAGAAGGCGATTGATAACGCGACGAGCTccgcgaaacccgcggacgCTCCGCCGCGGCCGTCCGCCGTCCCCGACGGTGACCGGGTCAAGGCCCTTATGGCCGCTGActtcgcccggttccagtcggagatggcggcgAAATACTACCCAGAAGTGGTGAAAAGtgggaaaaagaaaaaaaagaagaagaacagGCAGGAAACGCAGGCGGCTGCCGCGGAACGctcgcgggcgccgccgcctccgcctgcgcctgcagCCGGGCCTGCGAAGGGAGCGGTAGAtagcggcgagacctgggcgacggtggtgggccgcaaggccgctgccgccgccaggaaggctcgcgccgccgccgccgctcctgcaccggcgcaggggaaggccaaggcgaaggccaaacctgcggggctgccgaagccccccaataccgccgctgtggtggtgacggtgcctccgggcgtcgacaccacgctcgcggcggtgatggaggttgccaagagccgcattaaacttgcggatcttggcatctcgggggggctgaaggagggaaaaaagccgagggaactcccccTCGTTAATAAAAGTACTATATCAATGGCAAGTAGAAAAAACATAAgtcctcacgtgggtcccagctgcgacgcggctggggaatcccaccctggcggagtcccgccaggcagccccaccgtatgtgAGGGGGGCACTAACTGCCACGTTGTCGTCAGGGGCAACACAAATGAGGAAGGCGAGACGGGTGTCACGGCTGCAGCCGGCAACCCAACCAAGACAGGATCGGACAATCCTCCCACCTCCGGACGTTTTTGGAGGGGTGAAGGAGGAGACGACGGGGAGCCCAGTTCTGGGCGATCCCGTTCGTCTTCGTTAAACACGGACATGACGAAGGAGAGCGGCTTGGTCCTCTCATTTAAGAGGCCCAAGTCTCCTCTGACAATTGGGACGATAGTGAGGGCGGacggcggcggggatagcgatagcgctatgtccgccgtctccgtctTCTCTACGCGCTCTGTGGCCTCCGAGGGACCCGGGACGCAGCGGCCGCGAAAGCGGAAACCGCGCAGTCCCGTGGACCTGGGAGGCCATAAGAAGCGGGCAGCTGAGGCCGCGAAACACACGGACGAAACTGAAGCGCCGAGCTCGACTGAGCTAGGCGCAGAAATTTACGAAATTTTTGAGAGGATGGAGCGCACCGCCGAGCGAGCAAAGAGCTCGAAGGCAGACATTGCCAGAGCGGTGCGCTCGGGAATGGACAGAGCGAGGGAGCACATCGCGAATTTGTGTGCCAGGGCCGACACCCAAGACCGGGAGAACGAAAGCTTCCGGTCCCAAATGTCGGGGTTGTCGGCCCGTATGATCCAACTCGCGAACGAAAATGCGGAGCTTCGGGCCAAGATTGCCCTTATGGCAGAAAAACTAGAAGCTCCGCAATCGCAGGAcacgcaggcggcggggacatcccggggggactctgttcccccggtggcgccgccgcctgcgaaaaaGGGAAAGGCTGGCGCAAACAGGGCTGCCCTGGGCAccgcgaaacccgcggacgccccgccgcaggactccgccgtctccgatggaacccgggaaatggcccttatggccagagaattcgcccggttccagtcggagatggcggcaAAATATTACCCCCAGATGGGGAAGATGCCTCCTCTGGGGCAAAAGGCGCCTGCTGCGGCGAATCCGCCGCCGGCGGGGCTGCATATGCCCCAGGggggaaagaaaaagaagaagaagaggaaAAACGCGCAGGAGAGGCAGGCGGCCACCGCGGAACGctcgcgggcgccgccgcctccgcctgcgcctgcagACGGGCCTGCGCCGGGAGCGGGatctggtggcgagacctggtcgacggtggtgggccgcaaggccgctgccgccgccaggaaggctcgcgccgccgccgccgctcctgcaccggtgcaggggaaggccaaggcgaaggccaaacctgcggggctgccgaagccccccaataccgccgctgtggtggtgacggtgcctccgggcgtcgacaccacgctcgcggcggtgatggaggttgccaagagccgcattaagcttgcggatcttggcatctcgggggggctgaagGCGGGCGGTTTCTTCCGCACCGCGGTGGGTGGCAGTAAACCTGCTGCGCTCGCCTCCGTGCCCTCTGTCTCCTCTGTTCGCAGAGCGAGAGGGCCCTGGAAGGTGACTTTCGACGGGTTCGTTCCCCTCGCTTCGTCGAGGGCCGAACTGGCTTCAAAGCCAACCGCGCCAAATCGTAAACCTGAATTGCACTGGGTGTCGTGGACATGTCTCGCGGCCCAAATCAGGAACGAGGGTCTTGGCTTCAACGCCTGGATCGCGAGGAAGAACACCTCTATAAAAATCACCCCGAATCTTAAGCTTTGGTACGTGGCGAGAAGATGCATGGCCGATGGGTTGTTCGGTCTCGAGCGTACTCCCAGCCAGGGCACCTGCGGACCCCCTGTGTTGGGTTACAAATTAACGCTTACCAGGGGTGGCTCCAGGGAGTCACTGAATGTAGAGGTGGAGGACCGGTCCTCCGTAAATACTAGACCGGCGGAACCTCCCCTGCGGGATTCCTCGGGGCGTTTCATGCGTCCCCCAAGACCGAAAGTGGTCAAGAAAAGGCAGGAGACTGGAGGATCTGCATCTGAGGCAAGCCGCGCTCCATCTGTGGCTGAGATAAATGTAGAGTCCCCGGACTCCGACAGTGACGCAGTCCCACAATCGGACAACTCAATAGCGATGGAGGAAGATCGCCAAAGGGCGACAAAACGGGCTTTCATGAAGTCGGGTGGGTCTGGCTCCTCAGACTCTGCCAAGAAGCCCAAGAAAAAGGCAATACCAAAAAAGCCTACAACTGCTGCGGACACCCACGAAGTGGGCCTAGCGGAGGCACAGCTCCAGTTGAACTTAGCTAGAAGGCAGCAACTCCAGAAGGACCTGGAGGAGAAGGTCGCTGCCAAAGAGCAACGGGCGCGGCTCGCGAGGGCAAAAGCTGGATACGGTGCGTCCACTGTCCTGTACGCGGACTACTCGTTGGCGGAGTTGGAGAGGATGGCTCAGGAGGACGAGCGAGAAATCGCCGAAGTAGCCTCCAAGTCGTCCAACCTAAAGGGGACTTTCCAGAAGTCCCTGAAAAGTAGGGCCGCGAGCATGCGCGGCATAGTCCGGGAGCTGGTGGAGCGCACAGCAACCGAGGAAACATGGCAGCTGCAGGCGAAAGTCGACCGCCTGCAAGCAGAAGTCAGCCAGCTGCACAAAAAGCTGGCTGAGTTGACGGCGCGGCCAACTCAGGCCGAACTCAGATCCACGACTGAGGCCCCGACATCCAGCAACCTCGAGGAGATAATCCGAAAGGTTGTTATGGAGGAAAGGGCCTTCACGAGAGCCTGCTTTGCAGGCATTGAAGATAGGCTTTTGCCAGAGAAACGCCTCCGGCCCCCACTTGCTGCCGACAAGAGGACTAACCCACCAGCAGTGGAAGTTGACGTGCCTCCACCCTCCACCACTCCGTCCAACCTGTCTTGGACTGAGGTGGTCAAGAGAGGGAAGAGAGGCCCCATTAAAACGTCGAGTATGGCCGCCATTCCCGCAATCCCTATTTCCAAAACTCCTCCTCACCCGTCCCAGGTGACGAAcaaaggaaagggaaagggaAAAGGAAAGAAGACGGCCCCCAAATCCACCGCAGCTGCTCCCGCCGCTGAAAGGGCACCCACCGTGCAAAAGAAGAGGAAGCTAGTTCCCCCCAAAACCGCAGCTGTGGTGGTAACACTCACTGCAGAAGCTGCGGAGCGGGGGGAAACTTACACAAGTGTCCTCCAACGAGCCCGTCCCAATGTCGACCCCGCCCAACTGGGGATCGGTACGGTCTCGTGTCGTCGTACCCAAGCTGGTGCTCGTATTTTTGAGTTTCCGGGGGCCCAGGGTGACGCCCACGCGGACCTCTTTGCGACCAAGCTGAGGGAGGTCATCGCAGATACGGTGAAAGTTGTCAGGCCCGTAAAGTGTACCACCTTGGAGGTGACAAACCTCGATGACTCCGTTACCAAGGAGGAAGTCGTGGCGGCGGTGGCAAAAATAGGAGGCTGTGACACCGCAGCGGTGAAAGGCCGACCCATACGGCCCGATCGTGGAGGCATGGGGGCCATGCGTTTGGAGTGCCCCATCATAGCAGCCAAGGCCGTCCTTGCGAAGGGGCGGCTTCTTGTCGGCTTCAGTTCTGGCGTGGTCCGAGCACTTGAGCACCAGCCATTGAGGTGCTATAAGTGCTTCGGGATCGGCCACACCCGACCTCTCTGTCCATCGACAACGGACAGGTCGGGCTACTGTCTTCGCTGCGGCAAGGAGGGACACAAAATCGCCTCCTGCAAGGTTGCCACGCCGCATTGCGCGGTGTGCGCCACCAGTGGCCTTCCATCAGGCCACATAATGAGGGGGAGGAAGTGCAATCCTCCCCCGAAGAAGGGCAAAGCGCAGGCTCCGACCCGGCCTGCTGCTGCTAATCCGGAGGGTGCCGCAGTCGTCCCCGCTCCTGGGACTTCGGCGGCTGGTGAGGGGGGTGCGATGTCCGATTGA
Protein Sequence: MATSKNLIPQVGTGVAGESHPGGLPPGSPSVSEGGTYCHAAEESSNTFEGATRADISALADATRQDVPPTSGKFWRGDGGEEGEPSSGRSRSSSISDGTKGQSVVLKFKRPNSPLIITRTARADGGGDSDSAMSAVSAASMASEGQGTQRTRKRKPRSPLDLGGDKKRLTTGDDQEKSSPDLGAEIFEILANMERTAERPKSSKADIARAVRSGIDKVRDKISEMSARADTQDRENASFRSQMAELSARVISLARELSDLKAERGREKEKPAATVAKRAPVIDNTQAAGTSRGETCPPVAPPPAKKQAVKKKAIDNATSSAKPADAPPRPSAVPDGDRVKALMAADFARFQSEMAAKYYPEVVKSGKKKKKKKNRQETQAAAAERSRAPPPPPAPAAGPAKGAVDSGETWATVVGRKAAAAARKARAAAAAPAPAQGKAKAKAKPAGLPKPPNTAAVVVTVPPGVDTTLAAVMEVAKSRIKLADLGISGGLKEGKKPRELPLVNKSTISMASRKNISPHVGPSCDAAGESHPGGVPPGSPTVCEGGTNCHVVVRGNTNEEGETGVTAAAGNPTKTGSDNPPTSGRFWRGEGGDDGEPSSGRSRSSSLNTDMTKESGLVLSFKRPKSPLTIGTIVRADGGGDSDSAMSAVSVFSTRSVASEGPGTQRPRKRKPRSPVDLGGHKKRAAEAAKHTDETEAPSSTELGAEIYEIFERMERTAERAKSSKADIARAVRSGMDRAREHIANLCARADTQDRENESFRSQMSGLSARMIQLANENAELRAKIALMAEKLEAPQSQDTQAAGTSRGDSVPPVAPPPAKKGKAGANRAALGTAKPADAPPQDSAVSDGTREMALMAREFARFQSEMAAKYYPQMGKMPPLGQKAPAAANPPPAGLHMPQGGKKKKKKRKNAQERQAATAERSRAPPPPPAPADGPAPGAGSGGETWSTVVGRKAAAAARKARAAAAAPAPVQGKAKAKAKPAGLPKPPNTAAVVVTVPPGVDTTLAAVMEVAKSRIKLADLGISGGLKAGGFFRTAVGGSKPAALASVPSVSSVRRARGPWKVTFDGFVPLASSRAELASKPTAPNRKPELHWVSWTCLAAQIRNEGLGFNAWIARKNTSIKITPNLKLWYVARRCMADGLFGLERTPSQGTCGPPVLGYKLTLTRGGSRESLNVEVEDRSSVNTRPAEPPLRDSSGRFMRPPRPKVVKKRQETGGSASEASRAPSVAEINVESPDSDSDAVPQSDNSIAMEEDRQRATKRAFMKSGGSGSSDSAKKPKKKAIPKKPTTAADTHEVGLAEAQLQLNLARRQQLQKDLEEKVAAKEQRARLARAKAGYGASTVLYADYSLAELERMAQEDEREIAEVASKSSNLKGTFQKSLKSRAASMRGIVRELVERTATEETWQLQAKVDRLQAEVSQLHKKLAELTARPTQAELRSTTEAPTSSNLEEIIRKVVMEERAFTRACFAGIEDRLLPEKRLRPPLAADKRTNPPAVEVDVPPPSTTPSNLSWTEVVKRGKRGPIKTSSMAAIPAIPISKTPPHPSQVTNKGKGKGKGKKTAPKSTAAAPAAERAPTVQKKRKLVPPKTAAVVVTLTAEAAERGETYTSVLQRARPNVDPAQLGIGTVSCRRTQAGARIFEFPGAQGDAHADLFATKLREVIADTVKVVRPVKCTTLEVTNLDDSVTKEEVVAAVAKIGGCDTAAVKGRPIRPDRGGMGAMRLECPIIAAKAVLAKGRLLVGFSSGVVRALEHQPLRCYKCFGIGHTRPLCPSTTDRSGYCLRCGKEGHKIASCKVATPHCAVCATSGLPSGHIMRGRKCNPPPKKGKAQAPTRPAAANPEGAAVVPAPGTSAAGEGGAMSD*

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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