Basic Information

Insect: Silvanus unidentatus
Gene Symbol: ZNF236
Assembly: GCA_963930825.1
Location: OZ005757.1:29026227-29036148[+]

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 30 0.15 15 6.5 2.3 1 23 129 151 129 151 0.96

2 30 0.00061 0.06 14.0 0.3 1 23 157 179 157 179 0.98

3 30 0.0016 0.16 12.7 0.3 2 23 185 206 185 206 0.96

4 30 0.024 2.4 9.0 0.2 1 23 212 234 212 234 0.97

5 30 0.0036 0.36 11.6 0.1 2 23 246 267 245 267 0.96

6 30 3.5e-05 0.0035 17.9 5.7 1 23 296 318 296 318 0.96

7 30 1e-05 0.001 19.6 2.4 1 23 324 346 324 346 0.98

8 30 4.3e-05 0.0043 17.6 0.3 1 23 352 375 352 375 0.97

9 30 0.14 14 6.6 2.1 1 23 385 408 385 408 0.96

10 30 6.1e-06 0.00061 20.3 4.1 1 23 515 537 515 537 0.98

11 30 2.3e-07 2.3e-05 24.8 2.0 1 23 543 565 543 565 0.99

12 30 0.0041 0.41 11.4 5.3 1 23 571 594 571 594 0.97

13 30 2.3e-06 0.00023 21.6 0.2 1 23 664 686 664 686 0.98

14 30 1.6e-05 0.0016 19.0 2.5 1 23 692 714 692 714 0.98

15 30 6.4e-05 0.0063 17.1 0.5 1 23 720 742 720 742 0.98

16 30 0.00025 0.025 15.2 3.7 1 23 748 771 748 771 0.97

17 30 8.9e-05 0.0088 16.6 1.4 5 23 1027 1045 1024 1045 0.93

18 30 1.8e-06 0.00018 21.9 1.3 1 23 1051 1073 1051 1073 0.98

19 30 1.6e-05 0.0016 18.9 1.1 1 23 1081 1103 1081 1103 0.98

20 30 0.33 33 5.4 6.8 1 23 1109 1132 1109 1132 0.93

21 30 0.00021 0.02 15.5 2.6 2 23 1286 1307 1285 1307 0.97

22 30 0.00056 0.055 14.1 0.1 1 23 1311 1333 1311 1333 0.96

23 30 0.026 2.6 8.9 0.2 1 23 1339 1362 1339 1362 0.97

24 30 2.2 2.2e+02 2.8 0.2 1 8 1548 1556 1548 1568 0.65

25 30 7.7 7.6e+02 1.1 0.2 2 23 1600 1621 1599 1621 0.85

26 30 0.45 45 5.0 0.3 1 23 1624 1647 1624 1647 0.97

27 30 1.5 1.4e+02 3.4 3.1 3 19 1672 1688 1670 1691 0.92

28 30 0.2 19 6.1 1.5 1 23 2094 2117 2094 2117 0.90

29 30 0.00024 0.024 15.3 0.5 1 23 2145 2167 2145 2167 0.98

30 30 0.19 19 6.1 3.2 1 23 2173 2197 2173 2198 0.95

#	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	30	0.15	15	6.5	2.3	1	23	129	151	129	151	0.96
2	30	0.00061	0.06	14.0	0.3	1	23	157	179	157	179	0.98
3	30	0.0016	0.16	12.7	0.3	2	23	185	206	185	206	0.96
4	30	0.024	2.4	9.0	0.2	1	23	212	234	212	234	0.97
5	30	0.0036	0.36	11.6	0.1	2	23	246	267	245	267	0.96
6	30	3.5e-05	0.0035	17.9	5.7	1	23	296	318	296	318	0.96
7	30	1e-05	0.001	19.6	2.4	1	23	324	346	324	346	0.98
8	30	4.3e-05	0.0043	17.6	0.3	1	23	352	375	352	375	0.97
9	30	0.14	14	6.6	2.1	1	23	385	408	385	408	0.96
10	30	6.1e-06	0.00061	20.3	4.1	1	23	515	537	515	537	0.98
11	30	2.3e-07	2.3e-05	24.8	2.0	1	23	543	565	543	565	0.99
12	30	0.0041	0.41	11.4	5.3	1	23	571	594	571	594	0.97
13	30	2.3e-06	0.00023	21.6	0.2	1	23	664	686	664	686	0.98
14	30	1.6e-05	0.0016	19.0	2.5	1	23	692	714	692	714	0.98
15	30	6.4e-05	0.0063	17.1	0.5	1	23	720	742	720	742	0.98
16	30	0.00025	0.025	15.2	3.7	1	23	748	771	748	771	0.97
17	30	8.9e-05	0.0088	16.6	1.4	5	23	1027	1045	1024	1045	0.93
18	30	1.8e-06	0.00018	21.9	1.3	1	23	1051	1073	1051	1073	0.98
19	30	1.6e-05	0.0016	18.9	1.1	1	23	1081	1103	1081	1103	0.98
20	30	0.33	33	5.4	6.8	1	23	1109	1132	1109	1132	0.93
21	30	0.00021	0.02	15.5	2.6	2	23	1286	1307	1285	1307	0.97
22	30	0.00056	0.055	14.1	0.1	1	23	1311	1333	1311	1333	0.96
23	30	0.026	2.6	8.9	0.2	1	23	1339	1362	1339	1362	0.97
24	30	2.2	2.2e+02	2.8	0.2	1	8	1548	1556	1548	1568	0.65
25	30	7.7	7.6e+02	1.1	0.2	2	23	1600	1621	1599	1621	0.85
26	30	0.45	45	5.0	0.3	1	23	1624	1647	1624	1647	0.97
27	30	1.5	1.4e+02	3.4	3.1	3	19	1672	1688	1670	1691	0.92
28	30	0.2	19	6.1	1.5	1	23	2094	2117	2094	2117	0.90
29	30	0.00024	0.024	15.3	0.5	1	23	2145	2167	2145	2167	0.98
30	30	0.19	19	6.1	3.2	1	23	2173	2197	2173	2198	0.95

Sequence Information

Coding Sequence: ATGTTAACGTTAAATGAATCGAATCGCAGTGTTAATGAAGATAAGCAGCCAAACACtcaaaaaattgttacaatttCAATTCCGGTCACAGTAGCCGCAACTTCCAAACGAGATAGCCCCAAATATATTATTAACAATGATCTTAGAGTATTACAGAACTTTGTTGTTCGAACTATTACCCAGGACGGAACCCTATGCATTCAAAACCCCAATCAAGTTATCAACACTAGCAACGAAAGTGAAGGTAACAAAAAACTGGAAGAAACTCTTGTTCCAATCGTTCCTGGAACATCCAACACCTTTCCAAAAAACACGATTTATTTAAAACCAATTCCTAAACGTCGTAAACAAGAGCTTGTACCTAAATCAAACACCAATCAATTATTTCGCTGTATAAAATGTCCAGAACAATTCCACACTCTCGTAGACTACCGTAAACACATGCTGAATCATAGGAATTCTCGCAAATATCAATGTGAAAAATGCACTGCCAGTTATAATAATGAACGTAACATGGAAATCCATATGGCCATGCACACCGAAGGAAAACCTTCATGTCCACTATGTAATGTTACATTCCAACGTTTAGCTAGTCTAAAATCCCATCTAATGTTGCACCAAGTCGAAGAGATCTTCACTTGTGAAGAATGCAAATCTGAGTATGATGATGAGGAAAGTTTATTAAAACATTACGAAATTCATGTACTTGAAAAATGTAATGAAAACAAACCACTAGAGTGTCCTTATTGTAAAGTGGTTTATGAAGACACAAATCAGTTAAAAGAGCACATTTCTTATCATGTTAAATTGAAGAAACTCGTATGGAAAGGAAAACGTCCGAAGAAAAAGGCTGCACAACAAGGAAACACGAAAAAATTAGGGGCTCATGCTTGTGATAAGTGCAACAAAAGGTTCACTAAAGCTTGTTTATTGGAAAGACATATGAGGACACACACCGGAGAGAAACCATTTGTGTGTACAATTTGCAATCACTCGTTTACCCAAAAAGGCACTCTACAAATCCATCTAAACAAACATACTGGTTTAAAACCGTTTGAGTGCACCTTGTGTCCAGCAAGGTTCAATCAAAAGGGCAACTTACGCGTACATATTGAAAAAACCCATACAGCTGGTGAAAAGAATGAGAAAATCTATAAATGCACTTCATGTACATGCATATTCAAAACTGTAGCCTCACTAAATGGCCACGTAACGAAATTACATTCGAAAGTAAATAATGAGAATGATTCAGTGCAATTGGTTATGAAAAAACTGAAAGAATTACAACAACAACTTAATCAGAATGCACCAACAAGTAAGGATAAACGTCCTGAAAGCGAATCTCTAATGCAAGTCATGAAAAAACTAAGAGAATTACAAAACAAACAAGCAAACAGTGATAATAAGTTGAAATTACAAACCGATAATAAAAATGACAATGAGAATGTAAGTTATGTTCGATTAGCTGAACCAAATCAGACTCAAGGGGGTAATGTGAGACGGTATTTAGCAAAACGCGTCGTCATTGACGGTATCAGATGGTATTGCTGTAATTATTGTTCGAAACAGTTTAAAAAACCGTCGGATCTAATGCGCCATTTAAGGATTCACACAAAAGAGAAACCATTCGAGTGTAAAGACTGTGGACAGTCGTTCTCCCTAAAATCCACATTAAAATCGCACATGAAAACGCACAAAGAAAAGGAGATTTTTAAATGTATGAAATGTGATAAAACATTTACATCGACAATGTTATTACACAATCATACGTTAAAGAAACACGAACGTAAACATACACCGACATACGAGTgcgtaaaatgtaaaaaagtaTGCAAAACAACAAGAATGGCCCACCACCATTTGGACGAGTGCCATCCGACAGAGAGTTTTGAAGAATGTatgaaatttatattaaaacaaCCAATTTATCAAACACCAAACGgtaatttAGTGATAAGAAAGAAGGTAAACAGTTCAGCAGAGAAACCGTATCCGTGCGATGTGTGCAATGCCTCATTTTCGCGTCGATTAAATCTAAAAGCGCACatgaaaatccatttgaatGATCGTAATTTTAAATGTACTTTATGTCCGAAAACGTTTATTAATTCGTACAAATTGAAAGAGCATTTAAAGTATCATAATAACGTGCGGAATTACGAATGTAATGTGTGTTCGAAGAGATTCGTGACTGGAACGTTATTGAAAAGGCATTTGTTGATACACAGTAATGAGAAACCGTACATGTGTCCTTATTGCTCGAAAACATTTAAAACTCTTTCGTTGATTCATCAACATTTGAAGAAGTCTCATGAGGGCGAGATTACAGACGCTaatTTACATGGGATTGTTGAGGAGGAAGCGGTGGATGAGAATGAGGAGGAAATTGAGTATGAGAGTATACAGAATCACGAGAATATTCAAATACAGCTTCAAAACAACGAAAATGTACACCTGCCCATAAATACAATCGAAATCACTCCGAATGATTTAAATTCCGATTTAAGTCAGCatacaatttatataaatagtGATGGTTTACAGATGGATAACGAAAATCTGCCACAAAGTTTGTTGAATTTGTTAAATCCACAGGAAAATGCGAATGTGCCCAATGAAATTGATCAAAGTACAGTTGAGTTTGCAGCAAATGAAAGTGAACCAAACgacataaacaatttaaataccATATTGAATCAGAATAATGTTAGTTGGGATGATTTGAATGAATTGATTACGAATCTAAATCCAGAGACTGGTAATAATTTCAATGAGAATTTAGAACAGTTGATACAACAGACACCACACGACCAACAAATTGACAATGGTACAAATGAGAGTTTATATGcgaatacatttattatttgtttaagTTGCAATAATCAGTATGATACGGTTGAGCATTTTAAACAACATAATTGTACGGAGAATGAAGCGAATGATGCAATAACAAAAGGGAAAAagaaatcaaataaacaatatgaatGTATATTTTGTGATGAATTGATAAATGGTAGGAAAATGTATGTGAAACATATGGCAATACATGCGAAACATGGACAGTCGAATTCGTGTATATTTTGTgagaaacaatttaaaaagCCATCCGATTTGAAGAGACATATAAGGACACATACGGGAGAGAAGCCATTTAATTgtgaaaaatgtgataaatcgTTTGCATTGAAATCGACATTAATTTCGCATATGAAAACACACAATCCGAATGCACCGAAAGAATTTAAATGTGATGTTTGTAATACGTATTTTACTGTTCGGTCGAGTTTAAAAGTACATATGTTAATGCATACAGATAAGAAACCGCACAGTTGTACGTACTGTTCGGAGACATTTCGTACGGCTGCTCATAAACGATCACATGAACACAGTCAGCATTTGAAGAAAGATCATGAAGTACTTAAAGCAGCGAAAAAGGATGTTCGAATTAAGAATTTGTTGGAGTCTGTGGTGTCGGAAATTGTGAATAGTCAGTCGAATGATGAGTTTAATGATGGTTTGCAACCTTTACAAACAGACGGAATCAATCAAGAGATTATTTTAGAGGATAATACGTTGAATGtgttaaatattaatacaGAAGGACTGGATTTAACTGATGCCATACAAATAGATCCGTTAACGTTGTTGCAATTTCAACAAGCATCGATACAACTGCAAGAAACGtctaatatatttattgatgCAAATTGTGTGCCTGGAAATGAACAGTATTTGCAAATTGATGATGCTGCATTGTTGAATGATGTTAATATACAGCAggagacatttgaaaatgttgtacaATCGCCGGAAATTCAATATGCTGATAATGTGAGTGTATCAGAACGTAATTTGGAATGTGATATTTGTAAAAAATGTTATGCATCTAAAGATGTGTTACGTAAACATAGAAAAATGCATACAAAACAATTTCCATGTACgatatgtggaaagagttttGATAAGGAAATTGATATTGAGAAGCATTTAAGTTTGCATACGGGAGATCGACCGTTTAATTGCGCATATTGTGCAAACAGTTTTGCAGAAGAAGGTAGTTTAAAGACACATTTGAAAAGAATACATCCAGAGGTGACATCTTCGACGGCTGCAGATTCAAATGATGAATTTTTGTTAAAGTTTGAGAAAAAGAACAGTTTTATGAAAAAGTTGTGCGGTATGGAAGATGGTTCGAATGGTTCTTCTGATGTAGAAGTGGTGGACCACACGAAAAATGGGTTAATCCAGCAAATAATGGCCCAAAACGAGCAACAAGAGAATAACATTGATGATACGaaattaatacaaaataaCGAGTGTCAAATCCAAGTGAATGGTGATAATAATAGTAAAAATGGTGATGAAGAAGATTACAGTTCAGAAAGTGATGTATTAGTTATTGACGAGAGTGTGCCAAAAAAGAAGaccaaaaataaaaagaagAGCCAGAAAGAATCTGATCAAACATCTGAAGTAACACATTCGAATCCATATTTTCATGAGTCTCTATTCGAATTATCACAACAACATCACCAACAACATCATCATTCTAATACGAAACCAGTGAAACGACCAAAAACAAAGACAAAACCAAAGTTACGTGAATATGCACAATATTTAGGTTTACAACCAACCGTACAGTTTAAATGTCCTAAATGCGGTTTGGCTGGCTTTCAATCGTTCAATACATTACAGGAACATGTGGTACAGTGTACAAATCATGACCAAATTGATGCCCAAACCCAACAATCCAATTCGTATACTGGAAACGGTTTTAAATTGACACGCAAAGTGTTTTTGTGTTCCGCATGTGGTACATACTATGAAAATTGGAACttgtacatacatatgttAGAGTACCATCATCGCTACATTTGTTTGTATTGTTTAGGTATGTTCTCAATATTAAACGACTTATATCAACATATACAAACGAAGCACAATTTAAAACCGACTTATAGAAAGACATTAGATGAATTTAAAAACGTTTACAATGAACCATGTTACGTGATTTGTTGTGAGTGTAATCGTATGTTTAACGAACAAGATAATTTCTATTATCATAATTGTAATAACATGaagaaaaaagtgaaaaaacaTGAGAAAAAACTAGAAACATTAAATAACAGTAGTAGTGAGATTAATACAGAAATTAATCAGACTAATGAAGTGAGTGAAGTGAGTGAAGTAAAAGAGTGTGTTGAAGatttaacaccaccaccaccagcCACAAATTGTGATCAAaatgatattgaaaatgtcGAAGAAAATATAGTTGAAGAGCCAGAAGTAGAGAATGAACCGGAACCGGTCGTTGAAGAGCCTGTAAATGTTGTAGAAGAACCGGAGAAAAACGATGAACCAGAAGAGACTGTTGTAGAGACACGTAAAGTGCCGAAATTGTCATTAAAATTGCCAAAATTTGAACCGTATGTAGAACATCAGGACGAAGACGAGGACGAAGACAGTGATGATAGCACAAAATTAACAATGGAAGTTGAGAAACAGGAAGCGGAAGAGGAACAACTAGAAGAACCGGAACCAGAGCCAGAGGAGATTGTTGAAGAGGAAACGCCTGCACCCAGTGAGCCACAAATGCAAATCGCCGGTCCTGATGTACAAATCATCGATTTGGAACTCGAACAACCGTTAGACAAATTCGATATACGTgttttattgcaaaaatgttTAAAAGCAACAGCACCATTGTGTATATACTGCAATCATGCTCGAAAAATAGCTGTAAATGGACGACAATTAGGTTTACATGCAATTGCAGAGCATCGTTTCGCTGGCACAGTAAATAGTATCACAGCGGAAGAACTAATACCGGAGAATTTCGTGAATCGCATCAAAGACTCTCTAGTAGAATTAGAACCGTGctattttaatttagaatCAAGTATTAACAATGACGAAGCAATCACATTCTCACACATATTCGAATGTTTTCCATGCCGTTATACGACAACAatacataaagaattatatttacataatCGTAAAATGCATacgaaaaatttattattatgtataatGTGCAAAACgacattttataattatagtGAATTAATTTGTCATTTGTGTCCGGGCGTTTATGATTCGGTACAGATAGACGATATTAAATTCCGTTGTTGTATGTGTATAAGTGACGATTTGCCATCAGCATTCCGTTTAATGGTACATTTACGTAAAAAACATCACTGTTGCGATGTGTGTTTAGAATTATGTTATAATCAATATAAATTATCGAATCATGTATGGAAACACAAATTGCACCATTTTTGTTACCGTTGTGGCATTGCATATCGGAATAAACCGGACATAACACGCCATTTATTTTGGAAACATGGCACAGAGAGTGTTATGTGTAAGAGATGTATGCAGAAAAAGTGGCCGCATGTGTACCATTTCTGTGTACCGCCGACAAGTTTCACATGCGACGAATGCAATTTGATATTTTCCAAAGCGATTTATTTGAAAGTGCATAAACGGATACATAGCGAAGAGAAGAAACATCAATGTACATTTGAGGGATGTGAAGAGATGTTTATATCGAAGAAATTAATGTTGAAACATGAATTGAAACATCACGAACCGGAAATACAGCCGGAAGAAGAGAAACAAGCCGATGAACAAGAGGAACAAAATGTAGAAACGAATGCCGATGTGGTGGCAAGTGAAATAAGTATTGGTAATGAAGAGGAGATTAAAGTGGAGGAGAAAATCGTTAAACCGAAAGTGGATGTATATGATTTGCCTGAATTGAATTTATCGGAAAGTGATAGTAGTGATTCAGAGACGgaaatgaaaatgaaacaatCACCAAAACCGACAAACGAGGAACAGGTAGAGAAGGAAGAAAAGGTGGAAACTGAGGAGGATGTGCAGCCAGTTGAAATGGAACCGATTGCAAATATATGGGATAATTTTAAGAATTATCAAGCGAATAAAGAGAAATTGGATCATATATTTGAGAAGACTTCCTCAATAGCATCACCACAGGCAATAATTGAAGATGAACTCACTAGTGAAATGGCATTACGTGATCACGATTACTTTATTGATCCAGAAAGTAAACATGATACGAATATAATCGAAGTGAAACCAGATTTAACAATGCAAGAGCGTGTGGATCATGATTATTGTTCACCGAAAGTGGATGGCAGTGAGAAAGTGAGTGGTGAAAAAGTGGAGAACGAAATGAAAGAGAAGAAAGTGTCATCAAGTGATTCAAGTTCGGATAGTGATTCGTCGAGTTGTTCGTGTGGTTCGAATTGTTCGTGTAGTTCGTCGTCGGGCTCATCCAGTTCATCGTCGGACAGTTCCGATTCGGATAGTTCCACAGAGGAGGGAAGAAAGAGACAGAAAGCGCGTAGAAAACAGCGACAAATGAATTCGAAACAGAAATCAAAAGAGGCGAAATCAGCGGTGAATCCACAAAGTAATGGACCGATTATTGTGACGGATGCACCGATAAGGGAGTCCGATTTAGAGACGACAGAGAGTGAAACGGACGAAGAGTTTTATGATAAACAACCACATAAAATTGCTAGGAAATTGTTGGAGGAGAAAAGGAATCAATTGATGGCGGAAGTGGGGCCATTGAATGTGCCGAATGGCACATTTATGGAGAGTGATAGTCGACCACCAACGCCACCAATCACATATGAAGAGAATGGGGAAAAAGTGGCaaagaaaaaatcgaaatcGAAGAAaagaaagaagaagaaaagTGAACGGAAATCATTGAATAGACAACAACATTTGGATCATAGTGTGAATCATGAATCGACAGTGGTTTATCCAACTGTGGCTCCAATCACATTGACTTTAAAGAGTTCTCCATTACCGGAAATACATATGAGTAATAATACGGGATTTAAAAATAGTACGGACCAAATGAAATTGAGTGGTGGTGAAATGAGTGAAAGTGGTACACCGACAACAGCAAATCTGCGTGCTTCAAAACGACGTCGaattccaaataaattttatggTTATTCCAGTGATGAGGAACAAGAGAAACAACTCGCTTCACCAATCTTGAAATGGAGGAAGGTTGAGaCTCCGAACTCACCGAAATTGGTGCCTCCAATAACAATCAAAACAACACCACAACCATCACCCCAACCCACTGTGGAGCCGCTTTCTATTCGTGGATTGAATAGTAGCGGTGAATTGAGAATAAATCGACGACCGCCTCCTGTACCACCGCCACCACAGCCATCACAACCCCAAGTACCTCCGCTACGTTTGCCGATCAATTTGCCAATACCGAGTACAGATGAGAGAGACAGTGATACACCGGAATCGGATGTGGAAGAGGAGAGGGAAGAGGAGGAAGAGGAGCAGCCGCCAGTGGCGATGCCATCGTTGCCACCAAGACCGTTGCATCCGTCGAGTTTTCTGTTGAATCGACCGAATCATCCGCCACAAACGCAATTATATTGCTATTGTCGTTGTCCGTATGATGAAGTGAGTGAAATGATTGGCTGTGATTCGAGTGAGTGTGCAATTGAATGGTTCCATTTCGAGTGTGTTGGCATAATGGTGCCACCGAAAGGGCAATGGTTCTGTCCCGATTGCAGAAAGAAGAAACAGCAAAGACGTAGTGAATTgttacaacaacaacaacaacagacGTAA
Protein Sequence: MLTLNESNRSVNEDKQPNTQKIVTISIPVTVAATSKRDSPKYIINNDLRVLQNFVVRTITQDGTLCIQNPNQVINTSNESEGNKKLEETLVPIVPGTSNTFPKNTIYLKPIPKRRKQELVPKSNTNQLFRCIKCPEQFHTLVDYRKHMLNHRNSRKYQCEKCTASYNNERNMEIHMAMHTEGKPSCPLCNVTFQRLASLKSHLMLHQVEEIFTCEECKSEYDDEESLLKHYEIHVLEKCNENKPLECPYCKVVYEDTNQLKEHISYHVKLKKLVWKGKRPKKKAAQQGNTKKLGAHACDKCNKRFTKACLLERHMRTHTGEKPFVCTICNHSFTQKGTLQIHLNKHTGLKPFECTLCPARFNQKGNLRVHIEKTHTAGEKNEKIYKCTSCTCIFKTVASLNGHVTKLHSKVNNENDSVQLVMKKLKELQQQLNQNAPTSKDKRPESESLMQVMKKLRELQNKQANSDNKLKLQTDNKNDNENVSYVRLAEPNQTQGGNVRRYLAKRVVIDGIRWYCCNYCSKQFKKPSDLMRHLRIHTKEKPFECKDCGQSFSLKSTLKSHMKTHKEKEIFKCMKCDKTFTSTMLLHNHTLKKHERKHTPTYECVKCKKVCKTTRMAHHHLDECHPTESFEECMKFILKQPIYQTPNGNLVIRKKVNSSAEKPYPCDVCNASFSRRLNLKAHMKIHLNDRNFKCTLCPKTFINSYKLKEHLKYHNNVRNYECNVCSKRFVTGTLLKRHLLIHSNEKPYMCPYCSKTFKTLSLIHQHLKKSHEGEITDANLHGIVEEEAVDENEEEIEYESIQNHENIQIQLQNNENVHLPINTIEITPNDLNSDLSQHTIYINSDGLQMDNENLPQSLLNLLNPQENANVPNEIDQSTVEFAANESEPNDINNLNTILNQNNVSWDDLNELITNLNPETGNNFNENLEQLIQQTPHDQQIDNGTNESLYANTFIICLSCNNQYDTVEHFKQHNCTENEANDAITKGKKKSNKQYECIFCDELINGRKMYVKHMAIHAKHGQSNSCIFCEKQFKKPSDLKRHIRTHTGEKPFNCEKCDKSFALKSTLISHMKTHNPNAPKEFKCDVCNTYFTVRSSLKVHMLMHTDKKPHSCTYCSETFRTAAHKRSHEHSQHLKKDHEVLKAAKKDVRIKNLLESVVSEIVNSQSNDEFNDGLQPLQTDGINQEIILEDNTLNVLNINTEGLDLTDAIQIDPLTLLQFQQASIQLQETSNIFIDANCVPGNEQYLQIDDAALLNDVNIQQETFENVVQSPEIQYADNVSVSERNLECDICKKCYASKDVLRKHRKMHTKQFPCTICGKSFDKEIDIEKHLSLHTGDRPFNCAYCANSFAEEGSLKTHLKRIHPEVTSSTAADSNDEFLLKFEKKNSFMKKLCGMEDGSNGSSDVEVVDHTKNGLIQQIMAQNEQQENNIDDTKLIQNNECQIQVNGDNNSKNGDEEDYSSESDVLVIDESVPKKKTKNKKKSQKESDQTSEVTHSNPYFHESLFELSQQHHQQHHHSNTKPVKRPKTKTKPKLREYAQYLGLQPTVQFKCPKCGLAGFQSFNTLQEHVVQCTNHDQIDAQTQQSNSYTGNGFKLTRKVFLCSACGTYYENWNLYIHMLEYHHRYICLYCLGMFSILNDLYQHIQTKHNLKPTYRKTLDEFKNVYNEPCYVICCECNRMFNEQDNFYYHNCNNMKKKVKKHEKKLETLNNSSSEINTEINQTNEVSEVSEVKECVEDLTPPPPATNCDQNDIENVEENIVEEPEVENEPEPVVEEPVNVVEEPEKNDEPEETVVETRKVPKLSLKLPKFEPYVEHQDEDEDEDSDDSTKLTMEVEKQEAEEEQLEEPEPEPEEIVEEETPAPSEPQMQIAGPDVQIIDLELEQPLDKFDIRVLLQKCLKATAPLCIYCNHARKIAVNGRQLGLHAIAEHRFAGTVNSITAEELIPENFVNRIKDSLVELEPCYFNLESSINNDEAITFSHIFECFPCRYTTTIHKELYLHNRKMHTKNLLLCIMCKTTFYNYSELICHLCPGVYDSVQIDDIKFRCCMCISDDLPSAFRLMVHLRKKHHCCDVCLELCYNQYKLSNHVWKHKLHHFCYRCGIAYRNKPDITRHLFWKHGTESVMCKRCMQKKWPHVYHFCVPPTSFTCDECNLIFSKAIYLKVHKRIHSEEKKHQCTFEGCEEMFISKKLMLKHELKHHEPEIQPEEEKQADEQEEQNVETNADVVASEISIGNEEEIKVEEKIVKPKVDVYDLPELNLSESDSSDSETEMKMKQSPKPTNEEQVEKEEKVETEEDVQPVEMEPIANIWDNFKNYQANKEKLDHIFEKTSSIASPQAIIEDELTSEMALRDHDYFIDPESKHDTNIIEVKPDLTMQERVDHDYCSPKVDGSEKVSGEKVENEMKEKKVSSSDSSSDSDSSSCSCGSNCSCSSSSGSSSSSSDSSDSDSSTEEGRKRQKARRKQRQMNSKQKSKEAKSAVNPQSNGPIIVTDAPIRESDLETTESETDEEFYDKQPHKIARKLLEEKRNQLMAEVGPLNVPNGTFMESDSRPPTPPITYEENGEKVAKKKSKSKKRKKKKSERKSLNRQQHLDHSVNHESTVVYPTVAPITLTLKSSPLPEIHMSNNTGFKNSTDQMKLSGGEMSESGTPTTANLRASKRRRIPNKFYGYSSDEEQEKQLASPILKWRKVETPNSPKLVPPITIKTTPQPSPQPTVEPLSIRGLNSSGELRINRRPPPVPPPPQPSQPQVPPLRLPINLPIPSTDERDSDTPESDVEEEREEEEEEQPPVAMPSLPPRPLHPSSFLLNRPNHPPQTQLYCYCRCPYDEVSEMIGCDSSECAIEWFHFECVGIMVPPKGQWFCPDCRKKKQQRRSELLQQQQQQT

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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