Basic Information

Insect: Pachypsylla venusta
Gene Symbol: ZEB2
Assembly: GCA_012654025.1
Location: CM022878.1:2179978-2190963[+]

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 54 0.0019 0.17 12.6 0.3 2 23 68 90 67 90 0.94

2 54 0.0011 0.11 13.2 0.6 1 23 97 120 97 120 0.96

3 54 0.01 0.94 10.3 1.5 1 23 153 175 153 175 0.98

4 54 0.00037 0.035 14.8 0.6 1 19 181 199 181 204 0.94

5 54 6e-06 0.00056 20.4 1.8 1 23 210 232 210 232 0.97

6 54 5.5e-06 0.00051 20.5 0.3 1 23 236 258 236 258 0.96

7 54 6e-05 0.0056 17.3 1.8 2 23 265 286 264 286 0.97

8 54 0.0028 0.26 12.0 6.1 1 21 293 313 293 315 0.94

9 54 6e-05 0.0056 17.3 4.3 1 23 321 343 321 343 0.98

10 54 4.9 4.6e+02 1.8 0.4 2 14 474 486 474 488 0.86

11 54 0.015 1.4 9.7 0.6 1 23 515 537 515 537 0.98

12 54 0.047 4.4 8.2 2.1 1 23 670 693 670 693 0.97

13 54 0.09 8.4 7.3 0.6 2 23 700 722 699 722 0.91

14 54 0.0092 0.86 10.4 0.1 2 23 728 750 727 750 0.92

15 54 1.7 1.6e+02 3.3 0.3 1 23 779 802 779 802 0.93

16 54 8.3e-05 0.0078 16.8 3.8 1 23 808 831 808 831 0.97

17 54 0.00016 0.015 15.9 1.0 1 23 835 857 835 857 0.96

18 54 6.9e-06 0.00065 20.2 2.6 1 23 863 885 863 885 0.98

19 54 0.0028 0.26 12.0 6.1 1 21 892 912 892 914 0.94

20 54 0.00027 0.025 15.2 2.9 1 23 920 942 920 942 0.97

21 54 0.0073 0.68 10.7 7.9 1 20 952 971 952 974 0.95

22 54 1.5e-05 0.0014 19.2 0.2 1 23 980 1002 980 1002 0.96

23 54 0.00011 0.011 16.4 3.6 2 23 1009 1030 1008 1030 0.97

24 54 4.5 4.2e+02 1.9 1.5 3 23 1135 1156 1133 1156 0.85

25 54 3.6 3.4e+02 2.2 0.4 2 14 1175 1187 1174 1189 0.87

26 54 8.3e-05 0.0078 16.8 0.7 1 23 1216 1238 1216 1238 0.98

27 54 3.1 2.9e+02 2.4 3.0 1 21 1269 1289 1269 1290 0.91

28 54 0.075 7 7.5 2.9 1 23 1340 1363 1340 1363 0.97

29 54 0.09 8.4 7.3 0.6 2 23 1370 1392 1369 1392 0.91

30 54 0.031 2.9 8.7 0.2 2 23 1398 1420 1397 1420 0.92

31 54 0.38 35 5.3 0.2 1 23 1449 1472 1449 1472 0.93

32 54 0.00012 0.011 16.3 1.6 1 23 1478 1501 1478 1501 0.97

33 54 3e-06 0.00028 21.4 0.4 1 23 1507 1529 1507 1529 0.98

34 54 1.7e-05 0.0016 19.0 0.3 1 23 1535 1557 1535 1557 0.98

35 54 0.0006 0.057 14.1 0.3 1 23 1563 1586 1563 1586 0.96

36 54 0.00041 0.039 14.6 0.3 3 20 1597 1614 1596 1615 0.94

37 54 1.1 1e+02 3.8 2.0 3 23 1634 1655 1632 1655 0.94

38 54 0.055 5.2 7.9 4.5 1 23 1668 1691 1668 1691 0.97

39 54 0.026 2.4 9.0 5.0 1 23 1753 1776 1753 1776 0.92

40 54 0.063 5.8 7.8 0.1 1 20 1839 1858 1839 1862 0.91

41 54 0.00017 0.016 15.9 1.2 1 23 1874 1897 1874 1897 0.97

42 54 0.069 6.5 7.6 8.1 1 20 1903 1922 1903 1925 0.93

43 54 0.00026 0.024 15.3 0.1 2 23 1932 1953 1931 1953 0.97

44 54 0.37 35 5.3 4.5 2 23 1969 1991 1968 1991 0.93

45 54 3.4e-05 0.0032 18.0 0.4 1 23 2038 2061 2038 2061 0.97

46 54 0.031 2.9 8.7 1.9 1 23 2074 2097 2074 2097 0.96

47 54 1.2 1.1e+02 3.8 5.3 1 23 2174 2196 2174 2197 0.95

48 54 4.4 4.1e+02 2.0 3.3 1 23 2251 2273 2251 2274 0.91

49 54 0.00035 0.033 14.8 0.9 1 23 2280 2303 2280 2303 0.97

50 54 3.9e-05 0.0037 17.8 4.5 1 23 2310 2332 2310 2332 0.98

51 54 0.0001 0.0093 16.6 0.6 1 23 2338 2360 2338 2360 0.96

52 54 0.00029 0.027 15.1 0.8 1 23 2365 2387 2365 2387 0.96

53 54 0.00011 0.011 16.4 0.3 1 23 2393 2415 2393 2415 0.98

54 54 0.0004 0.037 14.7 2.6 1 23 2421 2443 2421 2443 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	54	0.0019	0.17	12.6	0.3	2	23	68	90	67	90	0.94
2	54	0.0011	0.11	13.2	0.6	1	23	97	120	97	120	0.96
3	54	0.01	0.94	10.3	1.5	1	23	153	175	153	175	0.98
4	54	0.00037	0.035	14.8	0.6	1	19	181	199	181	204	0.94
5	54	6e-06	0.00056	20.4	1.8	1	23	210	232	210	232	0.97
6	54	5.5e-06	0.00051	20.5	0.3	1	23	236	258	236	258	0.96
7	54	6e-05	0.0056	17.3	1.8	2	23	265	286	264	286	0.97
8	54	0.0028	0.26	12.0	6.1	1	21	293	313	293	315	0.94
9	54	6e-05	0.0056	17.3	4.3	1	23	321	343	321	343	0.98
10	54	4.9	4.6e+02	1.8	0.4	2	14	474	486	474	488	0.86
11	54	0.015	1.4	9.7	0.6	1	23	515	537	515	537	0.98
12	54	0.047	4.4	8.2	2.1	1	23	670	693	670	693	0.97
13	54	0.09	8.4	7.3	0.6	2	23	700	722	699	722	0.91
14	54	0.0092	0.86	10.4	0.1	2	23	728	750	727	750	0.92
15	54	1.7	1.6e+02	3.3	0.3	1	23	779	802	779	802	0.93
16	54	8.3e-05	0.0078	16.8	3.8	1	23	808	831	808	831	0.97
17	54	0.00016	0.015	15.9	1.0	1	23	835	857	835	857	0.96
18	54	6.9e-06	0.00065	20.2	2.6	1	23	863	885	863	885	0.98
19	54	0.0028	0.26	12.0	6.1	1	21	892	912	892	914	0.94
20	54	0.00027	0.025	15.2	2.9	1	23	920	942	920	942	0.97
21	54	0.0073	0.68	10.7	7.9	1	20	952	971	952	974	0.95
22	54	1.5e-05	0.0014	19.2	0.2	1	23	980	1002	980	1002	0.96
23	54	0.00011	0.011	16.4	3.6	2	23	1009	1030	1008	1030	0.97
24	54	4.5	4.2e+02	1.9	1.5	3	23	1135	1156	1133	1156	0.85
25	54	3.6	3.4e+02	2.2	0.4	2	14	1175	1187	1174	1189	0.87
26	54	8.3e-05	0.0078	16.8	0.7	1	23	1216	1238	1216	1238	0.98
27	54	3.1	2.9e+02	2.4	3.0	1	21	1269	1289	1269	1290	0.91
28	54	0.075	7	7.5	2.9	1	23	1340	1363	1340	1363	0.97
29	54	0.09	8.4	7.3	0.6	2	23	1370	1392	1369	1392	0.91
30	54	0.031	2.9	8.7	0.2	2	23	1398	1420	1397	1420	0.92
31	54	0.38	35	5.3	0.2	1	23	1449	1472	1449	1472	0.93
32	54	0.00012	0.011	16.3	1.6	1	23	1478	1501	1478	1501	0.97
33	54	3e-06	0.00028	21.4	0.4	1	23	1507	1529	1507	1529	0.98
34	54	1.7e-05	0.0016	19.0	0.3	1	23	1535	1557	1535	1557	0.98
35	54	0.0006	0.057	14.1	0.3	1	23	1563	1586	1563	1586	0.96
36	54	0.00041	0.039	14.6	0.3	3	20	1597	1614	1596	1615	0.94
37	54	1.1	1e+02	3.8	2.0	3	23	1634	1655	1632	1655	0.94
38	54	0.055	5.2	7.9	4.5	1	23	1668	1691	1668	1691	0.97
39	54	0.026	2.4	9.0	5.0	1	23	1753	1776	1753	1776	0.92
40	54	0.063	5.8	7.8	0.1	1	20	1839	1858	1839	1862	0.91
41	54	0.00017	0.016	15.9	1.2	1	23	1874	1897	1874	1897	0.97
42	54	0.069	6.5	7.6	8.1	1	20	1903	1922	1903	1925	0.93
43	54	0.00026	0.024	15.3	0.1	2	23	1932	1953	1931	1953	0.97
44	54	0.37	35	5.3	4.5	2	23	1969	1991	1968	1991	0.93
45	54	3.4e-05	0.0032	18.0	0.4	1	23	2038	2061	2038	2061	0.97
46	54	0.031	2.9	8.7	1.9	1	23	2074	2097	2074	2097	0.96
47	54	1.2	1.1e+02	3.8	5.3	1	23	2174	2196	2174	2197	0.95
48	54	4.4	4.1e+02	2.0	3.3	1	23	2251	2273	2251	2274	0.91
49	54	0.00035	0.033	14.8	0.9	1	23	2280	2303	2280	2303	0.97
50	54	3.9e-05	0.0037	17.8	4.5	1	23	2310	2332	2310	2332	0.98
51	54	0.0001	0.0093	16.6	0.6	1	23	2338	2360	2338	2360	0.96
52	54	0.00029	0.027	15.1	0.8	1	23	2365	2387	2365	2387	0.96
53	54	0.00011	0.011	16.4	0.3	1	23	2393	2415	2393	2415	0.98
54	54	0.0004	0.037	14.7	2.6	1	23	2421	2443	2421	2443	0.98

Sequence Information

Coding Sequence: ATGTCTCGGCGGTCGGCTCGATGTTTGTTACTAAAAGATGGACCAAGTGTGAAGAATAAATTAAGCGTAGCCCAAAAAAATGtgttagaaaacaaaaaaactgacGAGGCTTGTGAGAAAGAACCAGAAGTAAGGTCGGACAAAGAGGACGATTGTCCGGGAAATGATCTGATGAAAGATGAAGTCAAAGCAATCAAAGTTGAGTGCAAATTTTGTGGCATGGTATTTGATAAAAGACTGGACTTGCAGAAACACGTGAAAGAAGAGCATGGAGACGTGGTGAAAAAGTACGACTGTGATTTGTGCGAACGTAGTTTTGGGCGAGTGAATGAGctgagaaatcatagaaaaaTAAAGCACAACATAGAACCGAACCCGGACGAGTGTAAACGAGGAAGACGTGCTATATCGGAAATGTTTCACAAAGCACGTGTCTATATGCAGGGTAAACTGATGCACAAGTGTCCACTCTGTGAGACTCTACTCAAGTCAAGCAAATCGTTGAAGAATCATTTGCTGATTCACACTGGAGAGAAACCGTTCACGTGTGAGAAATGTGGCAAACAGTTCCGCACGGTGACGCAACTCAAAGTGCATGACAGTATGATTCACTTGGGCATTAAGACGTACAAATGTGAAGTGTGCAAGACCACTTTCTCTACCAAGTTCAATTTGAAAGAGCATATGGTACTCCATTTTGGAGCTTTCATTTGTGAAGTCTGTGGCAAAGCATTCTCTCGAAATACAACGTTGACAAATCATCGCGCACTTCATTCAGAAACCCCCAACTTGGAATGTTCAGTGTGCCAGAAGAAATTCTATCGAGACAATCAATTGAATCGACACATGACCACGCACGAACAGACGGTCCGATTGTTCATGTGCGACATTTGTCATAAGAGTTACAAGACCAATTATGAAATGAAGCGACATCGTATGTGTCATACAGACGAGCGACCGTTCTCGTGTGACATATGTCAGACAAGTTTCAAGTTTATGAAACATCTTAAGGTTCATATGAGATCACACATGAAAGGTCACGTCAATAGTAAGGTGCATCGGAAAACAACGAAATTGTCGTCGTTGTCTCTGACCACACCGGTGCTGCCTGCACAGCAACCACCTCCTCAAACTCAGTCGTCGTCACATTTCGATGACAGTCGAAATGTTCGACACGGCAATGATGAGGTGATGGCTTTGCCTTTGCTACATCCTTTGTCAACTTTACCACCACCGATAGCGTCGTCGGGTTTGTCTTCGGAACATTTCTTTGTCAAAAGTTCTATCCCGACATCACAGTGGACGTGCTGTGCGTGTCTTGATAAGTTCGACACGTGTTCTGCTCTTGCCAATCATGTCGGCCGATTCCATCTTTCCGATGAAGACTATTTTCTTTATGACGACGACACCAAAGAACCAACATGCGCTAAATGTAACCAATCGTTTGACGATCATTACCAAGTTGACGTTAAAATGATTTCCGATTTGCGACCTTTGTCTCGTTTATCATCATCGTTCACCAATGAACAAGATGATCCAACTTACATATGTGCACAGTGTAATCGcgtctttttaaagaaaatatcacTTATATCTCATTTGAAAAGACATAGAGGCAACAGTGGTAGGGTCGACGTATCGTCGTTGATATTTAGCGACAGCGAAGGCAGAGTCAAGAAAAGTTTCTATAAaaacaagttttatttttgttttaattgtaaTGAGACATTTGATTTGGAGCGAATCTATTTGAGTCATTTGAAAAGATGTTTAGATATTGATTCGGAACAGATGGATGAAATCTTTGGCCTTGTACCGACCACTGATTCTGGTAGGAAGGACACCAGCGATGACcctaaagataaagaaaaattggtGGTCACTTACAAAGATAAATTGGTCAGCGTGGTCCCTTTGAATGAGGCCATAGCAAATTTTTCGTGCTCAAAGGTCACTTACAAAGATAAATTGGTCAGTCTGGTCCCTTTGAATGAGGCCATAGCGAATTTTCCGTGCTCGAAATGTGACGCTTGCATGGACACCAAATCATCGTTTGTGACACATTTGAAGAAAGTTCACTTCTTGGAGCCAAAACAACAATGCCAATTTTGTAACATGACATTCAAAGATGCCGTTATTTTGTGGCATCACATGTTTGCCGCACATCCGAACAAAGACATCCAATGTACGCTCTGCGATATTATTGTTACCAGTCAAAAAGAATTGATCAAACATTTGCTGTTCTCGCACGGCATCACAATGAAAATCTACTTGGAAGACGAAAAGTTTTCCTTGAGACAAAAGACGCGCGTGTTTGTCGACGGCAAAGAAATGTTCAAATGTTTGCAATGTCCGTCTGTGATGAATTTGTATAGTTCGTTGACGCGGCATCTTGCGTATGTGCATTGCGATGATACACCGTTTGTGTGCGATCAATGTAATAAGGCATTTAAAACGAAATATAAACTATTTATTCATCATAAATCGGTGCACGAAAGAGCTTTCATTTGCGAAGTCTGTGGCAAAGCATTTTGTGGAAATGAAACTTTGACGAATCATCGAACACTTCATTCAGAAACTCCCAACTTTGAATGTTCAGTGTGTCAGAAGAAATTCTATCGAGAAAATCAATTGAATCGACACATGACCACGCACGAACAGACGGACCGTTTGTTCATGTGCGACATTTGTCATAAGAGTTATAAGACCAATTATGAAATGAAGCGACATCGTATGTGTCATACGGACGAGCGACCGTTCTCGTGTGACATATGTCAGACAAGTTTCAAGTTTATGAAACATCTTAAAGCTCATATGGGATCTCACGTGAAAGGTCAGGTCAATATGAGCGAGTTTGAGTGTGTCCATTGTAGACGATGTTTCAATTATAAGTCTCAACTTTTACGACATATGATTTGTCATACGAGAGAGCGAGCGTTCGTTTGCGATATCTGTGGCAAAGCATTCTCTCGAAATACAAGGTTGATAAATCATCGGGCACTTCATTCAGAAACTCCCAACTTGGAATGTTCAGTGTGTCAGAAGAAATTCTATCGAGACCATCAATTGAATCGGCACATGACCACGCACGAACAGACGGACCGTTTGTTCATGTGCGACATTTGTCATAAAGGTCGCGTCAATAGCAATGTGCCTCGGAAAACAACGAAATTGTCGTCGTTGTCTCTGACCACACCGGTGCTCCCTGCACAGCAACCACCTGCTCAAACTCAGTCGTCGTCACATTTCGATGACTTTCGAAATGTTCGACACGGCAATGATGAGGTGATGGCTTTTCCTTTGCTGCATCCTTTGTCAACTTTACCACCACCGATAGCGTCGTCGGGTTTGTCTACGGAACATTTCTTTGTGAAAAATTCTATCCCGACATCACAGTGGACGTGCTGTGCGTGTCTTGATAAGTTCGACACGTGTTCTGCTCTCGCCAATCATGTCCGCCGAATCCATCTTTCCGATGAAGACTATTTTCTTTATGACGACGACACCAAAGAACCAACAACTCGATGCGCTAAATGTAACCAATCGTTTGACGATCATTATCAAGTTGACGTTAAAATGATTTCCGATTTGCGACCTTTGTTTCGTTTATCATCATCGTTCACCAATGAACAAGATGATCCAACTTACATATGTGCACAGTGTAATCGCgtcttttcaaagaaaatatcacTTATATCTCATTTGAAAAGACATAGAGGCGACTTCGGTAGTGTCGACGTATCAGCGTTGATATATAGCAGCACCGAAGGCAGCGTCGAGAAAAGGTTCTATAAAAACAAGTTGTACTTTTGTTTTGAGTGTAATAAGAATTTTCATTTGGAGCGAACTTATTTGAGTCACTTGAAAAGATGTTTAGATATTGGTTCGGAACAGATGGATGAAATGTTCGGATTTGTACCGAGCACTGATTCTGGTGGCAAGGACATCAGCGATGACACTGAAGATAACAAAGATAAATTTGTCAGTGTGGTCACTTTGAATGAGGCCCTCGCGGATTTTTCGTGCTCGAAATGTGACGCTTGCATGGACACCAAATCATCGTTCGTGACACATTTGAAGAAAGTTCACTTCTTGGAGCCGAATCAACAATGCCAATTTTGTAACATGACATTCAAAGATGCCGTTATTTTGTGGCATCACATGTTTGCCGCACATCCGAACAAAGACATCCAATGTACGCTCTGCGATTTCATTGTTGCCAGTCAAAAAGAATTGATCAAACATTTGCTATTCTCGCACGGCATCACAATGAAAATCTACTTGGAAGACGAAAAGTTTGCCTTGAAACAAAAGACGCGCGTGTTTGTCGACGGCAAAGAAATGTTCAAATGTTTGCAATGTCCGTCCGTGTTGAATTTGTATAGTTCGTTGACGCGGCATGTTGCATATGCACATTGCGACGATACACCGTTCGTGTGCGATCAATGTAGTAAAGCatttaaaacgaaaaataaactGTTTATTCATTATAATTCCGTGCACGAGAGAACACGAAGTTATGATTGTAAATTTTGCGGACGTGGCTTTGCTATTTCGTCGAATTTGACAAAACATATTCGCATTCATACGGGCGAGAAACCGTACGTTTGCGAATTGTGTGGCATGTCGTTTGCGCAATCGTCCAGTTTGTATAGTCATAAGATAACGCACGATCAGAACGCGCGTTTTGTTTGCGATAATTGTGATAAAGCGTTTTTGCGTGCTTGGCAATTGAAGAAACATGTGTCGCGCGTTCACTATGGACTCACGCTACCTCGTACTCGAATGTGTGATTTGTGTGGAAAAGGATTTCGATCAAATCATGAATTGAAAAATCATGTCGTAGAGGAGACGACGTGTAGGTTAGAAAGTGACGAGAAAGAAGAGAAATCTGTCATTTGTTGGTACTGTGGATGTGATTACTATAATAAACATTTTCTTGAATTTCATATACGACTTGAGCATGGCCGTCTTTTGTATCGAAATCCTCAGTTAATTTGGTATACTTGTAAAATGTGTAGTAAATTGTACAATCATAGTAAATTCATTCGACGTCATATGAGTAGTGTTCATAGTATGCATGTGAGTAAACATGCTGAAGAATATATTGTGCGTTCCGTAGCAGAGATCACTTCGCAGTGTCAGACATGTTCTAAACCATGTCTGTTTACAAATACTTGTACGGAAACATGTGGCGTTCCCGATAGTCTGATACGTGATGAAAAATGTGATGATCATATTGACAAGAAATCTTGTCATTCATGTCAAGTATGTCAATGTATGTTTGTAACATGTAGTTCATTATGGACACATATGTTTGCAGTTCATAAGCAAGAAACTAAACTCAGATGTAATCTATGCTGGAAAGAGAAATTGAATATTCGGTTTCCATCGGATATTGTCGTAcatatgagaaaaaaacatgataaaTTGTTAAGTTTGGAACAAGCGGCGTCGAGAGCACTTTTGAAAAAACGAAATAAATCGAGAATTTATGTCGATGGTGATCTTAAATATCGGTGTGATCTTTGTCAGGAAATATTCGATGATTCTGAagatattaaacaacattttgtCGATGTTCATAGGATGACGACAGATCGAAATATTGTTCGATCTTATCGATGTAACTATTGTGATGAGCAGTTTAGTTTGAAAAAAGATCTAAGAGGGCATACTCGAAATGCACATAATAGATTGAGCGAGTTTGAGTGTATCCATTGTAGACGATGTTTCAATTATAAGTCACAACTTACACGACATATGATTTGTCATACGAGAGAACGGGCGTCCGTTTGTGAACTTTGTGGAGCAACGTTCTCACAACCTGCTGGACTCTACAATCATCAATTCACGCATGACAATTTACGTTATCCGTGTACAATGTGCGAGGAGGAGGTGTGGTCATGTTGCTCTTGTGTTGCCAAATTTTCTTCTTGTCCAAATCTTATTCGTCACATGCAACACATACACAATCCAACGTCCTCAGAGAACACCTATTGCATCCTCTGTTCTAATCCATTGAACGCTCATTTGACCAATGACTTCCATCATGcgagtgaaattttaaaaaacgaaattgTTCGACTCGATACTGCCGACTGTCGTCGATTTGTGTGTTCCTATTGTAATGCTGTCTACGCAGACAAACATTCGCTTACCGCTCATATTAAAATCCTTCACGGTCACATCGTCTATTCGAATCCTTCACTTATATGGTACGCGTGTTGTGATTGTCGCAAGTTGTACTCTCGCAAACAGGACATTGTCAAACATATGGCCAGTTCTCATTCGAAAAATAGTTCGGTGAACGCTGATAGTTTTATTGTTCGAACTTTGAGAGACGTTACGTTTCCTTGTGGCGTGTGTGGACAAATTCTTCTATTATCCCGAAAATGTTCATCCCATCCGTCCAATAATAATGGTGAAACTAAGAGTCCGTCGAGAGTGAAAAAAACCAAAACAAGCCTCTCATTGCCATACGACTGTAAAGAGCATGGTTGTCTACTGCACGATTGTCATAAATGTCGGCTCTGTGAGGCAAGTTACGACGATTGCGATTCGTATTGGCTTCATATGTTCTCACATCACAAGTTAGAGTTCTACAAATGCAATCTGTGCGATCAATTGAAGAAAGGCATCACTGGAATGATGACGCACCTGCGAATCATACACAAGAAAGCGATCCACTCGATCAAGACAACCTCGCTGAGAGACGCCAGTAGTGTTCTCATTGACGGCGTCGTCCACTTCAAATGTCAACATTGCTCGGAAATCTTTTGGtcttatattaaattgaaagGTCACGTTCTGCAACACCACAGTGGCATTGATCTTCATCGGTGCAGTCAGTGTCCTCGTGTCTATCCAACGGAAAAGAAACTTGAAGTTCACATTAAACGTGTGCACGAATCGTCAGATCCAGACTTTCAGTGTCAACATTGTGGACGATACTTCAACGAGAAGTCCAACTTTCAACGTCACCTCACTATTCACACGGGAGAAAAGAAGTTTGTGTGTGAGTTGTGTGGGGCCAGTTTCAATCAATGGTCGAGTTTGTATACGCACAAATTTTCGCATACAGATACGCGATATACGTGTTCGGTGTGTTCGAAAACTTTTAATACACCTAAAAGTTTGGGCGTACATTTCAAAGCACATTTTGATACGAATGTTTACGTTTGCGATACGTGCGGTAAACAGTTCAGCAGTCGAAGTGTTTGGCGTGGACATATTAAGATTCATAGTACGGATCGTTCGTTTGTGTGCAATATATGCTCGGCAACTTTCGTTGTCAAAAAGTACCTGACACAACATCATAAGACTCATAAAGGAAAGAGTTGA
Protein Sequence: MSRRSARCLLLKDGPSVKNKLSVAQKNVLENKKTDEACEKEPEVRSDKEDDCPGNDLMKDEVKAIKVECKFCGMVFDKRLDLQKHVKEEHGDVVKKYDCDLCERSFGRVNELRNHRKIKHNIEPNPDECKRGRRAISEMFHKARVYMQGKLMHKCPLCETLLKSSKSLKNHLLIHTGEKPFTCEKCGKQFRTVTQLKVHDSMIHLGIKTYKCEVCKTTFSTKFNLKEHMVLHFGAFICEVCGKAFSRNTTLTNHRALHSETPNLECSVCQKKFYRDNQLNRHMTTHEQTVRLFMCDICHKSYKTNYEMKRHRMCHTDERPFSCDICQTSFKFMKHLKVHMRSHMKGHVNSKVHRKTTKLSSLSLTTPVLPAQQPPPQTQSSSHFDDSRNVRHGNDEVMALPLLHPLSTLPPPIASSGLSSEHFFVKSSIPTSQWTCCACLDKFDTCSALANHVGRFHLSDEDYFLYDDDTKEPTCAKCNQSFDDHYQVDVKMISDLRPLSRLSSSFTNEQDDPTYICAQCNRVFLKKISLISHLKRHRGNSGRVDVSSLIFSDSEGRVKKSFYKNKFYFCFNCNETFDLERIYLSHLKRCLDIDSEQMDEIFGLVPTTDSGRKDTSDDPKDKEKLVVTYKDKLVSVVPLNEAIANFSCSKVTYKDKLVSLVPLNEAIANFPCSKCDACMDTKSSFVTHLKKVHFLEPKQQCQFCNMTFKDAVILWHHMFAAHPNKDIQCTLCDIIVTSQKELIKHLLFSHGITMKIYLEDEKFSLRQKTRVFVDGKEMFKCLQCPSVMNLYSSLTRHLAYVHCDDTPFVCDQCNKAFKTKYKLFIHHKSVHERAFICEVCGKAFCGNETLTNHRTLHSETPNFECSVCQKKFYRENQLNRHMTTHEQTDRLFMCDICHKSYKTNYEMKRHRMCHTDERPFSCDICQTSFKFMKHLKAHMGSHVKGQVNMSEFECVHCRRCFNYKSQLLRHMICHTRERAFVCDICGKAFSRNTRLINHRALHSETPNLECSVCQKKFYRDHQLNRHMTTHEQTDRLFMCDICHKGRVNSNVPRKTTKLSSLSLTTPVLPAQQPPAQTQSSSHFDDFRNVRHGNDEVMAFPLLHPLSTLPPPIASSGLSTEHFFVKNSIPTSQWTCCACLDKFDTCSALANHVRRIHLSDEDYFLYDDDTKEPTTRCAKCNQSFDDHYQVDVKMISDLRPLFRLSSSFTNEQDDPTYICAQCNRVFSKKISLISHLKRHRGDFGSVDVSALIYSSTEGSVEKRFYKNKLYFCFECNKNFHLERTYLSHLKRCLDIGSEQMDEMFGFVPSTDSGGKDISDDTEDNKDKFVSVVTLNEALADFSCSKCDACMDTKSSFVTHLKKVHFLEPNQQCQFCNMTFKDAVILWHHMFAAHPNKDIQCTLCDFIVASQKELIKHLLFSHGITMKIYLEDEKFALKQKTRVFVDGKEMFKCLQCPSVLNLYSSLTRHVAYAHCDDTPFVCDQCSKAFKTKNKLFIHYNSVHERTRSYDCKFCGRGFAISSNLTKHIRIHTGEKPYVCELCGMSFAQSSSLYSHKITHDQNARFVCDNCDKAFLRAWQLKKHVSRVHYGLTLPRTRMCDLCGKGFRSNHELKNHVVEETTCRLESDEKEEKSVICWYCGCDYYNKHFLEFHIRLEHGRLLYRNPQLIWYTCKMCSKLYNHSKFIRRHMSSVHSMHVSKHAEEYIVRSVAEITSQCQTCSKPCLFTNTCTETCGVPDSLIRDEKCDDHIDKKSCHSCQVCQCMFVTCSSLWTHMFAVHKQETKLRCNLCWKEKLNIRFPSDIVVHMRKKHDKLLSLEQAASRALLKKRNKSRIYVDGDLKYRCDLCQEIFDDSEDIKQHFVDVHRMTTDRNIVRSYRCNYCDEQFSLKKDLRGHTRNAHNRLSEFECIHCRRCFNYKSQLTRHMICHTRERASVCELCGATFSQPAGLYNHQFTHDNLRYPCTMCEEEVWSCCSCVAKFSSCPNLIRHMQHIHNPTSSENTYCILCSNPLNAHLTNDFHHASEILKNEIVRLDTADCRRFVCSYCNAVYADKHSLTAHIKILHGHIVYSNPSLIWYACCDCRKLYSRKQDIVKHMASSHSKNSSVNADSFIVRTLRDVTFPCGVCGQILLLSRKCSSHPSNNNGETKSPSRVKKTKTSLSLPYDCKEHGCLLHDCHKCRLCEASYDDCDSYWLHMFSHHKLEFYKCNLCDQLKKGITGMMTHLRIIHKKAIHSIKTTSLRDASSVLIDGVVHFKCQHCSEIFWSYIKLKGHVLQHHSGIDLHRCSQCPRVYPTEKKLEVHIKRVHESSDPDFQCQHCGRYFNEKSNFQRHLTIHTGEKKFVCELCGASFNQWSSLYTHKFSHTDTRYTCSVCSKTFNTPKSLGVHFKAHFDTNVYVCDTCGKQFSSRSVWRGHIKIHSTDRSFVCNICSATFVVKKYLTQHHKTHKGKS

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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