Basic Information

Insect: Dascillus cervinus
Gene Symbol: ZEB2
Assembly: GCA_949768715.1
Location: OX458317.1:35035974-35049282[-]

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 1 66 5.3 2.0 1 23 191 214 191 214 0.89

2 48 0.059 3.9 9.2 0.1 1 20 223 242 223 246 0.94

3 48 1.8 1.2e+02 4.5 0.1 2 23 260 282 259 282 0.95

4 48 5.4e-05 0.0036 18.8 2.0 1 23 288 310 288 310 0.97

5 48 0.14 9.5 8.0 0.3 1 18 316 333 316 333 0.91

6 48 0.0006 0.04 15.5 0.6 1 23 347 369 347 369 0.97

7 48 2.2e-08 1.4e-06 29.5 0.6 2 23 376 397 375 397 0.96

8 48 0.0039 0.26 12.9 0.5 1 23 403 425 403 425 0.97

9 48 0.00033 0.022 16.3 3.6 1 23 431 453 431 453 0.98

10 48 0.031 2.1 10.1 4.0 1 23 459 481 459 481 0.97

11 48 4e-06 0.00026 22.3 0.3 1 23 487 509 487 509 0.98

12 48 0.0035 0.23 13.1 2.7 1 23 515 538 515 538 0.92

13 48 0.082 5.4 8.8 0.3 1 23 817 840 817 840 0.96

14 48 4.3 2.8e+02 3.4 0.7 2 23 857 879 856 879 0.95

15 48 5.4e-05 0.0036 18.8 2.0 1 23 885 907 885 907 0.97

16 48 0.025 1.7 10.4 5.3 1 23 913 935 913 935 0.97

17 48 0.41 27 6.6 2.3 1 23 945 968 945 968 0.96

18 48 0.0022 0.14 13.7 2.3 1 23 1009 1031 1009 1031 0.97

19 48 6.4e-07 4.2e-05 24.8 0.3 2 23 1038 1059 1037 1059 0.96

20 48 0.00022 0.015 16.8 0.2 1 23 1065 1087 1065 1087 0.95

21 48 2.7e-05 0.0018 19.7 4.9 1 23 1093 1115 1093 1115 0.98

22 48 0.0097 0.64 11.7 1.6 2 23 1122 1143 1121 1143 0.96

23 48 1.6e-07 1.1e-05 26.7 1.7 1 23 1149 1171 1149 1171 0.98

24 48 0.0054 0.35 12.5 3.4 1 23 1177 1200 1177 1200 0.92

25 48 3.5 2.3e+02 3.6 0.4 1 23 1366 1388 1366 1388 0.94

26 48 0.11 7.2 8.4 0.2 1 23 1435 1458 1435 1458 0.97

27 48 0.018 1.2 10.9 5.8 1 23 1472 1494 1472 1495 0.96

28 48 4.6 3.1e+02 3.3 0.3 3 23 1509 1530 1508 1530 0.90

29 48 0.011 0.71 11.5 3.1 1 23 1536 1558 1536 1558 0.98

30 48 0.063 4.1 9.1 0.1 1 16 1564 1579 1564 1581 0.88

31 48 0.33 22 6.9 0.1 3 23 1682 1702 1680 1702 0.93

32 48 0.012 0.82 11.3 0.2 1 23 1749 1772 1749 1772 0.96

33 48 0.03 2 10.2 1.7 1 23 1788 1810 1788 1810 0.98

34 48 0.0015 0.1 14.2 2.1 1 23 1857 1879 1857 1879 0.98

35 48 2.6e-05 0.0017 19.8 0.4 1 23 1884 1906 1884 1906 0.97

36 48 0.018 1.2 10.9 1.4 1 19 1912 1930 1912 1932 0.96

37 48 0.00044 0.029 15.9 4.5 1 23 1938 1960 1938 1960 0.99

38 48 0.026 1.7 10.4 1.9 1 23 1966 1988 1966 1988 0.97

39 48 8.1e-07 5.3e-05 24.5 1.2 1 23 1994 2016 1994 2016 0.98

40 48 0.011 0.74 11.5 4.7 1 23 2022 2045 2022 2045 0.93

41 48 0.022 1.5 10.5 0.2 1 23 2279 2301 2279 2301 0.95

42 48 0.0056 0.37 12.4 9.6 1 23 2326 2348 2326 2349 0.96

43 48 0.0018 0.12 14.0 0.5 1 23 2393 2415 2393 2415 0.96

44 48 3.3e-07 2.2e-05 25.8 3.9 1 23 2421 2443 2421 2443 0.98

45 48 2.8e-05 0.0019 19.7 2.7 1 23 2450 2474 2450 2474 0.94

46 48 0.0034 0.22 13.1 3.2 1 23 2478 2500 2478 2500 0.97

47 48 5.8e-07 3.8e-05 25.0 0.8 1 23 2506 2528 2506 2528 0.98

48 48 0.013 0.89 11.2 3.8 1 23 2534 2557 2534 2557 0.93

#	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	1	66	5.3	2.0	1	23	191	214	191	214	0.89
2	48	0.059	3.9	9.2	0.1	1	20	223	242	223	246	0.94
3	48	1.8	1.2e+02	4.5	0.1	2	23	260	282	259	282	0.95
4	48	5.4e-05	0.0036	18.8	2.0	1	23	288	310	288	310	0.97
5	48	0.14	9.5	8.0	0.3	1	18	316	333	316	333	0.91
6	48	0.0006	0.04	15.5	0.6	1	23	347	369	347	369	0.97
7	48	2.2e-08	1.4e-06	29.5	0.6	2	23	376	397	375	397	0.96
8	48	0.0039	0.26	12.9	0.5	1	23	403	425	403	425	0.97
9	48	0.00033	0.022	16.3	3.6	1	23	431	453	431	453	0.98
10	48	0.031	2.1	10.1	4.0	1	23	459	481	459	481	0.97
11	48	4e-06	0.00026	22.3	0.3	1	23	487	509	487	509	0.98
12	48	0.0035	0.23	13.1	2.7	1	23	515	538	515	538	0.92
13	48	0.082	5.4	8.8	0.3	1	23	817	840	817	840	0.96
14	48	4.3	2.8e+02	3.4	0.7	2	23	857	879	856	879	0.95
15	48	5.4e-05	0.0036	18.8	2.0	1	23	885	907	885	907	0.97
16	48	0.025	1.7	10.4	5.3	1	23	913	935	913	935	0.97
17	48	0.41	27	6.6	2.3	1	23	945	968	945	968	0.96
18	48	0.0022	0.14	13.7	2.3	1	23	1009	1031	1009	1031	0.97
19	48	6.4e-07	4.2e-05	24.8	0.3	2	23	1038	1059	1037	1059	0.96
20	48	0.00022	0.015	16.8	0.2	1	23	1065	1087	1065	1087	0.95
21	48	2.7e-05	0.0018	19.7	4.9	1	23	1093	1115	1093	1115	0.98
22	48	0.0097	0.64	11.7	1.6	2	23	1122	1143	1121	1143	0.96
23	48	1.6e-07	1.1e-05	26.7	1.7	1	23	1149	1171	1149	1171	0.98
24	48	0.0054	0.35	12.5	3.4	1	23	1177	1200	1177	1200	0.92
25	48	3.5	2.3e+02	3.6	0.4	1	23	1366	1388	1366	1388	0.94
26	48	0.11	7.2	8.4	0.2	1	23	1435	1458	1435	1458	0.97
27	48	0.018	1.2	10.9	5.8	1	23	1472	1494	1472	1495	0.96
28	48	4.6	3.1e+02	3.3	0.3	3	23	1509	1530	1508	1530	0.90
29	48	0.011	0.71	11.5	3.1	1	23	1536	1558	1536	1558	0.98
30	48	0.063	4.1	9.1	0.1	1	16	1564	1579	1564	1581	0.88
31	48	0.33	22	6.9	0.1	3	23	1682	1702	1680	1702	0.93
32	48	0.012	0.82	11.3	0.2	1	23	1749	1772	1749	1772	0.96
33	48	0.03	2	10.2	1.7	1	23	1788	1810	1788	1810	0.98
34	48	0.0015	0.1	14.2	2.1	1	23	1857	1879	1857	1879	0.98
35	48	2.6e-05	0.0017	19.8	0.4	1	23	1884	1906	1884	1906	0.97
36	48	0.018	1.2	10.9	1.4	1	19	1912	1930	1912	1932	0.96
37	48	0.00044	0.029	15.9	4.5	1	23	1938	1960	1938	1960	0.99
38	48	0.026	1.7	10.4	1.9	1	23	1966	1988	1966	1988	0.97
39	48	8.1e-07	5.3e-05	24.5	1.2	1	23	1994	2016	1994	2016	0.98
40	48	0.011	0.74	11.5	4.7	1	23	2022	2045	2022	2045	0.93
41	48	0.022	1.5	10.5	0.2	1	23	2279	2301	2279	2301	0.95
42	48	0.0056	0.37	12.4	9.6	1	23	2326	2348	2326	2349	0.96
43	48	0.0018	0.12	14.0	0.5	1	23	2393	2415	2393	2415	0.96
44	48	3.3e-07	2.2e-05	25.8	3.9	1	23	2421	2443	2421	2443	0.98
45	48	2.8e-05	0.0019	19.7	2.7	1	23	2450	2474	2450	2474	0.94
46	48	0.0034	0.22	13.1	3.2	1	23	2478	2500	2478	2500	0.97
47	48	5.8e-07	3.8e-05	25.0	0.8	1	23	2506	2528	2506	2528	0.98
48	48	0.013	0.89	11.2	3.8	1	23	2534	2557	2534	2557	0.93

Sequence Information

Coding Sequence: ATGTTACAAAAGTGCCGTACATGTCTTGAACAAGGCCGCAAATTGATACCATTTTCAGTGCTGAGCATAGCCAGCAAGAATACGCTTCACATATCTGATATATTTATGATATGTGCTTCCATACagATTACACCCAATGATGGATTTTCCCAATTTGCTTGTTCAGAGTGTGTTATATCAGCAGAGAAGGCGTACCTTTTTAAGAAACAATGCGAACAGAGCGATAAATTTTGGAACGAATTTAGTAAACGATTAAAAGAGAAACCAATATCAGTTACAACTCCACTGAATTTATCCAATGAAAACCTGGGGAAAATTGTGAGGTTTCCAACTCCTGTTGGTGGATATGAAACTGATGATGATGTGACAAATTATGCAGAAATGAGTGAAGCAGAATTTGTTGAAACTGATCCAGATATAAagtcaattgaaattttcgaGGAAGTTAAAAACGAACAGTTTACTTGCAAACtttgttttacaatttttcttgACGAAGCAAAACTTTCAATGCACGAACTTGCTCATACAATCGAACCCAAAGAATTAGCCATAAAAGAACATGCAATTTATCGTTGTCAAAAATGTTCTGTTAATTTTGAGACTGCAGAAGAGTTCATAGAACATTGCCAAAAATTGCACGACAATTCAACCGAAAAGCCTTgttataaatgtaaattatgtGGAGGAGAGTTTGATGATCTTATCGAACTCACAACACATATTCCTAAAACAcatggaaatttaaaatcgaaacAATTGGCGATTTGGCCCCAACCGTGCGCATATTGCCCATTGACATTAAAATCCCTCAATGAAAAAACAGCACATCTCAATCGGGAACACAGCGATTTGAAAACTTTCAGTTGCGGGGAGTGTGGAAAAACGTTCTTTCAGAAGGCCCACTTGAGACAACATGAAGCACGGCACAATCCAGTTAAGAAGCACATATGCCAGTATTGCGAGAAGAGTTTTACAATACATTCAAGTTTGGAACGTTTGGCACATCACGATCAGGAACACGGCGATTTGAAAAACTTCAGTTGCAATAAATGcggaaaaacatttttacaagAAAAGAATCTGATTCAACATGCCGCAACTCATGAAGATGCTAAGAAGTTGATGTGTCAGTATTGCGGAAAAAGTTTTACAAATTCCTCCAATTTGAAGGCGCACATTCGGATCCACACCGGTGAAAAGCCTTACAAGTGCGATATTTGCAACGCAAGTTTTGCACAATGGGTATCAATGCGTGGTCATCGAATCCATCATATGGAAGAAAGAAATTTTGAATGTAAAGAatgtcacaaaaaatttaaaacactaaatgTGCTACGTGGCCACATGCAAACACACACTGATCGCCCCAAACATTCTTGTCACTTTTGTCCACAACAACTTAGGACTTCGTATGGTTTGAAAAAGCACCTTTTAGTCCATTCTAATGATCGCTCGTTTGTATGTAAAGTGTGCGGAAAGGGATTCAACCGAATGGGCAATTTAAGCCAGCACATGAACATACACGCGGCGGTCAAGCCTTATATTTGTTCCGTTTGTGATAAGGGTTTTACTCAGGCGCATTGTCTGCGTGTGCACAATGCTAGATATCACAAGGATGACACGTTCCTCAAAAATTCCATAGAAATGATGGGATCCTTCGAAATCGCAAAACGCCCGGACTTTAGGCAACTTCTTACACTTCATGGAAGAAAATTGAAGGTTAAATTCAGTGGTGGCATGATGGATATTtgtaaaaatcaaataatGCACAATACAATGTTACAAAGGTGCCGTACATGTTTTGAACAAGGCCGCAAATTGATACCATTTTCAGTGCTGAGTATAGCCAGCAAGAATGCACTTCACATGTCTGATATATTTATGATATGTGCTTCCATACagATTACACCTAATGATGGATTTTCCCAATATGCTTGTTCAGAGTGTGTTATATCAGCAGAGAAGGCGTACCTTTTTAAGAAACAATGTGAAAAGAGCGTTAAAGTTTGGAATGAATTTAGTAAACGATTAAAAGAGAAGCCAATATCAGTACAAGTTACAACTCCACTGAATTTACCCAATGAAAACCTGGGGAAAATTGTGAGGATTCAAACGCCTGTTGGTGGATGCGAAACTGATCATGTGATGAATGATGCAGAAATGAGTGAAGCAGAATTTGTTGAAACTGATCCAGATATAAagtcaattgaaattttcgaGGAAGTTAAAAACGAACAGTTTACTTGCAGACtttgttttacaatttttcttgACGAAGCAAAACTTTCAAGGCACGAACTTGCTCATACAATCGAACCCAAAGAATTAGCCATAAAAGAACATGCAATTTATTGTTGTCGAAAATGTTCCGTTAATTTTGAGACTGCAGAAGACTTCATAGAGCATTGCCAAAAATTGCACGACAATTCAACCGAAAAGCCTTAttatatttgtaaattatgtaCAGGAAAGTTTGATGATCTTATCGAACTCACGACACATATTTCTAAAATGcatggaaatttaaaattaaaacgatTACCACAATCGGTGATTTGGCCTCAACCGTGCGCATATTGTCCATTGACATTAAAATCCCTCAATGAAAAAACAGCACATCACAATCGGGAACACAGCGATTTGAAAACTTTCAGTTGCGGGGAGTGTGGAAAAACGTTCTTTCAGAAGGCCCACTTGAGACAACATGAAGCACGGCACAACCCTGTTAAGAATCACATATGCCAGTATTGCAAGAAGAGTTTTGCAATACATTCACGTTTGATGCAGCATACAAGGATGCATACAAGGATCCTCATCGGTGCGTCAAAATTTAAGTGCATTATATgtcaaaagaaatttaaaacacTAGAAGTTATGCAGCAACACAACCGGAAACAACACCCCACATTGAAATTGTCACGGTCGACTTGGCCCCGTCCTTGTAATTACTGCGAAGTGTCTTTAAACTCACACAAGGAACGTTTGACACATCACAATCAGGAACATGGTGATTTGAAAAGCTTCAGTTGCAATAAATGcggaaaaacatttttacaagAAAAGCATCTGATGCAACATGCCGCAACTCATGAAGATGTTAGAAAGTTGATGTGTCAGTATTGCGGAAAAGGTTTTACGGAATCCTCGAATTTGAAGGCGCACATTCGGATCCACACCGGTGAAAAACCTTACAAGTGCGAGATTTGCAACGCAAGTTTTGCACAATGGACAGCACTGCGCAGTCATCGATTCGGTCATATGGAAGAAAGAAATTTTGAATGTAAAGAatgtcacaaaaaatttaaatcacgAAAGGCGCTACGTGGCCACATGAAAACACACACAGATGGCCCCAAACTTTCTTGTCACTTTTGTCCACAACAACTTAGGACTTCGTATGGTTTGAAAAGACACCTTTTAGTCCATTCGAATGATCGCTCTTTTGTATGTAAAGTGTGCGGAAAGAGATTCAACAGGATGAGTAATTTAACGCAACACATGAACACACATGCTGCAGTCAAGCCTTATATTTGTTCCGTTTGTGATAAGGGATTTAGTCAGGCACATTGTCTGCGTTCGCACAATGCTAGATTTCACAAGGATGACATGAAATCAGTTGCAACTTtaccttcaacaaatttaccTGATCAAAATCAACAGGAAATTACTGCTATTCAAATTCCTGTCGATTCAAGTGAAATTGATGAGCACGAAGTGGAGAATCATCAAGAAATGACCAAAACAGGATCTGTTGAAATTTATAGTGAAGTGGACAATGAtcaaaatatgaaacttaTTGAAATTTGTGAGGAAATTAGAACAGAACAGTTTGAACAGAGCGATGAAGCTTGGAATGAGTTAAGTAAACAACCAACATTGAAACCAGTTACAACTTCACCAAATTTACCCAATGAAAACCTGGAGATATTTGTGGAGATTGAAACTCCTGTTGAGAGATGTGAAACTGATGTGCACCAAGTGGAGAATGATCAGGAAACGACCGAAACAAGATCTgttgatatttataataaagtggACAGTCATCCAGATATAAATTCCATTGAAATTCACGAGGAAGTTAAAAACGAACAGTTTACTTGCAAACtttgttttacaatttttctcGATGAAGCAAAACTTTCAAGGCACGAACTTGCTCACACAATCCAACCTAAAGCATTAGCCGCAAAAAACTATGTAATTTACAGTTGTCGAGAATGTTCCATTCGTGCGGAAACGGCAGAAGATTTCATAGAACATTGTGAAAAATTGCACGAGAATTCAATTGAAATGCTTTATTATCGTTGCAAATTATGTGAAGGAGATTTTGCTGAATTGTCTCAACTCTCATCACATGTTTCAACAGAACATTATACATCAAATTCTCTTCGGTCATCTCATGGGTCAAGATTTGAGTGCAAAATATGCtacctaaaatttaaaacaactgATTCTTTGTATAAACACAAGCAGAAACACCACCCCAAACTGAAATTGTCACGATCGACTTGGCCCCGACCGTGTAATTACTGCGAAGTGTCTTTAAAATCTCAAAAGGAACGTTTGACGCATCTCGATCAGGAACACGGTGATTTAAAAAGCTTCAGTTGCAATAAATGcggaaaaacatttttacaagGAAAGCATCTGTATGAACATGCCAGAACTCACGGAGATGTTAATAAGTTCGTGTGTCAGTATTGCGGAAAAGGTTTCAAGATGTCTGCGAATATGATTGCACCCAACGATGGATTTTCGCAATACGCTTGTTCAGAATGTGTTACATCAGCAGAGAAGGCATACCTTTTTAGGATACAATGCGAACAAAGCAATGAACTTTGGAACGAACTCAGTAAAAGCCCAAAAAAGCAACCAACAAATCCCCTCAATGAAAACCAAGAGTTAGGTGATGAATGTGAAAGGGGCCAAGGCCCCAAGGACCCAGAAACAAAATCTGTTGAAATTTATGATGAAACGAACAATGATTTAGATATAAAGTCCATCGAAATTCGCGAGGAAGTTAAAACCAAATATATTGCttgcaaatattgtttttcaatttttgtcgaTGAAGCCCAACTGTCAAGGCACGAACTCGCGCATACAATCCGacctaaaaaattaatcgtAAACAACCATGCGATTTATGGTTGTCGAGAATGTTCTGTTAATATCAAAACGGCAGAAAGCTTCGTACAACATTGCCACGGCCTGCACGAGGACTCGATCGAGAACCTTTATTATCGTTGCAAATTATGCGAAGGAGATTTCGCCGATGTTTCTCAGCTCACAAGACACGTTTCAATAACGCATCAATCGTTACGTACCCGTCGATTAAAGCATGCGTCGCAAAACAAGTTCGAGTGCAAAGCATGTTCCAACAGATACAAATCGCGCGCTTCGTTACGTGAACACTTAAAGAAACACGCTCGTTACCCAGACTTCAAGTCAATACAATTATCACGGTTAACTTGGCCCCAACAGTGTAAATATTGTGAAGTGTTGTTGAAATCGTACAAGGAACGCTTGAAACATAACGATCAGGAGCACAGCGATTTGAAACGCTTCAGgtgcaacaaatgcgaaaaaacatttttacggGAACTGTATTTGACGCGCCATATGGCAACCCACGAAACTAAGCAACATATCTGCCAGTATTGTGGAAAAGGTTTTACGGTTATCGCAAATTTGAAGGAGCACATACGGATCCACACCGGGGAAAAGCCGTTCAAATGTGACAAATGCGACGCGCGCTTTGCGCACCCGGCGTCGTTTCGCGCTCACAGCCACGAGGAAGAAAGAAACTTTGAATGCAATCAGTGTCACAAAAGATATAAATCAGATACGGTGCTGAACAGGCACATGCGAACACATACGGTTGGGCCGAACTATTCCTGTCACTTATGTCCACAACTGCTTAAAGATTCTAGGTCATTGAGACGACATCTTTCGCTCCATTCCAATCATCGCTCTTTTGTGTGTAAAGAGTGCGGGAAAGGATTCAACAGTACGAACAATTTGAAGCAACACATGAATACCCATGCCGCAGTGAAACCGTACAGTTGTCTAATTTGTGATAAGGGATTTACTCAGTCGCATTGTTTGCGTTCGCACAATGCTAGATTTCACAAGGATGACATGAAATCAGTTGCAGCTTCAACAAATTTGCCTGATCAAAACCAACAGGAAATTACTATAATTCAAATTCCTATTGAGTCATATGAAATTGATGAGTACCAAGTGGAGAATGATCAAGAAATAACCAAAACAGGATCTGTTGAAATttataatgaagttaaaacaGAACAGTTTGAACAGAGCGATGAAGCTTGGAATGAATTTAGTAAACAACTAAAAGAGAAACCAACATTGAAACAAGTTACAACTTCGCCAAATTTAGTCTATGAAAGTCTGGAAATTCAAACTCGTGTTGAAGGATGTGAAACTGATGAGCATCAAGTGGAGAATGATCAAGAAATGACCAAAACAGGATCTGTTGAAATTTATGAAGAAGTGAACAATGAAATTTGTGAGGAAATTAAAACAGAACAGTTTGAACAAAGTGATGAGGCTTGGAATGAATTTAGTCAACAATTAAAAGAGAAACCAACATTGAAACCAGTTATAACTTCACCAAATTTACCCAATGAAAACCTGGAGTCATTTGTGGAGGTTGAAACTCCTGTTGACAGATGTGAAACTGATGAACACGAAGTGGAGAATGATCAGGAAATGACAGAAACAGGAtctattgaaatttataataaaccggACAGTCATCCAGATATAAAATCCATTGAAATTCATGAGCACGTTAAAAACGAACAGTTTCCttgcaaatattgttttacaatttttgttgatgAAGCAAAACTTTTAAGACACGAACTTGCTCACATAATCCAACCTAAAGAATTAGTAATTTCAACATCAATTATCAATCGTCAATCATCCGTGTTAAGAAATAAGTTTGAGTGCAAAATAtgtcacaaaaaatataaaacccTCGATTCTTTGCATCAACACAAGCGGAGACACCacccaaaaattaaattgtcccCATTGTCTCGATCGACTTGGCCCCGACCATGTAATTACTGCGAAGTGTCTTTAAAATCTCACAAGGAACGTATGACGCATCTCGATCAGGAACACGGTGATTTAAAAAGCTTCAGTTGCgataaatgtggaaaaacatttttacaagaaaaaaatctgATTCAACATGCCGGAACTCACGACGATGTTAAGAAGTTCATGTGTCAGCATTGCGGAAGAAGTTTCAAGAAGTCCTCGAATTTGAAGGAGCACATGCGGATCCACACTGAggagaaaaagtttttcaaaTGTGATGAATGCCacaaaatatataaaacagCTAAGTTGCTAAATAGGCACATGCAAACATACGTTCATGAGCGAAAATATCCTTGTCACGTGTGCTCACAAAAACTTACGAGTTCTTCCAGTTTGAGAAGACATTTTTTACGCCATTCCAATCATCGCTCTTTTGTGTGTAAAGAGTGCGGAAAAGGATTCAATACTGCAAGCAACTTGAAGCAGCACACGAGTACCCATGCTGCAGTGAAACCGTACATTTGTTCGATTTGTAATAAGGGATTTGCTCAGGCGCATTGTTTGAGGTCGCATAATTCTAGATTTCACAAGGATGAGGCACAATcgtaa
Protein Sequence: MLQKCRTCLEQGRKLIPFSVLSIASKNTLHISDIFMICASIQITPNDGFSQFACSECVISAEKAYLFKKQCEQSDKFWNEFSKRLKEKPISVTTPLNLSNENLGKIVRFPTPVGGYETDDDVTNYAEMSEAEFVETDPDIKSIEIFEEVKNEQFTCKLCFTIFLDEAKLSMHELAHTIEPKELAIKEHAIYRCQKCSVNFETAEEFIEHCQKLHDNSTEKPCYKCKLCGGEFDDLIELTTHIPKTHGNLKSKQLAIWPQPCAYCPLTLKSLNEKTAHLNREHSDLKTFSCGECGKTFFQKAHLRQHEARHNPVKKHICQYCEKSFTIHSSLERLAHHDQEHGDLKNFSCNKCGKTFLQEKNLIQHAATHEDAKKLMCQYCGKSFTNSSNLKAHIRIHTGEKPYKCDICNASFAQWVSMRGHRIHHMEERNFECKECHKKFKTLNVLRGHMQTHTDRPKHSCHFCPQQLRTSYGLKKHLLVHSNDRSFVCKVCGKGFNRMGNLSQHMNIHAAVKPYICSVCDKGFTQAHCLRVHNARYHKDDTFLKNSIEMMGSFEIAKRPDFRQLLTLHGRKLKVKFSGGMMDICKNQIMHNTMLQRCRTCFEQGRKLIPFSVLSIASKNALHMSDIFMICASIQITPNDGFSQYACSECVISAEKAYLFKKQCEKSVKVWNEFSKRLKEKPISVQVTTPLNLPNENLGKIVRIQTPVGGCETDHVMNDAEMSEAEFVETDPDIKSIEIFEEVKNEQFTCRLCFTIFLDEAKLSRHELAHTIEPKELAIKEHAIYCCRKCSVNFETAEDFIEHCQKLHDNSTEKPYYICKLCTGKFDDLIELTTHISKMHGNLKLKRLPQSVIWPQPCAYCPLTLKSLNEKTAHHNREHSDLKTFSCGECGKTFFQKAHLRQHEARHNPVKNHICQYCKKSFAIHSRLMQHTRMHTRILIGASKFKCIICQKKFKTLEVMQQHNRKQHPTLKLSRSTWPRPCNYCEVSLNSHKERLTHHNQEHGDLKSFSCNKCGKTFLQEKHLMQHAATHEDVRKLMCQYCGKGFTESSNLKAHIRIHTGEKPYKCEICNASFAQWTALRSHRFGHMEERNFECKECHKKFKSRKALRGHMKTHTDGPKLSCHFCPQQLRTSYGLKRHLLVHSNDRSFVCKVCGKRFNRMSNLTQHMNTHAAVKPYICSVCDKGFSQAHCLRSHNARFHKDDMKSVATLPSTNLPDQNQQEITAIQIPVDSSEIDEHEVENHQEMTKTGSVEIYSEVDNDQNMKLIEICEEIRTEQFEQSDEAWNELSKQPTLKPVTTSPNLPNENLEIFVEIETPVERCETDVHQVENDQETTETRSVDIYNKVDSHPDINSIEIHEEVKNEQFTCKLCFTIFLDEAKLSRHELAHTIQPKALAAKNYVIYSCRECSIRAETAEDFIEHCEKLHENSIEMLYYRCKLCEGDFAELSQLSSHVSTEHYTSNSLRSSHGSRFECKICYLKFKTTDSLYKHKQKHHPKLKLSRSTWPRPCNYCEVSLKSQKERLTHLDQEHGDLKSFSCNKCGKTFLQGKHLYEHARTHGDVNKFVCQYCGKGFKMSANMIAPNDGFSQYACSECVTSAEKAYLFRIQCEQSNELWNELSKSPKKQPTNPLNENQELGDECERGQGPKDPETKSVEIYDETNNDLDIKSIEIREEVKTKYIACKYCFSIFVDEAQLSRHELAHTIRPKKLIVNNHAIYGCRECSVNIKTAESFVQHCHGLHEDSIENLYYRCKLCEGDFADVSQLTRHVSITHQSLRTRRLKHASQNKFECKACSNRYKSRASLREHLKKHARYPDFKSIQLSRLTWPQQCKYCEVLLKSYKERLKHNDQEHSDLKRFRCNKCEKTFLRELYLTRHMATHETKQHICQYCGKGFTVIANLKEHIRIHTGEKPFKCDKCDARFAHPASFRAHSHEEERNFECNQCHKRYKSDTVLNRHMRTHTVGPNYSCHLCPQLLKDSRSLRRHLSLHSNHRSFVCKECGKGFNSTNNLKQHMNTHAAVKPYSCLICDKGFTQSHCLRSHNARFHKDDMKSVAASTNLPDQNQQEITIIQIPIESYEIDEYQVENDQEITKTGSVEIYNEVKTEQFEQSDEAWNEFSKQLKEKPTLKQVTTSPNLVYESLEIQTRVEGCETDEHQVENDQEMTKTGSVEIYEEVNNEICEEIKTEQFEQSDEAWNEFSQQLKEKPTLKPVITSPNLPNENLESFVEVETPVDRCETDEHEVENDQEMTETGSIEIYNKPDSHPDIKSIEIHEHVKNEQFPCKYCFTIFVDEAKLLRHELAHIIQPKELVISTSIINRQSSVLRNKFECKICHKKYKTLDSLHQHKRRHHPKIKLSPLSRSTWPRPCNYCEVSLKSHKERMTHLDQEHGDLKSFSCDKCGKTFLQEKNLIQHAGTHDDVKKFMCQHCGRSFKKSSNLKEHMRIHTEEKKFFKCDECHKIYKTAKLLNRHMQTYVHERKYPCHVCSQKLTSSSSLRRHFLRHSNHRSFVCKECGKGFNTASNLKQHTSTHAAVKPYICSICNKGFAQAHCLRSHNSRFHKDEAQS

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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