Basic Information

Insect: Himalopsyche anomala
Gene Symbol: nr2c2ap
Assembly: GCA_031772345.1
Location: CM062843.1:6944471-6985300[-]

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 7.4 3.5e+02 2.2 4.8 1 23 191 213 191 213 0.96

2 30 7.4 3.5e+02 2.2 4.8 1 23 335 357 335 357 0.96

3 30 0.88 42 5.1 5.6 1 23 389 411 389 411 0.98

4 30 0.076 3.6 8.5 1.9 1 23 417 439 417 439 0.96

5 30 0.00039 0.019 15.7 5.1 1 23 445 467 445 467 0.99

6 30 0.031 1.5 9.7 1.7 1 23 473 495 473 495 0.97

7 30 0.12 5.5 7.9 3.5 1 23 501 523 501 523 0.98

8 30 0.00061 0.029 15.1 1.1 2 23 758 780 757 780 0.96

9 30 0.42 20 6.2 0.5 5 23 824 843 818 843 0.95

10 30 2.6e-05 0.0012 19.4 2.0 2 23 855 876 854 876 0.97

11 30 2e-05 0.00094 19.8 1.2 1 23 882 904 882 904 0.98

12 30 0.089 4.2 8.3 5.7 1 23 910 933 910 933 0.97

13 30 0.017 0.82 10.5 6.2 2 23 944 966 943 966 0.96

14 30 5e-05 0.0024 18.5 0.4 1 23 1054 1076 1054 1076 0.97

15 30 0.4 19 6.2 0.2 1 23 1082 1105 1082 1105 0.93

16 30 2.2e-07 1e-05 25.9 0.5 2 23 1669 1690 1668 1690 0.98

17 30 1.5e-05 0.00069 20.2 2.3 1 23 1696 1718 1696 1718 0.98

18 30 0.016 0.75 10.6 0.1 1 23 1727 1749 1727 1749 0.98

19 30 0.42 20 6.1 4.6 1 23 1755 1777 1755 1777 0.96

20 30 0.02 0.95 10.3 1.2 1 23 2179 2201 2179 2201 0.98

21 30 0.12 5.6 7.9 4.3 1 23 2208 2230 2208 2230 0.92

22 30 9.7 4.6e+02 1.9 2.5 1 23 2234 2257 2234 2257 0.94

23 30 0.00013 0.0062 17.2 3.4 3 23 2266 2286 2265 2286 0.98

24 30 0.0028 0.13 13.0 1.5 1 23 2292 2314 2292 2314 0.98

25 30 4.9 2.3e+02 2.8 1.5 1 20 2320 2339 2320 2342 0.79

26 30 0.00074 0.035 14.8 1.3 1 22 2348 2369 2348 2373 0.94

27 30 9.6e-05 0.0046 17.6 0.7 1 23 2381 2404 2381 2404 0.97

28 30 0.058 2.8 8.8 1.3 1 23 2410 2433 2410 2433 0.94

29 30 0.0026 0.12 13.1 1.2 3 23 2444 2464 2443 2464 0.97

30 30 0.12 5.9 7.8 0.4 1 23 2470 2493 2470 2493 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	7.4	3.5e+02	2.2	4.8	1	23	191	213	191	213	0.96
2	30	7.4	3.5e+02	2.2	4.8	1	23	335	357	335	357	0.96
3	30	0.88	42	5.1	5.6	1	23	389	411	389	411	0.98
4	30	0.076	3.6	8.5	1.9	1	23	417	439	417	439	0.96
5	30	0.00039	0.019	15.7	5.1	1	23	445	467	445	467	0.99
6	30	0.031	1.5	9.7	1.7	1	23	473	495	473	495	0.97
7	30	0.12	5.5	7.9	3.5	1	23	501	523	501	523	0.98
8	30	0.00061	0.029	15.1	1.1	2	23	758	780	757	780	0.96
9	30	0.42	20	6.2	0.5	5	23	824	843	818	843	0.95
10	30	2.6e-05	0.0012	19.4	2.0	2	23	855	876	854	876	0.97
11	30	2e-05	0.00094	19.8	1.2	1	23	882	904	882	904	0.98
12	30	0.089	4.2	8.3	5.7	1	23	910	933	910	933	0.97
13	30	0.017	0.82	10.5	6.2	2	23	944	966	943	966	0.96
14	30	5e-05	0.0024	18.5	0.4	1	23	1054	1076	1054	1076	0.97
15	30	0.4	19	6.2	0.2	1	23	1082	1105	1082	1105	0.93
16	30	2.2e-07	1e-05	25.9	0.5	2	23	1669	1690	1668	1690	0.98
17	30	1.5e-05	0.00069	20.2	2.3	1	23	1696	1718	1696	1718	0.98
18	30	0.016	0.75	10.6	0.1	1	23	1727	1749	1727	1749	0.98
19	30	0.42	20	6.1	4.6	1	23	1755	1777	1755	1777	0.96
20	30	0.02	0.95	10.3	1.2	1	23	2179	2201	2179	2201	0.98
21	30	0.12	5.6	7.9	4.3	1	23	2208	2230	2208	2230	0.92
22	30	9.7	4.6e+02	1.9	2.5	1	23	2234	2257	2234	2257	0.94
23	30	0.00013	0.0062	17.2	3.4	3	23	2266	2286	2265	2286	0.98
24	30	0.0028	0.13	13.0	1.5	1	23	2292	2314	2292	2314	0.98
25	30	4.9	2.3e+02	2.8	1.5	1	20	2320	2339	2320	2342	0.79
26	30	0.00074	0.035	14.8	1.3	1	22	2348	2369	2348	2373	0.94
27	30	9.6e-05	0.0046	17.6	0.7	1	23	2381	2404	2381	2404	0.97
28	30	0.058	2.8	8.8	1.3	1	23	2410	2433	2410	2433	0.94
29	30	0.0026	0.12	13.1	1.2	3	23	2444	2464	2443	2464	0.97
30	30	0.12	5.9	7.8	0.4	1	23	2470	2493	2470	2493	0.95

Sequence Information

Coding Sequence: ATGAATATCAAACAGGAAGAAGCCGACGCCAGAGACTTCGCGGACGTGCCAATCGTTAATTACGGCCCGGGGACGGATTGGGGTCCGAACTCGGAGGCGGGCCCTTCGAATGATCACGTAAAACACGAAATAGAAGACGAAGAAGAGGTCCGAATAAAAACAGAAATCAAAGAAGAGCTGTTCCATTCTTCTGATTCTAAATTTGAACAGTATTCCGGTGACGACGAAACAAATGATGAGCGATTAGTGTTCGATGTCAGTGGACatttgaagGAATACTCTTCAGAGGAAGACGAGCAATCTTCAAGCGTCAGACGGCTTTCCGGTTCATCCAAAAGACCGATCGGTTTCCTGCACAGCGATACCGAAATCGAcgaatatgatttaaaaagagATATACTAAACGGCGAATTCGTCGCCTTTGTAAAATTAGACAGAATAGAAATGTACAAAAAGAACTTCGTCTGCGGTCAGTGCTACGACACGTTTCCGTCGCTGGCCATACTGAACACGCACGCGTTCCTCCATTCGGACTCGCTGTTCGACACGTCCGACGACAACGAGGCGGCGTTCCGCTGCGAGATATGCGACTTCGAATGCGCACAGACCAAACACACCAAATACCACAAAATAATACACACAAAAGAGAACCATATACAGTGCGACGGCTGCGATAACGAATGTACACGGTCACGTACGCTGCATGAATACTCTTCAGAGGAAGACGAGCAATCTTCAAGTGTCAGACGGCTATCCGGTTCATCCAAAAGACCGATTGGTTTCCTGCACAGCGATACCGAAATCGAcgaatatgatttaaaaagagATATACTAAACGGCGAATTCGTCGCCTTTGTAAAATTAGACAGAATAGAAATGTACAAAAAGAACTTCGTCTGCGGTCAGTGCTACGACACGTTTCCGTCGCTGGCCATACTGAACACGCACGCGTTCCTCCATTCGGACTCGCTGTTCGACACGTCCGACGACAACGAGGCGGCGTTCCGCTGCGAGATATGCGACTTCGAATGCGCACAGACCAAACACACCAAATACCACAAAATAATACACACAAAAGAGAACCATATACAGTGCGACGGCTGCGATAACGAATGTACACGGTCACGTACGCCGCATGTAACCGAGTGTAACAGCGTGAGGACATTCAAATGCTCGACTTGCGAATACaaatgtaacaaatatattaattttaaataccatttgATGATACATACCGGGGAAAAACCGTTCGAATGTACGCAATGCGATTACAGATGTATCACTTTAGCCAAGTTGAAATTACACGAATATGTACACGGCAAAGTGAAGCCGTTTAAATGCAATCAGTGCGCGTACAGGTGTACGCAGTCGAGTTATCTAAACAAGCACATGTTGACGCACTCGCGTAAGAAGTTTTATGACTGCAATCGGTGCAGCTACAAATGCGATACGAGAGACGAACTGAATGTACACAGAGCAGTACACTTGGGCGAAAAGCCATACAGTTGCGACCAATGTAATTTTAGGTGCGCCAGATCCAGTTATATCAAAATACACAAAGAGACGCACCTTGTTAAAAGGGCGGTGAAggTCAGCTCTGTTCTTAACAAAGAAGTGTCGCAGTATGGAAAAGGATTTATGTTTGATAACAACGTGGAGACCTGCTGGTGCTCCGATCAGAGCTGTCCACAGTGGATAGCTGTTCAGTTTCCCGAAGCAAAGCAGATATCCTCATTTCAAATACAATTCCAAgacACATTGGATCCATTGGTCAGCCAATGCATGTCGTTGGAAAACTATGCTCATCTTCAACATCCGATGATTTTGACGTTCGCCCAACCACAAGAGCACCACATTGTCCAAGACGCACAGCTGAACATATCTCAAACGGAACACGTTAACACAGCACTGTCTTTGGTCAACACATTAAAAACCCCACTGAACTCAGCAACAAACGTTTTCACAAGGCCGGTGAACACAGCGGTATCGGCAATTAACAATTTAACTTTGCCGGTGAAAACTGACCCTGATAATGCTGTTTGGCAAGAGGAGAATGCCAATCCGTTGCTGCGTGACATAGATAAAAACGAATATGACGTTCCCTTCTTTAACAACGATGATTTAACTGATGTGTTGAACGATTTGAGAGACGCTGGTATCGAAATCACCGTGCATAATGAAGAGCCGAAGAAGGTTAAGAAATGCGGACCTGGAAGACCGGGCAGGCCTCGGAAAGATGGAGTTCTGCCTTCGAAGAAAACATTGAATGTTGTATGCCAACAATGCGGTACGACGTGTCGGAGCAGCGCGATGCTGGACAGGCACATCAGGAAGATCCATCCCAGTATACACAAGTGCGATACTTGCTCGTCGAAATTCCTCTCTTTGAATGACCTGATCCTCCACTCCGCAACACACTGGGAGCCGGGGCAGCCCTGTCCGATGTCTCCGACAAATGACAGCGGCTGCAAGTGCCCTTCGTCGTTCAGCAGGAGGGCCGTGCTGAGGTCCCATCTGCAGCGGAACCACTTGAAAGAGGAAGAAGCGCCGGACTCCCGTAAAACGTGCGAGTTCTGCAAGAAGGTCTTCGACAAGCCCAGCCAGCTGGAGAGGCACCGCAGGAGTCACACCGGAGAAAAACCTTACATTTGCGCACACTGCGGCACGTCCTTCACTCAGAAGAACTCTCTGGTCCTCCACATGATAAAGCACACCGACAAGAGGCCCTTCAAGTGTTTGCATTGCTCCGCTACTTTCAGACAGCGTGGCAACTGCCGCACGCACATGTTGCGCGTTCACACCGTCAAAGTCGACGCCGTCGACATCTTGCAGTGCCCGCACTGCTCGtgcatgtttaaaaattccagaTGCCTCAATATACACATCATACGAAATCATCAGAACCTGACCGAGGACCAGATAATGAACAGCACGATCGCAGACGTCATGGAGGGCCTTGCTTCCCTGAGCGACCAATCGCGAGGGAATAAACACGACCTGCTCCAGACGGCTTTATCGAGCAGTGGAATAACGCAGCCAGAGCCGTGCGCGTCCGTCTCGACGGTGTACAGGGCGTCGCTGGGCACCGGAGACAGCCTAACCAGCAAGCCGAAGATCTACGCAGTGCCGACGATGAAAGACAGCGACGGGAAATCAGCGTTCTTCTGTCCGACGTGCAGGTACCGCTTCAAAGAACCCTCCGATCTGATTCGGCACATGGCTATACATACCTCGGAGAAGAAATACTTGTGTGAAATATGCAACCGAAGGTTTCTTCTCTCTGCAAGTCTAGCGCTACACCTGAAGAACGGCCACAAAGTCAGGACCAAAAAGGTCATCGTACCAAAGATAAAGATCGTCAAATCGCCTCCGCCGAAGAAGACCACGTTGAACAAAAAGAAGCAACCGCCCGAAGCTGACACGCCCTGTATACCCATCGCCGATGACAATGCAGTCAACATGAACGGTGTTTTTTTCTCGATGCCGCTGATCGACACGTCAAGCTCGGATATTACATTGCCATCTCACGCTGAAAGCACACCGGTGAAGAACGTCGATAATGCGCCAACGATCCCAAATCAAAACGTCCCCGGTCCTGTTATTGGCGCCACTCGCGTCGTCAATCCGGTTATCGGCGGAAACAGTATCGTTCATCCAGTTATCGGCGTGAGTAGCTACGTCAGCGATCCGGCGATCGAGGGCAGCGGCAACATCGCTGACAGCGTCATCGACGGGAGCCTGTTGGGCTTGGACACCAGCCAGTTCAGTGGACTCCAGGAGAACGTCTTGGACGGCCACAGCATGAGTCTCGACATGGGGAATATACTAGACGGAGAAGATGTCCTAGTTCAGCAGCCAATCAGagacatgaaaaatattaaaatgaacaacgccttgaattcgaaaataaacCAACATAACACCATAAGCGCCTTACAAAGTGTCCTAACTCCGGACGACTTGGATATAACTGACAATTCTGCGCTTTATGACACAGTTGGACCGACAAACAGTCATAAATCCGAATTCTTATCAATTCCTGATAATAACCTACCGAATCCCTTAGACGCTGATATGATTTTTGACGGGAAAAACGACAGTTTAAACAACATGACAGAAATACAAAACGGACTATGTCCGGACATATTAGAAAACGCATTAAACCCTCAGGATACGCAGCCGACTGACGCAGATTTCAATTCGCAAGTGCTACAAATGAGTTTACAAAACCAGCTAACTCCGAATGAATTTAGTCTTCAAAACAGTATATCTCCGGAACAATTTAACACTGTCGTTTTGAATACTGGTATACGCAATATTGACGTTGATGCAAACAAAATGGTCGACAATACCGTAGAGCACTTTCAGTATTATATTAATCTACCGAGCGGACAGGTGGCTTTACTGAATACGGACGCCGTTCTTAATTCaaacgataatttaataataaaacaaggtatgaatattataaatagtctGGTGGAGAATAACGAATTTAGCGTGGAAACAAACCAGAGTAAGTTTGCTAGTTTTAATGAACATGTAAACACACAGATGGCACCGGTTAACAAAGCTGCAAACTGTAAAAACGGAAAAATCTTCAATGGTTTACAGAACGGCAGTATTCTGAATAGCGGCAATGATTTCTGCCAAAAGAACTACCAGGTTTCGTTCAACGGCGATCTGGTTTTAGACAACGAAACATCGGTTGCTTCAATGCGAAATTGCAGGAATGTGAAACAGAATGCTGTTTTATCCGACCCGTCGGATATTTTCGATGGCCTCGCGGGCAGTTGGAGCGAAGAGGGCATGGCCTTGCCGAAAAATCTATCCACGCCGGCCGACACTGGTACGAATTCAGCAGCAGATATGGACGTCAATATACCTCTGCCGAAGAAGTTCTTCAAAACGAAAAAAGAGACCAAAGTATTGCTGGACGGCTTGGAGGCTTGCAAGCTgagtcttttgaaaaaaaccgccTGCTACAACCCGAGTCTTGCCAACAAGTGCACCGAGTGCCCGGCCAGCTTCTCCAGGCCCTCGGACCTCACTCGTCACATACGGACGCACACGAAAGAGAAACCCTACTCGTGCTCGCAGTGCGGCAGGTGCTTCTCCGTCAAGTCCTCGCTGAAGATGCACCAGGCTGTGCACGTGGCCAAGTCGCAGAGGAAGCACTTCAGTTGTCAGGTGTGCGGTAAGAGGATGACGGCCGCCGGCGCCCTGGCTACGCACATGAAGCTCCATACCGGAACGAAGCCCCACGCGTGCCCAGTTTGCCAGACCACGTTCCGAACCACCGGCCACAGAAACTTCCACCTCAGAACCCATTTCAAAGAACACTACgTAAGTGATATTGTGGAAGCTGTGCTCAACAAAGATGATAACAGTAACGATGATGATGTGGTCGTTGAATGTCAAATTGAGAAATCTAAACCAGTAACGGCGATCTCCAGAGCTCATGATATATTGGACGTGCTAGTCGAATTTTTAGCACGGAGCACTGAGACAACCCAAATGTCCGATCTTCACACGCTGCCTGGCTGGCTCTGCGGATACTGCCGGTGCCTGCTGAATCGGTGCATCAGTTTCAAGCGGAAGTGCTTGGAGAGCAACGAATTCCTGCTGGACAGCGTCAGCACGTACCGTCCTGACCTTAAGATTCCCCGAGATCCGACGCACATTCCGAAAAAGCAGAACATCTTTGATTTCTCGCCGATTTTTTACATTCACATAGACCCAGTCGTGGCGCTTGATGATGCCGCGCCTATCGAAGAAGTCACGCAGATCAACAACACGGCGATCAAGCTCGAGCAAGACACCGCTGAGAATGACGACGACGTGGATCATGACGGCGAGTTATTCATTGATGAGCTTAAGGATGATTTCGAAGGCGATTGGGATAATTTGGACAACGTTCCTCTCAGAATGTTTACAAAAGTGTTTGAAAATACTGAAAAGACCGTTAACGATACGATATTCGACGAAAGCTGTACAGATATGTGCTGCGATACCTTAAAAAAGAGTGAAATTTGCGGTATAATTGATAGAAACAGTACGTTCGACGCcgattttaaagaaaacaataaagcaAATGCCGATTTTAGATACACGAAAGGACTTAACGTCGTAGAAGTCTTGCAGTACGACGATACGAAGTCTAAACGGAGTAATTCCGACGAAGACGATAAGAAAAGCGTTAAAAAAGAGCGCAAGAAGATCGACGACGAGCTGGACGGCGACGACGAACGCGTCAAGCGGAAGTATATCAAAAAATTGTCGAAGAAACACAAGAAAAGTAAACGGGAACACGGCGTGAAAAGAAAATCGCGCAGGATGGTTCAGGACGATATCGATTACATCGGGGATCTGTGTGAAATCAAGCAGGAGGACATGGGGGAGGTGAAGCCGAGGCGGCGGAGAAAGTGCGACGATTTCGATCCGTCGGTGGTCACCGAAATCGTTCTGACGGAGGAGCAGCAAATGCAGGACATGATCAACAATCGTCTGAAAGACGAGTACATCAACGCTCCGTACAAGTGCGAGATGTGCTCGAAAGGCTTCTCGCTAGAAATCACGTACAACACGCACACGTTGCGGCACAGCGACTCGTCGGGCTGCCACGCCTGCCACCTGTGCCAGCTGCGTTTCACGAGCATAAAGAACCTGAAGCAGCACTTCGACCTTCACTCGAGGAAGTACATGTGCAACGTCTGCAAGAGGCTGCTGAACAACAGGCACGGCGCGCACCGCCACTACGAGGTGGAGCACGGCGAGAATCGAGGCGAGGTCTTCTGCACGGTCTGCGGCAAACATTCCAGGAATAAGTACGCTCTGAAGAAACACATGAAGGTCCACAACTCCAGCAAGAACTACCAATGCTCGCTTTGTCCGAAGACCTTCCTCAGAGTGACGCAACTGAAAACACATCTCTCAAGACACACTGGCGATAAACCTTTCAAATGCCGGATGTGCGATCTGATGTTTATCTCGACGTCGGCGCGGCGCTGCCACGAGCTTGTCCACACCGACAGCAAAGAGTTCTACTGCGTGGAGTGCGACCACAGCTTCCGGTCGAAAAACCTGCTGGCGCAGCATCTCAGGAAGGGGGCCAAGCACGTCACGCCCGATCTCATGACGTACGCCTGCGACAAGTGCGAGAGGCGCTACGTCACAAATCGGGACCTGAAGCAGCACATGAACTCCGTCCACCTCAAGATCAGGGCCCACGCGTGCAGCATATGCCCGGCAACTTTCATGGCGCGCAACTCCCTACGGTCTCACATCAAACACGTCCACGAGGGATTCAAGAGGCCCAAGGATAAAATTTGCGATATATGCGGGCGCGGTTTTACGgAGAAGCGTCTGCTGATGGAACACAAGCACACGCACACGGGGGCGCGGCCCTACGCGTGCAATCAGTGCGACGCGAGGTTCGGCCAGGCGGCGTCCATGCACACCCACAACAAGATCGTGCATCTCAAAGTGGGGCGCGGTAAACAGTTTAAACCGGAGGCCATCGAGGCGGTCAACAACGAATTAACTATACCGTAG
Protein Sequence: MNIKQEEADARDFADVPIVNYGPGTDWGPNSEAGPSNDHVKHEIEDEEEVRIKTEIKEELFHSSDSKFEQYSGDDETNDERLVFDVSGHLKEYSSEEDEQSSSVRRLSGSSKRPIGFLHSDTEIDEYDLKRDILNGEFVAFVKLDRIEMYKKNFVCGQCYDTFPSLAILNTHAFLHSDSLFDTSDDNEAAFRCEICDFECAQTKHTKYHKIIHTKENHIQCDGCDNECTRSRTLHEYSSEEDEQSSSVRRLSGSSKRPIGFLHSDTEIDEYDLKRDILNGEFVAFVKLDRIEMYKKNFVCGQCYDTFPSLAILNTHAFLHSDSLFDTSDDNEAAFRCEICDFECAQTKHTKYHKIIHTKENHIQCDGCDNECTRSRTPHVTECNSVRTFKCSTCEYKCNKYINFKYHLMIHTGEKPFECTQCDYRCITLAKLKLHEYVHGKVKPFKCNQCAYRCTQSSYLNKHMLTHSRKKFYDCNRCSYKCDTRDELNVHRAVHLGEKPYSCDQCNFRCARSSYIKIHKETHLVKRAVKVSSVLNKEVSQYGKGFMFDNNVETCWCSDQSCPQWIAVQFPEAKQISSFQIQFQDTLDPLVSQCMSLENYAHLQHPMILTFAQPQEHHIVQDAQLNISQTEHVNTALSLVNTLKTPLNSATNVFTRPVNTAVSAINNLTLPVKTDPDNAVWQEENANPLLRDIDKNEYDVPFFNNDDLTDVLNDLRDAGIEITVHNEEPKKVKKCGPGRPGRPRKDGVLPSKKTLNVVCQQCGTTCRSSAMLDRHIRKIHPSIHKCDTCSSKFLSLNDLILHSATHWEPGQPCPMSPTNDSGCKCPSSFSRRAVLRSHLQRNHLKEEEAPDSRKTCEFCKKVFDKPSQLERHRRSHTGEKPYICAHCGTSFTQKNSLVLHMIKHTDKRPFKCLHCSATFRQRGNCRTHMLRVHTVKVDAVDILQCPHCSCMFKNSRCLNIHIIRNHQNLTEDQIMNSTIADVMEGLASLSDQSRGNKHDLLQTALSSSGITQPEPCASVSTVYRASLGTGDSLTSKPKIYAVPTMKDSDGKSAFFCPTCRYRFKEPSDLIRHMAIHTSEKKYLCEICNRRFLLSASLALHLKNGHKVRTKKVIVPKIKIVKSPPPKKTTLNKKKQPPEADTPCIPIADDNAVNMNGVFFSMPLIDTSSSDITLPSHAESTPVKNVDNAPTIPNQNVPGPVIGATRVVNPVIGGNSIVHPVIGVSSYVSDPAIEGSGNIADSVIDGSLLGLDTSQFSGLQENVLDGHSMSLDMGNILDGEDVLVQQPIRDMKNIKMNNALNSKINQHNTISALQSVLTPDDLDITDNSALYDTVGPTNSHKSEFLSIPDNNLPNPLDADMIFDGKNDSLNNMTEIQNGLCPDILENALNPQDTQPTDADFNSQVLQMSLQNQLTPNEFSLQNSISPEQFNTVVLNTGIRNIDVDANKMVDNTVEHFQYYINLPSGQVALLNTDAVLNSNDNLIIKQGMNIINSLVENNEFSVETNQSKFASFNEHVNTQMAPVNKAANCKNGKIFNGLQNGSILNSGNDFCQKNYQVSFNGDLVLDNETSVASMRNCRNVKQNAVLSDPSDIFDGLAGSWSEEGMALPKNLSTPADTGTNSAADMDVNIPLPKKFFKTKKETKVLLDGLEACKLSLLKKTACYNPSLANKCTECPASFSRPSDLTRHIRTHTKEKPYSCSQCGRCFSVKSSLKMHQAVHVAKSQRKHFSCQVCGKRMTAAGALATHMKLHTGTKPHACPVCQTTFRTTGHRNFHLRTHFKEHYVSDIVEAVLNKDDNSNDDDVVVECQIEKSKPVTAISRAHDILDVLVEFLARSTETTQMSDLHTLPGWLCGYCRCLLNRCISFKRKCLESNEFLLDSVSTYRPDLKIPRDPTHIPKKQNIFDFSPIFYIHIDPVVALDDAAPIEEVTQINNTAIKLEQDTAENDDDVDHDGELFIDELKDDFEGDWDNLDNVPLRMFTKVFENTEKTVNDTIFDESCTDMCCDTLKKSEICGIIDRNSTFDADFKENNKANADFRYTKGLNVVEVLQYDDTKSKRSNSDEDDKKSVKKERKKIDDELDGDDERVKRKYIKKLSKKHKKSKREHGVKRKSRRMVQDDIDYIGDLCEIKQEDMGEVKPRRRRKCDDFDPSVVTEIVLTEEQQMQDMINNRLKDEYINAPYKCEMCSKGFSLEITYNTHTLRHSDSSGCHACHLCQLRFTSIKNLKQHFDLHSRKYMCNVCKRLLNNRHGAHRHYEVEHGENRGEVFCTVCGKHSRNKYALKKHMKVHNSSKNYQCSLCPKTFLRVTQLKTHLSRHTGDKPFKCRMCDLMFISTSARRCHELVHTDSKEFYCVECDHSFRSKNLLAQHLRKGAKHVTPDLMTYACDKCERRYVTNRDLKQHMNSVHLKIRAHACSICPATFMARNSLRSHIKHVHEGFKRPKDKICDICGRGFTEKRLLMEHKHTHTGARPYACNQCDARFGQAASMHTHNKIVHLKVGRGKQFKPEAIEAVNNELTIP

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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