Efor018282.1


Basic Information
Transcription Factor Domain
Sequence Information
Similer Transcription Factors

Basic Information

Insect
Encarsia formosa
Gene Symbol
stc
Assembly
GCA_030522645.1
Location
JAPYYY010006798.1:1247-9454[+]

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 17 0.95 6.1e+04 -4.0 1.6 15 19 299 303 298 303 0.81
2 17 0.056 3.5e+03 -0.1 0.1 4 10 332 338 331 339 0.94
3 17 6.4e-07 0.04 15.7 11.2 4 18 349 363 347 364 0.93
4 17 0.79 5e+04 -3.8 2.7 1 7 373 383 371 384 0.70
5 17 0.87 5.5e+04 -3.9 1.0 6 10 390 394 390 394 0.96
6 17 1.6e-07 0.01 17.6 15.5 1 18 400 417 400 418 0.98
7 17 0.12 7.8e+03 -1.2 1.1 1 10 427 436 427 436 0.81
8 17 1.6e-06 0.099 14.4 12.3 1 18 456 474 456 475 0.97
9 17 0.42 2.7e+04 -2.9 0.7 5 10 504 509 504 509 0.94
10 17 2.7e-05 1.7 10.5 12.8 4 18 522 536 515 537 0.86
11 17 0.63 4e+04 -3.5 2.0 5 10 566 571 566 571 0.93
12 17 0.0058 3.7e+02 3.0 11.3 1 11 577 587 577 599 0.88
13 17 2.8e-11 1.8e-06 29.6 14.0 1 19 604 622 604 622 0.98
14 17 1 6.4e+04 -4.3 1.8 15 18 651 655 650 656 0.51
15 17 1 6.4e+04 -5.4 8.5 10 19 669 679 661 679 0.74
16 17 3e-08 0.0019 19.9 13.6 1 16 715 730 715 741 0.86
17 17 1 6.4e+04 -6.3 12.8 4 18 749 764 747 765 0.84

Sequence Information

Coding Sequence
atggcCACTTGGGATGGTTCATATCCAGAACCAGATGGGTCTAATTACTATGTTAACTCATATGGAAATCATACATCTGCCAATGTTCCATCATGTGATTACTTTCTTGGGAATTCCAATGATGCATTTTCACAAAATGCAACACCTTTTACAATCAACACTTCCATGGTTTTTAACCAGAGCACACCTAATTACTATGATCCTGTACTGAGAAATGGAATTTCGTCTGTGATGCCTAATGTAGCGCCAACAAATGTCTATACCAATCCAAGAGACAGAAAAAGTCATTACAGTGATTATAGTAGTTATAGCAGAAATAATTATAGTAGGGGTGATAATAAAAGTAACTTCAACAGGGATGATAATGGACACAATAGAAGTAACTACAACAGAGATGATAATGGACACAATAGAAGTAACTACAACAGGGATGATACTAGACATAATAGAAGTAACTATAGCAGGGATGATAGTGAACACAATAGAAATAACTACAGCAGGAATGAAGGTGGACATAATAGAAATGATTACAATAAAGATGACAGTGGACCAAACAAAAGTAATcccaataaatttgaaaaaagagaaaacagaAATTTTGTGGAAAATCGTTGTAAAGATATAATTGACTGGAGACAGAAATCAAGtacaactgaaaataaaaattctttactaAAACGTCCTTATCACAAAAAGTATGAACCAGatGATGATGCTTGCCAAAAAGAAAGATTAACAGAGCTTTTAAACCGGGGACAATTGGAATGCTTAGTATGTTGTGAATCAATACGTCAAATGGATTATACTTGGtcttgtaaaaattgttttcatgttttgcatttaaaatgtgtaaaaaaatggGCTACTTCATCACAAGATGATGCTGGTTGGCGTTGTCCTGCTTGCCAGAACGTAACTTCCGAAGTACCCTTAGATTATTTGTGCTTCTGTGGTAAGATTAAGACGCCAGAATGGAATCGTCGAGATACTGCTCACTCATGCGGCGAAATTTGTGGTCGATCGCGATCGGAATTAGGATGCGTTCACAAATGTACACTTCTTTGCCACCCAGgaTCTTGTTCTCCTTGTTTAGCCATGGTAACAAAATTCTGTGGCTGCGGGCGTACTTCAAAAACTCACAAATGTAGTGCTGGACCAATGCTATTGTGCGAGGATGTTTGTGATAAAATTCTCAATTGCGGAGTTCACAAATGCAATgccaaatgtCATCATGGTAGTTGCAACCCATGtgataaaatcataaaacaagAGTGTTACTGCGGAAAACATAGTCGAGAAGCGACTTGCATTTTGGACTTACCAACAAAGTATTCATGTGGAAATGTGTGCGACAAGAATTTAGACTGCGGTAACCATAAGTGCACTGATATTTGCCATGGTCCAGACAATTGCAAACCTTGCTTATTAAAACCCGAGTGTATTACACATTGCTGCTGTGGACAGTCTCCACTGACTAGTACAAGAAAAAGCTGTCTGGACCCTATTCCTACCTGTGATAAAATTTGCAATAAACGTTTAAAATGTGGTCAACCaagTAATCCTCATATATGCAAAAAAAACTGCCATGAAGGTGACTGTCCCGAATGTGAGCTCACTACAAAAGTAAAATGTCGTTGCGGGTACATGGACAAGGAAATCGCTTGCCGAGAATTGACTAGTAAAGCTGATGATGCTCgatgtgaaaaaaaatgcacaaaaaAACGTTCTTGCGGAAAACATAAATGCAATCAAATGTGCTGTATTGATATTGAGCATATTTGTCCTCTTCcttgttctaaaaatttaagctgTGGTAGACACAAATGTGAGCAAACTTGTCACAAAGGGAGATGTCAACCATGTTGGCGTAGCAGTTTTGATGAACTTTATTGTGAATGCGGTGCCGCCGTTATTTACCCTCCCGTAGCGTGTGGTACTCGCCCTCCACCTTGTGATAAGCCTTGCTCTCGACCTAGACCGTGTGGTCACGAGGTATTACATAACTGCCATAGTGATGCGACTTGTCCACCATGTACCGTCCTTACTCAAAAGTGGTGTTATGGCAAACACGAGTTGCGCAAAGCTGTGCCCTGTTATGTCATTGAAGTTTCGTGCGGACTCCCATGCTGCAAGCCAATTTCCTGTGGCAGGCACAAATGCATACAAATatgtCACTCTGGACCATGTGAAAAGCCCAATCAGGTGTGTGTGCAGCCATGTACAGTGATCAGAGAGTCGTGCGACCATATATGTGGAGCTCCATGTCACGAGAAATGTCCTGACACTCCATGCAAAGAGACCGTTAAGGTAACGTGTCAATGTGGACACAGAACAATGACTCGGATGTGCGCGGAAAATGCTCGGGATTATCAACGGATTGCCAGTGGATTTTTAGCTAGTAAAATGGCAGAGATGCAACTTGGTCATTCAGTTGATCTTGAAGAAGTTTTTGGTCAAGGTTCTAGAAAGCAAAACCAATTAAAAACGCTCGAATGCAATGAAGAATGCAAAATGATCGAAAGAAATCGTCGACTGACATTGGGTCTGCAAATCGTCAATCCTGACTTGAGCGGAAAACTACTGCCTAAATACAGTGAATTTATGAAACAGTGGGGCAAGAAAGAcccaattttttgtcaaatgaTTCATGATAAACTGACTGAACTGGTTCAGCTAGCTAAAACCTCAAAGCAAAAATCGCGAAGTTATTCATTTGAAAGTATGAACAGAGATAAAAGAACGTTTGTTCACGAACTGTGCGAACATTTTGGTTGCGAGAGCCAGGCATACGATCAAGAGCCGAAGCGTAATATTGTAGCTACTGCCGTAAAAGACAAGtGTTGGTTACCTAGTTATAGTTTAATGGAACTATTACAAAGAGAAAGTGGTCAACGAAAAGTTCCACGGCCAATGTTGAATATGACAAAACTGAATAGCACTGagaggaaTCTAGATTCTTTGCaattaaactctaaaaaaaatttaaaacctcaATCTACAACCTCATCAACTCCGCCAAAATCTCCTGAACCTGaaatagattattttaattacaaaggTTGA
Protein Sequence
MATWDGSYPEPDGSNYYVNSYGNHTSANVPSCDYFLGNSNDAFSQNATPFTINTSMVFNQSTPNYYDPVLRNGISSVMPNVAPTNVYTNPRDRKSHYSDYSSYSRNNYSRGDNKSNFNRDDNGHNRSNYNRDDNGHNRSNYNRDDTRHNRSNYSRDDSEHNRNNYSRNEGGHNRNDYNKDDSGPNKSNPNKFEKRENRNFVENRCKDIIDWRQKSSTTENKNSLLKRPYHKKYEPDDDACQKERLTELLNRGQLECLVCCESIRQMDYTWSCKNCFHVLHLKCVKKWATSSQDDAGWRCPACQNVTSEVPLDYLCFCGKIKTPEWNRRDTAHSCGEICGRSRSELGCVHKCTLLCHPGSCSPCLAMVTKFCGCGRTSKTHKCSAGPMLLCEDVCDKILNCGVHKCNAKCHHGSCNPCDKIIKQECYCGKHSREATCILDLPTKYSCGNVCDKNLDCGNHKCTDICHGPDNCKPCLLKPECITHCCCGQSPLTSTRKSCLDPIPTCDKICNKRLKCGQPSNPHICKKNCHEGDCPECELTTKVKCRCGYMDKEIACRELTSKADDARCEKKCTKKRSCGKHKCNQMCCIDIEHICPLPCSKNLSCGRHKCEQTCHKGRCQPCWRSSFDELYCECGAAVIYPPVACGTRPPPCDKPCSRPRPCGHEVLHNCHSDATCPPCTVLTQKWCYGKHELRKAVPCYVIEVSCGLPCCKPISCGRHKCIQICHSGPCEKPNQVCVQPCTVIRESCDHICGAPCHEKCPDTPCKETVKVTCQCGHRTMTRMCAENARDYQRIASGFLASKMAEMQLGHSVDLEEVFGQGSRKQNQLKTLECNEECKMIERNRRLTLGLQIVNPDLSGKLLPKYSEFMKQWGKKDPIFCQMIHDKLTELVQLAKTSKQKSRSYSFESMNRDKRTFVHELCEHFGCESQAYDQEPKRNIVATAVKDKCWLPSYSLMELLQRESGQRKVPRPMLNMTKLNSTERNLDSLQLNSKKNLKPQSTTSSTPPKSPEPEIDYFNYKG

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity
-
90% Identity
-
80% Identity
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