Basic Information

Insect: Cordilura impudica
Gene Symbol: -
Assembly: GCA_963682025.1
Location: OY821520.1:74751138-74759384[-]

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 45 0.00066 0.2 14.9 0.5 2 23 267 289 266 289 0.96

2 45 1.2 3.5e+02 4.7 0.4 6 23 298 315 298 315 0.97

3 45 0.1 31 8.0 4.7 1 23 321 344 321 344 0.93

4 45 7.7e-05 0.024 17.8 3.5 1 23 352 375 352 375 0.96

5 45 0.055 17 8.8 0.4 1 23 381 404 381 404 0.92

6 45 0.005 1.5 12.1 0.3 2 23 407 428 406 428 0.97

7 45 0.7 2.1e+02 5.3 1.9 2 23 466 488 465 488 0.89

8 45 1.6e-05 0.0048 20.0 0.7 1 23 494 516 494 516 0.98

9 45 0.00073 0.22 14.7 5.0 1 23 522 545 522 545 0.98

10 45 0.19 57 7.2 0.0 2 23 743 765 742 765 0.94

11 45 0.34 1e+02 6.3 1.3 6 23 774 791 774 791 0.98

12 45 0.00048 0.15 15.3 4.2 1 23 797 820 797 820 0.93

13 45 0.00076 0.23 14.7 4.6 1 23 828 851 828 852 0.95

14 45 0.023 7.1 10.0 0.6 1 23 857 880 857 880 0.92

15 45 0.005 1.5 12.1 0.3 2 23 883 904 882 904 0.97

16 45 3.4 1e+03 3.2 3.4 2 23 942 964 941 964 0.88

17 45 5.9e-05 0.018 18.2 0.3 1 23 970 992 970 992 0.98

18 45 0.00024 0.074 16.2 4.9 1 23 998 1021 998 1021 0.98

19 45 0.07 21 8.5 0.1 2 23 1220 1242 1219 1242 0.96

20 45 0.0085 2.6 11.4 0.9 6 23 1251 1268 1251 1268 0.98

21 45 0.0019 0.58 13.4 2.1 1 23 1274 1297 1274 1297 0.93

22 45 7.4e-05 0.023 17.8 3.6 1 23 1305 1328 1305 1328 0.96

23 45 0.1 31 8.0 0.6 1 23 1334 1357 1334 1357 0.92

24 45 0.026 8.1 9.8 0.6 2 23 1360 1381 1359 1381 0.97

25 45 0.57 1.7e+02 5.6 4.3 1 23 1418 1441 1418 1441 0.94

26 45 5.5e-05 0.017 18.3 0.6 1 23 1447 1469 1447 1469 0.98

27 45 0.00079 0.24 14.6 6.2 1 23 1475 1498 1475 1498 0.98

28 45 0.07 21 8.5 0.1 2 23 1698 1720 1697 1720 0.96

29 45 0.0085 2.6 11.4 0.9 6 23 1729 1746 1729 1746 0.98

30 45 0.0019 0.58 13.4 2.1 1 23 1752 1775 1752 1775 0.93

31 45 5e-05 0.015 18.4 2.8 1 23 1783 1806 1783 1806 0.97

32 45 0.35 1.1e+02 6.3 0.3 1 23 1812 1835 1812 1835 0.92

33 45 0.026 8.1 9.8 0.6 2 23 1838 1859 1837 1859 0.97

34 45 0.29 90 6.5 2.5 2 23 1897 1919 1896 1919 0.94

35 45 5.5e-05 0.017 18.3 0.6 1 23 1925 1947 1925 1947 0.98

36 45 0.00079 0.24 14.6 6.2 1 23 1953 1976 1953 1976 0.98

37 45 0.31 96 6.4 1.4 2 23 2177 2199 2176 2199 0.96

38 45 0.11 33 7.9 0.4 6 23 2208 2225 2208 2225 0.98

39 45 0.0013 0.4 13.9 2.7 1 23 2231 2254 2231 2254 0.91

40 45 5.4e-05 0.017 18.3 2.3 1 23 2262 2285 2262 2285 0.96

41 45 0.27 82 6.7 0.2 1 23 2291 2314 2291 2314 0.88

42 45 0.0093 2.9 11.2 0.4 2 23 2317 2338 2316 2338 0.97

43 45 0.028 8.6 9.7 2.1 2 23 2377 2399 2376 2399 0.92

44 45 2.7e-05 0.0084 19.2 1.4 1 23 2405 2427 2405 2427 0.98

45 45 0.22 68 6.9 9.3 1 23 2433 2456 2433 2456 0.98

#	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	45	0.00066	0.2	14.9	0.5	2	23	267	289	266	289	0.96
2	45	1.2	3.5e+02	4.7	0.4	6	23	298	315	298	315	0.97
3	45	0.1	31	8.0	4.7	1	23	321	344	321	344	0.93
4	45	7.7e-05	0.024	17.8	3.5	1	23	352	375	352	375	0.96
5	45	0.055	17	8.8	0.4	1	23	381	404	381	404	0.92
6	45	0.005	1.5	12.1	0.3	2	23	407	428	406	428	0.97
7	45	0.7	2.1e+02	5.3	1.9	2	23	466	488	465	488	0.89
8	45	1.6e-05	0.0048	20.0	0.7	1	23	494	516	494	516	0.98
9	45	0.00073	0.22	14.7	5.0	1	23	522	545	522	545	0.98
10	45	0.19	57	7.2	0.0	2	23	743	765	742	765	0.94
11	45	0.34	1e+02	6.3	1.3	6	23	774	791	774	791	0.98
12	45	0.00048	0.15	15.3	4.2	1	23	797	820	797	820	0.93
13	45	0.00076	0.23	14.7	4.6	1	23	828	851	828	852	0.95
14	45	0.023	7.1	10.0	0.6	1	23	857	880	857	880	0.92
15	45	0.005	1.5	12.1	0.3	2	23	883	904	882	904	0.97
16	45	3.4	1e+03	3.2	3.4	2	23	942	964	941	964	0.88
17	45	5.9e-05	0.018	18.2	0.3	1	23	970	992	970	992	0.98
18	45	0.00024	0.074	16.2	4.9	1	23	998	1021	998	1021	0.98
19	45	0.07	21	8.5	0.1	2	23	1220	1242	1219	1242	0.96
20	45	0.0085	2.6	11.4	0.9	6	23	1251	1268	1251	1268	0.98
21	45	0.0019	0.58	13.4	2.1	1	23	1274	1297	1274	1297	0.93
22	45	7.4e-05	0.023	17.8	3.6	1	23	1305	1328	1305	1328	0.96
23	45	0.1	31	8.0	0.6	1	23	1334	1357	1334	1357	0.92
24	45	0.026	8.1	9.8	0.6	2	23	1360	1381	1359	1381	0.97
25	45	0.57	1.7e+02	5.6	4.3	1	23	1418	1441	1418	1441	0.94
26	45	5.5e-05	0.017	18.3	0.6	1	23	1447	1469	1447	1469	0.98
27	45	0.00079	0.24	14.6	6.2	1	23	1475	1498	1475	1498	0.98
28	45	0.07	21	8.5	0.1	2	23	1698	1720	1697	1720	0.96
29	45	0.0085	2.6	11.4	0.9	6	23	1729	1746	1729	1746	0.98
30	45	0.0019	0.58	13.4	2.1	1	23	1752	1775	1752	1775	0.93
31	45	5e-05	0.015	18.4	2.8	1	23	1783	1806	1783	1806	0.97
32	45	0.35	1.1e+02	6.3	0.3	1	23	1812	1835	1812	1835	0.92
33	45	0.026	8.1	9.8	0.6	2	23	1838	1859	1837	1859	0.97
34	45	0.29	90	6.5	2.5	2	23	1897	1919	1896	1919	0.94
35	45	5.5e-05	0.017	18.3	0.6	1	23	1925	1947	1925	1947	0.98
36	45	0.00079	0.24	14.6	6.2	1	23	1953	1976	1953	1976	0.98
37	45	0.31	96	6.4	1.4	2	23	2177	2199	2176	2199	0.96
38	45	0.11	33	7.9	0.4	6	23	2208	2225	2208	2225	0.98
39	45	0.0013	0.4	13.9	2.7	1	23	2231	2254	2231	2254	0.91
40	45	5.4e-05	0.017	18.3	2.3	1	23	2262	2285	2262	2285	0.96
41	45	0.27	82	6.7	0.2	1	23	2291	2314	2291	2314	0.88
42	45	0.0093	2.9	11.2	0.4	2	23	2317	2338	2316	2338	0.97
43	45	0.028	8.6	9.7	2.1	2	23	2377	2399	2376	2399	0.92
44	45	2.7e-05	0.0084	19.2	1.4	1	23	2405	2427	2405	2427	0.98
45	45	0.22	68	6.9	9.3	1	23	2433	2456	2433	2456	0.98

Sequence Information

Coding Sequence: ATGGTATGCAGATTGTGTTTGCAAAACAGTTCTGAagtaattgaaatatttaataacaaagggCAAGAGTTAAAAATAGCTGTGGTAATTGGTAAACATTTTTGGTTTGAGcCAAAAAATGAGGATCCCGTCTCGTCACACATATGCCACAGTTGTTGGACAAAGGTATCTGATTTTCACGACTTTTACAAATATGTCGAAAAGGCACAGCAACTTTTGACAGTAGAAGTTATAGTTAAAACCGAGTACAAATTAACAGTTTCTGATATAACAGTTTCTGATATAACAGTTGAGGACGTAGAATTAGCAAGTAAACATGAACTTGACGAAAATATAGAACAATATGAAAGGCCGTTTAATATAACATCTGATGTGTTAGCAGAGAACAATTGTGGTGTAATGAAATTTGAGTTTCCGACTGATTTGAAAAACCAATCTATTGTAACTAATGAGCAAAAGGAAGATGATCAAGATATAACTGAAATACATGATGACAAAGGAGATGAAAGCGATTTGCAGCTCCTAATTAAtgataaaaaggaaattttaaggaATAAAGACACAAAACTTAAAGAGTTCTCGATACGGAATAAAATAGAATCTCTTACCGAAgaagcaacaacaacacacaAAAAACGTGGACGTCCACGTAAAGTGGCTACTTTGAAAAATAAGTCTGACTCTAGTGAAGAAAAAGCTGCAAAACTCAGAACTTACAATGATGACAGTGGATCTAATGTTATGACAAAGGAAATGTCAGAAATTATCAACCGTAAAATTTCTGAATATATGCAACTGAAATGTGATGTTTGTGGTATCGAGTTTGAAACTTTTGGCCATGTAAGAAAACATATGATGTCAGTTCATGATGTCCGTCCATATGTCAAATGTTGCGAAAAGAAGTTTATCACGCGTGCATTCTTATATGATCATATAAAGTTTCATTTAAACCCCGATATATATAAATGCGAAAAATGTTGTAAAGTTTTCAGGGACAAACGTACTTTCACAAATCATAATATTTCTATACATCAGTCTGAAGATAGTAAAATATATCAATGTCCGCAGTGTCCTAAAAAGTTTGCTAGAAAGCATTTATTACAGAGTCATAAAACTCGGCAGCattatgaaatattgaaatatttttgtacagAATGTAAAAGAGGATTTCCTTTAATGTCCGCTTTGACGTCTCACACGGCTTTAAGGCATGGAACAAAGTGTGATATCTGTTCTGAAGTAGTTACAGGGCAAGCCGCTTTTAAACGACATCAGCAAAAACACCAACGCATTGTTGAACCAAAAGTGCAATGTGATCTCTGTGGTTCATGGCATAGAGACAAATTAAGTCTAATCAAACATAAAAGATGGCATACGTATCAAGAACAACCACAAGTTTGTATGTTTTGTCAAAAAACCTATCCAAGTCGTAGGGCATTGTACAACCATAAATATCATGTTCACCTACGCAATGGCAAATACGTatgtaatatttgcaaaaaatcttTTGAAGTGGCAAAGTCACTAAAAGAGCATATGTCAAAACACACGGGACTCTCTCTGTACCGTTGTCCACACTGCAGTCGAGCGTTCAACCACATGAGCAATATGAATATACATCGCAAAAGGATGCATCCAAAGGAATTTGAAGAACTTCGAAAGCTAAGAAAAATGAACGCTCGCAGGAAAGAGATTATAATACCAGATGTATCAGATGAACCAAAGAACTCTGATGAATTACCAAGTAAACATGAACTTGAGGAAAATACAGAGGAACTATATGAAGAGCCGTTCAATATAACATCTGATGTGTTAGCAGAGGACAATTATGGCGCAATAAAATTTGAGTTTCCTCCAGATTTGAAAGACCAATCGATTGATATTGCAATTAATGAGAAAAAGAAAGATGATGAAGATATATCTGCAATACATGATGACAAAGGAGATGAAAGCGATTCGCAGCTCCTAATTAATGATAAAGAATTCTTAAGGAATAAAATGTCCTCTGAACGGAACAAAGAATCTCTTACTCAAAAAGCAACAACATCAAACAAGGGACGTGGACAACCACGTAAAGGTGATGTGGTTCCTTTGAAAAATAAGGCTAACTGTAATGAAAAAAAAGCTTCAAAACTCAGAATTAACAATGATCCAAGTAGATCTAATGTTATGACACAGGAACTGTCAGAAATTGTTAATCGTGAAATTTCTGAATATATGCAACTGAAATGTGATGTTTGTGGTATCGAGTTGGATACtttttatgatataaaaaatcATATGATGGCGGTTCATGATGTCCGTCCATACGTCAAATGTTGCGAAAAGAAGTTTATCACGCGTGCATTATTATATCATCATATAAAGTTTCATTTAAACCCCGATATATATAAATGCGAAAAATGTCATAAAGTTTTCAGGGACAAACGTACTTTCACAAATCATAATATTTCTATACATCAGTCTGAAGATAGTAAAATATATCAATGTCCGCAGTGTCCTAAAAAGTTTGCTAGAAAGCATTTACTACAGGGTCATAAAACTAGGCAGCatcatgaaatattgaaatatttttgtacagAATGTAAAAGAGGATTTCCTTTTATGTCCGCTTTGACGTCTCACACGGCTTTAAGGCATGGAACAAAGTGTGATATCTGTTCTGAAGTAGTTACAGGGCAAGCCGCTTTTAAACGACATCAGCAAAAACACCAATGCATTGATGAACCCAAAGTGCAATGTGATCTCTGTGGTTCATGGCATAAAGACAAATTCAGTCTAATCAGACATAAAAGTTGGCATACGTATCAAGAACAACCAAAAGTTTGTATGTTTTGTCAAAAAACCTATCCTAATCGTAGGGCATTGTACAGCCATAGTCATCATGTTCACCAACGCAATGGCAAATACGTatgtaatatttgcaaaaaatcttATATAGTGGCAAAGTCCCTAAAAGAGCATATGTCAATACACACGGGACTCTCTTTGTACCGTTGTCCCCACTGCAGTCAAACGTTCAACAACGACTCCAATATGCGTAAACATCGTAAAAGGATGCATCCAAAGGAATTTGAAGAACTTCGAAAACTAAGAAAAATAAACTCTCGCAGGAAAATTATAATACCAGATATATCAGATGCAACACAGAATTCTGGTGAATTACCAAGTAAACATGAACTTGAGGAAAATATAGAGGAACAATATGAAGAGCCGTTTAATATAACATCTGATGTGTTAGCAGAGAACAATTGTGGTGTAATGAAATTTGAGTTTCCTCCAGATTTGAAAGACCAATCGATTGATATTGTAATTAATGAGAATAAGAAAGATGATGAAGATATATCTGCAATACATGATGACAAAGGAGATGAAAGCGATTTGCAGCTCCtaattaatgataaaaaagaaTTCTTAAGGAATAAAATGTCCTCTGAATGGAACAAAGTAGAATCTCTTACTCAAAAAGCAACAACATCAAACAAAGGACGTGGACAACCACGTAAAGGTGATGTGGTTCCTTTGAAAAATAAGGCtaattgtaatgaaaaaaaagctTCAAAACTCAGAATTAACAAGGATCAAAGTGGATCTAATGTTCAGACAAAGGAACTGTCAGAAATTGTTAATCGTGAAATTTCTGAATATATGCAACTGAAATGTGATGTTTGTGGCATCGAGTTGGATACtttttatgatataaaaaatcATATGATGTCGGTTCATGATGTCCGTCCATACGTCAAATGTTGTGGAAAGAAGTTTACCAGGCGTTCGTGGTTATATTATCACATAAAGTTTCATTTAAACCCCGATATATACAAATGTGAAAAATGTTATAAAGTTTACTCGGACAAACGTAGTTTCACAAATCATAATATTTCTATACATCAGTCTGAAGAAAGTAAAATATATCAATGTCCGCAGTGTCCTAAAAAGTTTGCTAGAAAGCATTTACTACAAACTCATAAAACTCGGCAGCATTATCaagtattgaaatatttttgtacagAATGTAAAAGAGGATATCCTTTTATGTCCGCTTTGACGTCTCACACGGCTTTGAGGCATGGAACAAAGTGTGATATCTGTTCTGAAATAGTTAAAGGGAAAGTCGCTTTTAAACGACATCAGCAAAAACACCAACGCATTGTTGAACCAGAAGTGCAATCTGATCTCTGTGGTTCATGGCTTACAGACAAATTGAGTCTAACCAGACATAAAAGTTGGCATACGTATCAAGAACAACCACATGTTTGTATGTTTTGTCAAAAAACCTATCCTAATCGTAGGGCATTGTACAGCCATAAACAACATGTTCACCAACGCAATGGCAAATACGTatgtaatatttgcaaaaaatcttATATAGTGGCAAAGTCCCTAAAAGAGCATATGTCAAAACACACTGGACTCTCTTTGTACCGTTGCCCACACTGCAGCCGAACGTTCAACCACATGAGCAATATGAATATACATCGTAAAAAGATGCATCCAAAGGAATTTGAAGAACTTCGAAAGCTAAGAAAAATGAACGCTCGCAGGAAAGAGATTATAATACCAGATGTATCAGATGAACCAAAGAACTCTGATGAATTACCAATTAAACATGAAGTTGAGGAAAATACAGAGGAACTATATGAAGAGCCGTTCAATATAACATCTGATGTGTTAGCAGAGGACAATTATGGCGCAATAAAATTTGAGTTTCCTCCAGATTTGAAAGACCAATCGATTGATATCGTAATTAATGAGAAAAAGAAAGATGATCAAGATATATCTGCAATACATGATGACAAAGACGATGAAAGCGATTTGCAGCTCCtaattaatgataaaaaagaaTTCTTAAGGAATAAAATGCCCTCTGATCGGAACAAAGTAGAATCTCTTACCCAAAAAGCAACAACATCAAACAAAGGTCGTGAACAACCAGGTAAAGGTGATGTGGTTCCTTTGAAAAATAAGGCtaattgtaatgaaaaaaaagctTCAAAACTCAGTTTTAACAATGATCcaaatggatctaatgttatGACACAGGAACTGTCAGAAATTGTTAATCGTGAAATTTCTGAATATATGCAACTGAAATGTGATGTTTGTGGTATCGAGTTGGATACtttttatgatataaaaaatcATATGATGTCGGTTCATGATGTCCGTCCATACGTCAAATGTTGTGGAAAGAAGTTTACCAGGCGTTCGTGGTTATATTATCACATAAAGTTTCATTTAAACCCCGATATATACAAATGTGAAAAATGTTATAAAGTTTACTCGGACAAACGTAGTTTCACAAATCATAATATTTCTATACATCAGTCTGAAGATAGTAAAATATATCAATGTTCGCAGTGTCCTAAAAAGTTTGCTAGAAAGTATTTACTACAAACTCATAGAACTCGGCAGCATTATCaagtattgaaatatttttgtacagAATGTAAAATAGGATATCCTTTTATGTCCGCTTTGACGTCTCACACGGCTTTGAGGCATGGAACAAAGTGTGATATCTGTTCTGAAATAGTTAAAGGGAAAGTCGCTTTTAAACGACATCAGCAAAAACACCAACGCATTGTTGAACCAGAAGTGCAATGTGATCTCTGTGGTTCATGGCTTAAAGACAAATTAAGTCTAACCAGACATAAAAGTTGGCATACGTATCAAGAACAACCACAAGTTTGTATGTTTTGTCAAAAAACCTATCCTAATCGTAGGGCATTGTACAGccataaaaaacatgttcaccaacGCAATGGCAAATACGTatgtaatatttgcaaaaaatcttATATAGTGGCAAAGTCCCTAAAAGAGCATATGTCAAAACACACTGGACTCTCTTTGTACCGTTGCCCACACTGCAGCCGAACGTTCAACCACATGAGCAATATGAATATACATCGTAAAAAGATGCATCCAAAGGAATTTGAAGAACTTCGaaaactaagaaaaataaaaGCTCGCAGGAAAATTATAATATCAGATATATCAGATGCAACAAAGAACTCTGGTGAATTACCAAGTAAACATGAACTTGAGGAAAATATAgaggaacaatatgaagggccgtTTAATATAACATCTGATGTGTCAGCAGAGGACAATAATGGCGTAATAGAATTTGAGTTTCCCCCTGATTTGAAAGACCAATctattggtattgttattaatgagAAAAAGAAAGATGATCAAGATATATCTGCAATACATGATGACAAAGGAGATGAAAGCGATTTGCAGTtcctaattaataataaaaaggaaattttaaggaATAAAGGCACCAAACTTAAAAAGTTATCTATACGGAATAAAATGGAATCTCTTACCgaagaagcaacaacaacatacaaaGGACGTGGACGTAAAGGTGAAGTGGCTCCTTTGAAAAATGACTCCAATTGTAATGAAGAAAAAGCTGCAAAACTCAGAATTAACAATGACGCAAGTGGGTCATATGTTACGACACAGGAAATGCCAGATATCAACCGTAAAATTTCTGAATATATGCTACTGCAATGTGATGTTTGTGGTATCGAGTTGGATACTTTTTGTCATATAAGAAGTCATATGAGGTTGGTTCATGATGTCCGTCCATATGTCAAATGTTGTGAAAAGAAGTTTACCAGGCGTGCGTGGTTATATGATCACATAAAGTTTCATTTAAACCCCGATATATATAAATGTGAAAAATGTTATAAAGTTTTCTCGGACAAACGTACTTTCACAAAtcataatatatatattcatCAGTCTGAAGATACTAAAATATATCAATGTCCGCGGTGTCCTAAAAAGTTTGCTAGAAAGTATTTACTACAAACTCATAAAACTCGGCAGCATTACAaagtattgaaatatttttgtccAGAATGTAATAGAGGATTTCCTTTTATGTCCATTTTGAGAACTCACACGGCTTTGGTGCATGGAACAAAGTGTGATATTTGTTCGGAAGTAGTTAAAGGGCAAGTCGCTTTTAAACGACATCAGCAAAAACATCAACGTATTGTTGAACCAAAAGTGCAGTGCGATCTCTGTGGCTCATGGCAAAAAGACAAATTAAGTCTAACCAGACATAAAAGATGGCATACGTACTATCAAGAACAACCACAAGTTTGTAATATTTGTCAAAAAACCTATCCAAGTCGTGCGGCATTGTACAACCATAAACATCATGTTCACCAACCCAATGACAAATTCGTAtgtaatatatgcaaaaaatcttataaatcgGCAATGACACTAAAAGAGCATATGTCAAAACACACGGGAGTCTCTTTGTACCGTTGTCTACACTGCAGTCGAACGTTCAACCACATGAGCAATATGCATTTACATCGTAAAAGGATGCATCCAAAGGAATTTGAAGAACTTCGAAAGCTAAGAAAAATAAACGCTCGAAGCAATGAGCGTATAATACCAACAATATCATCTTTATCAGATGCTACAAAGAACTCTGGTGAATTTGTTCCATTTTCGAGTAGTGTATTAGcactaataaaagaaaaacatgaaACATGA
Protein Sequence: MVCRLCLQNSSEVIEIFNNKGQELKIAVVIGKHFWFEPKNEDPVSSHICHSCWTKVSDFHDFYKYVEKAQQLLTVEVIVKTEYKLTVSDITVSDITVEDVELASKHELDENIEQYERPFNITSDVLAENNCGVMKFEFPTDLKNQSIVTNEQKEDDQDITEIHDDKGDESDLQLLINDKKEILRNKDTKLKEFSIRNKIESLTEEATTTHKKRGRPRKVATLKNKSDSSEEKAAKLRTYNDDSGSNVMTKEMSEIINRKISEYMQLKCDVCGIEFETFGHVRKHMMSVHDVRPYVKCCEKKFITRAFLYDHIKFHLNPDIYKCEKCCKVFRDKRTFTNHNISIHQSEDSKIYQCPQCPKKFARKHLLQSHKTRQHYEILKYFCTECKRGFPLMSALTSHTALRHGTKCDICSEVVTGQAAFKRHQQKHQRIVEPKVQCDLCGSWHRDKLSLIKHKRWHTYQEQPQVCMFCQKTYPSRRALYNHKYHVHLRNGKYVCNICKKSFEVAKSLKEHMSKHTGLSLYRCPHCSRAFNHMSNMNIHRKRMHPKEFEELRKLRKMNARRKEIIIPDVSDEPKNSDELPSKHELEENTEELYEEPFNITSDVLAEDNYGAIKFEFPPDLKDQSIDIAINEKKKDDEDISAIHDDKGDESDSQLLINDKEFLRNKMSSERNKESLTQKATTSNKGRGQPRKGDVVPLKNKANCNEKKASKLRINNDPSRSNVMTQELSEIVNREISEYMQLKCDVCGIELDTFYDIKNHMMAVHDVRPYVKCCEKKFITRALLYHHIKFHLNPDIYKCEKCHKVFRDKRTFTNHNISIHQSEDSKIYQCPQCPKKFARKHLLQGHKTRQHHEILKYFCTECKRGFPFMSALTSHTALRHGTKCDICSEVVTGQAAFKRHQQKHQCIDEPKVQCDLCGSWHKDKFSLIRHKSWHTYQEQPKVCMFCQKTYPNRRALYSHSHHVHQRNGKYVCNICKKSYIVAKSLKEHMSIHTGLSLYRCPHCSQTFNNDSNMRKHRKRMHPKEFEELRKLRKINSRRKIIIPDISDATQNSGELPSKHELEENIEEQYEEPFNITSDVLAENNCGVMKFEFPPDLKDQSIDIVINENKKDDEDISAIHDDKGDESDLQLLINDKKEFLRNKMSSEWNKVESLTQKATTSNKGRGQPRKGDVVPLKNKANCNEKKASKLRINKDQSGSNVQTKELSEIVNREISEYMQLKCDVCGIELDTFYDIKNHMMSVHDVRPYVKCCGKKFTRRSWLYYHIKFHLNPDIYKCEKCYKVYSDKRSFTNHNISIHQSEESKIYQCPQCPKKFARKHLLQTHKTRQHYQVLKYFCTECKRGYPFMSALTSHTALRHGTKCDICSEIVKGKVAFKRHQQKHQRIVEPEVQSDLCGSWLTDKLSLTRHKSWHTYQEQPHVCMFCQKTYPNRRALYSHKQHVHQRNGKYVCNICKKSYIVAKSLKEHMSKHTGLSLYRCPHCSRTFNHMSNMNIHRKKMHPKEFEELRKLRKMNARRKEIIIPDVSDEPKNSDELPIKHEVEENTEELYEEPFNITSDVLAEDNYGAIKFEFPPDLKDQSIDIVINEKKKDDQDISAIHDDKDDESDLQLLINDKKEFLRNKMPSDRNKVESLTQKATTSNKGREQPGKGDVVPLKNKANCNEKKASKLSFNNDPNGSNVMTQELSEIVNREISEYMQLKCDVCGIELDTFYDIKNHMMSVHDVRPYVKCCGKKFTRRSWLYYHIKFHLNPDIYKCEKCYKVYSDKRSFTNHNISIHQSEDSKIYQCSQCPKKFARKYLLQTHRTRQHYQVLKYFCTECKIGYPFMSALTSHTALRHGTKCDICSEIVKGKVAFKRHQQKHQRIVEPEVQCDLCGSWLKDKLSLTRHKSWHTYQEQPQVCMFCQKTYPNRRALYSHKKHVHQRNGKYVCNICKKSYIVAKSLKEHMSKHTGLSLYRCPHCSRTFNHMSNMNIHRKKMHPKEFEELRKLRKIKARRKIIISDISDATKNSGELPSKHELEENIEEQYEGPFNITSDVSAEDNNGVIEFEFPPDLKDQSIGIVINEKKKDDQDISAIHDDKGDESDLQFLINNKKEILRNKGTKLKKLSIRNKMESLTEEATTTYKGRGRKGEVAPLKNDSNCNEEKAAKLRINNDASGSYVTTQEMPDINRKISEYMLLQCDVCGIELDTFCHIRSHMRLVHDVRPYVKCCEKKFTRRAWLYDHIKFHLNPDIYKCEKCYKVFSDKRTFTNHNIYIHQSEDTKIYQCPRCPKKFARKYLLQTHKTRQHYKVLKYFCPECNRGFPFMSILRTHTALVHGTKCDICSEVVKGQVAFKRHQQKHQRIVEPKVQCDLCGSWQKDKLSLTRHKRWHTYYQEQPQVCNICQKTYPSRAALYNHKHHVHQPNDKFVCNICKKSYKSAMTLKEHMSKHTGVSLYRCLHCSRTFNHMSNMHLHRKRMHPKEFEELRKLRKINARSNERIIPTISSLSDATKNSGEFVPFSSSVLALIKEKHET

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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