Lfer012605.1


Basic Information
Transcription Factor Domain
Sequence Information
Similer Transcription Factors

Basic Information

Insect
Luffia ferchaultella
Gene Symbol
stc
Assembly
GCA_949709985.1
Location
OX453250.1:21466207-21488753[-]

Transcription Factor Domain

TF Family
zf-NF-X1
Domain
zf-NF-X1 domain
PFAM
PF01422
TF Group
Zinc-Coordinating Group
Description
This domain is presumed to be a zinc binding domain. The following pattern describes the zinc finger. C-X(1-6)-H-X-C-X3-C(H/C)-X(3-4)-(H/C)-X(1-10)-C Where X can be any amino acid, and numbers in brackets indicate the number of residues. Two position can be either his or cys. This family includes Swiss:P40798, Swiss:Q12986 and Swiss:P53971. The zinc fingers in Swiss:Q12986 bind to DNA [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 13 0.61 9.9e+03 -2.5 0.6 14 19 379 384 374 384 0.72
2 13 0.048 7.7e+02 1.1 1.5 2 10 412 420 412 420 0.92
3 13 3.3e-05 0.54 11.2 18.1 4 19 428 443 426 443 0.93
4 13 1.6e-07 0.0025 18.6 11.8 1 19 479 497 479 497 0.97
5 13 4.3e-05 0.7 10.8 14.6 1 19 538 556 538 556 0.98
6 13 1.5e-05 0.24 12.3 12.9 1 19 597 619 597 619 0.88
7 13 0.00045 7.3 7.5 7.1 1 11 659 669 659 670 0.95
8 13 0.057 9.2e+02 0.8 2.3 4 10 674 680 673 680 0.94
9 13 3e-06 0.048 14.5 14.0 3 19 688 704 686 704 0.92
10 13 2 3.2e+04 -5.0 1.3 6 10 733 737 732 737 0.61
11 13 0.069 1.1e+03 0.6 17.5 1 18 743 759 743 760 0.81
12 13 2.5e-07 0.0041 17.9 10.0 1 17 796 814 796 820 0.84
13 13 0.0087 1.4e+02 3.4 9.5 1 14 826 838 826 850 0.82

Sequence Information

Coding Sequence
ATGTCCGAGTGGAGTAATAGTTACGAATACAATTCCAGGCAGTATACTCAGCCCAGTACGTGGTCTAATGATCCCAATAGCCAGTACTCCAACCAAAGTGCCAATTTCTATAACCCCAATAGACCCCAATATGTTAATTTTGACGAGTTCCTTAGTCAAATGCAAAGCAGTGCTACTCCACAACCCAGTGGTAGCCTTTATAACAATAcacattttcaaaactatccaATAAATCAATATAACTATGTGAATTTACCAGCTCCATCTCAAAATTTGAATCAGAATATGTTTGAATATGGCCCAAATCCACCCACTAATGGCTCTAGTGCCACATCTTACGCAAGAAATCAACAAGGCCAATATAATGGAACAAGTAATCCTCAGATTAGCAATACCTACACAAGCAACAGGTACCCTAATTCAACATTGACACCAACGGCAATGGAATTTGTGCCGAAGGCACCTCTTCAACCTCATAGTAGTTATAATGCTACCACTTCAATACCACTCCAACAACCTCATAGCAGTTACAGTACTACAGTCCCTAATGAAGTGTGTGCTGAGAATAGAAAATATTCAGGACAAAATGACCAAGTGCAACATCCAGAAGCAAATGATAGATACAACTGGAAGCCAAAGTCTAAGAGTAACACCAAAGAGCCTGACGCCGGGCTTGTCTTTTACAACAGTTCATTAAACAAAGGCAGTCAGGATGTAAGAAATGGTGGTAAAAGTGCACCACATTATGCAAATAAACAGAAATCTTGGATGGGCACGCCAAGGTTGCGTGCAATGGATCGTAATAGTGCTGATGATGAACAGTTTGCCAACACTTATGTGCAGTACAAAGAGGAACGACAAGAAAAGCCTGCTACCAAAACTCAAGAGATGTCAAGTCCCAATCGAACTCGCAACAAGACTATAAATGCACCAGAACAATCAGCAGGTGGCACGGAAATGACTCAACGTGAACGACTCAGTGAGCAGTTAGATAAAGGAACATTGGAATGCCTTGTATGTTGTGAACGTGTGAAACAAACAGAGACAGTATGGTCATGTAGCAACTGCTATCACGTACTGCATCTGCGCTGTATACGGAAATGGGCGATCAGCAGCATGCACGagGGCAAGTGGCGATGTCCTGCGTGTCAGAACCCAAACTCAGACATTCCAACCGAGTACCGCTGTATGTGCGGAGCCGTCCGTTCGCCTGAGTGGCAACGTGGATCAGCGGGGGCTCACACTTGTGGCCGGTCATGTCGGCGCCCGAGACAGTGCCCGCATCCATGCACTTTGCTGTGCCACCCTGGGCCATGTCCACCATGCCAAGCTACTGTGCAAAAACAGTGTGGATGTGGAGCAGAAACTCGTTCAGTACAGTGTAGCAGCAAAGTGGCACAAGTATGTGGACGCGTTTGCGGGCGCACTCTGACCTGCGGAGCACACTTCTGCACACAGACTTGTCACGAGGGCCCTTGTGAGGATTGCAAGAAGATACTCACACAAGTATGCTACTGCCCCGCTTCGAAATCGCGAGAAGTGCTTTGCGGGCCAGATACAGCGGGATGCGATAGCTGGGCGTGCGGGGATGTTTGCGGGAGGGTGTTAGCCTGCGGCTCGCATGTTTGCCGCAACATATGCCACCCGCCGCCATGTGAACCCTGCAAATTACTGCCGGATACCGTAGAAACTTGCCCGTGTGGAAAGATGCAaTTAGAAAAGGATAAACGTAAATCGTGCACGGATCCTATTCCGCTGTGTGGAAACATTTGTGCAAAACTATTATCATGTGGACCTACCGGTGACCGCCATTTCTGTACACAGGAATGCCATCAAGGAAATTGCCCAGTTTGTCCCGAAAAGACACTACTGCCGTGCCGTTGCGGCCATTCAAGCAAAGAAGTGCCTTGTGCCGACCTCCCTGAAATGATTGATAACATATTCTGtaaaaagaaatgtaataaGAAATTATCGTGTGGCCGCCACCGCTGTCGCGAGTTGTGCTGCGCGTTGGATACCCATCGTTGCCGACAGGTGTGCGGACGTATGTTGTCTTGTCAACTACATCGTTGTGAAGAGTTTTGTCATACGGGTCACTGTCCGGTGTGTCCGCGTGTCAGTTTCACGGAGCTGACTTGTGAATGTGGTGCTGAGGTGCTACTGCCCCCTGTGCGATGTGGCGCTCGGCCTCCACCGTGTTCGGCGCCATGTCGCCGCTCGCGCCCCTGTGGCCATCCGCCGCATCACTCGTGTCACTCTGGCGAGTGCCCGCCCTGCGTGGTCCTCACTGCGAAACGGTGTCATGGCGACCACGAAGAGAGGAAAACGATCCCGTGCTCTCAAGAGGAATTTTCATGTGGTCTACCTTGCGGAAAACCTTTGCCATGTGGCAAGCATAACTGTATCAAGATTTGCCACAAAGGGATTTGCGACACTGAAAGATGCACCCAACCTTGCATGGAGAAGCGGCCTAGTTGCGGACACCCTTGTGGCGCGGCGTGCCACACTGGAGAGGACAGTTCAGTGTGTCCCTCAAACGTGCCCTGCCGTCGTGCCGTGCGCGTCACCTGTGCCTGCGGTCGGCGCAGCCTTGAACGTGCCTGCGCGGACAACGCCAGGGATTACGCCAAaaTGCTGAGTAACCTGGTTATGAGCAAAATGCAAGAAGGCGGTTCCGTGGACGTAGGAGATGTATCCCGACCGGGCTCTCATCTTAAAACTTTGGAGTGCGACGATGAGTGCCGTGTCGAAGCCCGTACCCGTCAGATGGCGCTCGCGCTGCAGATTCGTAACCCCGACGTGTCGTCAAAGCTTGCTCCCCGATACAGCGAGCATGTCCGTCAATGGACGGTGCGTGATCCGCCTTTCGCTCAGCACGTGCACGACAAATTAACGGACCTAGTGCAGCTGGCTAAGAAGTCGAAACAGAAAACCCGTTCACACTCATTCCCATCGATGAACTGGCAAAAGCGACAGTTCATACACGAGATGTGCGAGCATTTCGGATGCGAGAGCGTGGCCTATGACGCAGAGCCTAACCGCAACGTAGTCGCTACTGCGGATAAGGAAAAGTCGTGGCTGCCGGCCATGAGCGTGATGGAGGTGCTGGCACGCGAAACGGGCAAACGACGCGTACCTGGCCCCATAATGCGTGCGCCTTCGCAAGGAGCTAATGCCGCCTCAACAAACGCAATGCACGGCACCGGTGACAATAAacctTCTGGCTGGGCGACCCTGACCTCATCAACGTGGGCAGCGCGCAGCAAACCAAAATCGCTAGAACAAAAACCTCCTGTTATAGACTACTTCGACAACCCACCAGATAACTGA
Protein Sequence
MSEWSNSYEYNSRQYTQPSTWSNDPNSQYSNQSANFYNPNRPQYVNFDEFLSQMQSSATPQPSGSLYNNTHFQNYPINQYNYVNLPAPSQNLNQNMFEYGPNPPTNGSSATSYARNQQGQYNGTSNPQISNTYTSNRYPNSTLTPTAMEFVPKAPLQPHSSYNATTSIPLQQPHSSYSTTVPNEVCAENRKYSGQNDQVQHPEANDRYNWKPKSKSNTKEPDAGLVFYNSSLNKGSQDVRNGGKSAPHYANKQKSWMGTPRLRAMDRNSADDEQFANTYVQYKEERQEKPATKTQEMSSPNRTRNKTINAPEQSAGGTEMTQRERLSEQLDKGTLECLVCCERVKQTETVWSCSNCYHVLHLRCIRKWAISSMHEGKWRCPACQNPNSDIPTEYRCMCGAVRSPEWQRGSAGAHTCGRSCRRPRQCPHPCTLLCHPGPCPPCQATVQKQCGCGAETRSVQCSSKVAQVCGRVCGRTLTCGAHFCTQTCHEGPCEDCKKILTQVCYCPASKSREVLCGPDTAGCDSWACGDVCGRVLACGSHVCRNICHPPPCEPCKLLPDTVETCPCGKMQLEKDKRKSCTDPIPLCGNICAKLLSCGPTGDRHFCTQECHQGNCPVCPEKTLLPCRCGHSSKEVPCADLPEMIDNIFCKKKCNKKLSCGRHRCRELCCALDTHRCRQVCGRMLSCQLHRCEEFCHTGHCPVCPRVSFTELTCECGAEVLLPPVRCGARPPPCSAPCRRSRPCGHPPHHSCHSGECPPCVVLTAKRCHGDHEERKTIPCSQEEFSCGLPCGKPLPCGKHNCIKICHKGICDTERCTQPCMEKRPSCGHPCGAACHTGEDSSVCPSNVPCRRAVRVTCACGRRSLERACADNARDYAKMLSNLVMSKMQEGGSVDVGDVSRPGSHLKTLECDDECRVEARTRQMALALQIRNPDVSSKLAPRYSEHVRQWTVRDPPFAQHVHDKLTDLVQLAKKSKQKTRSHSFPSMNWQKRQFIHEMCEHFGCESVAYDAEPNRNVVATADKEKSWLPAMSVMEVLARETGKRRVPGPIMRAPSQGANAASTNAMHGTGDNKPSGWATLTSSTWAARSKPKSLEQKPPVIDYFDNPPDN

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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