Basic Information

Insect: Lucilia cuprina
Gene Symbol: ZNF407
Assembly: GCA_001187945.1
Location: JRES01001097.1:26786-52073[+]

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 55 0.00053 0.035 14.2 0.1 2 23 172 194 171 194 0.96

2 55 0.33 22 5.4 5.4 1 23 281 304 281 304 0.96

3 55 0.0053 0.35 11.1 0.5 2 23 396 418 395 418 0.96

4 55 4.3e-06 0.00029 20.8 1.3 3 23 427 448 425 448 0.95

5 55 0.058 3.9 7.8 3.9 1 23 470 492 470 493 0.95

6 55 0.00076 0.051 13.7 1.0 1 23 499 521 499 521 0.96

7 55 2.1e-05 0.0014 18.7 2.0 1 23 527 549 527 549 0.99

8 55 1.2e-07 7.9e-06 25.7 1.6 1 23 555 577 555 577 0.98

9 55 0.0012 0.083 13.1 0.3 2 21 584 603 583 607 0.89

10 55 2.7e-05 0.0018 18.3 2.2 2 23 808 830 807 830 0.97

11 55 4.8 3.2e+02 1.8 4.8 1 23 849 872 849 872 0.95

12 55 0.65 44 4.5 0.8 2 23 889 911 888 911 0.96

13 55 0.0078 0.52 10.6 0.8 2 23 1045 1067 1045 1067 0.96

14 55 1.5e-05 0.00099 19.1 1.4 3 23 1076 1097 1075 1097 0.97

15 55 0.46 31 5.0 3.0 1 23 1117 1139 1117 1140 0.95

16 55 0.00016 0.011 15.8 0.7 1 23 1146 1168 1146 1168 0.96

17 55 2.7e-06 0.00018 21.5 2.4 1 23 1174 1196 1174 1196 0.99

18 55 4.4e-08 2.9e-06 27.1 2.8 1 23 1202 1224 1202 1224 0.99

19 55 5.2e-06 0.00034 20.6 0.8 2 23 1472 1494 1471 1494 0.96

20 55 0.0046 0.31 11.3 1.9 2 23 1502 1523 1501 1524 0.95

21 55 0.00016 0.011 15.9 0.9 1 23 1543 1566 1543 1566 0.97

22 55 0.00023 0.015 15.4 0.5 1 23 1584 1606 1584 1606 0.95

23 55 2.6e-06 0.00018 21.5 0.4 1 23 1612 1634 1612 1634 0.99

24 55 3.9e-07 2.6e-05 24.1 1.1 1 23 1640 1662 1640 1662 0.99

25 55 1.2e-06 7.8e-05 22.6 0.9 1 23 1668 1690 1668 1690 0.99

26 55 0.00082 0.054 13.6 1.4 2 23 1955 1977 1954 1977 0.95

27 55 0.00027 0.018 15.2 3.4 2 23 1985 2006 1984 2007 0.95

28 55 0.0011 0.074 13.2 0.3 1 23 2026 2049 2026 2049 0.95

29 55 0.00011 0.0076 16.3 0.6 1 23 2068 2090 2068 2090 0.95

30 55 0.00042 0.028 14.5 2.6 1 23 2096 2118 2096 2118 0.99

31 55 5.1e-07 3.4e-05 23.7 1.3 1 23 2124 2146 2124 2146 0.99

32 55 1.8e-05 0.0012 18.9 3.0 1 23 2152 2174 2152 2174 0.99

33 55 0.00037 0.025 14.7 0.2 2 23 2483 2505 2482 2505 0.96

34 55 0.0054 0.36 11.1 0.8 2 23 2513 2535 2512 2535 0.94

35 55 0.002 0.13 12.4 6.5 1 23 2555 2578 2555 2578 0.97

36 55 1.4e-06 9.3e-05 22.4 0.9 3 23 2599 2619 2598 2619 0.98

37 55 0.04 2.6 8.3 1.6 1 23 2625 2647 2625 2647 0.98

38 55 7.4e-06 0.0005 20.1 1.5 1 23 2653 2675 2653 2675 0.98

39 55 0.00051 0.034 14.3 1.4 2 23 2682 2703 2681 2703 0.98

40 55 0.0012 0.08 13.1 0.2 2 23 3178 3200 3177 3200 0.95

41 55 0.0015 0.099 12.8 1.3 2 23 3208 3230 3207 3230 0.95

42 55 0.0035 0.23 11.7 7.5 1 23 3250 3273 3250 3273 0.96

43 55 0.0013 0.088 13.0 0.1 3 23 3297 3317 3296 3317 0.98

44 55 0.0039 0.26 11.5 3.9 1 23 3323 3345 3323 3345 0.98

45 55 2.2e-05 0.0015 18.6 2.1 1 23 3351 3373 3351 3373 0.98

46 55 4.3e-05 0.0029 17.7 6.4 1 23 3379 3401 3379 3401 0.99

47 55 0.0025 0.17 12.1 0.6 1 23 3407 3429 3407 3429 0.98

48 55 2.6e-05 0.0018 18.3 0.7 2 23 3656 3678 3655 3678 0.97

49 55 0.021 1.4 9.2 8.7 2 23 3686 3708 3685 3708 0.96

50 55 0.00042 0.028 14.5 4.7 1 23 3726 3749 3726 3749 0.96

51 55 6.4e-06 0.00043 20.3 2.1 3 23 3777 3797 3776 3797 0.99

52 55 0.45 30 5.0 0.7 1 23 3803 3825 3803 3825 0.96

53 55 2.4e-07 1.6e-05 24.8 1.5 1 23 3831 3853 3831 3853 0.99

54 55 0.002 0.13 12.4 5.9 1 23 3859 3881 3859 3881 0.98

55 55 0.02 1.3 9.3 0.2 1 22 3887 3908 3887 3911 0.91

#	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	55	0.00053	0.035	14.2	0.1	2	23	172	194	171	194	0.96
2	55	0.33	22	5.4	5.4	1	23	281	304	281	304	0.96
3	55	0.0053	0.35	11.1	0.5	2	23	396	418	395	418	0.96
4	55	4.3e-06	0.00029	20.8	1.3	3	23	427	448	425	448	0.95
5	55	0.058	3.9	7.8	3.9	1	23	470	492	470	493	0.95
6	55	0.00076	0.051	13.7	1.0	1	23	499	521	499	521	0.96
7	55	2.1e-05	0.0014	18.7	2.0	1	23	527	549	527	549	0.99
8	55	1.2e-07	7.9e-06	25.7	1.6	1	23	555	577	555	577	0.98
9	55	0.0012	0.083	13.1	0.3	2	21	584	603	583	607	0.89
10	55	2.7e-05	0.0018	18.3	2.2	2	23	808	830	807	830	0.97
11	55	4.8	3.2e+02	1.8	4.8	1	23	849	872	849	872	0.95
12	55	0.65	44	4.5	0.8	2	23	889	911	888	911	0.96
13	55	0.0078	0.52	10.6	0.8	2	23	1045	1067	1045	1067	0.96
14	55	1.5e-05	0.00099	19.1	1.4	3	23	1076	1097	1075	1097	0.97
15	55	0.46	31	5.0	3.0	1	23	1117	1139	1117	1140	0.95
16	55	0.00016	0.011	15.8	0.7	1	23	1146	1168	1146	1168	0.96
17	55	2.7e-06	0.00018	21.5	2.4	1	23	1174	1196	1174	1196	0.99
18	55	4.4e-08	2.9e-06	27.1	2.8	1	23	1202	1224	1202	1224	0.99
19	55	5.2e-06	0.00034	20.6	0.8	2	23	1472	1494	1471	1494	0.96
20	55	0.0046	0.31	11.3	1.9	2	23	1502	1523	1501	1524	0.95
21	55	0.00016	0.011	15.9	0.9	1	23	1543	1566	1543	1566	0.97
22	55	0.00023	0.015	15.4	0.5	1	23	1584	1606	1584	1606	0.95
23	55	2.6e-06	0.00018	21.5	0.4	1	23	1612	1634	1612	1634	0.99
24	55	3.9e-07	2.6e-05	24.1	1.1	1	23	1640	1662	1640	1662	0.99
25	55	1.2e-06	7.8e-05	22.6	0.9	1	23	1668	1690	1668	1690	0.99
26	55	0.00082	0.054	13.6	1.4	2	23	1955	1977	1954	1977	0.95
27	55	0.00027	0.018	15.2	3.4	2	23	1985	2006	1984	2007	0.95
28	55	0.0011	0.074	13.2	0.3	1	23	2026	2049	2026	2049	0.95
29	55	0.00011	0.0076	16.3	0.6	1	23	2068	2090	2068	2090	0.95
30	55	0.00042	0.028	14.5	2.6	1	23	2096	2118	2096	2118	0.99
31	55	5.1e-07	3.4e-05	23.7	1.3	1	23	2124	2146	2124	2146	0.99
32	55	1.8e-05	0.0012	18.9	3.0	1	23	2152	2174	2152	2174	0.99
33	55	0.00037	0.025	14.7	0.2	2	23	2483	2505	2482	2505	0.96
34	55	0.0054	0.36	11.1	0.8	2	23	2513	2535	2512	2535	0.94
35	55	0.002	0.13	12.4	6.5	1	23	2555	2578	2555	2578	0.97
36	55	1.4e-06	9.3e-05	22.4	0.9	3	23	2599	2619	2598	2619	0.98
37	55	0.04	2.6	8.3	1.6	1	23	2625	2647	2625	2647	0.98
38	55	7.4e-06	0.0005	20.1	1.5	1	23	2653	2675	2653	2675	0.98
39	55	0.00051	0.034	14.3	1.4	2	23	2682	2703	2681	2703	0.98
40	55	0.0012	0.08	13.1	0.2	2	23	3178	3200	3177	3200	0.95
41	55	0.0015	0.099	12.8	1.3	2	23	3208	3230	3207	3230	0.95
42	55	0.0035	0.23	11.7	7.5	1	23	3250	3273	3250	3273	0.96
43	55	0.0013	0.088	13.0	0.1	3	23	3297	3317	3296	3317	0.98
44	55	0.0039	0.26	11.5	3.9	1	23	3323	3345	3323	3345	0.98
45	55	2.2e-05	0.0015	18.6	2.1	1	23	3351	3373	3351	3373	0.98
46	55	4.3e-05	0.0029	17.7	6.4	1	23	3379	3401	3379	3401	0.99
47	55	0.0025	0.17	12.1	0.6	1	23	3407	3429	3407	3429	0.98
48	55	2.6e-05	0.0018	18.3	0.7	2	23	3656	3678	3655	3678	0.97
49	55	0.021	1.4	9.2	8.7	2	23	3686	3708	3685	3708	0.96
50	55	0.00042	0.028	14.5	4.7	1	23	3726	3749	3726	3749	0.96
51	55	6.4e-06	0.00043	20.3	2.1	3	23	3777	3797	3776	3797	0.99
52	55	0.45	30	5.0	0.7	1	23	3803	3825	3803	3825	0.96
53	55	2.4e-07	1.6e-05	24.8	1.5	1	23	3831	3853	3831	3853	0.99
54	55	0.002	0.13	12.4	5.9	1	23	3859	3881	3859	3881	0.98
55	55	0.02	1.3	9.3	0.2	1	22	3887	3908	3887	3911	0.91

Sequence Information

Coding Sequence: atgtgtTGCCCTTCCCGGGATAATGAGAGTTATATGCcacaatatttatgtttattatgttGCCGGGATTTAAGAAATGCCTATGGTTTTATAAAACAAGCCcaatattgcaataaaaaacttttgaatgTTATAGCAAAACAATTATCTAGTCTGCAGGAAAAGAACATTATATTGCAAACACAAGGAGGTACACAGGAATATCCAATTACTATTAAAAAGGAAAGTAATAACGATGAGGGTGATAGTATTGCAAATATACAGGATAACATTTTAAATGAGTTTAGAATAGTAAGTACAAGTTCACTTCTAAAATCAGAAGTTTTAGAGGAAACAAACGAGGAGAATGAAGAAACTATTCAATATTATGTTCATGAAATTGAAGATGAGGAAATTGAACAAAGTGAACAAAATAAGCCTAATAATACCATATTAGAGTGTTCCTCAACCTCCAATACAAACTTCACAGAAACAGCTTCAATCAATAATCTAGAGGATATTGAAATTGATACAGTGTGTCCGATATgtgataaaacaataaataaacaagataATATAGTAACACATATGCGTATACAACATGATTTTGAAGTGCCTAGAGAACTTTTAAATACGCAAACATCAAATCAACAGGAACAGGAAGAGTATCCTAACATATGTACAAGTAAAACGAAAAGTTTAAATCGTATGGAAAACCTCAAAAAACGAAGTAAAGAGAAAAAGCAGATCACGAAACGTTTGGATAAGATAATGAAATGTAATTTATGTGACTATACGACAAGACATTATTCAGCTATAAGTTTTCATCATCGCTCAAAGCACGGCTCAGAAgatgataaatttaaatgtaaattttgctCTTACACGACTTGTAGAAAGTTTCGTCTAATAGCTCATGTGAAAAATCTAcataaagaattaataaaaactctTAAAGCTGATGCTGATAACAAGGAACAAGGtgaatcattaaataataatgataacacCACTAATCCTTATGCCACTTCTAGCGATGACGAAACTCCTTTAATCCAAAAAACTGCTAAATCTTTAGTAACGCCATATTTTAACGACGAAATGATGGAGGAAAAAGAAGCCTTAAGTGATGAAatgtttataagaaatatttttaatattaaaaagcgTAATGTGAATACATTTTCCACCAGATCTTTACCACAACGTTGTGATATATGtggcaatatttataataattatcgAGCTCTCAAGACCCATCAAAAAAATGTACACATTTCCGAAGAGAAATATAGTATATGTAAACATTGtggtaaaaagtttaaaaaaccaGCTAATTTACGAGTACATATTAATAATGCTCATTTGCCCAAAGACACGAATGAAACTAGTAAACCGTCAGCACCGGCTGCACCCAAAGAAAAACGTTTTATGTGTACAGAATGTTCTTATGTTTGTGCCACGATAACTACATTAACCATTCATAGAAATCGCCATCATACCGGTGAAAAACCTTATAAATGTGACATTTGTTCTAAATCATTCTTTATACCATATGATTTGAAGATACATCGTTATTTACATACTGGTGAAAAGCCATACAAATGTTCATATTGCTCTAAAGGTTTTCGCAACACTGCACAATTGGTAAAACACAAACGTATACACAGCAAGGAACGTCCGTATAAGTGTAAGGATTGTGGCAAGAGTTTTACACAAGCGTATAATTTAACATTACATAAGAGAGCTCatttaaaggaaaagaaattGAATTGTACGGTTTGCGATAAGTTTTTTGAAAACCTATCTGAATTGAATATCCATCGTATAAATGAGAATCATCCGGATaatttactaaaaaaaatgaatgaaaatccAATACAAAAATGTAGGACATGTCTTAAGAACAGTACAAAAACATTTCCTTTAACTAAACAAGCTAGAGGTTGTAATCCCAAGAGGACCTATGGTCAACTATTAAAGGAATATGCCAAATTGGAGTGCCCACCGGATTATGAACGTCTTATgcctaaatatttatgttttctgtGCTGTCGTGAATTGAGAAACACTTCGACCTTTATACGTCAGGCTGAGTATTGTAATAGTAAACTGTTAGAAGTTATTTCCAAACAATTggattgtttaaaagaaaaagtaatagATTTGCCAGAAAATGCTAAGGAAATTGATATTAAAACGGAAAAGGAAGGTAATGAGGGGGAGGATGATAACGCGATAAAGGTGCAGGACACTTTAGATGAAGAATTACATATTAAAGACATGAATATACTTTCTAAATCGGAAATATTGGAGAAACCTGAAGCGGATAATGAAGTTCAATTTCGATATGATGACAATGAGGAAAAGGATATTATTGACAATTACGAAAATGATACAAATGATTTATCAGGACAGTACGGAGAAACACAAATTGACACCACCTGTCCGATATGTCATAAAGTAATGAGCCGACgtgataatttattaaaacatatgcGTTCTCAGCATAAAATAGAGACGCCTAGTATGTTATTAGACAAAGAAAAGCCAGaacaagatatttttatttgtaaaatgtgtcccagtaaatatacaaataaatgcaCGTATTTATatcatgttaaaaataaacatggCATTGAGGAAAGTACCAGTAATCTAAAGGTGAaggataaaattataaaatgtcgTTCATGTGAGTATACAGCTAGAACTTATGCTGCCCTTAACTATCATACTCGTTCGAAACATGGTTCGGAAAaggataaatttaaatgtaaattttgttcatatctGTGTTTGAAGAAATTCGACTTATTAACGCATGTGAAAAATTCACACAAAGAATTGATCAAAACCTTAAAAGCGGAAGCAGTAAATCAAATGGAAAAAGGtgTTACTAATACTTCTTCCGGCTTGTTAAGTATAAAAGAAGAAGATGAAGAtgatacaattaataaaaatgcagACTCCTCTAGTGAGAGTGATGATGACATACCATTGGcacaaaaaatctctaaaactaGCCTAAAGTCTTCCGTTAAATCTAACGTAGATAGAGAAGAATTTAGTGATGAAGAAtttataagaaacattttaaatatcaaaaaacgaAAGCCCAAATCTTTATCAAGTAAATCCTTAGCCAGACGTTGTGAGGAATGcggtaatatttacaaaaactataaagcTCTATACGCCCATCAGCGACATGTTCATATCACCGAAGATAAATACAGTTTGTGTCCGCATTgtggtaaaaaatataaaagaaaagctGATCTTAGGATACACATTGAAAAGTCGCATATACCCAAAGATTCTGcagaaaatacaaaacaaccGGCAAAAGTTAGAGAGAAACGTTTTATGTGTACAGAATGTTCGTATGTTTGtacaacaattacaattttaaatattcacataAATCGTCATCATACCGGTGAGAAACcctataaatgtgatatttgTTTTAAGTCATTTATAGTACCGTACGATTTGAAGATACATCGTTATTTACATACAGGCGAACGACCCTATAAGTGTCCAATTTGTTCTAAAGGTTTTCGTGATAATTCCCATATGATTAAACACAAACGCATACATAGTTCGGAACGTCCATATAAATGTAAAGATTGTGGTAAAAGTTTTACTCAATCATATAATTTGTCAGTGCATAAGCGTACTCATTTGAAAGAGAAAAAGTTGAATTGTCAAGTATGCGGACtgcaattgttaacaaaaattataaacgatgatgaagaagaaacaaaaacttatgCTGAAGTAGTAAAGGATATAACACATATTGATGTGATGGATGAAAGCTGTAGTGAAATGCCCAAAAATATCTGTGGCTACTGCATACGAAAACTGAAGGCTGCCTATTCGTTTGTACAACAAGCCCATGAAGCCAATGATAAACTATGGTCCATACTAAATGAATCTGATCTGGATGATAAACCAATAAATTGTCTACAAGAGGCACAAATAGATATACAAGATTGTTTGGAAATAAAAATGGAGGATGAAGATGAGAATGGGGAAAATAAGCACGATTTAACAAAATTGCAGGAAGAGTTGAAAAAAGAAGAGCCAGAAGAAGGTTTGGGAGAGTTTAAAACTGCCATAGACAAATTAgccacaacaaaaaaagaaaacaaggaAAGCATTCCCGACAAAGATGTACTCGAAACCAAAACTTTATCTGAGTGTGAAGATGAATTTGACGTGGATGATAAATTTGATGCAGATTTTTCCAAACCAGATGAGGGTATGTCAGACAGTGATAGTGAGTCTACATCCTCAAACGATTCAGAATGGGCTGAAGAAACTAAAACCAAGGAGACCACTAGTGATAAGGCAAAAACTCCAGtgaaaaaaagaactagaaaagtaaaagaaacCAATTTAGATGATAATATACCCACTACCTGCGAACAATGTGATAGAGTATTTCCCAATGCTAGTCAATTGAAAAGACACAAGCGTATTACTCATGTTCCGGAGGAGTTAAAGGTACAATGTCCCTATTGTGCAGGCAAATTTGGACGGCGTCACAATATGTATGCCCACATGAGAATACATCACAAGGATAAACCCATAGAGGAGCATATAATACAACAAAGAAAGCTTCCAAGGCAATACGCCTGTGAAAAATGTGATGGCACCTATACGACTAAATACTATCTATTGGCTCATATGAAATCGAAACATGATCCCGATGCCCAGAAAAAGCCACAAAGAGTATTATTGCCCAAAAAACGTTTTCTCTGCACATTGTGTGGTGGCAAGTTTGATACACAATACTATCTCGAGGTACATATACGGCGTCACACTGGTGAAAAGCCTTTTAAATGTGACATTTGTGATCGTGCTTTCTACAGGCCATCGGATGTACAAGCTCATCGTCGATCGCACACCGGCGAGAGACCATTTAAATGCACCATTTGTGACAAAGGTTTTGCCAGATCGAACAAATTAAAAGTTCACATACGTACACATTCCAATGAACGTCCCTATAAGTGTGATGAATGCGAAAAGGCCTTTAAGCAATCAAAAGATTTAACCATACACAGACGTATACATACGGGTGAAAGACCATATaaTAAATGTCGAACATGTTTAAATGGCTCCAAAGGACtgcaattgttaacaaaaatgatAACAGAAGAAAAAGACGAAAGAAAATCTTATGGTGAAGTGCTAAAGGATATAACACAAATTGatATGATGGATGAAAGTGGCAAGGAAATGCCTCAAAACATATGTGGTTGCTGTGTACGTAAATTGAAAGCCGCATATGCATTCGTCCAGCAAGCTCAGGAAGCCAATGATAAACTATTGTCTATGCTTAATGAAACCGATGAAGATAAACCCATAGATTGCCTGCAGGAAGCTCAGAtagatatacaaaattgtttggaAATAAAAATGGAAGATGAGGAAGCAGGTGAAAACAATAAGCcggatttaacaaaaattgagatagattttaaattagaaGAACCGGATGATGGTGGTAGTGGAGCTGTAATTGATACTACGGCAACAGATAAACTTGCaagtgcaaaaaaagaaaataTTCCCCTCAAAGATGTACTCGAAACTACCAATTCACCGCTGCAGCAAAAAGAGATTATGTCTGATAGTGaagatgattatgatgatgatgatatttttgATAAAGATTTTACACAGCATGATGAAAAAGGACTAAGCGATAGTGAGGATGAATCAGTAACAAGCAATGATTCCGATTGggctaaagaaaaaactgtaacaATTGCTAAAACAAAAGAGACTATAGATAAATCCAAAACTCCTGTACGCtctaaaaagaaactaaaagaaaaacaagttgaTGATAATATACCTACACCCTGTGACCAATGTGATCGTGTATTTCCAAATGCTCGTTTATTAAGTCGTCATAAACGTCATACACACGTACCCGAAGAGTTGAAAGTACAATGTCCTTACTGTACGGCAAAATTTGGACGACGCCACAACATGTATGCCCACATGAGAACACATCACAAAGACAAACCGGTAGAAGAACACATAACAcaacaaagaaaatttccacGTCAATTTGCTTGTGAACAGTGTGATGGTGTTTATACTAGCAAATATTATCTGCTAGCCCATATGAATCTCAAACACAATCCTGATAATGTAGCGCAAAAACCTAAACGTGTTGCTCTGCCCAAAAAACGTTTCCTCTGCACTCTATGTGGTTCCAAATTCGATACACAATCAAATTTAGATGTACACATACGACGTCACACCGGTGATAAACCCTTTAAATGTGATCTCTGTGAACGTTCCTTCTATCGGCCGTGTGATGTGCAAGCCCATCGTCGTTCACACACCGGTGAGAAACCATTCAAATGTACAATATGTGAAAAACCTTTTGCCAGatcgaataaattaaaaattcatatgcGTACACATTCCAATGAACGTCCCTATAAGTGTGATCAGTGTGAGAAAGCCTTTAAACAttcaaaagatttaaatatacaCAAGCGTATACATACCGGTGAAAGACCGTATACTTGCGGTGTGTGTCACAgatatttatttacaactagcaatgttatttatttaacatttaataacaataataataataacaataacttaataaaaatgacATTAACAAATATCGAGTGTCGTACATGTTTTACTGCCAGTGGAGGTTTAAATCCTCTAACAAAGATGagttactttaataaaaaagaaacaaaatcctATGCTGAGCTTCTAGAGGAAGTCACAAACATGAATATCAAAGAACACAAACATCGAGAATTTCCCCAATCAATATGCGATAAATGTATACGTAGTCTAAAAATTGCCcataaatttatacaacaaGCCAAAGAAGTCAATGAAAAACTATACATTATGCTAAATAAGAAATTGTCTAGCATGCAGAACACCAAAAATGCTATAggagaaaaaatagaaattaaagttgaaaataatgCTCTGGAAGCAGAGGGAAAAATGGATTGTTTACAGGAAACACAAATCGATTTAGAAAcgtttttagaaataaaaattgaaaataaacaaattgaaaaggAAATGGACTCATTGGATGGTTTAAAagaaactatagaaaataaagatGGAGATACaagaaaaagagaaagtttGATAATCGATAAatATAACGATTTGGATGATTCTGAATCTGTAGACACAAATATTACAGATTCGGATTCAGATTGGCAGGAAAGTGAAAAAGTATCAGACAGAAAATTACCCAAACAGAAAGTAGACAAAAAGATTATTAATGTTGCAACTGAATCAAATAATTCTGTTTTCGAAGGAAAATATAACGACtcaaataacaataaagatGACAGTGAAACTAATAAAattccaacaaaaacaaaatttttaagcaaaatgaaTAAATGCTTAAATGAAGAAATTGTCGAATCGGCCGTACCCTGcaatgtttgtaataaaatatttcaaaattctaaaGCCTTAGAGAGTCATCTAAAAATTAGCCATATACCGGACGATAAGAAATGTTCATGCCCCTTATGTGGCAACAAATATGTTAAGTATAGCAATATGTATGCACACATGCGTGCGGTACATGGACAAGATTCagttatttatatgaataaaccGGAAAGGCCAGAAAGTGATTATATCTTTAAATGTGATAAATGCCCCAAAAAATATTGCCAGAAAAAAAGTCTAGTCAAACATAAACAATCAAAACATTCTTCGCGTACAATAGAAACGAAAAAGAAGAAATCACCTGCTGTAAATCCGGGTTCATTATGTCCAATTTGTGGCAAAGTTTTTACTTCTCGTAATCACTTAACGGCTCACGTAAGGCAACACACTGGTGAACGACcttttaaatgtgatttttgTGAACGTAGTTTTTTAGTTGTTACCGAACTTAATCGACATCGACGTCAACATACCGGTGATAAACCGCATAAATGTGAGAAATGTGGCAAAGGTTTTGTCTCAGCGAAATATTTACGTCAACACATGGCCTCGCATAGCGATGAAAGACCCAATAAATGTAACCAATGTGAACGTCGTTATAAATTTGCACaggatttaaaaatacatatgttaacACATACCGGTGAACGACCATTTATATctAACCAGCccattctaataaaaaaatgcaactcGATAACTAGAGATATTGCTAATAATTTACCATCAACAAATAAagATCTGTTGGAAGTATTAACAAATATTCTGCAAGGTCAAAAGGAGATAAATACTAGACTGGagaatatagaaaaaactcAAACAAGTATTATTAATAACCAAAATCTATTAAGCAATGCTCAGGATGCGATTGTGGCAAATCAACAGCAAATTGCCAATAAATTGGAAGATATTGAATCATGTatTTTGTCAAAACCTGAGATGGCCTCACAGTCCAGAGTATTAGTGCAACGACAGGTGGccattaaaaaactaaataaatccgTGAGCCACATGCCTGccaaagttaataaaaaaattctaaacgaACTTGATAATATGCTACCCATGACAACCCTTGAGGCAGTACAGGAAAtggaagaaaaaattaacaatcgAGAATTTGCACAAACACTgAAAACATATTTGGATAAATTGAAAGGACAGTCAGAGGATGTGAATTGTGTCTTACGTGAATTATTCACGGATGATCTACTTGAAATGTTTAATTGGGAAGGAAGGTGGGGAAGGAAAGCGTTGGCGAAACTTCGtttaatcgaaaatattttgcgagGTGTTTTTCACGAGCAAAGAGCTTTAGAATTCGAAAAAAGCGTTAAAAGGGCGGTGGAACGTAGCCATCAtagaaTGTCGGAAACTACTAGATGGTTAAACAAGAAATGTCGCACCTGTTTTGATCCAGAAAATGGCTGGAGCTGTCTTAGCAAAAGAATGAAAGACTATACGAAACAGATAAAATCGTACAGACAACTTATAGAGGAAGTAAcacaaattaaaATGCATGATAACATCAATAACTTGGAATTGCCACAATTTATTTGTGGTAAATGTTCTCGGCGCCTAAAATCTGCTCATAGATTTAAACTGCAGTCATTGGAAGTCaatgaaaaactttatgaaTTACTAAAGTTAGGATGTTCAGAGGAAGTACAAAAAGAAGTAGACCCTAGTATAAAATTGGAAACTGATAACATGGAAAATGAAGTAGAAGAGAATATTGAATATTTACCGAAGATAGAAATCAATATAGAACGTTGTTCCGAAACAAAGTGGGAGGCTAGTGAACTGGAAATGAATGAAGGGactagttttgaaataaaagatgaagaaaatatagttatttttaacGATACATATGACTTGGATGGAAATCTTGAATTGGATCAGCAAACTTTAGAAGAAACAAATCAAGCAAATGACTCTATTAACCTTGAGCACAACGAGTTTTCAGATTGGGAAGAAGCTCATGACAGAAGTAAAGTGGAAATTACAAATCGTGAAAAAATCACTTtcgaaaatgaagaaaattttaatattgcaaTACCATGCAagaaatgcaataaaatatatCCAAATTCAAAAGCATTAGCTATGCATTTAAAAATAAGCCATATACCGGAAGAGAAAAAATGCTCATGTCCATTGTGTGGTAATAAATATTCACGACCTGCCAACATGTATCTTCATATGCGCAACACACATGGTCCCGATACAGTTATAATACCGAAAAGAAGTAGTATAGATGAAACTGAATATATTTACCAGTGCAATAAATGTTCCAAGAAATATTGCCGTAAGTTTAATTTGATACAacataagaaattaaaacatacGGCAAAGGTTAATGAAGCTTCAATAATAAaagaaagtaaagaaaaatcttCGGATCCGGGTTCATTGTGTCCTATATGTGGCAAATATTTGgctataaagaaaaacttaactgCTCACCTACGCTATCATGCCAATGATAAACCTTTTAAATGTGAATGGTGTGGACGTTGTTTTCTACTCAATACCCAACTTAATAGACACAGACGTCAACATACCGGTGATAAACCTCATAAATGTGAATTGTGTGGCAAATGTTTTGCTGCTCCTAAAGATTTACGTCAACATATGATTTCGCATAGCGAAGAAAGACCCTTTAAGTGTTCAATGTGTGAACGTTGTTATAAATCTAGTTCGGATTTAAAAAGGCATTTTCGTACTCATTCAATAGAACGTCCTTATGTTTGTTCGCTTTGCAGTGATAGTTTTCAGCGAGCAAGTTCATTGCGAGCTCATCgcttaagacatgagaaaagaAGTGATTCAAAGACACGAGATTATAAGAAACGTTTAAAATCCTATGCTGAACTTTTACAGGATATTACTAACAtcagtATCATGGATAACAAATCTATGGAATTACCACAAATTATTTGCCGTAAATGTTCACGTCGCCTAAAATCTGCCCATAATTTCATACAACAAGCTGCTGAAGTCAATGAACAACTTATTGTTAtgttaaatgaacaaaaattacaatGTTTGCAAGAAACACAAATCGATGTGGAAACTTGTATGGAAATAAAAGAGGAACCAGAACTGACAAAGGCAAATTTGGAATGTTTAGAAGAGACTCCAATCGATTTAGAACCTTGTATAGAAATTAAGATTGAAAATGAAgcgaaagaaaaaagaaaggaaaCATTCGATTGTTCGGAGAAAATACAAGTGTATTCGGAAGAAAAATACAAGCTACAAGGGGTAAAACAGTGTAATTCGAATGAGACCAACAAATtggaaaaaaaatcACAAAGAGCAGAAACAATAAACGAATCCGATGTAGAATCTCAGCAATCTAAAGACTCTGAATGGCAAgaagataatataaaatttaacagaaaaaaggTGCAAAAAGGCATAATAAAACCAAACGAAGAGCAAGACCCTGCAAAAAAGAACAACGAATATACAGATGATATAGCTGTACGATgtgataaatgtaataaaatttttaaaaattccaaactaTTGGCTGTACACCAAAGAATAAGTCATATACCGGAAGAGAAAAAATGCACATGTAAGTTGTGTGGCAATAAATTTACACGTTATtgtaatatgtataaacatatgcGTACGTTTCATGGTCCCGAAACGGTAACTTTAATAAGCAAACGTCCGGAAGAggattacatatataaatgtgataaatgtaacaaaaaatattcccgaaaaaagagtttaatctatcacacaaaattaaaacattctttaaataaagttgaagaaaaaactgaaaataatacaaataacaacaaagcaATAAAGTCAATGGATAAAGGATCCTTATGTCCCATATGTGGCTGTTCATTTACTAGTAAAACTCAACTAACCGTACATCTTAGACGTCATACGGGTGAAAGGccttttaaatgtgatttatgtGAACGCGCTTTTCTACTCGTAACACAACTCAATAGTCATAAACGTCTACATACCGGTGAAAAACCCTATAAGTGTCAGGTGTGTGAGAAAACTTTTCGAGTTTCCGATGATCTACGTCAACATATGCGTACGCATACCAATGAGAGACCTCATAAATGTTTGCAATGTGAACGTAGTTTTAAACATACACAGgatttaaaaattcacttacGTTCGCATACCGGTGAACGACCGTATGTTTGTGCAATTTGTGGTGATAGTTTTCAACGTTATAATACATTGAGAGCACATCGCTTAAGAATGGGCCATGTGGAGAATTTAACAGAtaacaatagtaaaaaaatattgtaa
Protein Sequence: MCCPSRDNESYMPQYLCLLCCRDLRNAYGFIKQAQYCNKKLLNVIAKQLSSLQEKNIILQTQGGTQEYPITIKKESNNDEGDSIANIQDNILNEFRIVSTSSLLKSEVLEETNEENEETIQYYVHEIEDEEIEQSEQNKPNNTILECSSTSNTNFTETASINNLEDIEIDTVCPICDKTINKQDNIVTHMRIQHDFEVPRELLNTQTSNQQEQEEYPNICTSKTKSLNRMENLKKRSKEKKQITKRLDKIMKCNLCDYTTRHYSAISFHHRSKHGSEDDKFKCKFCSYTTCRKFRLIAHVKNLHKELIKTLKADADNKEQGESLNNNDNTTNPYATSSDDETPLIQKTAKSLVTPYFNDEMMEEKEALSDEMFIRNIFNIKKRNVNTFSTRSLPQRCDICGNIYNNYRALKTHQKNVHISEEKYSICKHCGKKFKKPANLRVHINNAHLPKDTNETSKPSAPAAPKEKRFMCTECSYVCATITTLTIHRNRHHTGEKPYKCDICSKSFFIPYDLKIHRYLHTGEKPYKCSYCSKGFRNTAQLVKHKRIHSKERPYKCKDCGKSFTQAYNLTLHKRAHLKEKKLNCTVCDKFFENLSELNIHRINENHPDNLLKKMNENPIQKCRTCLKNSTKTFPLTKQARGCNPKRTYGQLLKEYAKLECPPDYERLMPKYLCFLCCRELRNTSTFIRQAEYCNSKLLEVISKQLDCLKEKVIDLPENAKEIDIKTEKEGNEGEDDNAIKVQDTLDEELHIKDMNILSKSEILEKPEADNEVQFRYDDNEEKDIIDNYENDTNDLSGQYGETQIDTTCPICHKVMSRRDNLLKHMRSQHKIETPSMLLDKEKPEQDIFICKMCPSKYTNKCTYLYHVKNKHGIEESTSNLKVKDKIIKCRSCEYTARTYAALNYHTRSKHGSEKDKFKCKFCSYLCLKKFDLLTHVKNSHKELIKTLKAEAVNQMEKGVTNTSSGLLSIKEEDEDDTINKNADSSSESDDDIPLAQKISKTSLKSSVKSNVDREEFSDEEFIRNILNIKKRKPKSLSSKSLARRCEECGNIYKNYKALYAHQRHVHITEDKYSLCPHCGKKYKRKADLRIHIEKSHIPKDSAENTKQPAKVREKRFMCTECSYVCTTITILNIHINRHHTGEKPYKCDICFKSFIVPYDLKIHRYLHTGERPYKCPICSKGFRDNSHMIKHKRIHSSERPYKCKDCGKSFTQSYNLSVHKRTHLKEKKLNCQVCGLQLLTKIINDDEEETKTYAEVVKDITHIDVMDESCSEMPKNICGYCIRKLKAAYSFVQQAHEANDKLWSILNESDLDDKPINCLQEAQIDIQDCLEIKMEDEDENGENKHDLTKLQEELKKEEPEEGLGEFKTAIDKLATTKKENKESIPDKDVLETKTLSECEDEFDVDDKFDADFSKPDEGMSDSDSESTSSNDSEWAEETKTKETTSDKAKTPVKKRTRKVKETNLDDNIPTTCEQCDRVFPNASQLKRHKRITHVPEELKVQCPYCAGKFGRRHNMYAHMRIHHKDKPIEEHIIQQRKLPRQYACEKCDGTYTTKYYLLAHMKSKHDPDAQKKPQRVLLPKKRFLCTLCGGKFDTQYYLEVHIRRHTGEKPFKCDICDRAFYRPSDVQAHRRSHTGERPFKCTICDKGFARSNKLKVHIRTHSNERPYKCDECEKAFKQSKDLTIHRRIHTGERPYNKCRTCLNGSKGLQLLTKMITEEKDERKSYGEVLKDITQIDMMDESGKEMPQNICGCCVRKLKAAYAFVQQAQEANDKLLSMLNETDEDKPIDCLQEAQIDIQNCLEIKMEDEEAGENNKPDLTKIEIDFKLEEPDDGGSGAVIDTTATDKLASAKKENIPLKDVLETTNSPLQQKEIMSDSEDDYDDDDIFDKDFTQHDEKGLSDSEDESVTSNDSDWAKEKTVTIAKTKETIDKSKTPVRSKKKLKEKQVDDNIPTPCDQCDRVFPNARLLSRHKRHTHVPEELKVQCPYCTAKFGRRHNMYAHMRTHHKDKPVEEHITQQRKFPRQFACEQCDGVYTSKYYLLAHMNLKHNPDNVAQKPKRVALPKKRFLCTLCGSKFDTQSNLDVHIRRHTGDKPFKCDLCERSFYRPCDVQAHRRSHTGEKPFKCTICEKPFARSNKLKIHMRTHSNERPYKCDQCEKAFKHSKDLNIHKRIHTGERPYTCGVCHRYLFTTSNVIYLTFNNNNNNNNNLIKMTLTNIECRTCFTASGGLNPLTKMSYFNKKETKSYAELLEEVTNMNIKEHKHREFPQSICDKCIRSLKIAHKFIQQAKEVNEKLYIMLNKKLSSMQNTKNAIGEKIEIKVENNALEAEGKMDCLQETQIDLETFLEIKIENKQIEKEMDSLDGLKETIENKDGDTRKRESLIIDKYNDLDDSESVDTNITDSDSDWQESEKVSDRKLPKQKVDKKIINVATESNNSVFEGKYNDSNNNKDDSETNKIPTKTKFLSKMNKCLNEEIVESAVPCNVCNKIFQNSKALESHLKISHIPDDKKCSCPLCGNKYVKYSNMYAHMRAVHGQDSVIYMNKPERPESDYIFKCDKCPKKYCQKKSLVKHKQSKHSSRTIETKKKKSPAVNPGSLCPICGKVFTSRNHLTAHVRQHTGERPFKCDFCERSFLVVTELNRHRRQHTGDKPHKCEKCGKGFVSAKYLRQHMASHSDERPNKCNQCERRYKFAQDLKIHMLTHTGERPFISNQPILIKKCNSITRDIANNLPSTNKDLLEVLTNILQGQKEINTRLENIEKTQTSIINNQNLLSNAQDAIVANQQQIANKLEDIESCILSKPEMASQSRVLVQRQVAIKKLNKSVSHMPAKVNKKILNELDNMLPMTTLEAVQEMEEKINNREFAQTLKTYLDKLKGQSEDVNCVLRELFTDDLLEMFNWEGRWGRKALAKLRLIENILRGVFHEQRALEFEKSVKRAVERSHHRMSETTRWLNKKCRTCFDPENGWSCLSKRMKDYTKQIKSYRQLIEEVTQIKMHDNINNLELPQFICGKCSRRLKSAHRFKLQSLEVNEKLYELLKLGCSEEVQKEVDPSIKLETDNMENEVEENIEYLPKIEINIERCSETKWEASELEMNEGTSFEIKDEENIVIFNDTYDLDGNLELDQQTLEETNQANDSINLEHNEFSDWEEAHDRSKVEITNREKITFENEENFNIAIPCKKCNKIYPNSKALAMHLKISHIPEEKKCSCPLCGNKYSRPANMYLHMRNTHGPDTVIIPKRSSIDETEYIYQCNKCSKKYCRKFNLIQHKKLKHTAKVNEASIIKESKEKSSDPGSLCPICGKYLAIKKNLTAHLRYHANDKPFKCEWCGRCFLLNTQLNRHRRQHTGDKPHKCELCGKCFAAPKDLRQHMISHSEERPFKCSMCERCYKSSSDLKRHFRTHSIERPYVCSLCSDSFQRASSLRAHRLRHEKRSDSKTRDYKKRLKSYAELLQDITNISIMDNKSMELPQIICRKCSRRLKSAHNFIQQAAEVNEQLIVMLNEQKLQCLQETQIDVETCMEIKEEPELTKANLECLEETPIDLEPCIEIKIENEAKEKRKETFDCSEKIQVYSEEKYKLQGVKQCNSNETNKLEKKSQRAETINESDVESQQSKDSEWQEDNIKFNRKKVQKGIIKPNEEQDPAKKNNEYTDDIAVRCDKCNKIFKNSKLLAVHQRISHIPEEKKCTCKLCGNKFTRYCNMYKHMRTFHGPETVTLISKRPEEDYIYKCDKCNKKYSRKKSLIYHTKLKHSLNKVEEKTENNTNNNKAIKSMDKGSLCPICGCSFTSKTQLTVHLRRHTGERPFKCDLCERAFLLVTQLNSHKRLHTGEKPYKCQVCEKTFRVSDDLRQHMRTHTNERPHKCLQCERSFKHTQDLKIHLRSHTGERPYVCAICGDSFQRYNTLRAHRLRMGHVENLTDNNSKKIL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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