Basic Information

Insect: Eupithecia dodoneata
Gene Symbol: -
Assembly: GCA_947044255.1
Location: CAMRHC010000135.1:1423382-1443535[+]

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 53 0.055 3.4 8.6 0.0 1 20 28 47 28 48 0.95

2 53 0.03 1.9 9.5 0.7 3 23 124 144 122 144 0.96

3 53 0.0035 0.22 12.4 0.2 1 23 148 170 148 170 0.97

4 53 0.062 3.8 8.5 0.1 1 23 177 200 177 200 0.94

5 53 0.049 3 8.8 1.1 2 23 208 230 207 230 0.92

6 53 1.6e-05 0.001 19.7 0.4 2 23 236 258 235 258 0.96

7 53 1.3 82 4.3 0.7 1 23 264 287 264 287 0.92

8 53 0.00038 0.023 15.4 3.8 1 23 293 316 293 316 0.98

9 53 0.21 13 6.8 0.1 1 23 681 704 681 704 0.93

10 53 0.0059 0.36 11.7 5.2 1 23 775 797 775 797 0.97

11 53 0.00093 0.057 14.2 0.6 1 23 801 823 801 823 0.96

12 53 0.36 22 6.1 3.1 1 23 828 851 828 851 0.86

13 53 0.098 6 7.9 1.0 2 23 859 881 859 881 0.91

14 53 0.052 3.2 8.7 4.3 2 23 889 911 888 911 0.95

15 53 0.0004 0.024 15.4 1.6 1 23 917 940 917 940 0.98

16 53 0.00012 0.0074 17.0 5.7 1 23 946 968 946 968 0.98

17 53 0.029 1.8 9.5 0.2 2 23 976 998 975 998 0.96

18 53 0.43 27 5.8 0.3 1 23 1047 1070 1047 1070 0.94

19 53 0.049 3 8.8 3.8 2 23 1142 1163 1141 1163 0.96

20 53 0.0037 0.23 12.3 0.2 1 23 1167 1190 1167 1190 0.97

21 53 0.001 0.063 14.1 1.1 1 23 1222 1245 1222 1245 0.98

22 53 0.00013 0.0077 17.0 1.2 2 23 1253 1275 1252 1275 0.96

23 53 0.0015 0.094 13.5 2.5 1 23 1281 1303 1281 1303 0.98

24 53 3.3 2.1e+02 3.0 5.4 1 23 1405 1428 1405 1428 0.94

25 53 3 1.9e+02 3.2 0.0 2 23 1455 1479 1454 1479 0.91

26 53 8.2 5e+02 1.8 4.2 1 23 1501 1523 1501 1523 0.97

27 53 2.6 1.6e+02 3.4 0.3 1 23 1527 1550 1527 1550 0.87

28 53 0.0023 0.14 13.0 1.5 1 23 1556 1578 1556 1578 0.98

29 53 0.093 5.7 7.9 3.8 1 23 1584 1607 1584 1607 0.96

30 53 0.012 0.74 10.7 0.2 2 23 1615 1637 1614 1637 0.96

31 53 0.00042 0.026 15.3 2.9 1 23 1643 1665 1643 1665 0.97

32 53 1.4e-06 8.7e-05 23.1 0.5 2 23 1672 1693 1671 1693 0.97

33 53 0.36 22 6.1 2.4 1 22 1699 1720 1699 1720 0.96

34 53 0.13 7.7 7.5 2.3 1 23 1900 1923 1900 1923 0.93

35 53 0.19 12 6.9 0.0 2 23 1952 1974 1951 1974 0.95

36 53 0.21 13 6.8 0.5 2 23 1997 2018 1996 2018 0.96

37 53 0.0061 0.37 11.6 0.1 1 23 2022 2044 2022 2044 0.95

38 53 0.13 7.8 7.5 2.9 1 23 2049 2072 2049 2072 0.96

39 53 5.4 3.3e+02 2.4 6.9 3 23 2199 2219 2197 2219 0.95

40 53 3.5 2.1e+02 3.0 0.1 2 23 2246 2268 2245 2268 0.94

41 53 0.017 1 10.3 2.2 2 23 2292 2313 2291 2313 0.97

42 53 0.006 0.36 11.7 0.2 1 22 2317 2338 2317 2340 0.89

43 53 0.023 1.4 9.8 0.9 1 23 2345 2368 2345 2368 0.93

44 53 0.58 35 5.4 0.4 1 23 2497 2520 2497 2520 0.94

45 53 0.017 1.1 10.2 0.1 2 23 2547 2569 2546 2569 0.95

46 53 0.0023 0.14 13.0 2.6 2 23 2592 2613 2591 2613 0.98

47 53 0.024 1.5 9.8 0.1 1 23 2617 2639 2617 2639 0.95

48 53 2e-05 0.0012 19.5 1.6 1 23 2644 2667 2644 2667 0.97

49 53 0.45 28 5.8 2.4 2 23 2674 2696 2673 2696 0.93

50 53 0.034 2.1 9.3 0.8 2 23 2704 2726 2703 2726 0.95

51 53 0.0011 0.067 14.0 3.4 1 23 2732 2754 2732 2754 0.98

52 53 3.9e-06 0.00024 21.7 3.5 1 23 2760 2782 2760 2782 0.99

53 53 0.01 0.64 10.9 3.3 1 23 2788 2811 2788 2811 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	53	0.055	3.4	8.6	0.0	1	20	28	47	28	48	0.95
2	53	0.03	1.9	9.5	0.7	3	23	124	144	122	144	0.96
3	53	0.0035	0.22	12.4	0.2	1	23	148	170	148	170	0.97
4	53	0.062	3.8	8.5	0.1	1	23	177	200	177	200	0.94
5	53	0.049	3	8.8	1.1	2	23	208	230	207	230	0.92
6	53	1.6e-05	0.001	19.7	0.4	2	23	236	258	235	258	0.96
7	53	1.3	82	4.3	0.7	1	23	264	287	264	287	0.92
8	53	0.00038	0.023	15.4	3.8	1	23	293	316	293	316	0.98
9	53	0.21	13	6.8	0.1	1	23	681	704	681	704	0.93
10	53	0.0059	0.36	11.7	5.2	1	23	775	797	775	797	0.97
11	53	0.00093	0.057	14.2	0.6	1	23	801	823	801	823	0.96
12	53	0.36	22	6.1	3.1	1	23	828	851	828	851	0.86
13	53	0.098	6	7.9	1.0	2	23	859	881	859	881	0.91
14	53	0.052	3.2	8.7	4.3	2	23	889	911	888	911	0.95
15	53	0.0004	0.024	15.4	1.6	1	23	917	940	917	940	0.98
16	53	0.00012	0.0074	17.0	5.7	1	23	946	968	946	968	0.98
17	53	0.029	1.8	9.5	0.2	2	23	976	998	975	998	0.96
18	53	0.43	27	5.8	0.3	1	23	1047	1070	1047	1070	0.94
19	53	0.049	3	8.8	3.8	2	23	1142	1163	1141	1163	0.96
20	53	0.0037	0.23	12.3	0.2	1	23	1167	1190	1167	1190	0.97
21	53	0.001	0.063	14.1	1.1	1	23	1222	1245	1222	1245	0.98
22	53	0.00013	0.0077	17.0	1.2	2	23	1253	1275	1252	1275	0.96
23	53	0.0015	0.094	13.5	2.5	1	23	1281	1303	1281	1303	0.98
24	53	3.3	2.1e+02	3.0	5.4	1	23	1405	1428	1405	1428	0.94
25	53	3	1.9e+02	3.2	0.0	2	23	1455	1479	1454	1479	0.91
26	53	8.2	5e+02	1.8	4.2	1	23	1501	1523	1501	1523	0.97
27	53	2.6	1.6e+02	3.4	0.3	1	23	1527	1550	1527	1550	0.87
28	53	0.0023	0.14	13.0	1.5	1	23	1556	1578	1556	1578	0.98
29	53	0.093	5.7	7.9	3.8	1	23	1584	1607	1584	1607	0.96
30	53	0.012	0.74	10.7	0.2	2	23	1615	1637	1614	1637	0.96
31	53	0.00042	0.026	15.3	2.9	1	23	1643	1665	1643	1665	0.97
32	53	1.4e-06	8.7e-05	23.1	0.5	2	23	1672	1693	1671	1693	0.97
33	53	0.36	22	6.1	2.4	1	22	1699	1720	1699	1720	0.96
34	53	0.13	7.7	7.5	2.3	1	23	1900	1923	1900	1923	0.93
35	53	0.19	12	6.9	0.0	2	23	1952	1974	1951	1974	0.95
36	53	0.21	13	6.8	0.5	2	23	1997	2018	1996	2018	0.96
37	53	0.0061	0.37	11.6	0.1	1	23	2022	2044	2022	2044	0.95
38	53	0.13	7.8	7.5	2.9	1	23	2049	2072	2049	2072	0.96
39	53	5.4	3.3e+02	2.4	6.9	3	23	2199	2219	2197	2219	0.95
40	53	3.5	2.1e+02	3.0	0.1	2	23	2246	2268	2245	2268	0.94
41	53	0.017	1	10.3	2.2	2	23	2292	2313	2291	2313	0.97
42	53	0.006	0.36	11.7	0.2	1	22	2317	2338	2317	2340	0.89
43	53	0.023	1.4	9.8	0.9	1	23	2345	2368	2345	2368	0.93
44	53	0.58	35	5.4	0.4	1	23	2497	2520	2497	2520	0.94
45	53	0.017	1.1	10.2	0.1	2	23	2547	2569	2546	2569	0.95
46	53	0.0023	0.14	13.0	2.6	2	23	2592	2613	2591	2613	0.98
47	53	0.024	1.5	9.8	0.1	1	23	2617	2639	2617	2639	0.95
48	53	2e-05	0.0012	19.5	1.6	1	23	2644	2667	2644	2667	0.97
49	53	0.45	28	5.8	2.4	2	23	2674	2696	2673	2696	0.93
50	53	0.034	2.1	9.3	0.8	2	23	2704	2726	2703	2726	0.95
51	53	0.0011	0.067	14.0	3.4	1	23	2732	2754	2732	2754	0.98
52	53	3.9e-06	0.00024	21.7	3.5	1	23	2760	2782	2760	2782	0.99
53	53	0.01	0.64	10.9	3.3	1	23	2788	2811	2788	2811	0.98

Sequence Information

Coding Sequence: ATGAAGAGACATTGTCACAATCTGACGACGATACTCAGCTGTTCGAACGCGACGCCATTCAAAGACAGGAACGATGCTGGATACATTTGCGCGTACTGCTACGAATCGTACCCCGATCCGGCGGCCCTACGAGCCCACACGCATTGCGACCATCACGACGAAAAGAGGACGTACAAGGCCGGATCAGCTCTCAACAACTTCATCGCCTATCTAGACATCCTCGATCTGAAATGCACGCTGTGCGACCTACCTAAACCGGATCTCAAAACCTTGATCGAGCATTTGGTCGCGGTCCATCAGAAGCAATACTACCTCGGGGAGACAGATTACTTTGTCCCCTTCAAACTTACAGAAGAAATACAGATCAACTGCTGCTTGTGCGACGAGCCGTACTACAACATGAAGCTGCTAATGCAGCATATGAATGTACACTTCAGAAACTTTATCTGTACGATTTGCGGGGCCGGCTTCGTCAACAGTTTCAGGCTACTAAGACACGAGACGACGCATGAAAAGAAGAAATCTAGCTTCCCTTGCAAACAATGCGGTGCTGTGTTCTCCGCTGATTCGAAACGCAAGGCTCATATCAACGAAGATCACAAAGGCATAGCTGGAGATAGCGTTTGCAGAATCTGCAAAGCACGCTTCAAGAACTACTATCAGAAAACGAGACACATGGTCCAAGTTCATAACGCGGAAGGGGTTAAATGTGGAGTCTGTGAAAAGACGTTCAATCTCAAATCGAACCTCATCTCCCACATGAGGAACGTGCATCTGAAAGAACGCCCGTATGAATGCTCCGTCTGCAACATGGGATTCTTTATAAAAAGGCAGATGCTGTACCATTACATGGCAACTCATACGAATGAGAGGAATTTCAAATGCGACGTCTGCGGAAAGGCTTACGCGACGCAGTGTAGTCGGAGGAAGCATATGAAGAAGAATCATGGTGTAGTACCGAGTCTTGCTTCTTTAAGTCGTGGAGCAAAAAACACAGTAAGTACTAAATTTAATCGGAATGAAAAATCTGAAAAGACATCAGATGCTAAAAGTGGCCATAATACGAATGGTTCTAGACGAGACGAAAAGAAAGCGTCTCAAAAAATCGATAACAATGATCCTGAAAGAGCTAAAAGGCATGAAAGCAAGAATAGGTCCAGAAAAGATTATGTAGGTAGTGATAAAAAGGACAGGTCCGAAAGCAGAAAAAAATCTGATCGAGAGGGTGTGATTTTAGGCAATAAAGAAAGCAATAAAAAATCAGTACTGGGCGAATTGATCGCAGTGAATGGCGATAAAAAACAAAGGTCAGTGAGCAGTAACAAATCGTCGGTTGCCGGACGAGACGATGCAAATAGTAAGAAGAGATCTATACAGGATGGTAAAGATATTGATAAACAAGTTCAGGAAAAGAAACGGTCTAGAAAAGATGGAGGCAAAGAAAGTTCTAAGAATGATCGAGAAAATGTTGAGAAAAAGTCTGCAAGCAAGGAAAGGTCCAAGAAAGATCCAAATATTTTTGAGCATAAGTCTAAAAGTAAAGATAGATCTATGAAAGATTCTAATAATGTTGAGAACAGGTCTAAGAGCAGGGAAAGATCCAAGAGCCGGGGTCCAGgtgagaaaaaaattaagtttttcagACCTTTTCTTGATGAAGATGACGACtatgaaaagaaaaaagaaagatcTAAAAGTAGAGAAAGATCTGATAAAAGTGTGGCTTTTTCATCTCATGGCAAGAATAAAAGTGAGAACAAGAATGAACCGAAAGAACGTAGTAATGCTAAAGATGCTAAAAAAGCTAAGGATGCCAAAAATAAGAACACAACAAAGAAAAGTGTTGATACTCTTAAATTAAGGAGACGTACAAAAATAGTCAAACCAGAGGAAACAATTTCCGCTGTCCAAACGCGAACTGGCAAAGACGGGGTTTTGATGGAGATAGAATTAACTGAGCTTGATAAACATCTGCATAATATACGTACGATACTACTGAATTCTAACGCAACTCCCATACAAAATCATGACGAAACTGGTTTCACTTGCGGCTTCTGCGTCGCACAGTTCATTACAGCCGCTGACCTAAAAATTCATACGCTAGACGATCATGATGAGGACTACATCGAGAGATTTATGGTTGGAGCTCACATGTATTCCTATGTCGTCAAATTGGACATAACCTCACTCCGCTGCATTATGTGCACTCGGAAAATATTCACTCTAGAAAATCTCATTGAACACCTAGAGAGCAAACACAACAAAGTGTTTCACAAGGATATAAAAAATCACATCCTACCTTTTAAATTCCAAAGTGATGTATTCACCTGCGTTATTTGCGATCGCAAGTTTGATCGTTTTAAACATATGCAGCATCACATGAGCGCCCATTACAAGAACTATCTCTGCGACGAATGCAACTCACCATTCATCAACAAAGCTACTCTCAGAACGCATCTAAAAAGACATACAGATGCGGTATACACATGCGATTTCTGCGGAAAAAACTTCGATACCAAGATCAAGTGTACCGTTCACGAGAACTACGTTCACATGAGAGGCCACAGTCGCAACAGATGCACCTACTGCCATGaattcttcgtgagatatgtcCTTAAAATACGACACATGGTTGAAGTGCACGGCCACAAACAACGCACAGTAAAATGCAATTCTTGCAGCAAGACTTTCCAGACCAAGGAGAAGTATACGAAGCACAATAAACGTTACCATCTGTTGGAACGCAATTACAAGTGCGATCTGTGCGAGGGTCGTTTCTTTGACAGCTACGATCTGAAACGTCACAAACGCACGGTCCACGAGGTTTCGAAACGGTTTAAATGTCCCACCTGCGACAAGAAGTTCACCAGGCATGATAATATGTTGGAGCACTTGAGACACCACAACCAGGAGTACAGGAATATCACCTGCGAACTTTGCGGATTGAATTATGCGACTATGGGCCGTTTCAAGAGGCATATGAGCAGTGCGCATAAGGACCgTAATCAAGAAGACGCGATAAGCAATCCAAAATTCAGCAAACCTGATGCAGAAGAGATGGAAATGCAGAAACACAATGTTAAGCAGATAGTTCTGTACTCGAACGCGACACCATTATCGCGACATACAGATTTAGGATACGCTTGCGCTTTTTGCCTCGAATACTATCAAAAACCTTCCGATCTTAAGCAACATATACTAAATTACCACGATATAAACACTAGAGCTACTTACATGAGTAAACCACGCTTTGGATCAGGAAGCTATGTGGTCAAAGTCGacgtaacaaatttaaaatgtacTCTATGCGAACAAGGTATCGAATACGTAAACGTTAAAGAACATCTTGAGAAACATGGAAAATACATGCACGACCTTTCAAAGAGCTACACAGTGCCATTCAAGTTTGATGACGATTATCTCAAGTGTATGTTCTGTGATAAAATTTGCAGATCATTCAAAACACTACAAATGCATATGAACGAGCATTATAAGAACTATCAGTGTCCTGTCTGTGGTGTAGGTTTTATAAACCAACTAATGGTcaaaaatcattacaaaaactcGCATAAAATCGGATTTTTCGCTTGCGGCTGCGGAGAAGTTTTCGATACTATCAATAAGAAGAAATTGCACGAACTGCATGCTCacaataagtataaatacaaatgtGGATACTGTGACGAGTTCTTTAAGTCGTCTGATAAGAAACGGATCCATTTAATAACCGTACATAATGTTAATTTCCCATCAATTCAGTGCAACGAATGtgataaattttttaaaaaagaaGGTCATCTAGCCGTTCACGTAAAGAAGGATCACAATAAAGAGACGCGGTTCAAATGCTCTTACTGCAATAAAGCTTACTTCTTCAAATCTCAACTGGACTTGCATTTGATCAAACACTTGAACACAAAAGATTTCAAATgtGTCCTCACAGACTACAAACCCATAAAACTGGAAGTTGAATGGGATTTAGAAACAAGCTTGGAAATTACAAGTATTAAAGAAGAGAGTTCATCTTCAGATGATAAAAAGAAAAGAGGTAAACGCGGGAAGAAGAGAAAAGTCGATGACTTCCGACCGCTTAAGATTAAACCACCAGCCAAAGCTGAGGTTTTAGACGTGGAGAAGCATAGATACAATGTTCGGGCGTTATTACAATACTCCAATGCTACGCCGATCAGAGCGCACTACGCTGGAAACGGATACGCTTGCTGCTTCTGCAAACAGTACTTTCACAAAGCATCAGAACTCAAGGAGCACACGCTCCAATCTCACGACGAACAAACCAAAAAGAAATACATGCAGAAGGCATTCCTATTCAAGCTATTTGTCAAACTAGATATAACACTACTGCGTTGTACAGTTTGCTCAGctgatattatatttgataCTCTCGAACAACTCATAGAACATTTGAACTCCGCACACCAGAAAGGAATACATACGGATATAAAGAATCAAATCATGTGTTTTAAGCTAGATGAGGAAGTTTTTCGGTGTTTCATTTGTACAGTCGAATATCACAGCTTTAAAAATTTACTTGAACATGCGCATTCGCATTATAGGAACTTTATATGCGAGACATGCGACGCGGGCTTTATTAATAGACTTAAACTATACGGACACGTCTACAACAAGCATAAAGGCGCTGGTTCTCATAAGTGCAACACTTGTGCGAAAATTTTCGATACtcctataaaattaaaaactcaCGAAAGAATTCATTTAGGTACAGTTCTCTACAAATGCCACGAATGTAACGACAAGTTCACGAAGAAGAAAGAGAAGAGAGATCACATGATAAACGTGCACGGAGCTAAATTCTCCAGGATCAAATGCACAGCGTGCGACAAGCTGTTTATCAGTAAAGCCTCGCTCAGCGTTCACGTGAACAGAGACCACTTAATGGACAGGCGACACCAGTGCGAACTTTGCGAGAAGACCTTCTTCACGTCATCTTTCTTGAGAGATCACATGGTGTCTCACTCTAGGGTTAGAGAGATTCAATGCGACGAATGTCCCAAAACTTTTGCTAGGAAAAAAGCGTTACGTGAACATATGAAGTCCCATACTGGTGACCGTAGGTTTAAGTGTACGTTCTGTGATATGGCTTTCCTTCAGAAGTGTAGCTTGAAAGGTCACTTGAGAAGTATCGTCGTCAGAGACCACAAAGCAATCAAAACGGAGGTAGGAAGCTCTTGGGGCGTTACTATTGTTAAAGTGAAAGGATCTAATACTGAAAATACCGTTATTGACGATACTCAAGTAAAAActaatgaaaaatataagagAAACGACCGGAAATCGGAGGATAATAAAGTGAAATCAAAGAAATTTAACATTGAACAAGTATCTATTTTTCAGAAACCTTTTGATGTATCGGCTGATAATAAACCGATTACATCCAAAGTAGTAAGTCCCACTGCTgctttaaaaatcaaaatcaacccACCACccgatataataataaaacaaattaaacctAAAACCGACGAAATTAAACCAAAAGAGGTCACTATAAAAccgcaaaagaaaaaaaaaacaatcaacgCACCAATTCAAAGAATTAAAATAGTCCCTCCACCAGATATGGACTTTATGATGGAGCTAGACAAGCACAGATTCAACATACGCACCGTGATgcaatactcaaacgcaacccCAATAAGAAACCACGTAAAAAGCGGTTTCGTTTGCTGCTTCTGTGACGCACACTTCCCCAAACCAGCGGACCTAAAAATACACACTACCCAAACCCACACGGACGATGAAAGCAAAGATAAGTTCTTTCGAAAGAAAGCAGTCTTATACTCCTTCATGGTCAAACTAGATATAACCCATCTAGTTTGTAATATCTGCCAAGTTCCTATCGATACACTCGATCAGCTTATATCCCACCTCAACAGTAACCACCAGAAAAACTTGCACACAGATATAAAAAACCATATTGTCTGCTTCAAATTCGACAGCGATGTTATGAGATGTCTCGTTTGTGCTCAAGAATTCAATAGCTTCAAACTGCTTTCTGAACACATGAACCAGCATTATACTAACTTCGTTTGCGACGAGTGCGGTGCTGGGTTCATCAACAGGAGGCAGTTACTCCTACACTCTGATAAACATAAAGTTGGGGAACACAAATGTGGGTCTTGTGATAAGGTATTTCAATCTCTGAAGAGGATGAAGACCCACGAACGCGTCACGCACGTTTATAACTCGGGTTTAGGAACGCACGGGTTTAGGTGCCATCTTTgtAAGAACGTGAGTGACGTGAAACCCATTAAAAAAGAACTATCGTCTAGTTCTTGGCAAGTAACTATCGTTAAAGTCGACGGTAATGACATCAACGGATCTCCAACTGTTAAAAACCAACCCAAGACTATGATACAAAAACCTGATGAAACAACCATCAACGGAATGAAGTTAGGAGACTTGAAGAAACCTATTTCTTTTCTTAAGAAAGCTAAGCCAGTCCAAGTGCAAGAAATTTCTGAACTTGACAAACAAAGATTTAATATTCGGACTATATTACAGTTTTCGAATGCAACGCCAATACGAACGCATTCTATATCAACCGGTTACGGCTGCTGTTTCTGCAAAAAGTATTTCCATAAGGCTTCCGATCTCAAAACTCACAATAAACAACATGACGAAGAAGCCAAAACAAAATTCATGAAAGGAGCTACATTATTTACGTTCCTTGTGAAATTAGATGTAACTGGATTATCCTGCAGCATTTGCAAACTATCAATGGACAACATAGAAGAACTGATGGAACATCTAAATAATACACACGATAAGAGACTGTATACGGAATTAAAGAAATATGTAATATGCTTTAAACTTCCTACCGATGATGTCATGAAATGTCATTTATGTGACGCGGAATTTAAGAGCTTCAGGGTATTACAGGAACATATGAAAAATCATTCCACAAATTTCATTTGCGACGAATGTGGAGTTGGTTTTATAAATCTTGGACAGCTGCGGCACCATTCTGATAACGTACATATGATATCCGAGTACAAATGCGAAAAGTGTAACCAAGTCTTTCCGACGTCGAAAAAGAAGTATATTCATGAGCGCGCTGCGCATTCCGAGTTTAAGAGGAGTGACtacaaatcaattaaaaaagaaGTAATTGAATCCGAAAATTCTGAAGTTGAACCAAAAGTTGAAGAATTCTGCGTTATCGAAGTAAAACCCGTCAGAAAATCGCGGGAGACAAAAATCAAAAAGAAAGAATCTTCCATTCGCAGAACTAAATTAAAAGCTATACCAATTTATGCTGCGGCTATTAAGGgtataaaaatcaaacctccATCAGAGCCGCGCCTGCCATCGCACAGTGTTAAAATAGAACCGGCATTGGACAGTCCCCCAGAGCAGATGGAGATTGAAAAACAGAGACATAACATTCGGACAATATTGCTAAACTCTAACGCAACGCCAATCAGAAAGCACTATGTCGGCAGCGGATACAATTGCTGTTTCTGCAAAGCAAGTTACCCCATACCGGCTGATCTCAAAGCGCATACAATTAACGAACACGACAACCAAACTAAAAACAAATTCATGAAAAATATACGCATGTATTCATATATAGTAAAACTCGATATCACTTCGCTTAGCTGTAATATTTGCAATAAAGCTCTAGATACGATAGATCAATTGGTCGACCACCTAAATAGCATACATCAGAAGGGTATACACACAGATGTTAAAAGCTACTACGCCTGCTTCATATTCAATGGCGAAGAGACGAAATGCCACATCTGTTCAGCTGGATTTCGTAGCTTCAAACTTTTGCAGGAGCATATGAACAAGCATTGTATGAATTTCATTTGCGACGAGTGTGGCGTCGGCTGCATCAATCGAGGGCAGTTGAAGTTGCATTCAGCTGTGCACGAATCGGGCGCGTATAGATGCAGTACATGTGAAAAGGTCTTCAAATCTCTCGCCAACCTACAATCCCACACGCGACAAACGCATTCCGCGATACCAGTTAACAAATGTCACCTTTGCGAAGGCAGATTCAAAAGTAACCGTAACAAACGGAACCATCTTATAGAAGCTCACGGGATGGTCTTCCCCGAACTAGAATGTGACGCTTGCAACCGCACATTCAAAACTGGAAACTCCCTTTCTGTTCACAAGAAGAAGGATCATTTGATGGAGCGCCGTTACAAATGCGAGATTTGCTACCGGACATTCTTCACTTCACACATGTTGAAAGAGCACGAGATAACGCATACGGGAGTGAGGAATTATAAGTGTGAGATATGTTCGAAGACGTATTCGAGGAGGCACGGGCTAAGAGAGCATATGAGATCACATACCGGTGACCGACGATTCAAGTGCTCCTACTGCGGCATGGCGTTTCTGCAGAAATGCAGTCTGAAAGGACACTTGCGCAGTCGTCATGATGCTGAACTAcaatag
Protein Sequence: MKRHCHNLTTILSCSNATPFKDRNDAGYICAYCYESYPDPAALRAHTHCDHHDEKRTYKAGSALNNFIAYLDILDLKCTLCDLPKPDLKTLIEHLVAVHQKQYYLGETDYFVPFKLTEEIQINCCLCDEPYYNMKLLMQHMNVHFRNFICTICGAGFVNSFRLLRHETTHEKKKSSFPCKQCGAVFSADSKRKAHINEDHKGIAGDSVCRICKARFKNYYQKTRHMVQVHNAEGVKCGVCEKTFNLKSNLISHMRNVHLKERPYECSVCNMGFFIKRQMLYHYMATHTNERNFKCDVCGKAYATQCSRRKHMKKNHGVVPSLASLSRGAKNTVSTKFNRNEKSEKTSDAKSGHNTNGSRRDEKKASQKIDNNDPERAKRHESKNRSRKDYVGSDKKDRSESRKKSDREGVILGNKESNKKSVLGELIAVNGDKKQRSVSSNKSSVAGRDDANSKKRSIQDGKDIDKQVQEKKRSRKDGGKESSKNDRENVEKKSASKERSKKDPNIFEHKSKSKDRSMKDSNNVENRSKSRERSKSRGPGEKKIKFFRPFLDEDDDYEKKKERSKSRERSDKSVAFSSHGKNKSENKNEPKERSNAKDAKKAKDAKNKNTTKKSVDTLKLRRRTKIVKPEETISAVQTRTGKDGVLMEIELTELDKHLHNIRTILLNSNATPIQNHDETGFTCGFCVAQFITAADLKIHTLDDHDEDYIERFMVGAHMYSYVVKLDITSLRCIMCTRKIFTLENLIEHLESKHNKVFHKDIKNHILPFKFQSDVFTCVICDRKFDRFKHMQHHMSAHYKNYLCDECNSPFINKATLRTHLKRHTDAVYTCDFCGKNFDTKIKCTVHENYVHMRGHSRNRCTYCHEFFVRYVLKIRHMVEVHGHKQRTVKCNSCSKTFQTKEKYTKHNKRYHLLERNYKCDLCEGRFFDSYDLKRHKRTVHEVSKRFKCPTCDKKFTRHDNMLEHLRHHNQEYRNITCELCGLNYATMGRFKRHMSSAHKDRNQEDAISNPKFSKPDAEEMEMQKHNVKQIVLYSNATPLSRHTDLGYACAFCLEYYQKPSDLKQHILNYHDINTRATYMSKPRFGSGSYVVKVDVTNLKCTLCEQGIEYVNVKEHLEKHGKYMHDLSKSYTVPFKFDDDYLKCMFCDKICRSFKTLQMHMNEHYKNYQCPVCGVGFINQLMVKNHYKNSHKIGFFACGCGEVFDTINKKKLHELHAHNKYKYKCGYCDEFFKSSDKKRIHLITVHNVNFPSIQCNECDKFFKKEGHLAVHVKKDHNKETRFKCSYCNKAYFFKSQLDLHLIKHLNTKDFKCVLTDYKPIKLEVEWDLETSLEITSIKEESSSSDDKKKRGKRGKKRKVDDFRPLKIKPPAKAEVLDVEKHRYNVRALLQYSNATPIRAHYAGNGYACCFCKQYFHKASELKEHTLQSHDEQTKKKYMQKAFLFKLFVKLDITLLRCTVCSADIIFDTLEQLIEHLNSAHQKGIHTDIKNQIMCFKLDEEVFRCFICTVEYHSFKNLLEHAHSHYRNFICETCDAGFINRLKLYGHVYNKHKGAGSHKCNTCAKIFDTPIKLKTHERIHLGTVLYKCHECNDKFTKKKEKRDHMINVHGAKFSRIKCTACDKLFISKASLSVHVNRDHLMDRRHQCELCEKTFFTSSFLRDHMVSHSRVREIQCDECPKTFARKKALREHMKSHTGDRRFKCTFCDMAFLQKCSLKGHLRSIVVRDHKAIKTEVGSSWGVTIVKVKGSNTENTVIDDTQVKTNEKYKRNDRKSEDNKVKSKKFNIEQVSIFQKPFDVSADNKPITSKVVSPTAALKIKINPPPDIIIKQIKPKTDEIKPKEVTIKPQKKKKTINAPIQRIKIVPPPDMDFMMELDKHRFNIRTVMQYSNATPIRNHVKSGFVCCFCDAHFPKPADLKIHTTQTHTDDESKDKFFRKKAVLYSFMVKLDITHLVCNICQVPIDTLDQLISHLNSNHQKNLHTDIKNHIVCFKFDSDVMRCLVCAQEFNSFKLLSEHMNQHYTNFVCDECGAGFINRRQLLLHSDKHKVGEHKCGSCDKVFQSLKRMKTHERVTHVYNSGLGTHGFRCHLCKNVSDVKPIKKELSSSSWQVTIVKVDGNDINGSPTVKNQPKTMIQKPDETTINGMKLGDLKKPISFLKKAKPVQVQEISELDKQRFNIRTILQFSNATPIRTHSISTGYGCCFCKKYFHKASDLKTHNKQHDEEAKTKFMKGATLFTFLVKLDVTGLSCSICKLSMDNIEELMEHLNNTHDKRLYTELKKYVICFKLPTDDVMKCHLCDAEFKSFRVLQEHMKNHSTNFICDECGVGFINLGQLRHHSDNVHMISEYKCEKCNQVFPTSKKKYIHERAAHSEFKRSDYKSIKKEVIESENSEVEPKVEEFCVIEVKPVRKSRETKIKKKESSIRRTKLKAIPIYAAAIKGIKIKPPSEPRLPSHSVKIEPALDSPPEQMEIEKQRHNIRTILLNSNATPIRKHYVGSGYNCCFCKASYPIPADLKAHTINEHDNQTKNKFMKNIRMYSYIVKLDITSLSCNICNKALDTIDQLVDHLNSIHQKGIHTDVKSYYACFIFNGEETKCHICSAGFRSFKLLQEHMNKHCMNFICDECGVGCINRGQLKLHSAVHESGAYRCSTCEKVFKSLANLQSHTRQTHSAIPVNKCHLCEGRFKSNRNKRNHLIEAHGMVFPELECDACNRTFKTGNSLSVHKKKDHLMERRYKCEICYRTFFTSHMLKEHEITHTGVRNYKCEICSKTYSRRHGLREHMRSHTGDRRFKCSYCGMAFLQKCSLKGHLRSRHDAELQ

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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