Basic Information

Insect: Suillia variegata
Gene Symbol: ct
Assembly: GCA_949127995.1
Location: OX421846.1:9830461-9852612[-]

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 1.3e-26 1.6e-22 79.7 0.0 3 71 672 741 670 747 0.94

2 3 5.3e-32 6.5e-28 97.0 0.0 3 77 1155 1230 1153 1232 0.96

3 3 7.1e-31 8.6e-27 93.4 0.0 3 77 1413 1488 1411 1490 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	1.3e-26	1.6e-22	79.7	3	71	672	741	670	747	0.94
2	3	5.3e-32	6.5e-28	97.0	3	77	1155	1230	1153	1232	0.96
3	3	7.1e-31	8.6e-27	93.4	3	77	1413	1488	1411	1490	0.96

Sequence Information

Coding Sequence: ATGCAAACTTTGTGCCAAGAATTTTTGACGTTCGAGACGAAACGAGACGTTAaagatATTAAAGCACTTATCGAAGAGGTTCAGCGCTTGCGTACCCTCGAACAAACACACATTGTACAAATCCACAGACTTGAAGAACATTTAGAGGCGAAGCGTCAGCATATCATGCGTTTGGAGGCGTGTCTCGACAAGCAACAAATCAATGCAGCGCTTTCGGAGaccacagcagcaacatcaacgccaacagcagcaacagtagcagcaacacCCGCCGACAATGAcgctgacgacgacgatgagcAGAACGAGGAGGCTGCCGATGTCATTGAGAAGGACAATACCACCAACATCAACGTCAATGCGCACAGCATGGATGTCGATGCAATGGAAAATGTTGCCGACAATTTTGCCAACAAGGAATGCGAAAATTTGTCGCTGACAACAGCCGCAATCGGAgagattaaaatcaaaaaggaaaaccaAAGCCCACTCGATATGGACGCAATTAGCCAACAATCAGCAattgctgccgccgctgcagcagctgctgcttgCGCCAATGATCCCAACAAATTCCAGGAACTCTTGCTTGAGCGCACCAAAGCGCTCGCGGCGGCTGAAGCGCTCAAAAGTACAGAGGaaacagcaacagttgctggCAATGAAGATGACTTCGATAACGAAGTTGAAAAGCACGAAACGgcagtagcaacagcaactgaGAACAAGAccataacagcagcagcggcaaccgAAGATTTAGAGCAGGAATTGCCAAAAGTACCAAAAATCGAAATcgtcgacgatgacgacgaatGCGTTGAAAGTGTTGTCGATAATGCAAACGctgcggcaacagcaacagcagcagcaacaccttCGATGCCAACAATCGATGTTGATGAGCTCGATGATAGAAAATCAAAGTCGCCGCTTCCCgttgacgatgacgacgacgacgatgagcGCGACGATGTTGCCGAAACAAATGTCGCCGACGCATCGTCTTCGTTCAAAGAGAATGTCGCACACTTCGGTTCGCTGCTCGGTGAAGAACTTGTCAACACTTATTGGCGACGCGGTTTCGAATTGCCAAGCTCGTCGTCTGTCggcgcagcaacaacaacggctgctgccgctgccgccaccgccgccgctagCGGCACAAAAACGCCAACAATCTTTCAAAATGCCAATGCGTCACAAATGCTGCTGCCGGCAGCGCTGCAGCCCCAACCGTTGCCACTGTTGCCCGCGACTACTGtcagcacaacaacagcaacaacagccgcTGCCGTCCaccaacatcagcaacaacaacagcaacaacagcagcagcagcaccaacatcTGCCACCACAtcatcaccaccaccaccaccttCTGCCACACCACCATCTCTCAATGCATCAGCAACATGGACCATCGTCCACAACGCTGCTTAGCCAATTAGTTAATTCCACCTTCTCAAACTCGACTCCTCCCTCTCTACGTACAGATGCCATgctacagcagcaacaacagcagcaacaacatcatcatcaccaccagcaacagcagcagcaacacctgCACCATCACCAGCAGCCGCAACACTTGAGTGAACAACACGACAAGTCTGCTCATCACGACTCCTCATCAAGCGCCAGCACACCAAATCTTCACGATCAACGCTCCAACGATCCCgatcagcatcagcaacatcaCTCGCTATCGCTGAACGGCAGCGCACACAAATCGTCGCACGGCGCACCCTAcgaggacaacaacaacagcttaTGCGCCACGCCTACCGgtccaccaccgccgccgcatCACTTACCGCCCGGTTTTCTACCCGGTCTACCATTCCAATTTCAAGATCGCGGTCACTTCCGTTTCGCCGATGATCTCAATCTGCCGCCGGGCGCTTCAATGGCCGGCCGCCTGGGTGAATCCCTCATACCCAAAGGCGATCCCATGGAGGCCAAACTACAGGAAATGCTGCGCTACAACATGGACAAGTACGCCAATCAGGCGCTCGACACGCTGCATATATCGCGGCGCGTCCGTGAACTACTCTCGGTGCACAACATCGGCCAGCGACTGTTCGCCAAGTACATACTGGGTCTGTCGCAGGGCACCGTGTCGGAGTTGCTGTCCAAACCGAAACCGTGGGATAAGCTGACCGAGAAAGGACGCGACAGCTACCGCAAAATGCACGCGTGGGGATGCGATGATAACGCTGTGATGCTGCTCAAATCGCTGATACCGAAGAAAGACTCTGGACTTCCGCAGTATGGTGGCCGCAATGAGGACTCCCTGCCCGACGATCGTATCGCACACATACTCAACGAAGCATCGTCACTGATGAAAAATTCCACGCCTAATACTCTGCAGCAGCAAATCAAAGATGAACAACAACGTCAGTTCGAACGGCAAGagctgcaacagcagcacacaCAGCATCGACGCTCCGCACACGATGATTCGCATAGCAACGATGATGACTCCAAATCGCCACATCAACCATGCACGTCACCATTCTACAAGGAACAACTGAAGCAGCAACAAGAAGCTGTAGCCGCAGCAGCGGCacatcaccaacaacaacagcagcaacagcagcagcaacaacagcagcagcaacagcaacaacaacagcagcaacaacatcgcaTGCGTCAACAGGAGGAAATGACACAGGACAAGATGGCGCGTCTGTATCAGGAGATAATGGCGCGTGCACCACGCGAATCTGCTTTTCCAAGCTTTCTACTTTCGCCCTTTTTCAGCGCAGCTGGTGCCGCCGCCGGCATGCCACCAACCAACGCATTCCCTGCGGCAGCCGCAATCGCCGCCGATGAGAACATACGCTTGGCATTCGAACGTGAAATGCAGaaactgcaacaacagcaacagcagaccGTTGCCGGCAACATACCACATTTTCCCAATTTCTCCAGTCTAATGGCGCTGCAGCAGCAGGTGTTGAACGGTGCCCAGGATCTTTCACTCACCAAGGACGGTGCCGCAATCAAAGTCAATGGACAGCGTTCGTCGTTGGATCACTCCAACAATTCGATGGACTCGCAGCATGCCGGCAGCAATGCCAGCCAAAGTGGCGGTGGCGTCAATTCCAAAGAACTCGATGCAGATCGCCATTCGAGCAGCTTTCCCCTGCACGCACGCAAACCCGAGAGCAGTGGCAATATCACGCCGGCACCACCACCATCCAGCAATGCCTCGGCACAGAATAACAATTCTAATTCGGCTGCGCCAAGTCCACTCAGCAATTCCATACTACCGCCCGCAATGACCAACAACGATGATTTCTCAGCGGCCGCAAGTCCACTGCAGCGCATGGCATCGATTACCAACTCGCTGATTACACAGCCACCCGTGACGCCGCATCACTCGCAACCGCAGCGTCCGACAAAAGCCGTACTACCACCGATCACTCAGCAACAGTTTGATATGTTCAACAATCTCAACACCGAAGATATTGTGCGGCGCGTCAAAGAGGCGCTGTCGCAGTACTCCATTTCGCAGCGACTTTTCGGTGAGTCGGTGCTGGGTCTCTCGCAAGGCTCGGTCTCCGATTTGTTGGCTCGTCCCAAGCCCTGGCACATGCTGACGCAAAAGGGCCGCGAACCCTTCATACGCATGAAGATGTTCCTCGAGGACGAGAATGCCGTGCATAAACTCGTCGCCTCGCAGTATAAGATCGCGCCCGAGAAACTTATGCGCACCGGCAGCTACAGCGGCAGTCCACAAATACCGCAGGGACtggcaaataaaatgcaaGCCGCTGCACTGCCCATGCAAAAGATGATGAACGAACTGAAATTGCAAGAGCCCGGCCAGGCCCAACACATAATGCAGCAAATGCAAGCAGCGGCCGCAATGTCCGCGGCcatgcaacaacagcagcaacaacatgcgGCCGTAGCCGCAGCTCAACAGaatcaccagcagcagcaacagcatgCAGCTGCTGCGGCAGCAGCCGTACAGGCAGCACAAGCCGCAGCACAAGCACATCACCAAAGTATGTTGCTCACATCACCAGGACTACCGCCACAACACGCCATTAGTCTGCCGGCGGCGAATGCGGCAAGCAACGCCATTGGTACACCGGGTAGTGATAAGAAGCAGCCCATGATGATGCCCATACATTCACCGCATCAAGCTAATGCAATGCGACAGCTGCATCAACACATGTCACCCACGGTATACGAAATGGCAGCGCTCACACAAGATCTGGATACGCAGGTGATTACAACGAAGATCAAGGAAGCACTTCTGGCCAACAATATCGGACAGAAGATTTTCGGCGAAGCTGTGCTTGGGCTATCGCAAGGTTCTGTCTCAGAACTGCTGAGTAAACCGAAGCCTTGGCATATGCTCTCAATCAAGGGACGCGAACCCTTCATACGCATGCAACTGTGGCTCTCGGACGCCAACAATGTGGAGCGCCTGCAAGTCTTAAAGAACGAACGTCGCGAGGCAAGCAAACGGAGGCGTTCGACCGGTGGCCCTGGCGGCCAACAGGACAATAGTTCGGACACGTCTTCAAACGACACACAGGACTTTTACACCTCTAGTCCTGGTCCCGGTTCCGTAGGTTCATCGGGCGTAGGTGGTGCGCCGCCAAATAAGAAGCAACGCGTACTGTTCTCCGAAGAACAAAAGGAGGCTTTGCGACTGGCATTTGCTTTGGACCCCTACCCCAATGTTGGCACCATTGAATTTCTGGCCAACGAACTTGGACTCGCGACGCGCACCATCACCAACTGGTTCCACAATCACCGCATGCGCCTAAAGCAGCAAGTGCCGCATGGCCAACCACCAAGCGCAGACAACGCAATACCCTCACGCGAGAACACCAACGCAACACCTTTCGATCCCGTCCAGTTTCGGCTGTTGCTGCAGCAGCGTCTGCTTGAGCTGCACAAAGAGCGTATGGGCCTAGGCGGTGCCGGTCCCGCGCCAATACCATACCCACCGTACTTTGCCGCGGCGGCGCTACTCGGACGCAGTCTGGCGGGTATGCCAGGCGCTGGCGGTGTCGGCGTCGACGGCCAGCCTGATCTGCATGCACTCAATCAGGCATTTAAGGAGCAGATGAGCGGTCTCGACTTGACAATGGGCGCACTAAAGCGCGAACGTTCCGACGATTTCGATGACGAACTTGATGAGAGCCATTTGAGCGATTCCGAGTCGGTGGATGGCGGTGACGCAAGCACCGACATTGGTGGCGAATACAAGGACGCACAGCGTGCCGCtctggcagcagcagctgcggcCGCAGGCTATCTGGCTGCACGCAGCGGCGGCATGGGCGGCGGCATGAGCGGCGGCGGAAGTAGTTCACGTCGCAAACCCGCCGCCCCACAGTGGGTTAATCCAGCGGGCGCAACAAATCCAAATGTGCCGGCGTTAGGcgatgccgccgccgctgccgcagcagcagctgaaCGCATTATTAACGGCGTTTGTGTAATGCAATCGCAGGCGTCTGACTTTAGTCGACGCGAAGGCGAAGAATCGGCCGAGACGCAAGCAGACGATGCGGAAAAAGAAGCGACTGCAGCATCTGACGACGCTGAGGCAGAACACGAACACGCGCATTTGGAAATCGATCAACGCTTTATGGAGCCCGAGGTGCGCATCAAACAGGAAGAGGACGACGACTGCGAGAGTGAGATGGAAACGCGTGGCGAAAATATGAGCGCGTCCGCGCAACAGCAACACGACGAACAAATCAAGCTTGTGGGCGACGAGAAGTTGCGCATGGTGCGCGTCAGTCGACTCAGTAACGAGGAGGAGGCGCCGGCGACCGCATGGAATTATTAA
Protein Sequence: MQTLCQEFLTFETKRDVKDIKALIEEVQRLRTLEQTHIVQIHRLEEHLEAKRQHIMRLEACLDKQQINAALSETTAATSTPTAATVAATPADNDADDDDEQNEEAADVIEKDNTTNINVNAHSMDVDAMENVADNFANKECENLSLTTAAIGEIKIKKENQSPLDMDAISQQSAIAAAAAAAAACANDPNKFQELLLERTKALAAAEALKSTEETATVAGNEDDFDNEVEKHETAVATATENKTITAAAATEDLEQELPKVPKIEIVDDDDECVESVVDNANAAATATAAATPSMPTIDVDELDDRKSKSPLPVDDDDDDDERDDVAETNVADASSSFKENVAHFGSLLGEELVNTYWRRGFELPSSSSVGAATTTAAAAAATAAASGTKTPTIFQNANASQMLLPAALQPQPLPLLPATTVSTTTATTAAAVHQHQQQQQQQQQQQHQHLPPHHHHHHHLLPHHHLSMHQQHGPSSTTLLSQLVNSTFSNSTPPSLRTDAMLQQQQQQQQHHHHHQQQQQQHLHHHQQPQHLSEQHDKSAHHDSSSSASTPNLHDQRSNDPDQHQQHHSLSLNGSAHKSSHGAPYEDNNNSLCATPTGPPPPPHHLPPGFLPGLPFQFQDRGHFRFADDLNLPPGASMAGRLGESLIPKGDPMEAKLQEMLRYNMDKYANQALDTLHISRRVRELLSVHNIGQRLFAKYILGLSQGTVSELLSKPKPWDKLTEKGRDSYRKMHAWGCDDNAVMLLKSLIPKKDSGLPQYGGRNEDSLPDDRIAHILNEASSLMKNSTPNTLQQQIKDEQQRQFERQELQQQHTQHRRSAHDDSHSNDDDSKSPHQPCTSPFYKEQLKQQQEAVAAAAAHHQQQQQQQQQQQQQQQQQQQQQQQHRMRQQEEMTQDKMARLYQEIMARAPRESAFPSFLLSPFFSAAGAAAGMPPTNAFPAAAAIAADENIRLAFEREMQKLQQQQQQTVAGNIPHFPNFSSLMALQQQVLNGAQDLSLTKDGAAIKVNGQRSSLDHSNNSMDSQHAGSNASQSGGGVNSKELDADRHSSSFPLHARKPESSGNITPAPPPSSNASAQNNNSNSAAPSPLSNSILPPAMTNNDDFSAAASPLQRMASITNSLITQPPVTPHHSQPQRPTKAVLPPITQQQFDMFNNLNTEDIVRRVKEALSQYSISQRLFGESVLGLSQGSVSDLLARPKPWHMLTQKGREPFIRMKMFLEDENAVHKLVASQYKIAPEKLMRTGSYSGSPQIPQGLANKMQAAALPMQKMMNELKLQEPGQAQHIMQQMQAAAAMSAAMQQQQQQHAAVAAAQQNHQQQQQHAAAAAAAVQAAQAAAQAHHQSMLLTSPGLPPQHAISLPAANAASNAIGTPGSDKKQPMMMPIHSPHQANAMRQLHQHMSPTVYEMAALTQDLDTQVITTKIKEALLANNIGQKIFGEAVLGLSQGSVSELLSKPKPWHMLSIKGREPFIRMQLWLSDANNVERLQVLKNERREASKRRRSTGGPGGQQDNSSDTSSNDTQDFYTSSPGPGSVGSSGVGGAPPNKKQRVLFSEEQKEALRLAFALDPYPNVGTIEFLANELGLATRTITNWFHNHRMRLKQQVPHGQPPSADNAIPSRENTNATPFDPVQFRLLLQQRLLELHKERMGLGGAGPAPIPYPPYFAAAALLGRSLAGMPGAGGVGVDGQPDLHALNQAFKEQMSGLDLTMGALKRERSDDFDDELDESHLSDSESVDGGDASTDIGGEYKDAQRAALAAAAAAAGYLAARSGGMGGGMSGGGSSSRRKPAAPQWVNPAGATNPNVPALGDAAAAAAAAAERIINGVCVMQSQASDFSRREGEESAETQADDAEKEATAASDDAEAEHEHAHLEIDQRFMEPEVRIKQEEDDDCESEMETRGENMSASAQQQHDEQIKLVGDEKLRMVRVSRLSNEEEAPATAWNY

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_01378281;
90% Identity: iTF_01378281;
80% Identity: iTF_01378281;