Basic Information

Insect: Leptidea sinapis
Gene Symbol: -
Assembly: GCA_905404315.1
Location: FR990153.1:2407080-2419566[+]

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 5 0.00067 0.091 14.4 1.1 3 23 74 95 73 95 0.98

2 5 0.32 43 6.0 0.1 1 21 132 152 132 153 0.94

3 5 0.11 15 7.4 1.9 1 23 515 538 515 538 0.97

4 5 1.3 1.8e+02 4.0 0.5 2 21 581 599 581 600 0.93

5 5 0.0024 0.33 12.6 0.3 2 22 2963 2983 2962 2986 0.90

#	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	5	0.00067	0.091	14.4	1.1	3	23	74	95	73	95	0.98
2	5	0.32	43	6.0	0.1	1	21	132	152	132	153	0.94
3	5	0.11	15	7.4	1.9	1	23	515	538	515	538	0.97
4	5	1.3	1.8e+02	4.0	0.5	2	21	581	599	581	600	0.93
5	5	0.0024	0.33	12.6	0.3	2	22	2963	2983	2962	2986	0.90

Sequence Information

Coding Sequence: ATGAGCACGGTTGATGATGACGTATCGCCTGGCATAAATGGAAGACTTCGGCCCCGAAAATCTAATGTCTCCAGCCCTAAACTGAAATCACTCCGCAAATCTGAAGCTAGATCTGCCTCAGAAAAAGCTAAATCTATCACTACCCCACCTAAAACGTTGCTAAATATACCAGATGATCTCTCTAATAAGTCTGAATGTACTTCTGTTATCGATGTTCTATGTCCTTATTGTGATAAAAAGTTTATATCTAAACAAGCAGTATCAAAACATACTCGCCGTACTCATTTGACTACGAAGCACTGTACGCCGCTGCACTGCATATATTGTAGTCATATTGAAGCCGAAGCTGTTGACATCATCCGGCACATGATTGACACTCATTCCGATGAGTACTTTGCTTGCCTCGATTGTTATGCTCGATTTCCGACCACGACGGAATTAACCGAACATCAACTGAATGATTGCGAAAAATTAAAGCtttcgtataaaaacaaactgCGTCAAAAGTTACCGAGAAAGAACCGAAAAGTTCGTAACGCAGTGGCTCAGAAAAGCTTGAGCGATGAAAATAGACGTGGTTTCAATGGAGTTGTTATATCTTGTGAGTTGAAACCAGCGCACGGCCTCGACGATAATGATATTGAAGATAAAATAACTACAAATCTAATTTTGCCTTCAAATAAAAATCTGGTGAACACTAGAGTTATCGACAAAAACGCTGTTATAATATTGGATGACTTACAGTGGAATAAACGTATACCGCACAACTTTTCATTTCACAACACAGACGCTGATCAAATACTTTCACGATTAGGAGTGGTGCATAGGTCCCCTAGAACCGCAGAGTCGACGCGAAAGGATTGGTTTAAAGCTATTGACGAACCCACTCAGAAGTTTGAACGATGTTTCGATACTGGATTTTATTCTAGAGTTGCAAGCAATGTTCAAGAGAATCTAGCCAAATTTCTTGATGGCTCTTTCAATTTCAATCCGGATCCAGACAAGACTATTAAAACGAGAAAAGCAAAAAATAGTGTCCCTATCAACACCGTTGAAGGTTTCCCAATACTGCTAGCTTGTGAACAATATTCTCGTAATATTTTTGATGGGTACATGCCCCGTGCGATAGCCCCGAAGCATAAATGGAAGTGGGAGAGTACAGAAGAGAGGCACCTCCTGAATCCAGATCAAATTAAACGCGATAATCATGTTAACAATTGTATTGTCACGTTGGTGTCAAGTTTGGATATCTGGACGCAACTATGCATGAGACGCAAGtttgaagaaaaatataaatgcacACCTTTAGAGAAAAGTGTTGTCAAACAAAATCTGATTGGATTAGAATTAAAAGAGATTCTTGAAAGCAGAGAGTTgccgtcatcatcatcatcatcatctaaCATTGTGCGAAATTGCAATCCAACATCTTCAAGCCACGATTCATATGGGTTTCCCGCGTCATTAGGACTTTCACCTGCTGTTCCTAAATACGAAGTCAAGCAATCAGTTTTAAGTGGAGAATGGGTGAGACCTCGATGCTTTGTCTGCTGTGCGTGTGGTTTCCAGACAACTGATTCTAGAGGATTAACATCTCACATGTCAACAAAACATCCAAATGCTCAAGTTCAATACTATGAGATAGTTGGAGAGCTTTTATTAAATTCTGATATACTCAAGCATTTGTACGTGCCACCAAGTCAGATCCATAACAAGACGAGACCTTTACGTGGTTTTCGTGAATGCACGAAATGCAATAAATCTATAACTCTTGAAGATCTTCATCAACATATGCTTGATTGTGCTGGTGATCTGCCGACAGTGCGAAGAAAATGCCGGTATCGACCGTTTGGTGTACGAAAGCGAAAGACTAGACTTCCTGATGGTAGAATATGCAAAAAAATACGTAAAAATATACACCGACAGGACATACATAGCATTCGTAGACAAAGCGACAGACCAAGACCAAAGATAAGATCTGAAGTTGGTGATGCTGAAACAATCAGAAAAATGTTAGCCGACTTACCTGCTAAGCGCCATCGTGTTATGGTGAATACTCTAAATCCAATGTTACGGTCAGcaactaaaataaaacaaagaaacaaaCTTGTGCTAAAACAACGAAAAGTTGAAGAAACAAAAACTACGAATTACGATCCAGGGAGTGCATCACACGAAGATGTGAAAATAGTAAATCATACTATGCATGGAATCAAAGAGCAAGATAAAAACAGAAACTTCAAAACTATGACACGAGTAAGGAGAAGAATATCCAATTGTAAAGATATACTAACAAAACATAATCCTAACAGATTACGATCACGAAAGCTTGCTAGGTCAAAGGAAATATTGGAAAGTGTATCACCTACAGAAATCAAAGACGATGATCAACCAGCAAGTGTAATTGTATCTTCGAATCAGTTTAAAATCGATCAGTTAGTTACAGAGGCTTCCTCCAGTAGGGTGAATGTTAATTCTGGCCCAAACAATACAAGGGAGCAGTCAAACAGATCCAATGACAATGGTTCCAATAATCGCGACAATCAAAACCCAGAACAAAATGATAACAATGGTAATAATCGCGAGCAAGGTGCGCCTAATCAAAACATACCATTAAAACATTCAATTGCTAGACTAACGGCTGATACAGAAACCCAGGATAAAGCTGTACAATTCCATCATCTGTTTTTAGTACAACAAGAGTGTAATAACGTTACTCAACATGATCCATCAGGCCAGCCAGTTCTATTTGAGAAAAAGGCAGTAGCAACGAAACTAGACAAACCACCTTTGAGTGTCGATACCAAGGAAGATAAAATggaaaaacataacaataaaaacaataaactaaataataaatcacGTAAGGGCTTAAATGATTGCATTGCCATGCTAAAAAATAAACTCGTTGAACCCTTAAAATCTCCTGAAGTATCTATTCAGtgtgaaattgaaaaatatgaaaTGGAATCAATTTCTAAACAAATGCCAGACTTAAGCGTGAAACAAATAGACAAAACAAGTCAGTGTCTGGATAATACCAAGAAATCTCCATTGAAATCTGTTAGTCCAAGTCTAAACAAAAATATCACCAAAGATTCCATGGTGACTGTAATACCAAATAAAAAATTGGTGAGGATTGAAAATTCAcaagaacaaaaaataaatacaccTAAGTTAACAGTGCAGCAAATAACTGAATCATCAAAATGCTCTTCAGTGGTTGACAATAAGaagcaatttaaaaatgatttaactGGGACAAAATTGAGGAATAAGAAGAATAAAGTTTTGACAGCTGATCATGtttcagatttaaataaaaataacattactttGGCAAAGATACAGATACATTCAGATAATAACAATGTATGTAatgatatacataataaatcacGGTATAGAAACGACGCAAATAAAGTATATTGCAGCCAGTTAAATATTAAAGATCacccaaaaaaaattattccacCACAGCCAAGAGTTATCTCTAAAGTTCATGAAAAACAAGAATTAATATTGAATAGTAGTAGGTCTCAAGTCATCACCACAACGAAAGTTTCTGAAAGTCTTCTATTGGTTTCCCATTCTAAACCTACACACATTGAAAATGAACAAATAAGAAGGCAAAATATTTATTCCGCTAGTGAACTTCCCCTCCAAGGTGGTAGTATTGTAGAACCCAGTCTAACTCCTCTGGACTTATCCGAAAAACCTTATATAAACCACGTTATTGCCCATTGTTCCTCGCAAATGCTTGATACAATAACACCTATTGCAAATAACACTATCACTAATACCCTTGAGACATTAGACTTGTCACAGAAAGGGTTTTACAAAGGACAAGACTATGGAATACCATACACTGAAGAAGTTGTAGATCTTAGTGTAAAAGTTGTAAAACCACTGAATATTCCCTCTAGCTCCGCAGCTCCAGAAAACACAAACTGTGATAGCTCTGACTTTGCAACAGATCTATCACTGAAACATGGCGATGAAAATTGCCTCCCAACTGATTTGTCACTAAAAGGAAAATTTGTTTCGAACTGTAGCTATAGATCACAAAATAGGAGTGAAACACAGCACATAGATGTGGTGAATTCAGGTCCTCCTAGTGTGTGTCTGAACTTGACTGCTAAGTCGACAGATGAAGACATTCCTACTGATTTGTCAAAACGGGCTATTTCAAAAGTGGTTGATTCACACTGTGTCTCATCAAGTTATAAGACGCCATATACAAATGCATCAATGAGCAATGTTACAGTTAATTTAAATACTCCAGATCATACAAATGGACAATGTTTTTATAAGCAACAAGTTAGCAATAAATTGCAAGCTCTGTTATCTTACAAATCAAATGAATCAACCACTATAAATGACTtgatttctaataaaataaatcaaccaAAACCTGCATCAGTAGAACCTCGGTATGATAATGTGTATGGTGCAATCCAACAGAAaagaaatacatatttaaatgaaGAATTAAGATCTGAAATTGGTTTAACAATGGGGTTATCTAAACCAAATTCTTCAACATATACAGACCAAAATCAATATGAATCAAACCAACAGATGCATTTTTAtaacacttcaaaaacaattGGTGAAGTGAACATGCAGAATAATACTGTAATTCATGATCTCAAAAAAACACAAGCAATTGTTACAACCCCTTTGCAGCAAAGTAAACCATCTCCAGCTGATTATTCAGTGACTAAAAAGAGAATGGAAAGATCTGTTTCTGTAATTAAACAAGACACTTCAAAACTTGTGTGCACTGTCAAAAATAAATGCAGTCCCGTTTCAAAAGAAAGTTCTCATTCAACAAATATAACGAATGCCTTTTTGAGCTCAGCTAATTTAACCAATTGTAATTTAAGTTCAGTCTATACATCAGCAGGAACATCTAAAACTGGAACATGTAATTTTATGCCATACACACAAAAAGTACATAATTCTGCAACAAATGCACGAAGAGATATTATAGTCTTAGAAGAAAGGCAATCTCATGTCCCGTTAAGTACAAATAAATTAGCAGAAGTGGAAAGAGatgatattgtaaaaataaaaaatatttgtaatgatcATGATGCTGAAACAGCTAAAAAGATTGCAATGTTACCTCAGGAAATTGTTGATATATTAGGAAACGTGCCTAAAGTCCAATTTAACCAGTTATTAAATGTATTACCAAACTACGTATCAACATCGACAACCTTATCCTCTCCGAAAAATCTGAAAGAAAAAGATCAGAATGGACCAGGTGTTGATATGTCTGACTACCCAAAACACTTACCTAAACAGACATTGGAATGCAACAAAACTCTATTTGATGGTGAAGAAATTATTAAGCCACCAGTTGATGATTATATGAAATCAAGCCAACTCCTACATGAAGGACGTACTCATAGTGTTAATATTAGTATTCCGACTAAAGAAAATATAGTTTCTGATGtgacaaaaattacaaaacataCTTCTTTGGACGGTACTAGTTTCTCTAGTGATATAATTGATTTGACTGATGACTGTGTGGATATATCAACAAATCTGAATTCAATTGCTGTCTCTTCTAGTAACGaacataaattaacaatttcaaAACCTACTAGCCAGAAGACCATTAATGAAAAAACAGCCAGTCTTCGTGCGGTGCGCATTAAAACACCATCTGAACGTCATAAAGAAATTATGAagacagaaataaatattaataaaacttttcaagaaaacaataatgatataaaacttttaaatctagaCAACCAAAGCAACCAAGCTAAAAAAGAGGAAGAATGTGTTAACACTTCTATTATTGAATCTCTAGCTGTCCCTGAAACTGACAAAGAAAAATCTCGAGTCAATCAAGATATAAAGAAAAATACTGATATTGTAGCTAAAACATCAAGCAATCTTCAAATAGATCCTATAACTACTCTCAGTACATCAGCTGCTGTTGTGAAAAGCAGGGAAAACAATGATTACAAAACTTGTGATGAGGATCGACTTATTTTGAAACCGTCGTCTTCTTTATCTGGCCTTGTTTCTAAAGATAATAATGAAGATGAAGATTCAGAAGATGATGTATCTCTTGCCATTATTGTAAAGCAAAAACAAAgcgatgaaataaaaacaattaatatagttaataataataacatacaaGTTAATGACCTGGTTgatgataataatgaaaaaaatgatatGGTCGTACGAAATAGTTCAAAATCAAATGTCAAAGAAACAGCTGACGCTGACAATCTATTACCTCAGAGTGTTTCAACTTTGACTGAAAATATTTCGAAGGAGAGCTTATTCTCTATTGAAGATGGTGATCCTAAAAAGTTGTCTTCTCAACAAAACCGCAACAAAATGATTAAGCAACAAAACATAAGTCATCGTAATAAGATTGTTGGTCCTATTGAGCACATGTCTGAATTCGAAAATGCTTCCAAATATATTAAAGGCTGTTCTATAGAATTGCAGAGTGAACCAGATAAACTGCAAATCCATAATATTGTATCAAATGAGGGCATTATCAGTAAGCATGCGGTTGATGAAAATGATTACAATAGAGTTGAAAAGGCACAGTCAAAAAGCAACTTCAAAGTTATCAACAACAAACAAGGCTGTGATACTGTAAATAATGAACCAGATAAACAGCACGCCTGTAATACGGTATCAAATGAAGGTATTATCATCAAGCATGCAGTTGATGTAAATGATTACAATATAGTTGAAAAGGACACAGTTCGCAACTACAAAGTTAAAGAAGGCCAGAGCCTTCTTAAGAATGCAGTAAAAAATGATAAACAAGAATGTATAGGAAAAACATACGATAAAATAGAAGCTGAAATGAAACGTGACAAGTTTAACTCAAAACACGAAAACAGTGAAAACATTAGTTCTGGTGCCGATTTGTCAATTGAAACAAAGATGAAAATCAACATAAATGAGACAATTCCACAATATGCAAAAAAcattgaaaatgaaatgaatactAAAAACTTAACTGTTGAAGTTGAAAAACCTGTAGCGTCAGATAATGTACAAGCGACCACAAGCAGTGATTCgcattttaatcaaaataacatGACTTCACATGGGCAAAATACCAAAGTAATGCCACTTCGGCGAAGCCGCCGTGGTAAATCTCTATTTGTAGACAGCAGTGAAGTTAGTGCTGATATAAACATTAAACTAGATAATGTGGAACGAACTCcctttacaaaaaaacaactcaTATTTTCAAAGCTGCTTTTAGATGGCGAGACAAAGGAAACTAAACAACCAACAAATGATATCGTTGCTGAAATTACCAATAGCCtagataataaaaatgatattatatcaGGCGCAGAAAAAAGCATTGCAGGAAATATAGAGGAATATCAAACACTCTCTAAAAAATCACGCAAACGTAAGCAATCTCCACAAATTATAAAGGATGGTAAAAGAAATAAATCAGATAGAAAACAAGTACCCGCGGAATCCATTAACAGTTCAAGCATAACAAGTTCAGCTGTCAACGAAAAAGAGTCCACAGAACTTGTTGAAAGAGTGACAGAAAATGTTGTGTATGAAGTTCAATGTAAACGTATAAATGAAGACCACGGATTTCTAGATAAAAGTAATGAATTTAATGAACAGAGCAGTAAAAAGCTTAAAAACATTAATGAATGTAATGAACACCTTAAAGAGTTGGTAAAAGTGGACAAATCTGTAGAAACTGATTGCTTGGAAAATGATGCTATATTAtacaaaactaaaactaaaaatacaGATAGTGACAGTAATCTCAAAATCTGTCAACAAAACGACTCAGACATCTCGACATTGAGTGAGAAACGGAAGTctagtaacaaaaattataagcacttgtataataatgatgaaaaaaatacaatatctaCAGCAGATAATCCCGAAAAGGTTGGAAGCAGTGAGTGCGAAGAAATCAGCAGATGTAGTAAAatgcacaataataataaaaataaacatgttgTATTAGAAGAGGAAAATATAAGTGAGGTTCTGACCCCTACACAAAACGAATGCAAAATAAGCACTGAAGTAGAAAAAAATGTCCATAACGTACAATTTTGCGAACGTATTCCACCCAAGAATCTTACTTGTTATAATAAACCTGCGATGCGCAAGGGTAGATCCAAATCGGTATTTATAAAGTCATCAGAATTCTATGATCCCTATGATATTAATTTAGAAGATATGGCAGAAAGTACAGTGCCAAGTATGAAAAAaggattttctaaaaattttggcacgaaaaaaggtaaaaaaaaatctacttctGAGAATGACAATATTCCGTCAACAAGCAAATTAACGAAATGCAACgacaagaaaataaatattaacaaccaAAGCTTACAAGTTGAAACTATTATCGATACTAAAGGTACTATTAGTGATTCTGATGACTCATCAAAAAGTGACATTCcattgaaaaaaattgttgagGAAAAGCAAAGAAAATGCACTTCTAAAGAAAATCAagataatattaagaaaaaggATTATGATGTAAAGAAAAAACGCAAGGATACCTTATGCACCAATTTAGAAAGAAAACGGAATTCATTATTAGAAGAAAATGAACGGTTACGATCAGAAAAATTTATGGAGAGTTTTGGATTTTTTTCGGAAAGAAAACCCCGAAAATCAAATTTGCTTGCATCAAAGAAGATATCTGAAACCTTTCATAACATTGCAAGTGACAATGATGAGGGACATTGTTCGCAgaagaataaatatttgaaaaagtcAATGCAGAATGGCAGCAGTAGTATGGCTGCAGGTAGAAAAGATTTAAAACGTgggaaacaaaagaaaaaatccCCGGTAATGTTGACAACTTACTGTGAAGAATGTAGGAAAGACTTTGGTAGACCTGATAATTTTCTAAGACATCAGATGTTACTAGCACATGCTCTAAAAATATCCGAACTtgatttaaactttaaaatgaTGATGACTCCTGAGTCTGTGCCAAACTTTTTGATTGCCGTAAAACAACAAatgcaaatattaaaaaaaatacaacgtaaaataaaaaagaaaaagaaatattgcAAAAATCTTGAGAGAATACCGGTGCCatcattatataaaattatcgttgatattacacaaaaaattaGACAAAGCCAACTAGCGCCAAGAGAGCTAAGTAGAGATGAAGCTCTTTTTCTCGATTGCTGTGAGCTTTTGAATGGCAGCCATAAAGAAGATGGACAAATAGCTGATAGGTCATCTGCTGTGAATAGACATTGTGTTGGATCTGACCCTCATTGCTgttcatgtaataaaataacagCCGACTGTTTAGATTTGTTTGAAAAACAAGTAAATGATTGCCTTCAAGGTAAATTAGATGATGCTGACCTAGACTCCATTGCAGCTCAAAATATTATGGAAAGCGAGGAAGTGCGTAATTTAGAGAACGACTTGATTTCCGGTTTGAAAGAGGCAGCATGTGCAAATTATCCAGGAACTAAAATGGACTTTAGTAAAGCTTTAGATTTAAAATCGACTCAAaatcaatataacgttgtttactcaaaagataaaattaataatcctGAATTTACTACTTCATCAATGAAAGTCCATGAGgtaaaagaaaaaatgtatccGGATGTTATTGAAGACATTGACATGTTTGAAGATAAATTTGATAAGATCAAACGAAAGTGTAGATCACAAGCTGCTGCAGTGAAACAGAATCAGTATGTAGCAGATGTACCAATAAGTTGCAAAAGCAAAAAGAAGTCTGAAAAGAGAAAAGGAAAGAAACATTTAAAGAAAAGTTTACAAATGCCAGTTCCTACAAAAGGAGCTCTCAAAGGTTACGATGGTGTTAGAGTGTCTATATCGACGAcgaatataaatatatcgtcTATTATACCCCCGATTATTACGAgtaagaagaaaaagaaaagaagcAATTCAAAACGTAAAAGGGATAGAAAATTATCCCAAGCTAAATATGATTTGGATTCAAAGAATATTAAGAATACATCTCAGAAGAAATTAGATGTTTACGAATTTATGGATAATGAAGATGTTGAATTATTTGAACTAAGACCATCAACATTAATGGAACGATTCAAAAATATTAGTAAAGATAAGAAAATTACATCCAAAAGTGAAATTCCTGTCGAGGAACCAGAGGAATCCAGTGAAAGTGTATCAGATGGAGATGATTTCGTTTATATGTCTGACGACTATGTGTGCAGTGATGCCGAAACTGAAAATAGCTTGATGTCCTGTGAATTATCTAGTGCAAAACTAACGAATGACACGAAAAAAACAATTCCTTTTGTAAGACGAAAAGAAACAACTGAGAAGAATGCGGTAAtgggaaaaatatttaaaaacaatgctGTTCGCAGTGAGAAAAGAGTTAGCATAACAAAAGAATCAGTTAAACCAAAAGCAAACCTAGATCAACTGTTTGATAGTCTCTTAGAGGATGAGCCTAACTCTTCAACTCTTGCTAATTGTTCACTTTCGCCGAAGAGTCATAATGATGACCACATCGTAATAAGAAAACCAGAGGATGACATTAAAAAGCAAAGTGATATAGTGGAAACTTATGACAAAGAATACCTTGACAGATCTAAAACAAAAAAGGACAGAAGCCCCTCACCAATTCCCCTGCCCATGACAGTGTATAAATCAAAAACAGGAACATCTGTGAGCCCTATGAGAAAATTAAGCATTTCACATGATGAAAGTGATTATTCTTCCCATGCAGAACATCGAAAACATgccaataaaaagaaaagtgaCCACAACACATCTAAAAGCAAAGAAGCATTAAATCATTGTcattatgatttaaataaagatcTCACAGCTAGAAGAAAGAGCAAGAAATCCAAGCACATCACCATTTATAAACAAACTAATCTTGAACATAAAtcaaaaaagaaatcaaaagaGGATTTATCATCAAATTCAAACGAAAGTGATTCTTCTGTTAATAGAGATGATTCATtgcttgataataataattatgatggGATATTTATTAAACCGAAATCTAGAGAAAAAGTTTTGTTGAATCCACATTTCAAAGACGATATTAAATCATCattctgtaacaaaaataagCAAAAAACGCAATATTTAAAAGAGAAATATCCAGAAGAAGGAAGTTTACCAATACATAATAGTGATGATGGCAGTGCTATTTCTACAACACCCTTAAAAATTTCGAAAAACCACCACAAATCTAGTATCACTAAAGATAGTGATGATATTTTGAGTCATCGAAAACGTAAATCTTGTGAGGGAGATTCTGTGAGGATGGTCAATAAACTATCAAAGAAAGATATCATAAATGATGAGATAACCTCAGATGATGCAGATAAACacaacaaacataaactaaaaTCATCAGATGAGCCACATGACTTTTATTCGCGTAAGAGAATGTCAAGAGAATATGAATTTAAATCAGAGGATTCTttatttgatgatgatgatgaagagcTTTATACGAAACATAAAATGAAGGGAAACAAGAGTGGTTTTGATTTGCTTTATGAGGATActtacaaaagaaataaaacaaaagaatcTAGGTCAAAGATGCAGAGTAGTTACGATGACTCGTTGCTTAAAGAAAGTTCTTTATCACCCAATGAAAGAGACTTTACTGTTAGAAAGCGAGACTTGAGAGATAAGGAATCAAGTGAAAAGATATTGTTGGACGAGGGTATTGTGTACCGCAAGCCAAAATCAAAAGATGATTTGAGAAGAAgtgatgaaataaaacaaactgGTTTTGAATTTAAAGAAAGTATGTTTGATTCGACTGTCGATGCTGGAGTCGCGACGCAACGAGCTCGAAGAAACTGTACACTAGGCAAACAGAACATTTTAGCCGAGACTTGGAGCTCAGAATCCGAACCAGACGGTATTCCGCCACGACCGAGCAGTGCTGAATCTACATTCATTGGACTAGGCAGAAAGAAGAAAGGTAGAAAAAAAGATGGCTCCCACCGTAAAGGCAGTCGCCAGAATTCAACAAAACGTAATGAAACAGACAGCAGAAGTTATCATAGTCGTAGTGAGGGCATCGTCCCCATGACTAGGCCCAGTGCCATAAGTGTGAAGCCAAAACCACGAGCGACCTCAAATTACTGGTCTGATGATGAACAAGAACGTGTCGAGCAGCACGGCTGGATCGTTGGCGATAGTCATAAGAAATTAGTTACGATGTTAGCTCACGCTAAGGGTAAGAGGAATCATGACGACAGACGTCATTTCGTTGATTAA
Protein Sequence: MSTVDDDVSPGINGRLRPRKSNVSSPKLKSLRKSEARSASEKAKSITTPPKTLLNIPDDLSNKSECTSVIDVLCPYCDKKFISKQAVSKHTRRTHLTTKHCTPLHCIYCSHIEAEAVDIIRHMIDTHSDEYFACLDCYARFPTTTELTEHQLNDCEKLKLSYKNKLRQKLPRKNRKVRNAVAQKSLSDENRRGFNGVVISCELKPAHGLDDNDIEDKITTNLILPSNKNLVNTRVIDKNAVIILDDLQWNKRIPHNFSFHNTDADQILSRLGVVHRSPRTAESTRKDWFKAIDEPTQKFERCFDTGFYSRVASNVQENLAKFLDGSFNFNPDPDKTIKTRKAKNSVPINTVEGFPILLACEQYSRNIFDGYMPRAIAPKHKWKWESTEERHLLNPDQIKRDNHVNNCIVTLVSSLDIWTQLCMRRKFEEKYKCTPLEKSVVKQNLIGLELKEILESRELPSSSSSSSNIVRNCNPTSSSHDSYGFPASLGLSPAVPKYEVKQSVLSGEWVRPRCFVCCACGFQTTDSRGLTSHMSTKHPNAQVQYYEIVGELLLNSDILKHLYVPPSQIHNKTRPLRGFRECTKCNKSITLEDLHQHMLDCAGDLPTVRRKCRYRPFGVRKRKTRLPDGRICKKIRKNIHRQDIHSIRRQSDRPRPKIRSEVGDAETIRKMLADLPAKRHRVMVNTLNPMLRSATKIKQRNKLVLKQRKVEETKTTNYDPGSASHEDVKIVNHTMHGIKEQDKNRNFKTMTRVRRRISNCKDILTKHNPNRLRSRKLARSKEILESVSPTEIKDDDQPASVIVSSNQFKIDQLVTEASSSRVNVNSGPNNTREQSNRSNDNGSNNRDNQNPEQNDNNGNNREQGAPNQNIPLKHSIARLTADTETQDKAVQFHHLFLVQQECNNVTQHDPSGQPVLFEKKAVATKLDKPPLSVDTKEDKMEKHNNKNNKLNNKSRKGLNDCIAMLKNKLVEPLKSPEVSIQCEIEKYEMESISKQMPDLSVKQIDKTSQCLDNTKKSPLKSVSPSLNKNITKDSMVTVIPNKKLVRIENSQEQKINTPKLTVQQITESSKCSSVVDNKKQFKNDLTGTKLRNKKNKVLTADHVSDLNKNNITLAKIQIHSDNNNVCNDIHNKSRYRNDANKVYCSQLNIKDHPKKIIPPQPRVISKVHEKQELILNSSRSQVITTTKVSESLLLVSHSKPTHIENEQIRRQNIYSASELPLQGGSIVEPSLTPLDLSEKPYINHVIAHCSSQMLDTITPIANNTITNTLETLDLSQKGFYKGQDYGIPYTEEVVDLSVKVVKPLNIPSSSAAPENTNCDSSDFATDLSLKHGDENCLPTDLSLKGKFVSNCSYRSQNRSETQHIDVVNSGPPSVCLNLTAKSTDEDIPTDLSKRAISKVVDSHCVSSSYKTPYTNASMSNVTVNLNTPDHTNGQCFYKQQVSNKLQALLSYKSNESTTINDLISNKINQPKPASVEPRYDNVYGAIQQKRNTYLNEELRSEIGLTMGLSKPNSSTYTDQNQYESNQQMHFYNTSKTIGEVNMQNNTVIHDLKKTQAIVTTPLQQSKPSPADYSVTKKRMERSVSVIKQDTSKLVCTVKNKCSPVSKESSHSTNITNAFLSSANLTNCNLSSVYTSAGTSKTGTCNFMPYTQKVHNSATNARRDIIVLEERQSHVPLSTNKLAEVERDDIVKIKNICNDHDAETAKKIAMLPQEIVDILGNVPKVQFNQLLNVLPNYVSTSTTLSSPKNLKEKDQNGPGVDMSDYPKHLPKQTLECNKTLFDGEEIIKPPVDDYMKSSQLLHEGRTHSVNISIPTKENIVSDVTKITKHTSLDGTSFSSDIIDLTDDCVDISTNLNSIAVSSSNEHKLTISKPTSQKTINEKTASLRAVRIKTPSERHKEIMKTEININKTFQENNNDIKLLNLDNQSNQAKKEEECVNTSIIESLAVPETDKEKSRVNQDIKKNTDIVAKTSSNLQIDPITTLSTSAAVVKSRENNDYKTCDEDRLILKPSSSLSGLVSKDNNEDEDSEDDVSLAIIVKQKQSDEIKTINIVNNNNIQVNDLVDDNNEKNDMVVRNSSKSNVKETADADNLLPQSVSTLTENISKESLFSIEDGDPKKLSSQQNRNKMIKQQNISHRNKIVGPIEHMSEFENASKYIKGCSIELQSEPDKLQIHNIVSNEGIISKHAVDENDYNRVEKAQSKSNFKVINNKQGCDTVNNEPDKQHACNTVSNEGIIIKHAVDVNDYNIVEKDTVRNYKVKEGQSLLKNAVKNDKQECIGKTYDKIEAEMKRDKFNSKHENSENISSGADLSIETKMKININETIPQYAKNIENEMNTKNLTVEVEKPVASDNVQATTSSDSHFNQNNMTSHGQNTKVMPLRRSRRGKSLFVDSSEVSADINIKLDNVERTPFTKKQLIFSKLLLDGETKETKQPTNDIVAEITNSLDNKNDIISGAEKSIAGNIEEYQTLSKKSRKRKQSPQIIKDGKRNKSDRKQVPAESINSSSITSSAVNEKESTELVERVTENVVYEVQCKRINEDHGFLDKSNEFNEQSSKKLKNINECNEHLKELVKVDKSVETDCLENDAILYKTKTKNTDSDSNLKICQQNDSDISTLSEKRKSSNKNYKHLYNNDEKNTISTADNPEKVGSSECEEISRCSKMHNNNKNKHVVLEEENISEVLTPTQNECKISTEVEKNVHNVQFCERIPPKNLTCYNKPAMRKGRSKSVFIKSSEFYDPYDINLEDMAESTVPSMKKGFSKNFGTKKGKKKSTSENDNIPSTSKLTKCNDKKININNQSLQVETIIDTKGTISDSDDSSKSDIPLKKIVEEKQRKCTSKENQDNIKKKDYDVKKKRKDTLCTNLERKRNSLLEENERLRSEKFMESFGFFSERKPRKSNLLASKKISETFHNIASDNDEGHCSQKNKYLKKSMQNGSSSMAAGRKDLKRGKQKKKSPVMLTTYCEECRKDFGRPDNFLRHQMLLAHALKISELDLNFKMMMTPESVPNFLIAVKQQMQILKKIQRKIKKKKKYCKNLERIPVPSLYKIIVDITQKIRQSQLAPRELSRDEALFLDCCELLNGSHKEDGQIADRSSAVNRHCVGSDPHCCSCNKITADCLDLFEKQVNDCLQGKLDDADLDSIAAQNIMESEEVRNLENDLISGLKEAACANYPGTKMDFSKALDLKSTQNQYNVVYSKDKINNPEFTTSSMKVHEVKEKMYPDVIEDIDMFEDKFDKIKRKCRSQAAAVKQNQYVADVPISCKSKKKSEKRKGKKHLKKSLQMPVPTKGALKGYDGVRVSISTTNINISSIIPPIITSKKKKKRSNSKRKRDRKLSQAKYDLDSKNIKNTSQKKLDVYEFMDNEDVELFELRPSTLMERFKNISKDKKITSKSEIPVEEPEESSESVSDGDDFVYMSDDYVCSDAETENSLMSCELSSAKLTNDTKKTIPFVRRKETTEKNAVMGKIFKNNAVRSEKRVSITKESVKPKANLDQLFDSLLEDEPNSSTLANCSLSPKSHNDDHIVIRKPEDDIKKQSDIVETYDKEYLDRSKTKKDRSPSPIPLPMTVYKSKTGTSVSPMRKLSISHDESDYSSHAEHRKHANKKKSDHNTSKSKEALNHCHYDLNKDLTARRKSKKSKHITIYKQTNLEHKSKKKSKEDLSSNSNESDSSVNRDDSLLDNNNYDGIFIKPKSREKVLLNPHFKDDIKSSFCNKNKQKTQYLKEKYPEEGSLPIHNSDDGSAISTTPLKISKNHHKSSITKDSDDILSHRKRKSCEGDSVRMVNKLSKKDIINDEITSDDADKHNKHKLKSSDEPHDFYSRKRMSREYEFKSEDSLFDDDDEELYTKHKMKGNKSGFDLLYEDTYKRNKTKESRSKMQSSYDDSLLKESSLSPNERDFTVRKRDLRDKESSEKILLDEGIVYRKPKSKDDLRRSDEIKQTGFEFKESMFDSTVDAGVATQRARRNCTLGKQNILAETWSSESEPDGIPPRPSSAESTFIGLGRKKKGRKKDGSHRKGSRQNSTKRNETDSRSYHSRSEGIVPMTRPSAISVKPKPRATSNYWSDDEQERVEQHGWIVGDSHKKLVTMLAHAKGKRNHDDRRHFVD*

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00875808;
90% Identity: iTF_00874956;
80% Identity: -