Basic Information

Insect: Ecdyonurus torrentis
Gene Symbol: Prdm14
Assembly: GCA_949318235.1
Location: OX439132.1:37064710-37166961[+]

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 41 0.013 0.9 10.5 0.7 1 23 237 260 237 260 0.95

2 41 0.00013 0.009 16.8 1.0 1 23 401 423 401 423 0.97

3 41 0.00011 0.0079 16.9 4.5 1 23 429 451 429 451 0.97

4 41 0.00028 0.019 15.7 0.9 2 23 462 483 462 483 0.96

5 41 0.00039 0.028 15.2 0.2 1 21 489 509 489 510 0.94

6 41 0.0041 0.29 12.0 0.0 2 23 565 587 564 587 0.93

7 41 1.7 1.2e+02 3.8 0.1 1 23 591 614 591 614 0.93

8 41 0.0031 0.22 12.4 1.8 2 23 625 646 625 646 0.98

9 41 0.0059 0.42 11.5 0.0 2 23 704 726 703 726 0.93

10 41 3.3 2.3e+02 2.9 0.1 1 23 730 753 730 753 0.91

11 41 0.0031 0.22 12.4 1.8 2 23 764 785 764 785 0.98

12 41 0.00011 0.0078 17.0 0.2 1 23 849 872 849 872 0.95

13 41 0.021 1.5 9.8 0.0 1 23 877 899 877 899 0.97

14 41 0.044 3.1 8.8 0.5 1 23 966 988 966 988 0.97

15 41 0.95 67 4.6 0.8 1 23 1122 1144 1122 1145 0.92

16 41 0.044 3.1 8.8 0.5 1 23 1462 1484 1462 1484 0.97

17 41 3.9 2.8e+02 2.6 1.0 1 23 1867 1890 1867 1890 0.83

18 41 0.28 20 6.3 2.1 1 23 1956 1979 1956 1979 0.96

19 41 0.0002 0.014 16.2 1.5 2 21 1984 2003 1983 2004 0.95

20 41 0.0021 0.15 13.0 0.5 1 23 2055 2078 2055 2078 0.98

21 41 0.031 2.2 9.2 0.1 1 23 2084 2106 2084 2106 0.96

22 41 4.2 3e+02 2.5 0.1 2 20 2117 2135 2116 2135 0.93

23 41 0.041 2.9 8.9 3.0 2 23 2192 2214 2191 2214 0.95

24 41 1.1 74 4.4 6.3 2 23 2219 2240 2218 2240 0.95

25 41 6.9 4.9e+02 1.9 0.1 2 19 2263 2280 2262 2281 0.94

26 41 1.1 78 4.4 0.4 3 23 2431 2451 2429 2451 0.92

27 41 4.3 3e+02 2.5 0.1 2 23 2476 2497 2476 2497 0.86

28 41 0.0027 0.19 12.6 2.9 1 23 2503 2526 2503 2526 0.96

29 41 0.0039 0.27 12.1 0.7 3 23 2534 2554 2532 2554 0.96

30 41 6.9e-05 0.0049 17.6 0.5 1 23 2560 2582 2560 2582 0.98

31 41 0.13 9.3 7.3 5.8 2 23 2617 2639 2616 2639 0.95

32 41 2.4 1.7e+02 3.3 0.6 3 23 2705 2725 2703 2725 0.89

33 41 4.3 3e+02 2.5 0.1 2 23 2750 2771 2750 2771 0.86

34 41 0.00021 0.015 16.1 0.3 1 23 2777 2800 2777 2800 0.95

35 41 1.1 78 4.4 2.3 3 23 2808 2828 2806 2828 0.95

36 41 0.0001 0.0074 17.0 1.8 1 23 2834 2856 2834 2856 0.98

37 41 0.062 4.4 8.3 5.9 2 23 2891 2913 2890 2913 0.95

38 41 0.002 0.14 13.0 2.2 2 23 2950 2972 2949 2972 0.96

39 41 5.3 3.8e+02 2.2 0.9 2 11 3024 3033 3024 3035 0.88

40 41 0.027 1.9 9.5 3.7 2 23 3066 3088 3065 3088 0.95

41 41 0.0094 0.66 10.9 0.2 2 22 3186 3206 3185 3206 0.94

#	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	41	0.013	0.9	10.5	0.7	1	23	237	260	237	260	0.95
2	41	0.00013	0.009	16.8	1.0	1	23	401	423	401	423	0.97
3	41	0.00011	0.0079	16.9	4.5	1	23	429	451	429	451	0.97
4	41	0.00028	0.019	15.7	0.9	2	23	462	483	462	483	0.96
5	41	0.00039	0.028	15.2	0.2	1	21	489	509	489	510	0.94
6	41	0.0041	0.29	12.0	0.0	2	23	565	587	564	587	0.93
7	41	1.7	1.2e+02	3.8	0.1	1	23	591	614	591	614	0.93
8	41	0.0031	0.22	12.4	1.8	2	23	625	646	625	646	0.98
9	41	0.0059	0.42	11.5	0.0	2	23	704	726	703	726	0.93
10	41	3.3	2.3e+02	2.9	0.1	1	23	730	753	730	753	0.91
11	41	0.0031	0.22	12.4	1.8	2	23	764	785	764	785	0.98
12	41	0.00011	0.0078	17.0	0.2	1	23	849	872	849	872	0.95
13	41	0.021	1.5	9.8	0.0	1	23	877	899	877	899	0.97
14	41	0.044	3.1	8.8	0.5	1	23	966	988	966	988	0.97
15	41	0.95	67	4.6	0.8	1	23	1122	1144	1122	1145	0.92
16	41	0.044	3.1	8.8	0.5	1	23	1462	1484	1462	1484	0.97
17	41	3.9	2.8e+02	2.6	1.0	1	23	1867	1890	1867	1890	0.83
18	41	0.28	20	6.3	2.1	1	23	1956	1979	1956	1979	0.96
19	41	0.0002	0.014	16.2	1.5	2	21	1984	2003	1983	2004	0.95
20	41	0.0021	0.15	13.0	0.5	1	23	2055	2078	2055	2078	0.98
21	41	0.031	2.2	9.2	0.1	1	23	2084	2106	2084	2106	0.96
22	41	4.2	3e+02	2.5	0.1	2	20	2117	2135	2116	2135	0.93
23	41	0.041	2.9	8.9	3.0	2	23	2192	2214	2191	2214	0.95
24	41	1.1	74	4.4	6.3	2	23	2219	2240	2218	2240	0.95
25	41	6.9	4.9e+02	1.9	0.1	2	19	2263	2280	2262	2281	0.94
26	41	1.1	78	4.4	0.4	3	23	2431	2451	2429	2451	0.92
27	41	4.3	3e+02	2.5	0.1	2	23	2476	2497	2476	2497	0.86
28	41	0.0027	0.19	12.6	2.9	1	23	2503	2526	2503	2526	0.96
29	41	0.0039	0.27	12.1	0.7	3	23	2534	2554	2532	2554	0.96
30	41	6.9e-05	0.0049	17.6	0.5	1	23	2560	2582	2560	2582	0.98
31	41	0.13	9.3	7.3	5.8	2	23	2617	2639	2616	2639	0.95
32	41	2.4	1.7e+02	3.3	0.6	3	23	2705	2725	2703	2725	0.89
33	41	4.3	3e+02	2.5	0.1	2	23	2750	2771	2750	2771	0.86
34	41	0.00021	0.015	16.1	0.3	1	23	2777	2800	2777	2800	0.95
35	41	1.1	78	4.4	2.3	3	23	2808	2828	2806	2828	0.95
36	41	0.0001	0.0074	17.0	1.8	1	23	2834	2856	2834	2856	0.98
37	41	0.062	4.4	8.3	5.9	2	23	2891	2913	2890	2913	0.95
38	41	0.002	0.14	13.0	2.2	2	23	2950	2972	2949	2972	0.96
39	41	5.3	3.8e+02	2.2	0.9	2	11	3024	3033	3024	3035	0.88
40	41	0.027	1.9	9.5	3.7	2	23	3066	3088	3065	3088	0.95
41	41	0.0094	0.66	10.9	0.2	2	22	3186	3206	3185	3206	0.94

Sequence Information

Coding Sequence: ATGAAACCAGAATTAGTAGGTGTGAAGAGTGAATGTTATACAGAAGAGTTATTTGAATTAGTCCCTTCAAAAACTGAACCCAAAtctaatttatttgatattcttTCGGCAATGTCAGCTAATTTCTCTCAAGGTGTTGCAGATACTTTTAACAATGACACTAAATCTGTAGCCACTACATCAAATCTTGGGAATGCTGGCATTTGGAATGCTGGCATTTGGAATGCTGGCATTTGTAATGCTGAAGTTCAAACTGATCCAGTGGTTAAATCTGTGTCACGTAATACTCAAACTTTCCGTAAAATAGCGGATGATAGTAAACGTAGTGCCACAGTTGTGCATGCATTCCAAAGTAGTGAATCGTCAAATAAAACTACAGAAGTTAAATCTGAGCCATCTGTTAGTAAGGATTCACATATTCCTCAAGAGAGTACATTTTCTTGTCGgCTTGGTGCAGCAGTATTCTCTCCTTCATACTTGGAAGATGATCAGTCAGTTTATGATACTGCTCTTGAAACATCTGACTTTGAATTATTCCAGAGTGACCCTAGTGTTCATTATATAAACATGAGTGCAGTAGTAGATGTTGAAATAGAGCCCATTAATTTAGATCAGTCGCTACATATGGAAAATGCTATTATCTCGTTACCTTCTATTAATCAATTATCTTCAATAGGAGAGGTACAAATTAAAATCTTACCCCCATCATTTGTATGCACGGATTGTGACGTAAGCTTTACTTCCAAACCAGAATGTGAAACTCATTTGTTATCGATACATAATATTTCTGAAATTactgaaattgaaaattatacttGTGATACTCAAAGAGTTTTACAAATTCCTGAAGATGTTGAGCTAGACTTAGCAAATCCTCCTGACTTTGCAATTGAAATTGTAACACCCCCAGAGCTGTTTCCCTTGTCAAGCTTCGATTCACCAACATTAGTGGACATTAAAGATGAACCAATGTCGGAAAACGAGGATGCGATGATGTACCAAGACCGACAAGTTCCCCCCAAACAAcgtcaaaaacaacaacaagcgCGCAAGTTGCCCCGATTACAACCCGCTCCTGAAAATCGTTCTTATTCGTACCCTTTATATCCAATGGTTTACGTTACTGTCGATGAAACACCCGGTTATGATATGTTAGCTAAATTAGAAATACATGAAAGACAACATACAGGTGAACGCCCCTTTGAATGTGACATTTGTGGTAAAGGTTTCATCTCTCATGCTACATTAAAAGATCATAAATCTAGACATGGAGCATTACCACAACATGAATGtgaaatatgcaagaaaaaatttCGTCATAAGGCAGAATTACGTCAACATAGACTTATCCATGATAAAAATgcacGTTCAGAACCTCCAGCTTATTGTGAGATTTGTGGCAAGGGTTTCTCCTCTAAATTACATATCAATCGTCATTTGTTAATCCATACTGGAGAAAGACCACACGAGTGCGATATTTGTAAACAAACTTTTGTTCAAGCTAGTGCGTTACGTACTCATAGAATGGATGGGATGATACCTTTAACAGACATGCCACCCACTTCTGATGAGTGTAGTCCTGTATTTGGAGAGCAGGAACACAGTGACGAgttacaaaatgataaaaataccgACCAGAATATGGATAGCATTCCTCTTATGTACGTTTTCTTAAATGAGCAAGGTGACATTCCGTGTCCCATATGTCCAGCAATGTTCGTAAAGAGAGTTGAACTTAGAAATCACTTACTTGAGATTCATCCTTTTAAATATAAGTGCAACGTCTGCATTGCAGCATACAGAACAGTGAAACAGTTAGATGAACATATGGATGCTAATCATCCAGGGAGATATTTTAACAATGATTCCAATACATGTCAAAAATGTCAAGAGACATTTGAtactagaaaaatattaaatattcacatGAGAACACATAGGGATGGGATGATACCTATAACAGAATTGCCACCCACTTCTGATGAGTGTAGTCCTGTATCTGGAGAGCAGGAACACAGTGACAACGAgttacaaaatgataaaaataccgACCAGAATATGGATAGCATTCCTCTCATGTACGTTTTCTTAAACGAGCAAGGTGACATTCCGTGTCCCATATGTCCAGCGATGTTCGTAAAGAGAGTTGAACTTAGAAGTCACTTACTTGAGATTCATCCTTTTAAATATAAGTGCAACGTCTGCATTGCAGCTTACAGAACAGAGAAACTGTTAGATGAGCATATTGATGCTAATCACCCAGGGAGATATTTTAACAATGATTCCAATACATGTCAGAAATGTCAAGAGACATTTGAtactagaaaaatattaaatattcatatgaGAACACATAGGGTACCTTTATCAATGGTGGGAATTCAGGAAGTTAATATCAAAGTTGCGTCTCAAGATATCACTGAAAAAATTGAAGTATCACCAGATATTTACAGTCATGTTACAGATATTTCTTGTCAGTTCTGTACTTTTGATACTAAAAGTAAAGTTCAACAGCATGTTTACACTCACACGGGTGAAAAACCATTCATGTGTGACTTATGTGGACGTGGATTTGCACAGCTTAGTCAACTTAGGACGCATAAAATTATGGTGCATAAAATATTACCTTATCAGTGCCCTAGTTGTGGGGATGGTTTTAGAATTAAGGGAGATTTGAATATTCATATTGCAGAGCATAAAGCtggGGTGGATGTTTCAATGCTTGAGTACACAGAGGCTAGGCAATTATTCGTGGAAATAGAAGATATAAGATACAAGATTAAGTGTGAATTTGACATAGAACAAATAACTGGATTAGTGTGTCAATTTTGTCCAGCCATTTTACCCTCAGAGTATCACATGCAAGGACATTTAGAGGATAGCCACCCATTGGATTTTCAATGTGGACGATGCAGTTCAAAGTTCAGGTCCGCTGAACTTCTCAGTGAGCACTTGCAGGATCACCCTCTGATAGTAGAAGCGTACTCTCTTAATAATGTCAATGAAAGTATAGAGGGTTTGACTTTTGAGGATGATTGGCATTCTAATGGAGGTGATCCATTATCGGCTGAACCTATTAAAATTGGACCTCCACCTAGAGTCATTCCTACAAGAAGTAGGGGACCAATAGAACCAATTTTCTATGAAGAACCTAAGAAAGCGGGCCcGGAGCATTTTCTGAGTGAAATCGACCAGACTAGACAAATTTACGTGGAAATAGAAGACATAAGATACAAGATAAAATCTGAATATGATGTAGACCTAGGGGAGGAAATCTCAGGTGTAGTTTGTCAGTTTTGTCCTGCTATTTTACCTACAGAATATCACATGCAAGGACATTTAGAGGACAAACACCCACTTGATTTTCAATGTGAACTGTGTGAAATGAAATTTCGAGGGtctcaaattttaaatgatcACGTTGAAAATCATCACTCAGaaataaatactatacaaaTTCAAGCTGAAATGGAATCAGTTAATTTACCTCTTGAGAGTAAAAATTATGTAAGCCAAGCTGTATTAACGAGAGCCACATCAGTAAAAACTAGAAGTATGGGGACAGTGGAAGATATTGACCCACCAAAAATTCAATTACCAAAATTTAGACGTACACCACCTCCTCGTCCTAGTTTTGCAAAgGAGCATATTCTGAGTGAAAGTGACCAGAACAGACAAATATTCGTGGAAATAGAAGATGTAAGATGCAAGATTAAATCTGAGTTTGACGTAGACTTGGGTGAAGGAACATCGACATTAGTTTGTGAATTTTGTCCTGCTCTCATGCCTTCAGCAAATTACATGCAAAAACATTTAGAGGACAAACATCCTCTCTGTGGACTATGTAACGTGAGGGAGATGAAATCATATTCTGACGATAAAAAAACTCTTGAAGAAAATAGAAATTCAGATGTTAACAACACTGAAAAAGACGTTGAATGGGAAGAAAGTGGAACTCATGAAGTAAAATTAAAGGATGGAACACAAGAAGAAAAATCTGGATTAACATGTCTGTTCTGCCCTGATTTATTTCCCTCTGATGTCGAGCTACAGGACCATATATCTGAAAAACACCCTCCTGATTACAGATGTAATTTGTGTATCTCACAATTTAGgATAAATGAAATACCCAAACACTTTGAATATGCTACAACAAATGAACCAGAAAACAACTTTGAAGATGGAATAAATTATTCAGCtgcaaattttgaagaaaaaagatTTCTATTTGTGGAAATAGAAGATATACGCTACAAGATTAAAACTGAGTTTGACATAGATTTTGGAGAAGAAATCTCAGGTTTAGTTTGTCAGTTTTGTCCAGCCATCTTGCCTTCAGAGGATCTCATGCAAGGGCATTTAGAGGACAAACACCCTGCAGATTTTCAATGTGGACGATGTAGTTCAAAGTTCAGGTCTGCTGAGCTTCTCAGTGAGCACTTGCAGGATCACCCTCTCGTTGTGGAAACACGCAGCATAAAGAACTTTGATACTAATGATGATGATAATGATGATCACTTTAATGGAGATGATACTTTACCTATGCAAGATGAGAGTGGACCAAAGAGTCCTTCTGAAGAATTAGAACCACCCCCTAGAGTTATTCCAACTCGAAGTAGGGGTAAAGTGGATCCAATCTTTCTTCCAGCTCCAACACATAAAGGACCTTCTTTAAGAGAGCGTAATCCTTTACCTCATGGTTGTCCTGTGTGTGGTCGTAGGCTACCAAGCTCCTATCATTGTGGTTTATTTGGCGAGGAGCGTTACATGACGTTAGATCCAATCTTCCCTGTTAAATGTGAACCATTATGGGAAGTTGAGGAAGCTGAGGAAAACAATGAAGGCAATGAGTCACAAACCAGTGGTCAATTAGGTCTATGTAATTTTCAAACAGTTGAGGCTATACTATCCCCTCCTGTAATGAATCCTGATTATTGTGAAACAAATTTCACAACTCCACAATCATCTACACAATATCCTGATAGTGGAATGCGTTTCACTTCTCCACAACCATCCGCACAACATTCAAAGAGTGGATCGAGTTTCACATCACCACCAACATCTGTGCAATATCCTAATAGTGAAGTGAGTTTTACTTCTCCTTCATCATCCACACAGCCTCCAAAGAGTGGAATAAGTTTCACAGTACCACCAATATCCACACAATATCCTAATAGTGGAATGAGTTTAACACCTCAATCAACTTCCACTCAACAATCTAAGGCAATCTCAAGGCAATTTAAGTCTCCTGTAAATCTAGGGAATATGCCACAATTACAGCAAATAAATATTAGACCTCCAATGTATAGAGATGAATCGGGTGAAACTTTGTCAGAACTGACTATGATGCCAGAAAACCTATGCTGTGTGAAAGTTGAGGAAGTGAACTACACTTTATCATTTGAAGATCACAGCATTAAAGAAGATGAGAATAATGGTTCATGTTGTAGTATCATATGTCAGGCTGAAGCTAAAACTTGCATGAATATGACGACTGACTCTGATGAAATTATCATCAAGACGGAAGAAACTGATATAACGATAGATGAGACTTATGGAGATTTGTGGAACACAGATGAACCAATTGCTGATTTACATCATTCATGTGAAGTTTGTGGAGAATTATTTTCCACTATTCTTGATAAGCAAAGTCATTTTAATCAGAATCACTCACAAAATTCCCACTGTAAACATTGTGGtAATGAAGATACAAGCTCAGAAAAAACTTCTCGTAGAAAGACTCGGAAATCGATTATCAAGCAAGAGAAGTTTTCATCAGAGGAAGAAAAATCAGATGATGATAAAGTAGAAAGTGACCTCACTGATCCTGATTCAGATGCAAATGATGTGTCATTCCAGCCTGAGTTCAAGTGCAAGTATTGCTCAGAACTGTGTGTAGATCAAGGAGATTACTCATATCACTTGAAGCTAGTACACCCAGAGAAACTCACCTGTCACATTTGTCAAAGAATGTTTAAGAATCAAAATAAACTACAACAACATTTGCGTGGTTGTGAGAAAAAACATGAGAGGGGTGTGGGTCCTGATGGCAAACTTATTCAACTCCCTCGAATTAGACCTAAGATAAAGTGTGAAATCTGTTGTAAGCATTTTAATGATATCAAGCTACATACATTAGTCATTCATACAAAAGAAAGACCATATCCATGTTCACAATGTGCAAAAGCTTTTGCATCTGAATCAAGTATGAGGTATCATGTAAGAAAATATCATGATAAAGATTACAATCATATTTGTGGAGTTTGTGGTGAAGGTTTCATGGGGCTTAACGAATTAGAAAGTCATGAGCGTAAACACACAGACCCTGCTGAACAGACTGGACCTGTGTACTGTGACACATGTTTGTCAGGGTTTGACACGCAGGAACAGCTGCAGCTGCACAGACCAAACTGTGCTGTTAACATCACATGTAACAGAAAAAGAAACCCACGAAGAAGACCTGAGAAAACTAAAATCAAGCAAGAAAAGATTTCTtcagaggaagaagaagaagaaagtgaTAGCACTGAACCTGATTCTGATGCCAGGGACTTGTCATTCCAACCTGAGTTAGAGTGTAAACATTGCTCAGAGCCATGTGTGGATCAATTTGATTATACACGCCACTTGAAATTGATGCACCCAGAAAAACTCACCTGCCACATTTGTCAAAAGCAAGCGAACAATGAAAAGTGTTTGAAGAGACATTTACATGCTCATGAACTAAAAAGTAAAGTTGTTTATGGTCCTGATGGAAAATCTGTAGTAGCACAGGCTGACCCTATCTACTGTGATGTATGTATGACGGGGTTCAACAGTCTGGAGCAGTTGCAACTGCACAAACCTTGCTGCTCACTTCGTAACACAAGATTGAAAGGAAAATCAAGAGGAAATCGtcaaagaacaaaaattaaagaagagaaggtggatgaagaagaagaaatagaGGAAGAAGAAACAGATGTGAGTGAACCTGACTCTGATATTAGAGATGAATCATTTGAACCTGAGCTTGAGAGCATTAAAGAAGAAGCTGAAACGCTAGATATTAAAGAAGAACCACTTCCACCAGAACAAGaagataaagaagaagaagatgaattACAATGCAAGCTTGAGAGCATTAAAGAAGAAGCTGAAATGCTAGATATTAAAGAAGATCCACTTCCACCAGAACAAGAAGATACAGAAGAACATGAATTACGATGCAAATGCTGTGGCAAAGATTGCAGatcaaaaaatgcattaaattgtCATATTAGAAGTAAACATCCAGAAACTGCAATGGCGTGTTCATTTTGTGGAAAAAGATTTTGGACAGAAAGACTTATAATTTCACATGAACGTAACCATACAAAAGGACCAATTAAAAAGCGTAGATCAAGAAAGGAAATGAATGGAGTAACTTATAAAAAAGAGCTAGCTACTTGTGACATTTGCAACAAAGTAATTAGGAAAGTGTCATTACCCCAACACATACAATTAATTCATTCTAGCGAAAGGCCATTTCCTTGCTCACAATGTGACAGATCTTACAACAAAGAACATAGGTTGAAAAGACATATCAAGGAAATGCATGAAAAATCATTTCCTACCATCTGTCGCTTCTGTGGAAAAGGATTTCCTTCTAAAACTCTTTTGTACAGTCATGAGAGATATCATACAGGAGAGAAGCCATTTGTGTGTCATATTTGCAACAAAGGTTTTGTATCAAAGCGTGGAGTAAGAGCACACATTGCAACACATGACTCGGTATGGCTTGAGAGCATTAAAGAAGAAGCTGAAATGCTAGATATTAAAGAAGATCCACTTTCACCAGAACAAGAAGATACAGAAGAACATGAATTACGATGCAAATGCTGTGGCAAAGATTGCAGatcaaaaaatgcattaaatagtCATATTAGAAGTAAACACCCAGAAACTGCAATGGCGCTTGAGAGCGTTAAAGAAGAAGCTGAAATGCTAGATATTAAAGAAGATCCACTTCCACCAGAACAAGAAGATACAGAAGAACATGAATTACGATGCAAATGCTGTGGCAAAGATTGCAGatcaaaaaatgcattaaattgtCATATTAGAAGTAAACACCCAGAAACTGCAATGGCGTGTTCATTTTGTGGGAAAAGATTTTGGACAGAAAGACTTAGAATTTCACATGAACGTAACCATACAAAAGGACCAATTAAAAAGCGTAGATCAAGAAAGGAAATGAATGGAGTAACTTATAAAAAAGAGCTAGCTACTTGTGACATTTGCAACAAAGTAATTAGGAAAGTGTCATTACCCCAACACATACAATTAATTCATTCTAGCGAAAGGCCATTTCCTTGCTCACAATGTGACAGATCTTACATCAATGAAAATATGTTGAAAAGACATATCATGGAAATGCATGAAAAATCATTTCCTACCATCTGTCGCTTCTGTGGCAAAGGATTTCCTTGTAAAACTCTTTTGTACAATCATGAGAGATATCATACAGGAGAGAAGCCATTTGTGTGTCATATTTGCAACAAAGGTTTTGTATCAAAGCGTGGAGTAAGATCACATATGACAACACACGACTCAGTATGGCTTGAGAGCATTAAAGAAGAAGCTGTAACACTAGATATTAAAGAAGAACCACTTCCACCAGAACAAGAAGATAAAGAAGAATATGAATTACGATGCAAATGCTGTGGCAAAGATTgcaaatcaaaatatgcattaAATAGTCATATAAGAAGTAAACACCCAGAAACTGCAATGGCGCTTGAGAGCATTAAAGAAGAAGCTGAAATGCTAGATATTAAAGAAGAACCTCTTCCACCAGAACAAGAAGATAAAGAAGAAGATGAATTACGATGCAAAATCTGTggcaaaaattacaatttaaaagaaTCATTACATGGGCACATAAGAAGAAAACACCCGGAGACCGGAATGCCATGTTCATTTTGTGGGAAAAGATTTTGGATAGAAAGACTTAAAGTTTCTCATGAACGTAATCATACCAAAGTTCAATCTAGAAagaagagaattaaaaaagacACAAGAGGAGAAGCTTATAAAAAAGCATTAGCCACTTGTGACTTTTGTAATAAAGTATTTAGGAAACTGCTTGAGAGCATTAAAGAAGAACCTGAAAAACTAGATATTAAAGAAGAACCACCAGAACaagaacaaaaagaaaaagaagaatatGAATTACGATGCAAATGCTGTGGCAAAGATTTCAAATCCAAAAGCACATTAGATGGTCATTTAAGAAGAAATCACCCAGAAACTGCAATGGCATGTTCATTTTGTGGGAAAAGATTTTGGATAGAAAGACTTAAAGTTTCTCATGAACGTAATCATTCAAAGGTTcaaattagaaagaaaagaactaaAAAGGAAATGAATGGAGTATCATATATGAAAGAGTTAGCTACTTGTGACATTTGTAACAAAGTAATGAGGAAACGGCTTGAAAACATTAAAGAAGAACCTGATATGGTAGAAATTAAATTGGAACCACGTCTACTAGAATACAACAGTGCAGAAGAAGAAATAGAAGATTTGAAAACAAGTTGCAAATACTGTGGCAAAAGTATTTACACTATTCGTGCATTGAAGGCACACATTAAACGCTACTCAAAGAAGAATCAACAATATTTGTTGAAGATTTTAAAATCAAAGAAGAACAAATCATCTCTGATGATGACAACTACAGTGTTGGAGATAAAGAATTAG
Protein Sequence: MKPELVGVKSECYTEELFELVPSKTEPKSNLFDILSAMSANFSQGVADTFNNDTKSVATTSNLGNAGIWNAGIWNAGICNAEVQTDPVVKSVSRNTQTFRKIADDSKRSATVVHAFQSSESSNKTTEVKSEPSVSKDSHIPQESTFSCRLGAAVFSPSYLEDDQSVYDTALETSDFELFQSDPSVHYINMSAVVDVEIEPINLDQSLHMENAIISLPSINQLSSIGEVQIKILPPSFVCTDCDVSFTSKPECETHLLSIHNISEITEIENYTCDTQRVLQIPEDVELDLANPPDFAIEIVTPPELFPLSSFDSPTLVDIKDEPMSENEDAMMYQDRQVPPKQRQKQQQARKLPRLQPAPENRSYSYPLYPMVYVTVDETPGYDMLAKLEIHERQHTGERPFECDICGKGFISHATLKDHKSRHGALPQHECEICKKKFRHKAELRQHRLIHDKNARSEPPAYCEICGKGFSSKLHINRHLLIHTGERPHECDICKQTFVQASALRTHRMDGMIPLTDMPPTSDECSPVFGEQEHSDELQNDKNTDQNMDSIPLMYVFLNEQGDIPCPICPAMFVKRVELRNHLLEIHPFKYKCNVCIAAYRTVKQLDEHMDANHPGRYFNNDSNTCQKCQETFDTRKILNIHMRTHRDGMIPITELPPTSDECSPVSGEQEHSDNELQNDKNTDQNMDSIPLMYVFLNEQGDIPCPICPAMFVKRVELRSHLLEIHPFKYKCNVCIAAYRTEKLLDEHIDANHPGRYFNNDSNTCQKCQETFDTRKILNIHMRTHRVPLSMVGIQEVNIKVASQDITEKIEVSPDIYSHVTDISCQFCTFDTKSKVQQHVYTHTGEKPFMCDLCGRGFAQLSQLRTHKIMVHKILPYQCPSCGDGFRIKGDLNIHIAEHKAGVDVSMLEYTEARQLFVEIEDIRYKIKCEFDIEQITGLVCQFCPAILPSEYHMQGHLEDSHPLDFQCGRCSSKFRSAELLSEHLQDHPLIVEAYSLNNVNESIEGLTFEDDWHSNGGDPLSAEPIKIGPPPRVIPTRSRGPIEPIFYEEPKKAGPEHFLSEIDQTRQIYVEIEDIRYKIKSEYDVDLGEEISGVVCQFCPAILPTEYHMQGHLEDKHPLDFQCELCEMKFRGSQILNDHVENHHSEINTIQIQAEMESVNLPLESKNYVSQAVLTRATSVKTRSMGTVEDIDPPKIQLPKFRRTPPPRPSFAKEHILSESDQNRQIFVEIEDVRCKIKSEFDVDLGEGTSTLVCEFCPALMPSANYMQKHLEDKHPLCGLCNVREMKSYSDDKKTLEENRNSDVNNTEKDVEWEESGTHEVKLKDGTQEEKSGLTCLFCPDLFPSDVELQDHISEKHPPDYRCNLCISQFRINEIPKHFEYATTNEPENNFEDGINYSAANFEEKRFLFVEIEDIRYKIKTEFDIDFGEEISGLVCQFCPAILPSEDLMQGHLEDKHPADFQCGRCSSKFRSAELLSEHLQDHPLVVETRSIKNFDTNDDDNDDHFNGDDTLPMQDESGPKSPSEELEPPPRVIPTRSRGKVDPIFLPAPTHKGPSLRERNPLPHGCPVCGRRLPSSYHCGLFGEERYMTLDPIFPVKCEPLWEVEEAEENNEGNESQTSGQLGLCNFQTVEAILSPPVMNPDYCETNFTTPQSSTQYPDSGMRFTSPQPSAQHSKSGSSFTSPPTSVQYPNSEVSFTSPSSSTQPPKSGISFTVPPISTQYPNSGMSLTPQSTSTQQSKAISRQFKSPVNLGNMPQLQQINIRPPMYRDESGETLSELTMMPENLCCVKVEEVNYTLSFEDHSIKEDENNGSCCSIICQAEAKTCMNMTTDSDEIIIKTEETDITIDETYGDLWNTDEPIADLHHSCEVCGELFSTILDKQSHFNQNHSQNSHCKHCGNEDTSSEKTSRRKTRKSIIKQEKFSSEEEKSDDDKVESDLTDPDSDANDVSFQPEFKCKYCSELCVDQGDYSYHLKLVHPEKLTCHICQRMFKNQNKLQQHLRGCEKKHERGVGPDGKLIQLPRIRPKIKCEICCKHFNDIKLHTLVIHTKERPYPCSQCAKAFASESSMRYHVRKYHDKDYNHICGVCGEGFMGLNELESHERKHTDPAEQTGPVYCDTCLSGFDTQEQLQLHRPNCAVNITCNRKRNPRRRPEKTKIKQEKISSEEEEEESDSTEPDSDARDLSFQPELECKHCSEPCVDQFDYTRHLKLMHPEKLTCHICQKQANNEKCLKRHLHAHELKSKVVYGPDGKSVVAQADPIYCDVCMTGFNSLEQLQLHKPCCSLRNTRLKGKSRGNRQRTKIKEEKVDEEEEIEEEETDVSEPDSDIRDESFEPELESIKEEAETLDIKEEPLPPEQEDKEEEDELQCKLESIKEEAEMLDIKEDPLPPEQEDTEEHELRCKCCGKDCRSKNALNCHIRSKHPETAMACSFCGKRFWTERLIISHERNHTKGPIKKRRSRKEMNGVTYKKELATCDICNKVIRKVSLPQHIQLIHSSERPFPCSQCDRSYNKEHRLKRHIKEMHEKSFPTICRFCGKGFPSKTLLYSHERYHTGEKPFVCHICNKGFVSKRGVRAHIATHDSVWLESIKEEAEMLDIKEDPLSPEQEDTEEHELRCKCCGKDCRSKNALNSHIRSKHPETAMALESVKEEAEMLDIKEDPLPPEQEDTEEHELRCKCCGKDCRSKNALNCHIRSKHPETAMACSFCGKRFWTERLRISHERNHTKGPIKKRRSRKEMNGVTYKKELATCDICNKVIRKVSLPQHIQLIHSSERPFPCSQCDRSYINENMLKRHIMEMHEKSFPTICRFCGKGFPCKTLLYNHERYHTGEKPFVCHICNKGFVSKRGVRSHMTTHDSVWLESIKEEAVTLDIKEEPLPPEQEDKEEYELRCKCCGKDCKSKYALNSHIRSKHPETAMALESIKEEAEMLDIKEEPLPPEQEDKEEDELRCKICGKNYNLKESLHGHIRRKHPETGMPCSFCGKRFWIERLKVSHERNHTKVQSRKKRIKKDTRGEAYKKALATCDFCNKVFRKLLESIKEEPEKLDIKEEPPEQEQKEKEEYELRCKCCGKDFKSKSTLDGHLRRNHPETAMACSFCGKRFWIERLKVSHERNHSKVQIRKKRTKKEMNGVSYMKELATCDICNKVMRKRLENIKEEPDMVEIKLEPRLLEYNSAEEEIEDLKTSCKYCGKSIYTIRALKAHIKRYSKKNQQYLLKILKSKKNKSSLMMTTTVLEIKN

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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