Basic Information

Insect: Parnassius apollo
Gene Symbol: -
Assembly: GCA_907164705.1
Location: CAJQZP010001624.1:2546979-2555200[-]

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 0.013 1.3 10.3 0.0 2 23 11 33 10 33 0.96

2 54 0.17 17 6.7 0.3 2 23 54 76 53 76 0.93

3 54 0.0027 0.27 12.4 2.2 2 23 82 104 81 104 0.95

4 54 0.017 1.7 9.9 1.7 1 23 109 132 109 132 0.96

5 54 5.8 5.9e+02 1.9 0.1 2 23 135 157 134 157 0.92

6 54 5.4 5.5e+02 2.0 4.4 2 22 164 184 163 184 0.94

7 54 0.0077 0.78 10.9 0.5 1 23 245 268 245 268 0.92

8 54 0.18 18 6.7 0.2 3 23 342 364 340 364 0.95

9 54 0.0013 0.14 13.3 0.6 3 20 371 388 369 392 0.90

10 54 0.022 2.2 9.5 0.4 1 23 397 420 397 420 0.97

11 54 0.0012 0.12 13.5 0.3 2 23 426 448 426 448 0.92

12 54 0.00032 0.033 15.3 4.7 1 23 452 475 452 475 0.97

13 54 0.00038 0.038 15.1 0.7 2 23 482 503 481 503 0.96

14 54 0.0031 0.32 12.2 1.8 1 23 551 573 551 573 0.98

15 54 0.026 2.6 9.3 0.1 2 23 609 631 608 631 0.93

16 54 3.2 3.3e+02 2.7 1.0 2 23 652 674 651 674 0.81

17 54 0.015 1.5 10.0 3.0 1 23 756 779 756 779 0.96

18 54 6.9 7.1e+02 1.7 0.4 2 23 807 829 806 830 0.89

19 54 0.03 3 9.1 0.3 2 23 852 874 851 874 0.94

20 54 0.37 38 5.7 0.5 3 23 881 902 879 902 0.93

21 54 0.0041 0.42 11.8 0.6 1 23 907 930 907 930 0.95

22 54 0.018 1.8 9.8 5.3 1 23 962 985 962 985 0.97

23 54 0.0073 0.74 11.0 1.7 2 23 992 1013 991 1013 0.95

24 54 0.00048 0.048 14.8 1.6 1 23 1019 1041 1019 1041 0.98

25 54 0.038 3.9 8.8 0.1 1 23 1082 1104 1082 1104 0.97

26 54 0.42 42 5.5 2.1 2 23 1175 1197 1174 1197 0.94

27 54 0.0011 0.11 13.6 2.4 3 23 1204 1225 1203 1225 0.98

28 54 0.0023 0.23 12.6 2.9 1 23 1229 1252 1229 1252 0.96

29 54 0.014 1.4 10.1 1.4 2 23 1255 1277 1254 1277 0.96

30 54 0.0012 0.12 13.5 3.4 1 23 1354 1377 1354 1377 0.94

31 54 0.52 53 5.2 0.5 2 23 1405 1427 1404 1427 0.95

32 54 0.0002 0.02 16.0 0.1 1 23 1449 1472 1449 1472 0.95

33 54 0.00012 0.012 16.7 3.1 2 23 1478 1500 1478 1500 0.95

34 54 0.0061 0.62 11.3 4.4 1 23 1505 1528 1505 1528 0.95

35 54 0.0056 0.57 11.4 1.1 2 23 1534 1556 1533 1556 0.94

36 54 0.00021 0.022 15.9 3.5 1 23 1560 1583 1560 1583 0.97

37 54 4.2 4.3e+02 2.3 1.8 2 23 1590 1611 1589 1611 0.93

38 54 2.3 2.3e+02 3.2 1.1 1 10 1617 1626 1617 1630 0.95

39 54 0.0066 0.67 11.2 4.2 3 23 1673 1693 1671 1693 0.96

40 54 0.0083 0.84 10.9 0.1 2 23 1721 1743 1720 1743 0.95

41 54 0.015 1.5 10.0 0.6 1 23 1763 1786 1763 1786 0.96

42 54 0.00027 0.027 15.5 1.4 1 23 1791 1814 1791 1814 0.95

43 54 1.8e-05 0.0018 19.2 1.6 1 23 1819 1842 1819 1842 0.95

44 54 0.011 1.1 10.5 2.2 2 21 1845 1864 1845 1867 0.95

45 54 0.27 28 6.1 4.3 2 21 1874 1893 1874 1894 0.94

46 54 0.0084 0.85 10.8 0.9 1 23 1950 1973 1950 1973 0.93

47 54 8.4 8.5e+02 1.4 0.0 2 23 2001 2023 2000 2023 0.80

48 54 1.5 1.5e+02 3.8 0.1 2 23 2046 2069 2045 2069 0.94

49 54 0.00012 0.012 16.7 0.3 3 23 2076 2097 2075 2097 0.94

50 54 0.013 1.3 10.3 4.5 2 23 2102 2124 2101 2124 0.93

51 54 0.012 1.2 10.4 1.9 1 23 2129 2152 2129 2152 0.97

52 54 7.2e-06 0.00073 20.5 5.7 1 23 2156 2179 2156 2179 0.97

53 54 0.00087 0.088 13.9 0.3 3 23 2187 2207 2185 2207 0.96

54 54 0.00017 0.018 16.1 0.6 1 23 2213 2235 2213 2235 0.97

#	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	0.013	1.3	10.3	0.0	2	23	11	33	10	33	0.96
2	54	0.17	17	6.7	0.3	2	23	54	76	53	76	0.93
3	54	0.0027	0.27	12.4	2.2	2	23	82	104	81	104	0.95
4	54	0.017	1.7	9.9	1.7	1	23	109	132	109	132	0.96
5	54	5.8	5.9e+02	1.9	0.1	2	23	135	157	134	157	0.92
6	54	5.4	5.5e+02	2.0	4.4	2	22	164	184	163	184	0.94
7	54	0.0077	0.78	10.9	0.5	1	23	245	268	245	268	0.92
8	54	0.18	18	6.7	0.2	3	23	342	364	340	364	0.95
9	54	0.0013	0.14	13.3	0.6	3	20	371	388	369	392	0.90
10	54	0.022	2.2	9.5	0.4	1	23	397	420	397	420	0.97
11	54	0.0012	0.12	13.5	0.3	2	23	426	448	426	448	0.92
12	54	0.00032	0.033	15.3	4.7	1	23	452	475	452	475	0.97
13	54	0.00038	0.038	15.1	0.7	2	23	482	503	481	503	0.96
14	54	0.0031	0.32	12.2	1.8	1	23	551	573	551	573	0.98
15	54	0.026	2.6	9.3	0.1	2	23	609	631	608	631	0.93
16	54	3.2	3.3e+02	2.7	1.0	2	23	652	674	651	674	0.81
17	54	0.015	1.5	10.0	3.0	1	23	756	779	756	779	0.96
18	54	6.9	7.1e+02	1.7	0.4	2	23	807	829	806	830	0.89
19	54	0.03	3	9.1	0.3	2	23	852	874	851	874	0.94
20	54	0.37	38	5.7	0.5	3	23	881	902	879	902	0.93
21	54	0.0041	0.42	11.8	0.6	1	23	907	930	907	930	0.95
22	54	0.018	1.8	9.8	5.3	1	23	962	985	962	985	0.97
23	54	0.0073	0.74	11.0	1.7	2	23	992	1013	991	1013	0.95
24	54	0.00048	0.048	14.8	1.6	1	23	1019	1041	1019	1041	0.98
25	54	0.038	3.9	8.8	0.1	1	23	1082	1104	1082	1104	0.97
26	54	0.42	42	5.5	2.1	2	23	1175	1197	1174	1197	0.94
27	54	0.0011	0.11	13.6	2.4	3	23	1204	1225	1203	1225	0.98
28	54	0.0023	0.23	12.6	2.9	1	23	1229	1252	1229	1252	0.96
29	54	0.014	1.4	10.1	1.4	2	23	1255	1277	1254	1277	0.96
30	54	0.0012	0.12	13.5	3.4	1	23	1354	1377	1354	1377	0.94
31	54	0.52	53	5.2	0.5	2	23	1405	1427	1404	1427	0.95
32	54	0.0002	0.02	16.0	0.1	1	23	1449	1472	1449	1472	0.95
33	54	0.00012	0.012	16.7	3.1	2	23	1478	1500	1478	1500	0.95
34	54	0.0061	0.62	11.3	4.4	1	23	1505	1528	1505	1528	0.95
35	54	0.0056	0.57	11.4	1.1	2	23	1534	1556	1533	1556	0.94
36	54	0.00021	0.022	15.9	3.5	1	23	1560	1583	1560	1583	0.97
37	54	4.2	4.3e+02	2.3	1.8	2	23	1590	1611	1589	1611	0.93
38	54	2.3	2.3e+02	3.2	1.1	1	10	1617	1626	1617	1630	0.95
39	54	0.0066	0.67	11.2	4.2	3	23	1673	1693	1671	1693	0.96
40	54	0.0083	0.84	10.9	0.1	2	23	1721	1743	1720	1743	0.95
41	54	0.015	1.5	10.0	0.6	1	23	1763	1786	1763	1786	0.96
42	54	0.00027	0.027	15.5	1.4	1	23	1791	1814	1791	1814	0.95
43	54	1.8e-05	0.0018	19.2	1.6	1	23	1819	1842	1819	1842	0.95
44	54	0.011	1.1	10.5	2.2	2	21	1845	1864	1845	1867	0.95
45	54	0.27	28	6.1	4.3	2	21	1874	1893	1874	1894	0.94
46	54	0.0084	0.85	10.8	0.9	1	23	1950	1973	1950	1973	0.93
47	54	8.4	8.5e+02	1.4	0.0	2	23	2001	2023	2000	2023	0.80
48	54	1.5	1.5e+02	3.8	0.1	2	23	2046	2069	2045	2069	0.94
49	54	0.00012	0.012	16.7	0.3	3	23	2076	2097	2075	2097	0.94
50	54	0.013	1.3	10.3	4.5	2	23	2102	2124	2101	2124	0.93
51	54	0.012	1.2	10.4	1.9	1	23	2129	2152	2129	2152	0.97
52	54	7.2e-06	0.00073	20.5	5.7	1	23	2156	2179	2156	2179	0.97
53	54	0.00087	0.088	13.9	0.3	3	23	2187	2207	2185	2207	0.96
54	54	0.00017	0.018	16.1	0.6	1	23	2213	2235	2213	2235	0.97

Sequence Information

Coding Sequence: ATGGAAATCAAAATTGACATATCAGATATAAGATGTCAGATATGCGACGAACCGTTCCCAACGATCGATGAGGTGTTGAATCACCTCAATGTTAAGCACAAGCTGGAATATGATAAAGGCGTCGAAATGGCTATAGAGGAGTACCAATTGGCCGATCTAAAATGTCTGGCGTGTGACGAAAAGTTTTCCTATTTCGGTTATTTGGTATCCCACGTGAACAATAATCATCCAAAGAATTGTCTGATATGTGATAATTGCAGCCAAAAATTCAATAAGAAGAGAGACCTATTCTCGCATATGAAAAACTATCACAGAGAAGGTGGCTATAGATGCGATTTATGCCCCCAGAAATTTACCTCCCTGAATATCCTAAGAAAACATAGAAACAATCGGCATTTGACGAGGTGTAACATTTGTTTGTTAAAGCTACCCTCGGCGGCGTTGAAACAGAAACATATGGATTTGGAGCATCCGGATGACGGTTCCCTAACATGTGATAATTGCTGCAAGGAGTTTCACACGAAACAAGGCTTAAAAATGCATACGAGGAAGTGTAAAGGGGTTGAGGAAGTATTGGAAATTGGCATTAAAAGAGAGGGGTATGAGGCTATGGATGTAGACGATAGCTACGAAGATCTGGTGAAGAGACCTAGCGTGAAACAAATCAGGGAGAACATTGTCACAATCATAAATATGTCTACGGCAATACCTTTTAATTTTTACAAGAACAAATTTAATTGTTTCTATTGCTCGAAAGACTTCGCAGATTCGGATTCAATGCGGGATCACACGGTCGTAGAGCACCCAGTGTGCGACGTAAAGCAGAAATGTATTAGGAAATGTAGGGAATCGGTTGCGTGCGTTAAAATTGACATATCGACGCTGGCTTGTAAAGTTTGTTTCCAGTCGATTAGCGAGTTAGATATTCTAATTGACCATTTAATAGATAAGCATAATGCTAATTATGATAAATCTATAACGACATGCTTACAACCCTATAAACTAATTAAAGATCATATGGCGTGTCCTGTTTGTCCGAGCGAGGTTTTCCGGTTTTTCGGTACGCTACTCAAACATATGAATAACAGACATACGAACAATAATATCATTTGCGTGTACTGCGGACAGACTTTCAGGCGCGATCAAAATCTTAGGGTCCATATATGGCGGCACCACAGAGACGGTAGGTTCAAATGTAACATTTGCGGCGCCGAGTGTAATATACCTTCCCGTTTGTATATGCACATGGCTAAAGCTCACGGTGTAAAAGCGGCCAAGTGTCCGAAATGTCCCGAATCGTTTGCCACGCAGTATTTGCGGCAAAAACATCTGATCGACGTTCACGAATCGGGCCATAAGTGTTCCTACTGCGGCAAACTGTTCACTCGGAACTCTTTCATGCGGGACCACGTTAGGCGCACCCATTTGAAGGAAAAGAACGTCGAGTGTACGATATGTAACATGAAATTCTTTAACAATATTCTCTTGAGGAGGCATATGGTGAAGCACAGTGGCGAGAAAAATTTCAACTGTGACATATGCGAACAAAATCACGAGGCAATCGCCGAAGAGACTGCGATGCGCAGAAGAAGAATTCTGGCAATTCTGTTTAATAATACAACGATTATACCGTTTAAATGGCGGGGGAACTACATTTGCTTTTACTGCGATTTAAAATTTGTTCAATATAAAGAACTGTACGAACACACAAAGTCACACGGGCCTTATGATATACATGGTGTTTCTTTAAAATGTAATCTCGCGGAATCATTTAAAGAACACATGCAAAATTTCCGAGAAGTGAAATTCGATATATCTAATCTAATATGTGAACTGTGCGAGAGATCATTCGATGATTTATCCGCTGTGATTAATCATTTGATTAATAAACACAAATTCGATATGGATAAAGATATAGATATTTCTGTAGAGGGATACAATTTAAAAGAACTGAAATGCACGTTATGTGAAAAAAAGTTCGATTGTATCGAAGATTTGATTTTGCACGTTTATATCAAGCACTCGCAAAGATCTTCAACTGAACAGACGTGCCCTATTAGAAAATATTCTAAAGAGCTTCTTTCGAAATTTCCAGGAAGCCGTCAGTCAAAAGAAGGAAATACAAAATTGTATACCGCTAGAATTGTTGAAACCTCTGAATCTCTTGATATTTCTCGTCGTCAGATGATAAAATTGAACCGGAAAAATCTCGCGTGCATTATAAAAATGTCTACTGCAATACCTTTTAAATATTATCAGAATCGATTTACTTGTTTCTACTGTTCAAAAACCTTTTCAGAGCACGAGGAGATGAGGGGGCACACCAATTCTGTCCACTCCTTTGCGGAGATCGAGGGTAGTCTACCGGAAATCCTCAAGAAGATCACTTCACGCGCTACCGTAGACATTTCTTCGTTGTCTTGTAGAGTATGTAATGAACATTTCGAtgagttatatatattaattgatcATTTGATTGTGGCTCATCACGTTAAATGCGACAGAAGTGTAATCGGTGCAATACAGGCTTTTAAATTAGTCAAATATGAAATGGAATGTCCGTCTTGTCCgaataaattttcatattttaatacgTTATTGAAACACATAAATGAAGAACATAAAGCGAAATTGCATCTGTGTTCGACTTGTGGCGCTCGGTTCGGAAGCGAAGCTGTGCTTACGTCACACGTAACTCGGACTCATAGCAAAGCTGCGTTTCAGTGTACAGAGTGCAATGCCAGTTTCAAAGTATTGATTAAACTGAAAAGTCACAAAGCAAGAGTGCATGGATCAAAAGAGTTCCCGTGCTCGATGTGCGAAGAGAAATTCTTAACCGATTACGGTAAACACAAGCATTTGCTGACGATGCATGGCATCGGTCACAGATGTACCCACTGCGATAGAATGTTCATAAAGGATTCCTTCATGAGGAACCACGTTCGTAGAATTCATCTAGTGGAACGTGAGATCGAGTGTACGGTCTGCAAAAAAAAGTTCTTCGATAAGGAACAACTTAAATTCCATATGGTTAAACATATCGGTTCCAGAGATTTTCATTGCGATATATGTGGCAAAGGATTCTTCTGGAAGAAGAACCTTCGTGTACATATAAACTCGCATAGTAAACGCACCGATAAAAATGGACGAGATAAGACGCCCAGTTGCAATAAACTGAGGCGGAGAAACCTtcagattttatttaataatacaacGTTGATTCCCTTCAAATGGCGCGGGAAGTACATGTGCTTTTATTGCGGGGAAGATTTGCCAGGGTACGGTGAACTGAGAAAGCACACGAAAGCGCACGGCTTTTGTTCTGAAACTGATCGAGCGATTAAACTTGTTAAAGCAGGCGATGTTGAAGTTAAAATCGATGTATCGAACATAGCTTGTAAATTATGCGAAGACACGTTTAACGAATTTGATGAAATAGTCGATCATTTGTATACTAAACATGGACTATCGTATGATAGAGAGGTGCGTTTAGAAATAACGAAATACCGGCTCGCAGATCTCAAATGTTTACTTTGTGATCAACAATTTAGTTACTTCAATAAATTGGTGATTCACGTAAATAATTGTCATCCGAACCAACGCTTGTTATGTCATGAATGCGATCAGAAATTTAATAAAAGACGGGACTTAGATGCACATATTAGATCacgtcataaaaaaaattacacctgCTTAAAGTGTTCTGTCACGTTCAAATCTAATTCAGAGCTACACACTCACAAAATGAACGCGCACGCCTCCTCATGTAATATTTGTTTTAGACAGTTCTCTTCAGCAAACAAAAGGTTAAAACATATGAAGGTAGATCATGTCTCTGATGCTTTACAGTGTGGATTTTGCCTTAAAGTTATGACTACAAGGCAGGGTTTCCTGCGACACGCAACAACTTGCACACGCACTATTGATGGTGTTAAAATATCCGAACCCATATTAGTAGGTGACGAAGAAAAGAAACCTACGGTTAAACAAATAAGAAATGATTTAGCATGCATCCTGAATATGTCTACAGCTATCCCTTTTAAACATTACATGGGTAAATTTAGATGTTTCTATTGTTCAAAAGATTTCACGGATTGCGATGATCTAAAACAACACACTGTTATGGAGCATCCTTTCTGTGATATCAGATTAAAGTCTATGAAATTGCGAAATAGGGAAGAGGGTCGTATTAAAATTGATACGTCCAAACTCTCCTGCAAAGTTTGCTATGAATCAATGCctaatttaaatcatttaatagACCATCTAACAACAGAACACAAAGCTGATATAGATAAAACTATCGATATCCAGTTGCAGCCGTACAAACTTATGAAGGACAACTTTGCCTGTCCTATTTGCGGGAAAGTTTATAGATATTTCGCGATGCTGTTGAAACATGTTAGTGTTACACATACGGACAACAAAAACGTCTGTGCTTATTGCGGTAAATGCTTTAGATCTCACCCAAATCTTCGTGCTCACGTATCGCGGCGACATAGAGCCGCGGCGTTTAGATGCAAGCATTGCAACTCGGAATTTATATCTAATAATCACCTGCGAACACATTTGGGCAAAGCACACGGCGCCAAAATTGTGCAATGTCTGGAGTGCAAAGAGAGATTCACGTCGCGCTATTTCATGCAGAGGCATTTGATCAACTCGCATAGATCTGGTCATAAGTGTACTTACTGCGGCAAATTGTTTATTAGGAATTCGTTCATGGTTAATCATATAAGGCGGACGCATTTTAAGGAGAAGAATGTCGAATGTTCTTTGTGCTGCGAAAGGTTTTTTGATGCGCAGCGCCTAAAAATGCATATGGTGAAACATTATGGGGAAAGAAATTTCCATTGCGATGTTTGTGGAAAGAAATTTCTTTGGAAGAAAAACCTGAAAGATGAAATTCCGCAAGGACCGTACGAGAACTGTACCTCTGAGAGAAGGAGGAAAAACTTACAAATTCTATTCAACAACACAACTATTTTGCCGTTCAAATGGCGAGGGAGGTGCCTCTGTTTCTATTGCGGAAAGAGTTACACGGAGTATACGGATTTTAGGAAACACACCCAATCACACGGCCCTTGCACCACGAAAGACTATTCTTTGAAACTGATAAAAGGAAAtcacattgaaataaaaatcgaTGTCTCGGATATCACTTGTGAAATTTGCAATGAAGCTTTCACTACATTCGACGAAATAATCGATCATTTAATCAGAAAACACAACATGGACTACGATAAAAGTATAGACACGCCTTTTCAAGAATATAGACTTGCGGATTTCCGTTGTCTACTCTGCGATCAACAGTTTACTTACTTCGGATATTTGGTGAATCATGTCAACAATGTTCATCcgcaaaataattatatttgtaattattgcgGTGCGAGTTTCAACAAGAAAAGAGATTTAGCGCTGCATTTACAACACAATCATCGCCAAGGAGGATACTCTTGTCCAGAATGTCCTCAGAGCTTCGAATCTCATAGTCTTCTTCGTAAGCATCAAAACGACTTTCATTTCAGGAAATGTAAACGTTGCGGGATGAACTTTGCTTCCTATAGTCTACTATTAAAACATATACAGTGTGATCATCCAGATGACGGTAGCGCCAAATGTCCACATTGTTCCAAACAATGTCACTCGTCTCAAGGTTTAAAACAACACATAGCCAAGTGTAAAATTAACATGCTTGCACAAATAGATCATTCTGTAGATAACAACATTTCCCTCGACAATATACTGCAACCGAAAAAGAAACAAAACGTTTTACAAATACGACAGAATATTCAGTGCGTTTTGAACATGTCTACAGCGTTACCGTTTAAGTTTTTCGcgaaatattattgtttttactgtTCGAAAAAATTCGTTGAATTTGACGAACTAAGAGAACACACTGTAGTAGAACATCCTGTATGCGATTTAAAGTCAAAGAGCATGATGAAATGTAAAGGAGAGAGAATAACCGTAAAAGTAGATATAACAGACCTGAGCTGTAAAATTTGCGGTCAGGCTATGGACAATTTAGACATACTAATAGATCACCTAATCTCACAACATGACGCCAACTACGATAAAACCGTAATAGGCTGTCTAGAGCCTTACAGAGTGATAAAAGACAACATGCCATGCCCGATCTGTCCAAATCGCGTGTTTAGATATTTTGGAATCCTACTTAGGCATATAAACTCTGAACACAGTAACAACAATAAGATCTGCGATTTTTGCGGCCGCAGTTTCAAGAATGTAACAAATCTAAAGGTGCATATTACTTACGCACACACCGGCGCCTGCGAGTGCGACATTTGCGGCACGAAGTACAAGAACCAGTGGTGTTTGAGTCGGCACAAAGCGAAAAGCCACAACGCGAAAGACTACAAATGTCCGAAATGCCCAGAGCTGTTCCAGTCAGAGTACCACAGGCAAAAACATCTGATTAAAGTCCACGACATCGGTCACAAGTGTACGTACTGCGGGAAAATGTTCACCAGGAACTCGTTCATGAAGAACCATATACGTAGGACGCATCTGAAGGAGAAGAATGTGATCTGTTCGGTCTGCAACGAGAGATTCTTCGACAACTACCTGCTGAGAATGCATATGGTGAAGCACGAAGGCGAGCGGAAGTTTAGCTGTGAAGTTTGCGGCAAAGCGTTTCTTAGGAGAAGCAACCTCAGTTCGCATAAGGAAATGCATAAGAAGTATGGACATTTACAGCCGTAA
Protein Sequence: MEIKIDISDIRCQICDEPFPTIDEVLNHLNVKHKLEYDKGVEMAIEEYQLADLKCLACDEKFSYFGYLVSHVNNNHPKNCLICDNCSQKFNKKRDLFSHMKNYHREGGYRCDLCPQKFTSLNILRKHRNNRHLTRCNICLLKLPSAALKQKHMDLEHPDDGSLTCDNCCKEFHTKQGLKMHTRKCKGVEEVLEIGIKREGYEAMDVDDSYEDLVKRPSVKQIRENIVTIINMSTAIPFNFYKNKFNCFYCSKDFADSDSMRDHTVVEHPVCDVKQKCIRKCRESVACVKIDISTLACKVCFQSISELDILIDHLIDKHNANYDKSITTCLQPYKLIKDHMACPVCPSEVFRFFGTLLKHMNNRHTNNNIICVYCGQTFRRDQNLRVHIWRHHRDGRFKCNICGAECNIPSRLYMHMAKAHGVKAAKCPKCPESFATQYLRQKHLIDVHESGHKCSYCGKLFTRNSFMRDHVRRTHLKEKNVECTICNMKFFNNILLRRHMVKHSGEKNFNCDICEQNHEAIAEETAMRRRRILAILFNNTTIIPFKWRGNYICFYCDLKFVQYKELYEHTKSHGPYDIHGVSLKCNLAESFKEHMQNFREVKFDISNLICELCERSFDDLSAVINHLINKHKFDMDKDIDISVEGYNLKELKCTLCEKKFDCIEDLILHVYIKHSQRSSTEQTCPIRKYSKELLSKFPGSRQSKEGNTKLYTARIVETSESLDISRRQMIKLNRKNLACIIKMSTAIPFKYYQNRFTCFYCSKTFSEHEEMRGHTNSVHSFAEIEGSLPEILKKITSRATVDISSLSCRVCNEHFDELYILIDHLIVAHHVKCDRSVIGAIQAFKLVKYEMECPSCPNKFSYFNTLLKHINEEHKAKLHLCSTCGARFGSEAVLTSHVTRTHSKAAFQCTECNASFKVLIKLKSHKARVHGSKEFPCSMCEEKFLTDYGKHKHLLTMHGIGHRCTHCDRMFIKDSFMRNHVRRIHLVEREIECTVCKKKFFDKEQLKFHMVKHIGSRDFHCDICGKGFFWKKNLRVHINSHSKRTDKNGRDKTPSCNKLRRRNLQILFNNTTLIPFKWRGKYMCFYCGEDLPGYGELRKHTKAHGFCSETDRAIKLVKAGDVEVKIDVSNIACKLCEDTFNEFDEIVDHLYTKHGLSYDREVRLEITKYRLADLKCLLCDQQFSYFNKLVIHVNNCHPNQRLLCHECDQKFNKRRDLDAHIRSRHKKNYTCLKCSVTFKSNSELHTHKMNAHASSCNICFRQFSSANKRLKHMKVDHVSDALQCGFCLKVMTTRQGFLRHATTCTRTIDGVKISEPILVGDEEKKPTVKQIRNDLACILNMSTAIPFKHYMGKFRCFYCSKDFTDCDDLKQHTVMEHPFCDIRLKSMKLRNREEGRIKIDTSKLSCKVCYESMPNLNHLIDHLTTEHKADIDKTIDIQLQPYKLMKDNFACPICGKVYRYFAMLLKHVSVTHTDNKNVCAYCGKCFRSHPNLRAHVSRRHRAAAFRCKHCNSEFISNNHLRTHLGKAHGAKIVQCLECKERFTSRYFMQRHLINSHRSGHKCTYCGKLFIRNSFMVNHIRRTHFKEKNVECSLCCERFFDAQRLKMHMVKHYGERNFHCDVCGKKFLWKKNLKDEIPQGPYENCTSERRRKNLQILFNNTTILPFKWRGRCLCFYCGKSYTEYTDFRKHTQSHGPCTTKDYSLKLIKGNHIEIKIDVSDITCEICNEAFTTFDEIIDHLIRKHNMDYDKSIDTPFQEYRLADFRCLLCDQQFTYFGYLVNHVNNVHPQNNYICNYCGASFNKKRDLALHLQHNHRQGGYSCPECPQSFESHSLLRKHQNDFHFRKCKRCGMNFASYSLLLKHIQCDHPDDGSAKCPHCSKQCHSSQGLKQHIAKCKINMLAQIDHSVDNNISLDNILQPKKKQNVLQIRQNIQCVLNMSTALPFKFFAKYYCFYCSKKFVEFDELREHTVVEHPVCDLKSKSMMKCKGERITVKVDITDLSCKICGQAMDNLDILIDHLISQHDANYDKTVIGCLEPYRVIKDNMPCPICPNRVFRYFGILLRHINSEHSNNNKICDFCGRSFKNVTNLKVHITYAHTGACECDICGTKYKNQWCLSRHKAKSHNAKDYKCPKCPELFQSEYHRQKHLIKVHDIGHKCTYCGKMFTRNSFMKNHIRRTHLKEKNVICSVCNERFFDNYLLRMHMVKHEGERKFSCEVCGKAFLRRSNLSSHKEMHKKYGHLQP

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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