Basic Information

Insect: Wyeomyia smithii
Gene Symbol: -
Assembly: GCA_029784165.1
Location: CM056646.1:257965037-257974609[+]

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 56 0.0002 0.022 16.9 4.5 1 21 50 70 50 72 0.95

2 56 0.00087 0.095 14.9 3.7 1 23 78 100 78 100 0.98

3 56 0.00015 0.016 17.3 0.2 2 23 106 127 105 127 0.96

4 56 0.018 2 10.8 2.1 2 23 133 155 133 155 0.94

5 56 0.00013 0.014 17.5 2.2 1 23 229 251 229 251 0.97

6 56 0.00013 0.014 17.5 1.3 1 23 257 279 257 279 0.98

7 56 8.3e-05 0.0091 18.1 4.1 1 23 297 319 297 319 0.96

8 56 1.6e-06 0.00017 23.5 0.3 1 23 325 347 325 347 0.99

9 56 1.5e-05 0.0016 20.5 0.2 1 23 352 374 352 374 0.99

10 56 0.0012 0.13 14.4 1.8 1 23 379 402 379 402 0.94

11 56 4.4e-05 0.0049 19.0 2.2 1 23 431 453 431 453 0.98

12 56 7.4e-05 0.0081 18.3 1.7 1 23 459 481 459 481 0.98

13 56 0.00056 0.061 15.5 1.2 2 23 647 669 647 669 0.97

14 56 0.00022 0.024 16.8 1.2 1 23 682 704 682 704 0.99

15 56 1.2e-05 0.0014 20.7 0.3 1 23 710 732 710 732 0.98

16 56 2e-05 0.0022 20.1 1.4 1 23 886 909 886 909 0.97

17 56 0.0058 0.63 12.3 1.3 1 23 915 937 915 937 0.94

18 56 0.00013 0.015 17.5 1.9 1 23 1023 1046 1023 1046 0.94

19 56 0.0012 0.13 14.4 1.6 1 23 1071 1093 1071 1093 0.96

20 56 0.14 15 8.0 0.2 1 19 1099 1117 1099 1119 0.96

21 56 0.0016 0.17 14.1 1.7 1 20 1158 1177 1158 1179 0.95

22 56 7.9e-05 0.0086 18.2 2.5 1 23 1186 1208 1186 1208 0.97

23 56 9e-05 0.0098 18.0 3.1 1 23 1307 1330 1307 1330 0.95

24 56 0.0021 0.22 13.7 0.6 1 23 1354 1376 1354 1376 0.98

25 56 0.00021 0.023 16.8 3.9 1 23 1382 1404 1382 1404 0.98

26 56 0.00021 0.023 16.8 3.0 1 20 1429 1448 1429 1450 0.95

27 56 0.00051 0.056 15.6 0.8 2 23 1458 1479 1457 1479 0.96

28 56 0.0074 0.81 12.0 2.1 1 23 1580 1602 1580 1602 0.97

29 56 0.01 1.1 11.5 2.9 1 23 1608 1630 1608 1630 0.98

30 56 6e-05 0.0065 18.5 0.3 1 20 1642 1661 1642 1663 0.94

31 56 4.4e-05 0.0048 19.0 2.6 1 23 1670 1692 1670 1692 0.98

32 56 0.014 1.5 11.1 5.0 1 23 1806 1829 1806 1829 0.95

33 56 0.0014 0.15 14.2 1.6 1 23 1853 1875 1853 1875 0.98

34 56 0.045 4.9 9.5 3.2 1 23 1881 1903 1881 1903 0.96

35 56 4.2e-05 0.0046 19.0 2.2 1 23 1924 1946 1924 1946 0.97

36 56 0.021 2.3 10.6 2.8 2 23 2190 2212 2189 2212 0.93

37 56 0.0012 0.14 14.4 2.7 1 23 2232 2254 2232 2254 0.98

38 56 0.16 17 7.8 2.7 1 23 2261 2283 2261 2283 0.98

39 56 0.00016 0.018 17.2 0.9 2 23 2305 2326 2305 2326 0.98

40 56 0.00052 0.056 15.6 0.7 2 23 2333 2355 2332 2355 0.94

41 56 8.6e-05 0.0094 18.1 0.7 2 23 2485 2507 2484 2507 0.94

42 56 0.025 2.7 10.3 4.9 1 20 2531 2550 2531 2553 0.95

43 56 0.0031 0.33 13.2 3.1 1 23 2559 2581 2559 2581 0.98

44 56 1.4e-05 0.0015 20.6 3.2 1 23 2620 2642 2620 2642 0.98

45 56 0.0001 0.011 17.8 1.1 2 23 2649 2670 2649 2670 0.98

46 56 0.0059 0.65 12.3 1.9 1 23 2766 2789 2766 2789 0.97

47 56 3.8e-05 0.0042 19.2 1.1 1 23 2813 2835 2813 2835 0.99

48 56 0.51 56 6.2 1.3 1 23 2841 2863 2841 2863 0.96

49 56 0.0014 0.15 14.3 5.9 1 23 2877 2900 2877 2900 0.97

50 56 0.00082 0.089 15.0 3.0 1 23 2911 2934 2911 2934 0.97

51 56 0.0015 0.17 14.1 2.7 2 23 2940 2961 2939 2961 0.98

52 56 0.001 0.11 14.7 3.5 2 23 2967 2989 2966 2989 0.90

53 56 0.0055 0.6 12.4 4.1 1 23 3023 3045 3023 3045 0.94

54 56 0.00058 0.063 15.4 1.1 1 23 3051 3073 3051 3073 0.98

55 56 3.2e-05 0.0035 19.4 0.0 2 23 3079 3100 3078 3100 0.97

56 56 0.88 96 5.4 1.4 1 21 3105 3125 3105 3126 0.92

#	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	56	0.0002	0.022	16.9	4.5	1	21	50	70	50	72	0.95
2	56	0.00087	0.095	14.9	3.7	1	23	78	100	78	100	0.98
3	56	0.00015	0.016	17.3	0.2	2	23	106	127	105	127	0.96
4	56	0.018	2	10.8	2.1	2	23	133	155	133	155	0.94
5	56	0.00013	0.014	17.5	2.2	1	23	229	251	229	251	0.97
6	56	0.00013	0.014	17.5	1.3	1	23	257	279	257	279	0.98
7	56	8.3e-05	0.0091	18.1	4.1	1	23	297	319	297	319	0.96
8	56	1.6e-06	0.00017	23.5	0.3	1	23	325	347	325	347	0.99
9	56	1.5e-05	0.0016	20.5	0.2	1	23	352	374	352	374	0.99
10	56	0.0012	0.13	14.4	1.8	1	23	379	402	379	402	0.94
11	56	4.4e-05	0.0049	19.0	2.2	1	23	431	453	431	453	0.98
12	56	7.4e-05	0.0081	18.3	1.7	1	23	459	481	459	481	0.98
13	56	0.00056	0.061	15.5	1.2	2	23	647	669	647	669	0.97
14	56	0.00022	0.024	16.8	1.2	1	23	682	704	682	704	0.99
15	56	1.2e-05	0.0014	20.7	0.3	1	23	710	732	710	732	0.98
16	56	2e-05	0.0022	20.1	1.4	1	23	886	909	886	909	0.97
17	56	0.0058	0.63	12.3	1.3	1	23	915	937	915	937	0.94
18	56	0.00013	0.015	17.5	1.9	1	23	1023	1046	1023	1046	0.94
19	56	0.0012	0.13	14.4	1.6	1	23	1071	1093	1071	1093	0.96
20	56	0.14	15	8.0	0.2	1	19	1099	1117	1099	1119	0.96
21	56	0.0016	0.17	14.1	1.7	1	20	1158	1177	1158	1179	0.95
22	56	7.9e-05	0.0086	18.2	2.5	1	23	1186	1208	1186	1208	0.97
23	56	9e-05	0.0098	18.0	3.1	1	23	1307	1330	1307	1330	0.95
24	56	0.0021	0.22	13.7	0.6	1	23	1354	1376	1354	1376	0.98
25	56	0.00021	0.023	16.8	3.9	1	23	1382	1404	1382	1404	0.98
26	56	0.00021	0.023	16.8	3.0	1	20	1429	1448	1429	1450	0.95
27	56	0.00051	0.056	15.6	0.8	2	23	1458	1479	1457	1479	0.96
28	56	0.0074	0.81	12.0	2.1	1	23	1580	1602	1580	1602	0.97
29	56	0.01	1.1	11.5	2.9	1	23	1608	1630	1608	1630	0.98
30	56	6e-05	0.0065	18.5	0.3	1	20	1642	1661	1642	1663	0.94
31	56	4.4e-05	0.0048	19.0	2.6	1	23	1670	1692	1670	1692	0.98
32	56	0.014	1.5	11.1	5.0	1	23	1806	1829	1806	1829	0.95
33	56	0.0014	0.15	14.2	1.6	1	23	1853	1875	1853	1875	0.98
34	56	0.045	4.9	9.5	3.2	1	23	1881	1903	1881	1903	0.96
35	56	4.2e-05	0.0046	19.0	2.2	1	23	1924	1946	1924	1946	0.97
36	56	0.021	2.3	10.6	2.8	2	23	2190	2212	2189	2212	0.93
37	56	0.0012	0.14	14.4	2.7	1	23	2232	2254	2232	2254	0.98
38	56	0.16	17	7.8	2.7	1	23	2261	2283	2261	2283	0.98
39	56	0.00016	0.018	17.2	0.9	2	23	2305	2326	2305	2326	0.98
40	56	0.00052	0.056	15.6	0.7	2	23	2333	2355	2332	2355	0.94
41	56	8.6e-05	0.0094	18.1	0.7	2	23	2485	2507	2484	2507	0.94
42	56	0.025	2.7	10.3	4.9	1	20	2531	2550	2531	2553	0.95
43	56	0.0031	0.33	13.2	3.1	1	23	2559	2581	2559	2581	0.98
44	56	1.4e-05	0.0015	20.6	3.2	1	23	2620	2642	2620	2642	0.98
45	56	0.0001	0.011	17.8	1.1	2	23	2649	2670	2649	2670	0.98
46	56	0.0059	0.65	12.3	1.9	1	23	2766	2789	2766	2789	0.97
47	56	3.8e-05	0.0042	19.2	1.1	1	23	2813	2835	2813	2835	0.99
48	56	0.51	56	6.2	1.3	1	23	2841	2863	2841	2863	0.96
49	56	0.0014	0.15	14.3	5.9	1	23	2877	2900	2877	2900	0.97
50	56	0.00082	0.089	15.0	3.0	1	23	2911	2934	2911	2934	0.97
51	56	0.0015	0.17	14.1	2.7	2	23	2940	2961	2939	2961	0.98
52	56	0.001	0.11	14.7	3.5	2	23	2967	2989	2966	2989	0.90
53	56	0.0055	0.6	12.4	4.1	1	23	3023	3045	3023	3045	0.94
54	56	0.00058	0.063	15.4	1.1	1	23	3051	3073	3051	3073	0.98
55	56	3.2e-05	0.0035	19.4	0.0	2	23	3079	3100	3078	3100	0.97
56	56	0.88	96	5.4	1.4	1	21	3105	3125	3105	3126	0.92

Sequence Information

Coding Sequence: ATGGAGCGTTCAGGAATTGTTGAATCGAAAGCGGATGTTGTGAGTGCTGAACCTGAACAAGCGGAAGCCCAATGCGAACgtgaaaatattttgattaaGCAACAAACAGCTACAAATTCCAAGCAACAATGTCGTGACAATTACACTCACAAATGTCCAAAGTGTGATAAAAAATTCGCTAACAGACCTAATCTACGGCAACACATGTTATGCCACATCAAGGAGCTACCCCACAAGTGCACGATCTGTGACAAAGGGTTTAAAACTACCACTCTACTAAAGTATCACTCACGTATTCACACTGGAGATATGCTGAAGTGTGAAGTATGTGGCAAAGAATTTACCAGGACAGCCATGTGGAATCGTCACATGGCGGAGCACCGTGAAGCCTTGAACACGTGCAAAATCTGTGGGTCTAAATATACTCACAAACCACGTCTGCGTAAACACATGGCGCAGATACACGGAATCACGGagattgatgatgatgattataaCAGCGAACAAATGACTAATACCAATGAAATCGACGAATTAGCCTCCAAATCTGAAGAGCAAATACCCATTTCCCAGACTCACGGTGGTGAAAATGCCGAGGTTGGAGACACGAAATGGTGTTCAATTTGCAATAAACATGTTGCTAATCTTAACAGACATTCAGGCGTACATTCGGGCGAGCGGCCTTTCGAGTGTGATCACTGCGGTGTAGCGTTCACTTACTATAGGAACCTAAGACGCCACTATTTGCTCCATTCAGAAGAACGACAACATAAATGTGAAATTTGCGGCAAAAGTTATGTAACTGCGATGTCGCTCAGATATCACAGCCGTATTCATACTGGCACTAGGGACTTTCCTGGACCAAATCCCGATGCTGCGGAAAAACTACACCCATGTACACAATGTGATAAAATCTTTAAGACTTCATACAATCTTCGGCGGCATTTTTCGTCCCATAAAGGTGATCTAGCTTACGAGTGCAATATTTGTAATAAAACGTTTGTGACCGCAACGTTGCTTGAGAATCATTTGCGCATCCACACTGGCGACCTGTTCAAATGTGAAGTCTGCGGTAGAGAATTCAATAACATTGATAACTGGATGCGTCACATGGCCACGCATAGTGATACAGcgcatacgtgcaacgtttGTGGGAAAATTCTCTCCGATAAATACACTTTGGAGAGGCACTTTGCTCGATTTCACCCACTACAAAAGAAGGAAAGGTGTACAATTTGCACTAAAGAAGTGTACAACCTTAAGCATCATGAAGCCGCTCACAAAAGCCTTTACAAGTGTGACCAGTGCGATAGAGCGTTCACTTTCCGTAAAAGTCTTAAGCGTCACCTCTTGCTGCATGATGCATACCTACGGCACAAGTGCGAGATTTGCGACAAAAGTTATGCAACTGCAGACTCACTCAGGTACCACTTCATGACCCATATAGACAATCCGATTCGAGAAGGTACTACGTCTAAATCGAGCGAGTTACCTCCGGAAATTTCCTCGGAAAGTACTATTTATGTGGACGAAAATGGGTCACTAATGAATATGATCAGGGGTGAGCTCGACGCCGAACAGACTGTAAAAGTTGAGAATCAAGACGTAAATTTAGAAGATATTATTCATCTAACAGATGTAAGTGACAGAGGGGTTGAGTTTGAAATAGCTGCCTACAACGATGATACTGTGGGAGAGGATGGACCGCAGCATGAAAGTGAACGTAACGCTTTCAATGATTCACGCGCCGGTATAATCGAGAATGAAATGGTACATGAAGAGCAACAGATTGTGAAACTTGAAGAACAGGAGCTGATCGTGGAGGAAAATGTTTCTATGGTGACAGATCCAGAGGGCACAGTCGATGATATGACAGGAGTGGGTGAAAACAACAAACCAAGAAGTAAACGTAATCGCAAAAATAAACTTAACCCTCCAACATGTGGGCAGTGTTCCCTAACCTTTGTTAACAACTATAGTCTTCGACGGCACATTTCTACGAAGCATATCAACAAAACCACTAGACGCAGACCAGAGGATATTTACGAGTGTGACAAATGCGATAGAGCGCTCTCCACACGTGCCAGCTTCAAACGTCACTATTTGACTCACGACATCGTACGACCGTATGCGTGTGAGATATGCGACAAAAGTTATACGACTGCATGGACACTCAAGAACCACCTCCAGTCTCATATGGTTAATCAGGAGCAAGAAGGCAGCTATGAGCTAGAAGCAACAGATGTCGAACCCTTACAGAGTACCAATGATGTAGATGATAATGTTCCACTTGTGCATATGATTAAAAAGGAAATCGTTTCGGAAGAAACTTATTACGCACAGACCGCGCAACTTGAACAGGAAGAGCTGAATGTAGAAGATATTCATGTAGCTGACATAGAGTACAAAAGTGACACGTATGCAGATGGTATAACAATCGGTCAGTTTATGATTGTAAACGACGAAGGTAACAGAGAGCAGACCAATGCAAACAGTGTCGACAAAAGAGTGGGAGAAAATGAGCACGACAATCGACCAGGGCATATTGAAGGCATCGATGAAGAAGCTGCTACGAGTTTTATTCTTCAACGACATTTTTTAGGAGTACATATCAACAGAAAAGCTGATAAACGTGAACGCTCAATCCTACGCCCTTACAAGTGTGACCAGTGCGATAGAACGTTCACACGAAAATTCAGCGTCAAACGCCACATTGAAGTAGTACATTCTGACAGTCGTGACCATAAATGCACGATATGTGGCCACACTTTTACTGCTGCACCGGATCTCCAATCGCACTTCCTGGCTCATATTGAAAATCGAGAGGAAGTAAGCAGGTACGAGCGCAAGGCAACCGATGTCGAGCCCTCTAAACGTACTACTATGGTTGTTAGTGAGAATGTTTCACTTGTGGATGTGATCAAAAACGAAATCGTTTTAGAAGAAAATAATGGCGACAACAGTTACAAGAATACTGAAGATACGACAACTGTAAACGACGACGATAACGCAGAGCCGACTAATGCACAAGATATCAACAAAACAGTAGGAGTATACCAGCTTGGTCATGAATGTTCACAATGTGATAAAACCTTTGCCTCTCCGTTCACTCTTCGTCGGCATCGTTTACTGCTTCACGGCAGCAGAGCTACAAACTACACATGCAGACATGCATCCACCTTGATTTCAAGCACTTGTGCCCAATGTCCTTACAGGTGTGACCAATGCGGTAGAGCGTTCGACTTGCGTAGAAGCCTGAGAAGGcattattttcttcatttcgccAAACTACTGTATCAATGCAAGATATGCAACAAGAGTCATACGTCTGCAGCTGCACTCAGGTTACACAACTGGTCCCACGCTGGTTATCAAGGGAAACGAAGAGGCAGACCAAGGCACGTTGATCGTGATAAGTTTAATAGCAAACTTCATTCAAACATAATTTTCGAGCGTGATAGTAAATGCCCATACAAGTGTGGCCGGTGCAATAAGTCTTTTGCACATTATTCCAGCGTCAAGCGACATCTTTCATTGTATTGCCCCTTGCGAGAGCATAAATGTACGATATGTGGCCAAAGTTTTACGACTGCGTCGTTTCTCAAGGTGCATTTCCTGTCTCACACTGAAAATCAAGATCAAGTAGGCGACGATGAGCGTGAGGCAACAGATGTCAATGAGAGTGTTCCACTTGTGGATATAATCAAGAACGAAATCGTTTCGGAAGAAAATTATTGCGCACAATCTGTGCAAGTTGCAAATGAAGAGTCGAATATAGAAGTTGATATAAGAGACAACTGTTACAAGAATGCTGAAGATACGACAACCGGTCAGACTACGATTGTAAACGACGACGGTAACGCGGAGCCGACCAATGCAAACGATATTGACGAAACGTTAAAAGATTATGAACGTGAACATAAATGTTCAGAGTGTGATAAAACCTTTGCCTCTTCGTTCACTCTTCGTCGGCATCGATTACTGCTCCACGGCGGCAAAACAAACTACACATGCAGACATGCAGCGACCTTGGGTTCAGGCACTTGTGACCAATGTCCTTACAGGTGTGACCAATGCGGTAGAGCGTTTGCATTGCGTAACAGCCTGAGAGGGCATTATTCTCGTCATTTCACCAAACGACTGCACCAATGCAAGAAATGCAACACGAGTTATAGGTCCTCGACTGCACTCAGGTTACACATCCGGTCCCACGCTGGTAAAGGAAAACGAAGGCGGATTGATCTTCATTCAAACATAACTGTCGATTATGATAGTAAATATCCATACAAGTGTGACAAGTGCAATAAGTCTTTCACACATTATTCCAGCGTCAAACGACACCTTTCACTATATTGCATCTTCCGAGACCAAAAATGTACGATATGTGGTCAAAACTATACGACTGCGTCGTCTCTCAAGTTACATTTCCTGTCTCACACTGAAAATCAAGATCAAGTAGGCAGCGATGAGCGTGAGGCAACAGATTTCGAGCCCTCTCAAAGTACTACTAATGATGCTGATGAGAATGTTCCACTTGTAGATATAATCAAAAACGAAATCCCTTCGGGAAAAAATTATTACGCACAATCTGTGCAAGTTGCAAACCAAGATTCGAATGTAGAAGCTGTGACTACCCTTTTTCGTCAAAGGCGTAATTTCTCAGTTGATGTCAGCAAAACAGTCCTGAGATGCAAACATGTAACCACCCTGACATTCGGCACATGTGACCAATGTCCTCACAAATGTGACCAATGCGGAAAAGCGTTCGCAGCGGGTAGCAGCTTGAGAAGTCATTATTTACACCATTACTCCAATAGAAAACATCAATGCGACATATGCGACAAGAAACATACGTCAGCACGGGCACTCAGGTTACACATCCGGTCTCACTATGTGCACCGTTATAGACGTAAAAAACGCACTTACAACTGCGACAAGTGTGGGAAAATTTTCACAAGACGggcaaacgtcaaacgtcatcTTTTGCTGTATTGCAACTCTCGATATCATAAATGCACGAACTGCGACAAAAGTTTTATTTCTGCATCATCCCTAGAGTTGCACTTCCGGTCTCACGTTGAAAATCAGCAGCAGGATGGCAACGATGTCGGGCAGTCTGAGAGTACTACTATTGGTGAAGTAGAAAAAGTTGCACTTGACGATATGATCGGAAAAGAAAACGTTGCGGAAGAATACTATAGTGGACAATCTGTGCAACCTTCAAATCTAGAGCTGGATAGAAAAGATATTTTCGTAGCTGATATAAAGGACGAAAATGACAAGAATGAAGAAGGTACGACAACTGGCCAGATTATGATTGTCAACAACAAAGGTAACACGAAGCCGACCAATGCAAATGATACCTACGAGATCGTAGGAAAATATGTGCAGGATAATGGTGTTAAAGGCAGCAATTTCACATGTTCAAAATGTGATCAACACTTTATTTCTATGTATAGCCTGCGTCGACACCATTTGTTGCTTCATGGCAACAGTACAGCCTACAAATGCAGGCATGTGGCCAGCCTGGCATTTGGCACTTGTGCACAATGTCCTTACAAATGTGACCAATGCGGCAGAGCGTTCGAATTGCGTAACAGCTTGAGAAGTCATTATTATCGTCATTTTGCCAAACGACCGCACCAGTGCAAGATATGCGATAAGAGTCATACATCCGCATCGGCACTCAGGTTGCACTTCGAGTCTCACGCTGTCCAACGGAAACGAAGAGGAAGACCGACGCGCACTAAAAATGCTATTAAACCCACCCACAAGTGTGACCAGTGTGGTAAAGCTTTCACACGACGTGAAAGCGTTAAACGCCATCTTCTACTGCATTGCAGTGCTCGAGACCATGAATCTCTGAAATTGCGCCTCCAGTCCTACATGGGAAATCAGCAACAAGAAGAACGCGAGGCAACCGTTGTCGAGCCCTCTGTAAGTACTACTATCGAGAAGGAAGAAATCTATTGCGCACAAACTGTGCAACCTTCAAATGCAGAGCTggatataaaagatattcacgtAGCTGAAGACACCGATGAGCACGAGGTAACCGTTGTCGAGCCATCTAAGATTACTACTATCGAAAAGGAAATTGTTGCAGAAGGATACTGTTGCGCACAAACTGTGCAACCTACAAAAACAGAGCTGGATATGAAAGATGTTCACGTAGTTGAAGACACCGATGAGCGCGGGGCAACCGTTGTCGAACCCTCTGAGAGTAATTCGATCGAAAAGGAGATTGTTGCGGAAGAAATCTATTGTGCACAAACTGTGCAACCTTCAAATGCAGAGCTGAATATACAAGATTTTCACGTAACTAAAGACACCGATGAGCGCAAGGCAGCCGTTGTCGAGCCCTCTGAGAGTACTACTATCGAAAAGAAAATTGTTGCAGAAGAATACTATTGCGCACAAACTGTGCAAGTTACAAATGCAGAGCTggatataaaagatattcacgtAGTTGATAAGAATGCAGAAGATACGACAACTGGCCAGATTCTGATTATAAACGACGAAGAACCAGAACATACGCAAAACAATGATGGTAGACCTAGtcttaaatgtttaaaatgtgacAAACTCTTTGTTTCTACTTTTAACCTGCGTCGACACCATTTGTTACTCcatgaaagtaaaccattttaCAGATGCAGGCATGCACTCGGCACTTGTGACCGATGTCCTTACAAATGTGACCAATGCGATAGAGCTTTCGCATCGCATACTAGCCTGGAATACCACTATTCACGTCATTCTAGGACCCAAGGACTGCACCGATGTGAGATATGCGACAAGAATCACATGTCCGTATCGGCACTTAGGTTGCACTTGAGAACTCACGTTATTCAACCGAAACGAAGAGCAAGGGATGGTGATAAATCTAACGTCAAACGTGAACGTCCCAAGTGTCCCAAGTGTGATATAGCTTTCACACGACGTGAAAGTGTCAAACGCCACCTCAAGCTGCATTGTGACTCTCGCGACCTTAAATGCACGATATGCGACAAAAGTTTTATTACTGAATCGTCTCTAGATTTGCACTACTACCGATCTCACCCTGAAGATCAGGAGCAAGAGGGTAGCTATGAGCGCGTGGCAACAGATGTGGAGCCCTCTGAGAGTGCTACTATTGGTAATGGAAAAAACGTTCCACTTGCAGATATGATCGAAAAGGAAATCGTCGCAGAAGAATACTATTGCACACAAACTCAGCAATTTTCAAATGCAGAACTGGGTATAAAAGATATCCACGCAGCTGATATAGAAGACAAGAGTGACAAGAATACAGAAGGTGGCCAGATTATGATGGTAACCGAGAAAACAGACAAGAATGAAAAAGTTACGACAACTGGCCAGATTATGATAGTCAACAACGAAGGTAACACGAAGCCGACCAATGAAAACGATACCGATAGAACGGTGAGAGGCGGTAAACGTGTTCTGAAATGTTTTGAATGCGATAAAACCTTTGCCTCTGCGTATACTCTTAATCGACATCGTTTGCTGCTTCATGAAAGCAGAACAAACTACACGTGTAGGCATGTACCTGCCACGGCATTCGGCCACTGTGACCAATGCCCTTACAAATGTGACCAATGCGGTAGAGCGTTCGCATTGTGTAGCAGTCTGAAAAATCATTATTTATGTCATTTCACGAAAGAACGACATCAATGTGAGATATGCGACAAGAGTCATTCGTCCGCATCGGACCTCAGGGTGCACTTCCGTTCTCACGATGTCCAACGGAAACGAGTAGGCAGACCAAAGCGTATTGATCGTGACACGTCCAGTGGCGAGCTTCATTCAAACGATTCAAACATAATCTTTGAGCAGGGTAGTGAACGCCCGTACAAGTGTAATTACTGCAACAAGTCTTTTACACGACGTACCAGCGTCCAACGCCACCTTTTACTGCATTGCGACGCTCGAGACCGTAAATGCACGATATGTGACAGAAGTTTTATGTCTGCGACGTCTCTTAGGTTGCATTTACGATCTCACAGTGGAAATCAGCAGCAAGAAGACGGCGATGAGCTCGAGGCAACAGATGTTGAGCCCTCTGAGAGTAGTATTAGTGAAAAAGCTGATGATCCACATGTGGATATAATCCAAAGGGAAATCGTTGCGGAAGAATACCCTTACGAACAAAATGTGCAACCTGCAAATGAAGAGTTGGATATAAAGGACGAAAAAAACAAGACTGCAGAGGATATGACAACTGGTCAGCTGACCAATTCAAACAGTACAATACAATATGAGCAAGATAATAGTGGTGAAGGCGAAGGTTTCAAATGCCTTACATGTGGTAACACGTTCGTTTCTACAGATACTCTTCGTCAGCATCATTTGATGGTCCACGGCAGTGAAATATCCTACAATTGCATGCATGTAAATCCGGCGACATTTGGCACTTGTGACCAATGTCCTTACAAATGTGATCAATGCGGTAGAGCGTTCCCGTTGCGTAGCAGCCTGAAAACTCATTATTCAACTCATTTCACCGAAATACGACATCAATGCGAGATATGCGACGAGAGGCATACATCCGCAGCGGCACTCAAGTTGCACTTTCTTTCTCACGCTATCCATCAGCGACGAAAGGGAAGACCAAGGAACAATTATAAATGTACAAAATGTACTAGAACTTTTGCTTCAAAGAAAGGCCTTCGACACCATCTCTTTACATTTCATATCAATGAAAGAAATTCTGTCCAGCGGTCTTACAAGTGTGACCAGTGCGATGAGGCTTTTACACAACATCAAACGTTGCTGAGGCATTATTCACGCAGCCATACTGACAATCCGAAGAAGTGTGACATCTGCCACAAAGAGTTCAACCTACTATCTGAACTGAAAAGTCACCTAACAACACACGGCGGAAATCTACTAATTTGCAATACCTGTGGAAAAACCTTCTCAAAGCATCATGCTCTGCAGAAGCACCTTGCTTTTTATCACTCGATCAAAACCAAGAGACCAAGGAAACAATGCAACATCTGCAACCAATTTGTCACTAACCTCAGCAGTCATCTTGCCACACACTCTGGCGAACAGCCTCACGTTTGTGGCGTGTGCGGTAAAAAATTCACCTTTCATCAAAGTCTTCGACGTCACTCCTTGCTGCATTTAAGCGAACGACCACATAAATGTGAGATATGTGGTAAAGGTTTCATCACCGTAACCGGTCTAAAATACCATTTCCGCATTCACACTGGCGAGCAGTTGACGTGCGATATTTGTGGCCGAGGATTGGCTACGGCTTCTGACCTGAAACGCCATATGGCCACCCATGAAGCACCGAAATTTGACTGTAAAGTTTGTTATATTAAGTTCCGTACGAGTTACGGAGTGCTAGCGCATACTTGCAGAGGAACCCAAACTAGCAGAAACGAGTCAACAATAGCCACTAGTGAATGTTCACGAGACACGGTAGAGGGAATTACGCTAGATGAAGGCGTCACTGATCAACAGGTTATACCTGCCGGTTCCGAGTCCCGTCCGGAGGAGATTGGATCCTTAAAGCCTAATGAGAACGTCGTGAACAATGTTTTCAAAACCCTCTAA
Protein Sequence: MERSGIVESKADVVSAEPEQAEAQCERENILIKQQTATNSKQQCRDNYTHKCPKCDKKFANRPNLRQHMLCHIKELPHKCTICDKGFKTTTLLKYHSRIHTGDMLKCEVCGKEFTRTAMWNRHMAEHREALNTCKICGSKYTHKPRLRKHMAQIHGITEIDDDDYNSEQMTNTNEIDELASKSEEQIPISQTHGGENAEVGDTKWCSICNKHVANLNRHSGVHSGERPFECDHCGVAFTYYRNLRRHYLLHSEERQHKCEICGKSYVTAMSLRYHSRIHTGTRDFPGPNPDAAEKLHPCTQCDKIFKTSYNLRRHFSSHKGDLAYECNICNKTFVTATLLENHLRIHTGDLFKCEVCGREFNNIDNWMRHMATHSDTAHTCNVCGKILSDKYTLERHFARFHPLQKKERCTICTKEVYNLKHHEAAHKSLYKCDQCDRAFTFRKSLKRHLLLHDAYLRHKCEICDKSYATADSLRYHFMTHIDNPIREGTTSKSSELPPEISSESTIYVDENGSLMNMIRGELDAEQTVKVENQDVNLEDIIHLTDVSDRGVEFEIAAYNDDTVGEDGPQHESERNAFNDSRAGIIENEMVHEEQQIVKLEEQELIVEENVSMVTDPEGTVDDMTGVGENNKPRSKRNRKNKLNPPTCGQCSLTFVNNYSLRRHISTKHINKTTRRRPEDIYECDKCDRALSTRASFKRHYLTHDIVRPYACEICDKSYTTAWTLKNHLQSHMVNQEQEGSYELEATDVEPLQSTNDVDDNVPLVHMIKKEIVSEETYYAQTAQLEQEELNVEDIHVADIEYKSDTYADGITIGQFMIVNDEGNREQTNANSVDKRVGENEHDNRPGHIEGIDEEAATSFILQRHFLGVHINRKADKRERSILRPYKCDQCDRTFTRKFSVKRHIEVVHSDSRDHKCTICGHTFTAAPDLQSHFLAHIENREEVSRYERKATDVEPSKRTTMVVSENVSLVDVIKNEIVLEENNGDNSYKNTEDTTTVNDDDNAEPTNAQDINKTVGVYQLGHECSQCDKTFASPFTLRRHRLLLHGSRATNYTCRHASTLISSTCAQCPYRCDQCGRAFDLRRSLRRHYFLHFAKLLYQCKICNKSHTSAAALRLHNWSHAGYQGKRRGRPRHVDRDKFNSKLHSNIIFERDSKCPYKCGRCNKSFAHYSSVKRHLSLYCPLREHKCTICGQSFTTASFLKVHFLSHTENQDQVGDDEREATDVNESVPLVDIIKNEIVSEENYCAQSVQVANEESNIEVDIRDNCYKNAEDTTTGQTTIVNDDGNAEPTNANDIDETLKDYEREHKCSECDKTFASSFTLRRHRLLLHGGKTNYTCRHAATLGSGTCDQCPYRCDQCGRAFALRNSLRGHYSRHFTKRLHQCKKCNTSYRSSTALRLHIRSHAGKGKRRRIDLHSNITVDYDSKYPYKCDKCNKSFTHYSSVKRHLSLYCIFRDQKCTICGQNYTTASSLKLHFLSHTENQDQVGSDEREATDFEPSQSTTNDADENVPLVDIIKNEIPSGKNYYAQSVQVANQDSNVEAVTTLFRQRRNFSVDVSKTVLRCKHVTTLTFGTCDQCPHKCDQCGKAFAAGSSLRSHYLHHYSNRKHQCDICDKKHTSARALRLHIRSHYVHRYRRKKRTYNCDKCGKIFTRRANVKRHLLLYCNSRYHKCTNCDKSFISASSLELHFRSHVENQQQDGNDVGQSESTTIGEVEKVALDDMIGKENVAEEYYSGQSVQPSNLELDRKDIFVADIKDENDKNEEGTTTGQIMIVNNKGNTKPTNANDTYEIVGKYVQDNGVKGSNFTCSKCDQHFISMYSLRRHHLLLHGNSTAYKCRHVASLAFGTCAQCPYKCDQCGRAFELRNSLRSHYYRHFAKRPHQCKICDKSHTSASALRLHFESHAVQRKRRGRPTRTKNAIKPTHKCDQCGKAFTRRESVKRHLLLHCSARDHESLKLRLQSYMGNQQQEEREATVVEPSVSTTIEKEEIYCAQTVQPSNAELDIKDIHVAEDTDEHEVTVVEPSKITTIEKEIVAEGYCCAQTVQPTKTELDMKDVHVVEDTDERGATVVEPSESNSIEKEIVAEEIYCAQTVQPSNAELNIQDFHVTKDTDERKAAVVEPSESTTIEKKIVAEEYYCAQTVQVTNAELDIKDIHVVDKNAEDTTTGQILIINDEEPEHTQNNDGRPSLKCLKCDKLFVSTFNLRRHHLLLHESKPFYRCRHALGTCDRCPYKCDQCDRAFASHTSLEYHYSRHSRTQGLHRCEICDKNHMSVSALRLHLRTHVIQPKRRARDGDKSNVKRERPKCPKCDIAFTRRESVKRHLKLHCDSRDLKCTICDKSFITESSLDLHYYRSHPEDQEQEGSYERVATDVEPSESATIGNGKNVPLADMIEKEIVAEEYYCTQTQQFSNAELGIKDIHAADIEDKSDKNTEGGQIMMVTEKTDKNEKVTTTGQIMIVNNEGNTKPTNENDTDRTVRGGKRVLKCFECDKTFASAYTLNRHRLLLHESRTNYTCRHVPATAFGHCDQCPYKCDQCGRAFALCSSLKNHYLCHFTKERHQCEICDKSHSSASDLRVHFRSHDVQRKRVGRPKRIDRDTSSGELHSNDSNIIFEQGSERPYKCNYCNKSFTRRTSVQRHLLLHCDARDRKCTICDRSFMSATSLRLHLRSHSGNQQQEDGDELEATDVEPSESSISEKADDPHVDIIQREIVAEEYPYEQNVQPANEELDIKDEKNKTAEDMTTGQLTNSNSTIQYEQDNSGEGEGFKCLTCGNTFVSTDTLRQHHLMVHGSEISYNCMHVNPATFGTCDQCPYKCDQCGRAFPLRSSLKTHYSTHFTEIRHQCEICDERHTSAAALKLHFLSHAIHQRRKGRPRNNYKCTKCTRTFASKKGLRHHLFTFHINERNSVQRSYKCDQCDEAFTQHQTLLRHYSRSHTDNPKKCDICHKEFNLLSELKSHLTTHGGNLLICNTCGKTFSKHHALQKHLAFYHSIKTKRPRKQCNICNQFVTNLSSHLATHSGEQPHVCGVCGKKFTFHQSLRRHSLLHLSERPHKCEICGKGFITVTGLKYHFRIHTGEQLTCDICGRGLATASDLKRHMATHEAPKFDCKVCYIKFRTSYGVLAHTCRGTQTSRNESTIATSECSRDTVEGITLDEGVTDQQVIPAGSESRPEEIGSLKPNENVVNNVFKTL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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