Aio016668.1


Basic Information
Transcription Factor Domain
Sequence Information
Similer Transcription Factors

Basic Information

Insect
Automeris io
Gene Symbol
Znf711
Assembly
GCA_036320925.1
Location
JAUDJH010000017.1:6219147-6233929[-]

Transcription Factor Domain

TF Family
zf-C2H2
Domain
zf-C2H2 domain
PFAM
PF00096
TF Group
Zinc-Coordinating Group
Description
The C2H2 zinc finger is the classical zinc finger domain. The two conserved cysteines and histidines co-ordinate a zinc ion. The following pattern describes the zinc finger. #-X-C-X(1-5)-C-X3-#-X5-#-X2-H-X(3-6)-[H/C] Where X can be any amino acid, and numbers in brackets indicate the number of residues. The positions marked # are those that are important for the stable fold of the zinc finger. The final position can be either his or cys. The C2H2 zinc finger is composed of two short beta strands followed by an alpha helix. The amino terminal part of the helix binds the major groove in DNA binding zinc fingers. The accepted consensus binding sequence for Sp1 is usually defined by the asymmetric hexanucleotide core GGGCGG but this sequence does not include, among others, the GAG (=CTC) repeat that constitutes a high-affinity site for Sp1 binding to the wt1 promoter [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 10 0.00019 0.014 16.5 2.2 1 23 358 380 358 380 0.99
2 10 0.011 0.81 11.0 2.9 2 23 388 409 388 409 0.98
3 10 0.078 5.9 8.2 2.9 1 23 443 465 443 465 0.96
4 10 9.5e-06 0.00072 20.5 1.9 2 23 470 491 469 491 0.96
5 10 0.15 11 7.4 0.2 3 23 499 519 497 519 0.96
6 10 0.0063 0.48 11.7 3.0 2 21 526 545 525 550 0.93
7 10 0.0057 0.44 11.8 0.1 1 23 558 581 558 581 0.91
8 10 0.15 12 7.3 0.2 2 23 588 612 587 612 0.90
9 10 4.4e-06 0.00033 21.6 4.7 1 23 621 643 621 643 0.98
10 10 0.06 4.5 8.6 0.3 1 23 649 672 649 672 0.93

Sequence Information

Coding Sequence
atgaatTTAGATGTAAATCAAATATCTGTAACTTCTGTATGTTCTGGTTGTTTAAGTGCAGACAGACAGCTAACGGAACTGACAAGCGAAAGCAAAGAGGTTTATTTCAAACTACTAGATTCTTTCgAGTGTACAGTCCATGAGGTGCTATTGTGCTGGGAATGCACTGCTTTGTTAGGTCGATTGCACAACTTTCAAAGACAAGTTCAGACAGCCCACAACTACCTCCATCATCACACTCTAAACCAGACATCACTGTCaagattaaaaataagtaaaattgaAACATGCAATATTGTACACAGCCCTGAAGACTCCATTTCAACTCAAAGTTCAACAAGATCTAAAAACAAGGAGGAATTTGCAATTATACTCAATCATGACAtgtttaacaattttaaatatgaaattaatgttAACAAATATACCTTAGAATCAAATAATGTAACAAATAATAGTTTCGATTATCAATCATCAAATACAATAGTATCAAAGAAAACAAATGAGTTGAGACATTATCTACCTGATGAAAAGAATGCCTCAAATGATCGAATCCATGTAAATGGCTCAAAATTGGAGTCAGACAGTGACAGGTCTAAAGATATTGCACTATTGACATTTATCAAGGTAGAGGAATCAGAAAATGATAATTTCAACGATGAATCTCTAAGTTATAATGGAGATAATGGTTTTGAAATGGTTGAATTTGAAGATAAACAATTTGAGGATGATAAATTAACTATAGAAAATGATGGAACAGTTAAAGACAATGGAACACAACATAAGACTGATTTAGATGACTTTAATGATTCCGATGATGAGCCTCTAAAGAAGAAACAGCTAGAGAAGAAATGCAAGCGACGGAAGAAGAAAGAGCGCGATGTGACCCAAGGCGTTAAGAAAAGTAGACGAGAGAAGCCAGCCGGCGTCGTCAACAACCCGAGGGTCGCCAAGAAGCTCCAGAAGCTGAACGTGCCGAGTGGACTGCTGGAGATGGTCGTGCTCTCTTGGGAGGAAGTAGAAGAGGAGCGGCAGAGAGCGCTGCACAGCCCGACGTACACACGGCACGAGTACCGGTGTAGTGACTGCGCGCTCGGCTTCAACCATCGCGTCAAACTGGAGAACCACATGAAGAAACACGACCCGGCGAGCGGGCCGGCGCAGTGCAGCGTGTGCCGGGTTCGATGTCGGGACGCACACGCGCTGGCGGCACACCGCAGGAGGCATCGCGTCAGATGGTCGTGCTGCCGCTGTGGGGGCAGGTGGTCGCGCGCGGGGGTTGCTGCGGACCACGCGGCGCGCGCTCACGGAGCTCCGCCTCCGCAACACGCCTGCCCGCACTGCACGCACCAGGCGCCGACACTGGCCAAGCTGCGGAACCACCTGAAGGTTCACAGTGAGCGCCAGAAGTGCCAGCTCTGCGGGAAGACCTTCAGAGACAGGACCTCGTTGCGTACGCACCTCTTCATCCACGACGGAGAGAAGGAGTACGGATGCCCGCGCTGCCCGAAGCGGTTCCTGTTCAAGAAGGCGATGGAGGTTCACCTCGTCACTCACTTGGCGCCTGCGCTGCTCTACTGCCACCAGTGTGATATGAACTTCAAGAATCAAATGTCGTACTACCAGCATATGAAATACAACTTGAAGCACATCGACCCCGCCAAGCTAAAGTTCGCCTGTCAGCTGTGCGACAAGAAGTTCGTGAAGGCGGCGCGCCTCGAGGAGCACAAGCTGGCCGTGCACCTGAAGTCAACTCCAATACAGTGCGCGGCGCCGGGCTGCAACTTTGCATGCTCGTCGCGGCCAGTGCTGCGCACGCACACACGCATGGTGCACCGCAACGGACGCGCGCAGAGAAACCATGTTTGTCACACCTGCGGGAAGACTTACACCACTAAGAAGACCTTGGAAGGTCACATCAGGACACACACCGGCGAGCGGCCCTTCCAGTGTAGCCAATGCCCCTCGACCTTCGGGTACGAGGCGGCTCTTTACAACCACAACAAGCTGGTGCACCTCAAACCCAAGATTGGGCGGGGCCGTGACCTGACTAACCCAACCATCCCTACCCAGCCACCCGTCACGCTCGCCGTCCCTTCCACGGTCGCATTAACTGCGCATGCTGACGCTACCGCCGTCACTGCGTTCTACTGA
Protein Sequence
MNLDVNQISVTSVCSGCLSADRQLTELTSESKEVYFKLLDSFECTVHEVLLCWECTALLGRLHNFQRQVQTAHNYLHHHTLNQTSLSRLKISKIETCNIVHSPEDSISTQSSTRSKNKEEFAIILNHDMFNNFKYEINVNKYTLESNNVTNNSFDYQSSNTIVSKKTNELRHYLPDEKNASNDRIHVNGSKLESDSDRSKDIALLTFIKVEESENDNFNDESLSYNGDNGFEMVEFEDKQFEDDKLTIENDGTVKDNGTQHKTDLDDFNDSDDEPLKKKQLEKKCKRRKKKERDVTQGVKKSRREKPAGVVNNPRVAKKLQKLNVPSGLLEMVVLSWEEVEEERQRALHSPTYTRHEYRCSDCALGFNHRVKLENHMKKHDPASGPAQCSVCRVRCRDAHALAAHRRRHRVRWSCCRCGGRWSRAGVAADHAARAHGAPPPQHACPHCTHQAPTLAKLRNHLKVHSERQKCQLCGKTFRDRTSLRTHLFIHDGEKEYGCPRCPKRFLFKKAMEVHLVTHLAPALLYCHQCDMNFKNQMSYYQHMKYNLKHIDPAKLKFACQLCDKKFVKAARLEEHKLAVHLKSTPIQCAAPGCNFACSSRPVLRTHTRMVHRNGRAQRNHVCHTCGKTYTTKKTLEGHIRTHTGERPFQCSQCPSTFGYEAALYNHNKLVHLKPKIGRGRDLTNPTIPTQPPVTLAVPSTVALTAHADATAVTAFY

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity
-
90% Identity
-
80% Identity
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