Basic Information

Insect: Hofmannophila pseudospretella
Gene Symbol: CG12744
Assembly: GCA_947369225.1
Location: OX376336.1:5141277-5169177[-]

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 48 0.015 0.94 10.4 5.5 1 23 300 323 300 323 0.94

2 48 0.014 0.92 10.5 0.1 3 23 350 371 348 371 0.95

3 48 0.029 1.8 9.5 0.4 1 23 393 415 393 415 0.98

4 48 0.49 31 5.7 1.4 1 23 419 441 419 441 0.85

5 48 0.4 25 5.9 2.7 1 23 445 468 445 468 0.94

6 48 0.0013 0.086 13.7 0.4 1 23 504 527 504 527 0.95

7 48 0.0037 0.24 12.3 3.8 1 23 533 555 533 555 0.98

8 48 1.8e-05 0.0012 19.6 2.3 1 23 561 583 561 583 0.98

9 48 8.8e-05 0.0056 17.4 1.1 1 23 589 611 589 612 0.95

10 48 0.06 3.9 8.5 1.4 1 23 654 676 654 676 0.96

11 48 0.075 4.8 8.2 0.8 3 23 706 727 704 727 0.91

12 48 0.019 1.2 10.1 0.3 2 23 748 770 747 770 0.95

13 48 0.0012 0.077 13.9 2.6 2 23 776 798 775 798 0.95

14 48 0.0079 0.51 11.3 1.1 1 23 803 826 803 826 0.96

15 48 1.3 82 4.3 0.2 2 23 829 851 828 851 0.95

16 48 0.0093 0.6 11.1 1.7 2 22 858 878 857 878 0.95

17 48 0.005 0.32 11.9 0.6 1 23 937 960 937 960 0.95

18 48 1.6 1e+02 4.0 0.1 3 23 989 1010 987 1010 0.92

19 48 0.16 11 7.1 0.4 3 23 1034 1056 1032 1056 0.95

20 48 0.0093 0.6 11.1 0.7 3 20 1063 1080 1061 1084 0.90

21 48 0.031 2 9.4 0.4 1 23 1089 1112 1089 1112 0.97

22 48 0.0015 0.094 13.6 0.2 2 23 1118 1140 1118 1140 0.94

23 48 0.00015 0.0093 16.8 4.7 1 23 1144 1167 1144 1167 0.97

24 48 0.00062 0.04 14.8 0.6 2 23 1174 1195 1173 1195 0.96

25 48 8.5 5.5e+02 1.8 0.6 1 13 1229 1241 1229 1245 0.81

26 48 3.7 2.4e+02 2.9 0.1 2 23 1281 1303 1280 1303 0.95

27 48 0.002 0.13 13.2 1.4 2 23 1324 1346 1323 1346 0.95

28 48 1.6 1e+02 4.0 0.1 2 20 1352 1370 1351 1370 0.95

29 48 0.00059 0.038 14.8 1.7 1 23 1379 1402 1379 1402 0.97

30 48 0.089 5.7 8.0 0.6 1 23 1502 1525 1502 1525 0.96

31 48 0.0079 0.5 11.3 0.1 2 21 1552 1571 1551 1574 0.88

32 48 0.11 6.8 7.7 3.2 1 23 1593 1616 1593 1616 0.95

33 48 0.032 2.1 9.4 0.6 1 23 1705 1727 1705 1727 0.95

34 48 0.081 5.2 8.1 0.2 3 23 1795 1816 1793 1816 0.95

35 48 0.71 46 5.1 6.7 3 23 1823 1844 1821 1844 0.94

36 48 0.0071 0.46 11.4 1.3 2 23 1881 1903 1880 1903 0.96

37 48 0.019 1.2 10.1 2.0 1 23 1945 1967 1945 1967 0.98

38 48 0.096 6.2 7.9 0.1 2 23 1995 2016 1994 2016 0.90

39 48 0.079 5.1 8.1 0.2 2 23 2036 2058 2035 2058 0.95

40 48 3.2 2e+02 3.1 0.4 1 16 2063 2078 2063 2086 0.84

41 48 0.071 4.6 8.3 0.5 2 21 2095 2114 2094 2115 0.94

42 48 0.21 13 6.8 0.2 1 23 2163 2186 2163 2186 0.97

43 48 0.031 2 9.4 1.5 3 23 2289 2309 2287 2310 0.94

44 48 0.018 1.2 10.2 1.3 2 23 2316 2338 2315 2338 0.94

45 48 0.3 19 6.3 1.4 1 23 2343 2366 2343 2366 0.93

46 48 0.00013 0.008 17.0 3.2 1 23 2370 2393 2370 2393 0.97

47 48 0.0061 0.39 11.6 0.4 2 23 2400 2421 2400 2421 0.96

48 48 0.022 1.4 9.9 2.0 1 23 2427 2449 2427 2449 0.96

#	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	48	0.015	0.94	10.4	5.5	1	23	300	323	300	323	0.94
2	48	0.014	0.92	10.5	0.1	3	23	350	371	348	371	0.95
3	48	0.029	1.8	9.5	0.4	1	23	393	415	393	415	0.98
4	48	0.49	31	5.7	1.4	1	23	419	441	419	441	0.85
5	48	0.4	25	5.9	2.7	1	23	445	468	445	468	0.94
6	48	0.0013	0.086	13.7	0.4	1	23	504	527	504	527	0.95
7	48	0.0037	0.24	12.3	3.8	1	23	533	555	533	555	0.98
8	48	1.8e-05	0.0012	19.6	2.3	1	23	561	583	561	583	0.98
9	48	8.8e-05	0.0056	17.4	1.1	1	23	589	611	589	612	0.95
10	48	0.06	3.9	8.5	1.4	1	23	654	676	654	676	0.96
11	48	0.075	4.8	8.2	0.8	3	23	706	727	704	727	0.91
12	48	0.019	1.2	10.1	0.3	2	23	748	770	747	770	0.95
13	48	0.0012	0.077	13.9	2.6	2	23	776	798	775	798	0.95
14	48	0.0079	0.51	11.3	1.1	1	23	803	826	803	826	0.96
15	48	1.3	82	4.3	0.2	2	23	829	851	828	851	0.95
16	48	0.0093	0.6	11.1	1.7	2	22	858	878	857	878	0.95
17	48	0.005	0.32	11.9	0.6	1	23	937	960	937	960	0.95
18	48	1.6	1e+02	4.0	0.1	3	23	989	1010	987	1010	0.92
19	48	0.16	11	7.1	0.4	3	23	1034	1056	1032	1056	0.95
20	48	0.0093	0.6	11.1	0.7	3	20	1063	1080	1061	1084	0.90
21	48	0.031	2	9.4	0.4	1	23	1089	1112	1089	1112	0.97
22	48	0.0015	0.094	13.6	0.2	2	23	1118	1140	1118	1140	0.94
23	48	0.00015	0.0093	16.8	4.7	1	23	1144	1167	1144	1167	0.97
24	48	0.00062	0.04	14.8	0.6	2	23	1174	1195	1173	1195	0.96
25	48	8.5	5.5e+02	1.8	0.6	1	13	1229	1241	1229	1245	0.81
26	48	3.7	2.4e+02	2.9	0.1	2	23	1281	1303	1280	1303	0.95
27	48	0.002	0.13	13.2	1.4	2	23	1324	1346	1323	1346	0.95
28	48	1.6	1e+02	4.0	0.1	2	20	1352	1370	1351	1370	0.95
29	48	0.00059	0.038	14.8	1.7	1	23	1379	1402	1379	1402	0.97
30	48	0.089	5.7	8.0	0.6	1	23	1502	1525	1502	1525	0.96
31	48	0.0079	0.5	11.3	0.1	2	21	1552	1571	1551	1574	0.88
32	48	0.11	6.8	7.7	3.2	1	23	1593	1616	1593	1616	0.95
33	48	0.032	2.1	9.4	0.6	1	23	1705	1727	1705	1727	0.95
34	48	0.081	5.2	8.1	0.2	3	23	1795	1816	1793	1816	0.95
35	48	0.71	46	5.1	6.7	3	23	1823	1844	1821	1844	0.94
36	48	0.0071	0.46	11.4	1.3	2	23	1881	1903	1880	1903	0.96
37	48	0.019	1.2	10.1	2.0	1	23	1945	1967	1945	1967	0.98
38	48	0.096	6.2	7.9	0.1	2	23	1995	2016	1994	2016	0.90
39	48	0.079	5.1	8.1	0.2	2	23	2036	2058	2035	2058	0.95
40	48	3.2	2e+02	3.1	0.4	1	16	2063	2078	2063	2086	0.84
41	48	0.071	4.6	8.3	0.5	2	21	2095	2114	2094	2115	0.94
42	48	0.21	13	6.8	0.2	1	23	2163	2186	2163	2186	0.97
43	48	0.031	2	9.4	1.5	3	23	2289	2309	2287	2310	0.94
44	48	0.018	1.2	10.2	1.3	2	23	2316	2338	2315	2338	0.94
45	48	0.3	19	6.3	1.4	1	23	2343	2366	2343	2366	0.93
46	48	0.00013	0.008	17.0	3.2	1	23	2370	2393	2370	2393	0.97
47	48	0.0061	0.39	11.6	0.4	2	23	2400	2421	2400	2421	0.96
48	48	0.022	1.4	9.9	2.0	1	23	2427	2449	2427	2449	0.96

Sequence Information

Coding Sequence: ATGGAGTTTGACGAGATAATGGTGAAGGAGAGCCCCGGACTGTGCCGGTGCTGTCTCTCCGAAGGATGTTACAAAGACTTGGCTTCGGAGTATACATGGATGAATGAAACGGAGATTTACGCAGAAATGCTATTGGAATGCTTCGATATCAGTATATCACAGCATAATGACGGTCCAAACGGGCCCAACCGTCTCATCTGTGAGGTGTGCATCACTCGTCTCCGAGATGCTTGCAACTTCAAGAAACAGGTGACAGACTCCGAAAAGAAATTCGTAGACATGATTGGCCGTGGAGAGTTTGGTCAAAAAGTTGTGATATACCAGACTATGAAGGCCGAGGTGATGGGGGAAGAAGCCCAAACTGAGGAGGGGGAGGTGGAGTATCTGGATGAGGAGATGCAATTCGATGATACTGATGACCAACCCCTAAGGCCCCCAACGGATGATGTCCCAGAGCCTTCAGGCTCCGAAACCATAACCATTGCGACCCACAAAGTGAAGGGCAAGCGAGGCCGGCCCAAGAAGACCGCCATGAAACCCGAGAAGAAGGTGAAAGTGGCCAAAATTGAACCCAAGACGTCGAAGGTTGCTAAAGCACAAAACATCCGGTGCGGTACAGTGCCAAAAAGGGTACACCAGCTCAGCATAATGCTGAGGCAAGCCACAGCGCTGATTGTCAGCTGGCCCCTCAGTGACTGCACGGACGAAGAAAGCAACAGTGTGTGCGTGTTGTGTTGTATGAATGAGGATATTGTTGTGTATGTGAGGTGTGAGACTCGGCCGGTAACCATGAAGTCCTCAATGACAGCCACAAAGAGGAACCGGCTCGTCAAGAGAAACGCTATAATTATCTTAGAGACCTCCACTGTCATACCATTCAAATGGCATAGACAAAACTATCTTTGTTTCTTTTGCCACAAACCCTTCAAACATGCCAAATTATTGAAAGATCATACGAGAAACGAACACGACAAATCGAACATACGAGCGGCTGTATCTTATATAAGAAGGGACGAAAAAGTGAAAATTGACGTTACTGTCCTGGCTTGTCGAGTTTGTGACACGAAATTCCGAAATATTGACGGTCTAATAGAGCATGTTAAAGTGAATCATAAGAAAATGTTCGCAGACGAATGTGGGTACGGCATTATTCCGTATAAATTGAACGATGGTGCTTTCCAATGCGCGATATGCGAGGAAGACTTTCAATACTTCATTAAATTAAATCAACACATGAACGAGCATTATGGCAACTTCATTTGCGAATTATGCGGCAAATCCTTCTTAAGCCAAGACAGGTTGAGATGTCACGCTCTGAGCCACGGGTCTGGCTTCCATTGCAGCGAATGTTCCCAATCTTTCGACTCTTTAACGCAAAGAAACAACCACGAATCGAAAGTACATAACAAGAACAAAACTTTGAAATGTTTCTACTGTGCAGACACCTTCCAGAATTATACTCAAAGAAAGAAACATCACAACGCTGTCCACAATGTGGAAATCCCCGAATTCCGTTGTCCTGTTTGCGGGAAAACGTTTCAAATCATGAGCAAAATGAAGGTGCATCTCAAAGAAGTGCACGATCGTGAGAAGAATTTCTCCTGCGCCATGTGTGATCAAAAATTCTTCTCCAGAACTCATGTTCaaaagcacatgataaagcattttggagaaagagtacaccagtgtgaagtttgcaagaagtcgtatgcaagaaagcagactcttagagaccatattcgtatacatagtgatgataaaaggtttatatgttctgtgtgcagtcaggggtttgtgcagaataatagtttgagattgcatatgagggTGCATCATCATGATTCTGGTATAAAACCGCAGAAATTGAAAGCCAGCGAGTCCTCATCGATGCGACGACGAAAAAACCTACAAATACTCTTCAACAACACTTCGATCATACCATTTAAATGGAGAGGGAAATATCTCTGTTTCTATTGTAGCAAAGACATCTCAGAGTACTCTGAACTCAGGAAACACACCCAGTCTCACGGCTCTTGCTCAACTAAGGATCATTCCTTAAAAGTTCTCAAAGGCGGTCAAAATATGGAGATAAAAATCGACGTATCGGATGTTATTTGCAAAAATTGCAACGAAACTTTTACAAATTTCGATGAGGTTCTCGACCATTTGCACGGGAAACACAAAATTGTTTATGACAAGGAAGTGGAAATGGCTATAGAAGAGTACAGACTGATCGATCTAAGTTGCTTAGTGTGTGAAAAGAAATTCACATACTTCGGTTATTTGGTGTCTCATGTTAACAGTGACCATCCGAAGAATTGTTTGATCTGTGACAAATGCAATCAGAAGTTTAATAAGAAGAGGGATTTGTTTTCTCACATGAAGAACTACCACAGAGAAGGAGGGTATACGTGTGAACTATGTCCCCAGAGTTTTAGTTCCCTGAACATACTAAGAAAACATAGGAACAATCGACATATAACTAGATGCAACATCTGTCAATTGAAACTGCCTTCTGCTGTGTTGAAACAAAAGCATATAGAGATGGAGCATCCAGACGACGGGTCGTTACAATGCGACAATTGCTCTAAAGAATTCCACACGAAGCAGGGTCTGAAAATGCATCTCAGAAAATGTAAAGGCGAGGGTCTGTTTGAAATTTTTAAGAAAGAAGATTACGACGCAATGGACTTGGATCAGAATTACGAAGATACTGCCAAAAGACCTAGCGTGAAGCAAATTAGACAGAATATTGTAATAGTCATCAATATGTCCACTGCGATACCGTTCAATTTCTATAAAAACAAGTTTAACTGCTTCTACTGTTCCAAAGACTTTCCAGATTCAGATTCTATGAGAGAACATACGATAATGGAACATCCAGTTTGCGACATCAAAGAGAAATGCATTAGGAAGTGTAGGGAATCCGTGGCTTGTGTTAAAATAGATATATCTTCTCTAGCTTGTAAGGTTTGCTTCGAATCCATGTCAGACTTGGATACCTTACTCAACCACTTGATAGAAAAACACGAGGCTAAATATGACAAAACGATCACGACTTGCTTGCAGCCGTACAGGTTAATAAAAGATCACATGGCCTGCCCAAATTGTCCAAACGAAGTGTTCAGATTCTTTGGAACGTTATTGAAACACATGAACAAGAAGCATACTAATAACAACATAATATGTGTTTTCTGTGGTCAGACTTTCAGGAGAGATCAAAATCTCCGAGTTCACATTTGGAGACATCATAGGGATGGTAGATTTAAGTGCAACATTTGCGGAGCCGAATGCAATATACCGTCAAGACTGTACATGCATATGGCTAAAGCTCACGGCGTGAAAGCGGCCAAGTGCCCTAAATGTCCAGAAACTTTCGCGACCCAATATTTACGTCAAAAGCATTTGATAGAAGCCCACGACTCGGGCCATAAATGTTCATACTGCGGCAAACTTTTCACGAGAAATTCTTTCATGCGAGACCATATTAGAAGAACGCATTTAAAGGAGAAAAATGTCGAATGCTCGATATGTAACATGAAGTTCTTCAATAACATCCTCTTGCGGAGGCATATGGTGAAACACAGTGGCAAAAACGAAACGAGCGTCGCAATGCGAAAAAGGAGAAACTTGGTGACGATATTCAACAACACCACCATTATACCTTTCAAGGGCATCGATAAATTCCTTTGCTTCTACTGCGGAGAGCAATATACTAACTCGCAATATCAAGAGTTCGTGCAGCACACTGTTTCTCACGGCCCTTGCACTACGCACCACAAAGCATTGGAAGCGCAAAAAGTACAATGCGAAAACGTGAAGCTAGACGTTTCCAATATAACTTGCAAACTGTGCGAGGAATCTACAAACACTGTAGAAGCTATTATAGGTCACCTAATGACCAGACACGGATTAGATTACGACACAGAAGTGAGAATGTTCCTGACGCCTTACAAATTGGTCGATTTACAATGCTTGCTGTGTGGAAATAAGTTCAAGAATTCCAGAAATCTGCACGTGCATATTACCAGTGCACACGTGGAGAAACGTTTGCCTTGTGGTAAATGTAATGGTTTATTTAGTACGCCAAAGGATTTCCTCGATCACATGCCTCTGTGCCAAGTGCAGAGAGGTTACAACTGTGACTTTTGTGGGAGTAGCTTTAAAAATAGTTTTCTGTTAAGCAGACACAGAAATAGTATTCACGCGTCCAAAGTAAAAAAGGCAAAATTGGACAGGATTATGGAAAGGAATAAAGAAAAGTTGGCTAAAAACCTCGAGAGGAAGGAAAAGAGAGATATAGAGAAAAAAGAAAAGTTAGTTAAAAAGATTATTGAAACAGAAAAGAGAAAGATGGATAAAGCGAGCGAGTCAAAAAAGGGAACGGGTAAAAAGGCTAAGACACAAGCGAATGAAGATAAAAAACGGCTGAAGAATCTTCAAAACAACCTCCACATACTATTCTACAACTCTGGAGTAATACCATTTCTTTGGAACAACATCTTCGAGTGCTTTTTCTGTAAGAAACCTCTGCCAGAAAGCAGGGATTTGAGAAACCACGTTAAATTATCGCATTCTACTGACCCGGAAGCCATTAAAAGATTAAAAATAACAAAATGGTTCCAACGTCCTAATCTTGACGTGTCAAATCTCATTTGCAAACTTTGTCAAACCGATTTCACAAGTTTAGACCAACTAATAAAACATTTGGTCGATATACACGAATTGGGTTACGACAGGAATTTGATAGATTTCGACCAGTATAGACTGGAAGATCATAGTTGCCCGTTGTGTGAAGAAAAGTTCATGTACTTTTCATTTTTGTTCAGTCACATGAAAGATAAACACAAAAACCATGGAAGTGATAATGGTTTTCAAGAAAGTGATAGCAACGAGGATTATGACTGCGTGCTAGTCGAAGACCGGGAAACCTATTGTATTATAATTGATGACGACGAAGAAAACGGAAGTGACAGATCGGATCAGGACGATTCTGAAGATGCAAATGCTGAAAACGAAAATAAAGCAGCCATTACAAAACAAAAACGTCTTAACATCGAAATATTTGTGAACAACACGACGGCTCTTCCTTTTAAGGGTTTCAACAATAAGTTTTCATGTTTTTACTGTTCAGAAGTGTTTTATGGACCCGTACATTTGTTAGAACATACCGCGCTACACAAACAGTCCATGGATTGGAAAATGCCGCGAGGCAAAAGCTTACGTGTTCAAGTTGACGTAAAACATGTCTCTTGTAGAATTTGTAATGACCCTGTTTTCAAAATTGACGCCATGATTGACCACTTGATAACAAAACACAATCTGAATTACGATAGAAGCATTACTGATGTTTTGAAGCCTTTTAGACTTACGGACATTGCGTGTGCTCTGTGCAACACTGCGTTTGTTAATTTTAAAGTTCTTTTTCAACATATGAAATTGGAACACTCTGATACTCAGCATCTTTGCCCGCACTGTGGAATGAGATTCGCTAAAGAACAACACGTGTGGACGCACGTGTGTAAAAAACACCAGTCCATAAATATAGATGTTACAACCAAAGCTAAAGACAACGATTTGTTAGAGGAGAGAGCTGTTGTAAACCGTCCACGTACAATGAATAAACAGTGTAACAAGATTAAATGTCCAAACTGTGAGCTAACATTCACAAAGCAATGTGCACTCGCATTGCACGTTAATAAACGTCATAAGAAAAATGAAAAACCGCACAAAACGGAAACGGATGAAGACGTAACAGCAAGGAGACGACGAAAACATCTTGAAACACTCTTTGCCAATACCAGTGTCATTCCTTTTGAGTGGAATATGCAATATGCTTGTTTCTATTGCGAGAAACAAACTCCTGGGCATGAGGAATTGAGAAAGCATACTAGATCCCATGGAGAGTCATCTACACTGAAGAACCATATAGAAAAGCTTAGATCACCTCATGCCGAATTAAGATTGGATGTTTCCGAACTTACATGTGAATTGTGTGAACAATCATTTGAACAATTAAACGAATTAGTGGAACATTTACCTACACATGGCCTGAAATGTGACATATATATTTTAAATGTAAACCAATTTAAACTGGCAGACCTAAGTTGTTCCGTTTGCGGTGTCCAGTACTCGGATTTCTTAAGTTTAGAAAGTCATACTAAAGTAACACATCCGAAAATTTCATTTATTTGTGACTTGTGCCCTGAAATTTTCAGGGGAAAGAGAGACTTAGACTTTCACGTAGAACACAAACATGAACTCGGCAGCAATAATGATCTTATATGTTCAGGTTGCTCGGAAACATTCGTGTCTATTCATCGGTTCAATAAACACATAAGAAATTGTGTTAAATTAGAATCCAAAGTGAGCCCGGATTCGGAAGAAAAATTAGCAAAGAAAGCCCACTTGCGACAAATACGTGATAGTATATCGAGTTTCCTAAACATGTGTACTGCGATGCCTTTCAAGTTTTTCATGCAAAGATTTCGTTGTTTCTATTGTGCAGTGGATTTTACAGACTTCGAGCCTCTAAGGGTACACACTGCCACGGAACACACGTACTGTGATCCAAAAAGCAAACTGTTTAAATCTTTCAAAGGCAGCAACATCACCATAAAAGTAGACACAACTTCTATGGCATGCAAACTTTGTTGCGAACCTATAAGCGACATAAAAACTATGATCGATCATATAGTATCAAACCATAAAGTCAGGTGTGATGAATCGCTGGTTAATGTAATACAGCCGTTTAAACTAATTAGAGATAACATGGCTTGTCTCGTTTGTGTGGATGTAACATATAGATACTTTTCTAAATTACTTGAACATATGAACGAGTTTCATTCCAATAATAAGATCATCTGCTCATTCTGCGGCATGACCTTTGGTAAAGATCCTAATTACAGATCCCATTTGAAGCGGCATCATAACCCTAGCAGCTGTAAATGTGTGGATTGCGATTTGGATTTCGATAATCTATCGAAATTGTCGAACCATCGGGCTAAAGTCCACGGGGAGAAAACCTTTAAATGTCCGAAATGCTTTGACACTTTCGGCACTCAGTACAAGAGGCAGAAGCATTTGATAGACGCACACGGTTCTGGACATCCTTGTTCGTATTGCGGGAAGTTATTTACTAGAAATTCTTTCATGAAGGATCACATACGAAGGTCGCATCTGAAAGAGAAGAATGCCGAATGTTCAGTTTGCAAGGAGCGATTTTTCGACAACATACTCCTGAGAATTCACATGGTGAAACATGTAGGGGAGAGGAATTTCCATTGCGATATATGCGGCAAAACGTTTCTGTGGAAGAAGAATTTGAGAGGACATATGTCTTCACACAAACAGAACGTTTAG
Protein Sequence: MEFDEIMVKESPGLCRCCLSEGCYKDLASEYTWMNETEIYAEMLLECFDISISQHNDGPNGPNRLICEVCITRLRDACNFKKQVTDSEKKFVDMIGRGEFGQKVVIYQTMKAEVMGEEAQTEEGEVEYLDEEMQFDDTDDQPLRPPTDDVPEPSGSETITIATHKVKGKRGRPKKTAMKPEKKVKVAKIEPKTSKVAKAQNIRCGTVPKRVHQLSIMLRQATALIVSWPLSDCTDEESNSVCVLCCMNEDIVVYVRCETRPVTMKSSMTATKRNRLVKRNAIIILETSTVIPFKWHRQNYLCFFCHKPFKHAKLLKDHTRNEHDKSNIRAAVSYIRRDEKVKIDVTVLACRVCDTKFRNIDGLIEHVKVNHKKMFADECGYGIIPYKLNDGAFQCAICEEDFQYFIKLNQHMNEHYGNFICELCGKSFLSQDRLRCHALSHGSGFHCSECSQSFDSLTQRNNHESKVHNKNKTLKCFYCADTFQNYTQRKKHHNAVHNVEIPEFRCPVCGKTFQIMSKMKVHLKEVHDREKNFSCAMCDQKFFSRTHVQKHMIKHFGERVHQCEVCKKSYARKQTLRDHIRIHSDDKRFICSVCSQGFVQNNSLRLHMRVHHHDSGIKPQKLKASESSSMRRRKNLQILFNNTSIIPFKWRGKYLCFYCSKDISEYSELRKHTQSHGSCSTKDHSLKVLKGGQNMEIKIDVSDVICKNCNETFTNFDEVLDHLHGKHKIVYDKEVEMAIEEYRLIDLSCLVCEKKFTYFGYLVSHVNSDHPKNCLICDKCNQKFNKKRDLFSHMKNYHREGGYTCELCPQSFSSLNILRKHRNNRHITRCNICQLKLPSAVLKQKHIEMEHPDDGSLQCDNCSKEFHTKQGLKMHLRKCKGEGLFEIFKKEDYDAMDLDQNYEDTAKRPSVKQIRQNIVIVINMSTAIPFNFYKNKFNCFYCSKDFPDSDSMREHTIMEHPVCDIKEKCIRKCRESVACVKIDISSLACKVCFESMSDLDTLLNHLIEKHEAKYDKTITTCLQPYRLIKDHMACPNCPNEVFRFFGTLLKHMNKKHTNNNIICVFCGQTFRRDQNLRVHIWRHHRDGRFKCNICGAECNIPSRLYMHMAKAHGVKAAKCPKCPETFATQYLRQKHLIEAHDSGHKCSYCGKLFTRNSFMRDHIRRTHLKEKNVECSICNMKFFNNILLRRHMVKHSGKNETSVAMRKRRNLVTIFNNTTIIPFKGIDKFLCFYCGEQYTNSQYQEFVQHTVSHGPCTTHHKALEAQKVQCENVKLDVSNITCKLCEESTNTVEAIIGHLMTRHGLDYDTEVRMFLTPYKLVDLQCLLCGNKFKNSRNLHVHITSAHVEKRLPCGKCNGLFSTPKDFLDHMPLCQVQRGYNCDFCGSSFKNSFLLSRHRNSIHASKVKKAKLDRIMERNKEKLAKNLERKEKRDIEKKEKLVKKIIETEKRKMDKASESKKGTGKKAKTQANEDKKRLKNLQNNLHILFYNSGVIPFLWNNIFECFFCKKPLPESRDLRNHVKLSHSTDPEAIKRLKITKWFQRPNLDVSNLICKLCQTDFTSLDQLIKHLVDIHELGYDRNLIDFDQYRLEDHSCPLCEEKFMYFSFLFSHMKDKHKNHGSDNGFQESDSNEDYDCVLVEDRETYCIIIDDDEENGSDRSDQDDSEDANAENENKAAITKQKRLNIEIFVNNTTALPFKGFNNKFSCFYCSEVFYGPVHLLEHTALHKQSMDWKMPRGKSLRVQVDVKHVSCRICNDPVFKIDAMIDHLITKHNLNYDRSITDVLKPFRLTDIACALCNTAFVNFKVLFQHMKLEHSDTQHLCPHCGMRFAKEQHVWTHVCKKHQSINIDVTTKAKDNDLLEERAVVNRPRTMNKQCNKIKCPNCELTFTKQCALALHVNKRHKKNEKPHKTETDEDVTARRRRKHLETLFANTSVIPFEWNMQYACFYCEKQTPGHEELRKHTRSHGESSTLKNHIEKLRSPHAELRLDVSELTCELCEQSFEQLNELVEHLPTHGLKCDIYILNVNQFKLADLSCSVCGVQYSDFLSLESHTKVTHPKISFICDLCPEIFRGKRDLDFHVEHKHELGSNNDLICSGCSETFVSIHRFNKHIRNCVKLESKVSPDSEEKLAKKAHLRQIRDSISSFLNMCTAMPFKFFMQRFRCFYCAVDFTDFEPLRVHTATEHTYCDPKSKLFKSFKGSNITIKVDTTSMACKLCCEPISDIKTMIDHIVSNHKVRCDESLVNVIQPFKLIRDNMACLVCVDVTYRYFSKLLEHMNEFHSNNKIICSFCGMTFGKDPNYRSHLKRHHNPSSCKCVDCDLDFDNLSKLSNHRAKVHGEKTFKCPKCFDTFGTQYKRQKHLIDAHGSGHPCSYCGKLFTRNSFMKDHIRRSHLKEKNAECSVCKERFFDNILLRIHMVKHVGERNFHCDICGKTFLWKKNLRGHMSSHKQNV

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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