Basic Information

Insect: Lerema accius
Gene Symbol: -
Assembly: None
Location: scaffold549:387164-461957[+]

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 58 0.39 24 5.6 0.9 1 23 258 280 258 280 0.98

2 58 1.6 1e+02 3.6 0.1 2 23 348 369 347 369 0.93

3 58 0.1 6.2 7.4 0.7 1 23 373 395 373 395 0.96

4 58 0.01 0.64 10.5 1.0 1 15 401 415 401 421 0.85

5 58 0.23 14 6.3 1.1 2 23 424 446 423 446 0.89

6 58 5.8e-06 0.00036 20.8 1.3 1 23 452 475 452 475 0.98

7 58 0.00022 0.014 15.8 1.8 1 23 481 503 481 503 0.98

8 58 2e-06 0.00012 22.2 1.9 1 23 509 531 509 531 0.99

9 58 2.2e-06 0.00014 22.1 2.7 1 23 537 559 537 560 0.96

10 58 0.027 1.7 9.2 1.8 1 23 613 635 613 635 0.97

11 58 2.5 1.5e+02 3.1 0.3 3 23 660 681 658 681 0.94

12 58 0.00079 0.049 14.1 0.3 2 23 696 717 695 717 0.96

13 58 0.0096 0.59 10.6 1.1 1 23 721 743 721 743 0.98

14 58 0.013 0.78 10.3 0.5 1 23 750 773 750 773 0.96

15 58 0.00029 0.018 15.4 1.7 1 23 808 831 808 831 0.97

16 58 0.00065 0.04 14.3 1.8 1 23 837 859 837 859 0.98

17 58 9.8e-06 0.00061 20.1 0.6 1 23 865 887 865 887 0.99

18 58 0.05 3.1 8.4 6.0 1 23 894 916 894 917 0.96

19 58 0.57 35 5.1 0.8 1 23 997 1020 997 1020 0.96

20 58 3.7 2.3e+02 2.5 0.2 2 23 1045 1067 1044 1067 0.92

21 58 0.11 6.8 7.3 5.2 1 23 1079 1101 1079 1101 0.98

22 58 0.0037 0.23 12.0 3.1 2 23 1106 1127 1105 1127 0.96

23 58 0.0016 0.1 13.1 0.2 1 23 1132 1155 1132 1155 0.96

24 58 3.9 2.4e+02 2.4 1.5 2 23 1161 1183 1160 1183 0.93

25 58 0.004 0.25 11.8 3.1 1 23 1189 1212 1189 1212 0.97

26 58 6.1e-05 0.0038 17.6 1.6 2 23 1218 1239 1217 1239 0.97

27 58 7.3e-07 4.5e-05 23.6 1.1 1 23 1245 1267 1245 1267 0.98

28 58 7.2 4.5e+02 1.6 8.9 1 23 1289 1312 1289 1312 0.98

29 58 0.024 1.5 9.4 0.5 1 23 1318 1341 1318 1341 0.93

30 58 1.7 1.1e+02 3.6 1.4 1 15 1347 1361 1347 1364 0.85

31 58 0.023 1.4 9.4 5.0 1 23 1397 1419 1397 1419 0.96

32 58 0.014 0.84 10.2 0.4 2 23 1426 1448 1425 1448 0.95

33 58 7.3 4.5e+02 1.6 6.0 1 23 1466 1489 1466 1489 0.98

34 58 0.04 2.5 8.7 0.2 1 23 1495 1518 1495 1518 0.92

35 58 0.00049 0.03 14.7 1.5 1 23 1524 1547 1524 1547 0.97

36 58 0.13 7.9 7.1 3.5 1 23 1581 1603 1581 1603 0.98

37 58 7.7e-05 0.0048 17.2 0.3 2 23 1610 1632 1609 1632 0.95

38 58 0.0005 0.031 14.7 0.4 2 23 1802 1824 1802 1824 0.97

39 58 0.0011 0.065 13.7 0.1 1 23 1830 1852 1830 1852 0.98

40 58 0.00052 0.032 14.6 3.8 1 23 1858 1880 1858 1880 0.98

41 58 0.022 1.4 9.5 6.8 1 23 1912 1935 1912 1935 0.96

42 58 0.002 0.13 12.8 0.3 2 23 1971 1993 1971 1993 0.96

43 58 2.5e-05 0.0016 18.8 0.4 1 23 1999 2021 1999 2021 0.96

44 58 0.056 3.4 8.2 8.1 1 23 2058 2081 2058 2081 0.96

45 58 0.0035 0.22 12.0 2.8 2 23 2117 2139 2117 2139 0.96

46 58 0.00039 0.024 15.0 0.5 1 23 2145 2167 2145 2167 0.96

47 58 0.0002 0.013 15.9 3.8 1 23 2173 2195 2173 2195 0.97

48 58 0.00051 0.031 14.7 1.1 1 23 2231 2253 2231 2253 0.96

49 58 5.7e-06 0.00036 20.8 3.3 1 23 2259 2281 2259 2281 0.98

50 58 1.8 1.1e+02 3.5 0.2 3 23 2334 2355 2332 2355 0.93

51 58 0.1 6.4 7.4 0.1 2 23 2380 2402 2379 2402 0.95

52 58 0.13 8.2 7.1 1.6 2 23 2425 2446 2424 2446 0.95

53 58 0.00081 0.05 14.0 1.5 1 23 2450 2472 2450 2472 0.99

54 58 0.14 8.4 7.0 4.4 1 13 2477 2489 2477 2500 0.87

55 58 8.9e-05 0.0055 17.0 4.8 3 23 2510 2531 2508 2531 0.96

56 58 3.5e-05 0.0021 18.3 1.5 1 23 2538 2561 2538 2561 0.98

57 58 0.0082 0.51 10.9 1.7 1 23 2567 2589 2567 2589 0.96

58 58 4.8e-06 0.0003 21.0 2.3 1 23 2595 2617 2595 2617 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	58	0.39	24	5.6	0.9	1	23	258	280	258	280	0.98
2	58	1.6	1e+02	3.6	0.1	2	23	348	369	347	369	0.93
3	58	0.1	6.2	7.4	0.7	1	23	373	395	373	395	0.96
4	58	0.01	0.64	10.5	1.0	1	15	401	415	401	421	0.85
5	58	0.23	14	6.3	1.1	2	23	424	446	423	446	0.89
6	58	5.8e-06	0.00036	20.8	1.3	1	23	452	475	452	475	0.98
7	58	0.00022	0.014	15.8	1.8	1	23	481	503	481	503	0.98
8	58	2e-06	0.00012	22.2	1.9	1	23	509	531	509	531	0.99
9	58	2.2e-06	0.00014	22.1	2.7	1	23	537	559	537	560	0.96
10	58	0.027	1.7	9.2	1.8	1	23	613	635	613	635	0.97
11	58	2.5	1.5e+02	3.1	0.3	3	23	660	681	658	681	0.94
12	58	0.00079	0.049	14.1	0.3	2	23	696	717	695	717	0.96
13	58	0.0096	0.59	10.6	1.1	1	23	721	743	721	743	0.98
14	58	0.013	0.78	10.3	0.5	1	23	750	773	750	773	0.96
15	58	0.00029	0.018	15.4	1.7	1	23	808	831	808	831	0.97
16	58	0.00065	0.04	14.3	1.8	1	23	837	859	837	859	0.98
17	58	9.8e-06	0.00061	20.1	0.6	1	23	865	887	865	887	0.99
18	58	0.05	3.1	8.4	6.0	1	23	894	916	894	917	0.96
19	58	0.57	35	5.1	0.8	1	23	997	1020	997	1020	0.96
20	58	3.7	2.3e+02	2.5	0.2	2	23	1045	1067	1044	1067	0.92
21	58	0.11	6.8	7.3	5.2	1	23	1079	1101	1079	1101	0.98
22	58	0.0037	0.23	12.0	3.1	2	23	1106	1127	1105	1127	0.96
23	58	0.0016	0.1	13.1	0.2	1	23	1132	1155	1132	1155	0.96
24	58	3.9	2.4e+02	2.4	1.5	2	23	1161	1183	1160	1183	0.93
25	58	0.004	0.25	11.8	3.1	1	23	1189	1212	1189	1212	0.97
26	58	6.1e-05	0.0038	17.6	1.6	2	23	1218	1239	1217	1239	0.97
27	58	7.3e-07	4.5e-05	23.6	1.1	1	23	1245	1267	1245	1267	0.98
28	58	7.2	4.5e+02	1.6	8.9	1	23	1289	1312	1289	1312	0.98
29	58	0.024	1.5	9.4	0.5	1	23	1318	1341	1318	1341	0.93
30	58	1.7	1.1e+02	3.6	1.4	1	15	1347	1361	1347	1364	0.85
31	58	0.023	1.4	9.4	5.0	1	23	1397	1419	1397	1419	0.96
32	58	0.014	0.84	10.2	0.4	2	23	1426	1448	1425	1448	0.95
33	58	7.3	4.5e+02	1.6	6.0	1	23	1466	1489	1466	1489	0.98
34	58	0.04	2.5	8.7	0.2	1	23	1495	1518	1495	1518	0.92
35	58	0.00049	0.03	14.7	1.5	1	23	1524	1547	1524	1547	0.97
36	58	0.13	7.9	7.1	3.5	1	23	1581	1603	1581	1603	0.98
37	58	7.7e-05	0.0048	17.2	0.3	2	23	1610	1632	1609	1632	0.95
38	58	0.0005	0.031	14.7	0.4	2	23	1802	1824	1802	1824	0.97
39	58	0.0011	0.065	13.7	0.1	1	23	1830	1852	1830	1852	0.98
40	58	0.00052	0.032	14.6	3.8	1	23	1858	1880	1858	1880	0.98
41	58	0.022	1.4	9.5	6.8	1	23	1912	1935	1912	1935	0.96
42	58	0.002	0.13	12.8	0.3	2	23	1971	1993	1971	1993	0.96
43	58	2.5e-05	0.0016	18.8	0.4	1	23	1999	2021	1999	2021	0.96
44	58	0.056	3.4	8.2	8.1	1	23	2058	2081	2058	2081	0.96
45	58	0.0035	0.22	12.0	2.8	2	23	2117	2139	2117	2139	0.96
46	58	0.00039	0.024	15.0	0.5	1	23	2145	2167	2145	2167	0.96
47	58	0.0002	0.013	15.9	3.8	1	23	2173	2195	2173	2195	0.97
48	58	0.00051	0.031	14.7	1.1	1	23	2231	2253	2231	2253	0.96
49	58	5.7e-06	0.00036	20.8	3.3	1	23	2259	2281	2259	2281	0.98
50	58	1.8	1.1e+02	3.5	0.2	3	23	2334	2355	2332	2355	0.93
51	58	0.1	6.4	7.4	0.1	2	23	2380	2402	2379	2402	0.95
52	58	0.13	8.2	7.1	1.6	2	23	2425	2446	2424	2446	0.95
53	58	0.00081	0.05	14.0	1.5	1	23	2450	2472	2450	2472	0.99
54	58	0.14	8.4	7.0	4.4	1	13	2477	2489	2477	2500	0.87
55	58	8.9e-05	0.0055	17.0	4.8	3	23	2510	2531	2508	2531	0.96
56	58	3.5e-05	0.0021	18.3	1.5	1	23	2538	2561	2538	2561	0.98
57	58	0.0082	0.51	10.9	1.7	1	23	2567	2589	2567	2589	0.96
58	58	4.8e-06	0.0003	21.0	2.3	1	23	2595	2617	2595	2617	0.98

Sequence Information

Coding Sequence: ATGAGTACTGTTAAAAACAACGGTCCGATTATAGACCCAGGACTGTGTAGATGTTGCAGGGCAATCAAAAAATGTAGAATTCTGACTTCAGAGTATACGTGGATGCAGCAAAAAGAGGTCTATGCTGATATGATCATGGATTGCTTCGGTATTCTGCTATCACATGTTGATGAGGAAAGGGATTGTGGAGTTTGTGCCACTTGTGTGGTGCGGCTAAGAGATGCTGTCGCGTTCCGGGCGCAGGTTTTGCAGTGTGAAGAGCTATTCCTACACTCCAAACTGGGCGATCGGGATGGAGAAGATGCAAAAAAGCCCACCACCATCGAACCCAAAATAGAGCCTAAAGACGACACTAGCGACCACAACTCCATAGGCGGCAGAGACCATGATGACGTCATCATCACCGGCTATGACATCCCTGAAGATGTAAAACCGAAGGCAGAAGACCCAGCACTAATACCACCCCAGCCTCTGCCAGAGCCAATGGACGACCATACGTATGAAGATTTGAATGATAATGGCTATTCTGACTCCTCATCCAATTCTGACAAGCCTATCAAACGGAAATCTAAGAAGAAGAAAGGGAAAGTCAACGGAACCAAGAAGGAGAAGTCGGCTAAGAAACATAAAGCAGGCACATCCACAGTAGCAAAGCAACCGAAAGTTGTCAAAAAACCACCCGTAGAAAAGAAAAATACGTATGACCGGGACCTGGATTGTATGTCTGAGGAGAACTTGCTCACAATCATCCATTATTCCTATGTAAACAATTACTACTGCTTCTATTGTAAAGATTACTATCCTAAACCAGAGGATTTACGGGAACATACATTGTCCCATGACACAAAGCCATTTCAACTCCTAATGGGCTACAAGAAAATGCCCAAGATTGACATTACTCGGATAGATTGCAGGCTGTGTCCTGCTAAGATAGACGATCTGGAAACTTTCAAGCAACATGTGGATCAGATACACGGGAAAAAGATTTACTTTGAAGCTCCGGATAAGATGCTTCTATACAGACTTACATGGAACGATTTGGTGTGTGTAATGTGTAGAGATGTGTTTGAAGATTTCAATACGTTAAACACTCATATGGTGGAACATTTCAGCAACTATACCTGTGATATATGTGGTGTTTGCTTCTTGGAGAAGCCGAGATTGGATGCTCATTTGAAACGGCATAAGGACGATGAGAGGCACACATGTGAGATTTGTGGGAAAGTGTTCAAATCAAATCATTACAAGGATATGCATAAAGCTATTATAAGGTGTCCACGTTGTGACGAATGCTTCATGTCTTATGCGTTGAAAAACAAGCATTTGACTGATGCACATGGACAGAAGAGGGCGTATCCTTGCAACTTGTGTGACAAGGTTTATAACAGGCAGAAAACATTGACAGAACATCAAAGGCGTAATCATCAGAAAGTACTCAAACATCAGTGTGAGTATTGTGACCAAAGGTTCTACCTCCCCTCCCGGTTAAAAGAACATATGGCAACTCACACAGGGGAGCGAAACTTTAGGTGCGACTACTGTGATAAGAGCTATCCCAGATTGAAGTCATTACAGTACCATATAAGGACCCATACTAACGATAGAAGGTACAGATGTCATATATGTGGACAGGCCTTTATACAGAATGCGAGTTTGAAATCACATATAAAGAGCCACCATCCTGAATGTGACATAGACGGATTACAAAAGCCAAAGATTCGATCAAAAACAAAGTTTAAGAAACAAGAACTGGATCAAGACCTCATGGCGTATTCGAATACGATCGTAATAGTGAACAATTCGTATGTATGTCCGTTTCATACAAGAATTAGCATATATTACTGTTTCTACTGCAAAGATCAGTTCACGAACCCAACAGAATTGCGAGAACATACACTACAACACGATCCCGTGGCGTTGTTCGAGAATACGATAGAAAACAAAAAAATCCCGAAAATCGATATCACGAGAATCGATTGCAGATTGTGCGACACTAAAATCGACGACCTCAACACGTTTAAAAACCACATCACTAGCGTCCACGGAATTGACATTTATCCCTTTAAATTGACGCAAGAAAATTTGACGTGCACAGAATGTGACAGCACATTTCCGTATTTCGATGCGTTGAAGAAACATATGATCGAACATTTCGGAACGTTTATATGTGACGTCTGTGGCGCTTGTTTCTTAGAAAGAACGTCTTTACGTACGCATATAAAGTCGCACAGTAAAATCGAAGCCAATTTCCCGTGCGAAGTATGCGGAAAAAACCTCAAATCAAAGTATAGTCGATACCTGCATATCACGACGGTGCACGAGAAAAAGCCGACGGTAAATTGCTATAAATGCGACGCGAGTTTTCTTTCGTACGCGATACGGAATCGACATTTGATCGAGGTGCATGGTGACAAACGCACGTTTCCGTGTAAATTGTGCGACAAAGTGTACAACAGACGAAAAACTTTGATGGAGCATAACCGTCGAAACCATCAGAAGGTGATGCGTCATCAGTGCAATTTGTGTGACCAGAAATTCTACCTGCCATCAAGATTAAAGGAACATATGGCAACACATACCGGTGAACGGAATTATAGGTGTGAATTGTGTGACAAAACTTACCCTAGACTGCAATCGTTGCAGGACCATGTAAGAACTCATAGTACCAGTGATAAAAAATATAAATGCCATTTATGCGCTTCGGCATTTACTCAACACGCGAATTGGAAAAATCATTTGAAAAATCACCATATTGGATTGCATATTAAGTTTAATAAGGATATGGCTATATGTGTGTTAGTTAAAAAAAAAAATACAAATATCTACGGTTTTATTTTGGATATAATAATTTCAAATGTAAAAACTTTATTTTCAGAGCAGCTCCCAAAAGATGTGAAGCAAGTATCTGAAAGGAAGAGAGTAATATTAACTTGTGCAATCGTACTAAAAGATACAACAGCATGCCCTTTTCGGCATCATAAAAGCTGGTTTCAATGTTTCTTTTGCTCCGAAGACTTCATGGAAATAAATTTACTGAGAAATCACATACAACAATCACATAGTGATGTAGAAGGGGAGTTAAAAAACATTAAACGTTATCCAAGATCTCTCCAAATAGATATTTCTGAATTGAAATGTCGTCAGTGTGATCTGCCCTTAACAGATGTGGAATCCATGACACAACATTTTGAAGTGAATCATCAGAAAGTTATTTACAAAGAATATTCTAGTCCATATACATGCCATATTTGCAAGCAAGAGTTCCATGTGTTCAGAACATTGACAACACATTTAAATGAACATTACGCAAATTGCATTTGTGATGTCTGCGGCAAATCCTTCCTTAACTCCAAGCGGTTAAAAGTCCATAAACGTACACACGAGAAGGGAACATATCCATGTACTGAGTGTGGGAAAATCTTAAAAACTAAGACCTCTAAGGCGAATCACATGGAAAGTGCACATTCAAAGCGCGTAGTCAAATGCCAGATATGTTTCAAACCTATGAAGCATTATAATGATAGGATCAAACATATGTCAGAAGTTCACAATATAACGCATAAGTTTAAATGCTCAATTTGTAGCCGCGAATATAATATCAAGCATTATTTAGCGACTCACATGCGTCAAACGCATGGGCATAAAAATAAAAAGTGTTTAGAGTGTGGCATGGCCTTTATAACTAATCATGGTTTAAAAAAACATATGCTACGGCATTCTGGAGAGAAACCATATTCTTGCAGCATATGTACCAAATCATATGTGCGGAGTTCTACTCTCAGGGAGCATATGAGGATTCATGAGAGTAGCGACTGTAAGAAGTTTGTTCTACAACCAGAAGACTATCGAAAGGAAGGTACTGATTACCATTGTTCACACTGTGAGAGCAAATGTACTGATATCAGAAAACTACGATACCATATCAAGACTAAACATTACAATTGGGGCAACTTTACTTGTCAAATGTGTGAGAATACGTTCCCATCACAGGCAAAATTCACAGTACACAAATTGGAAGTACATAGTATTGATGAAAGGTTCAAATGTGATAAATGTGATAGTTCCTTCAATAGTACAGTACATTACCACATGATGGGAGAGAAACTTAACTGTAAAGAATGTAAATGTGACTCGTCTTGTCCTAAGAGTCTTTATCAGCATAAGTTTCAACATAAAACGGAGAAGGATCACCACTGTAGGTTTTGTAAGAAGTCCTTTATGAAAAGAGCAAACTTAGTGGTTCATGAGAGGATACACACTGGTGACAAGAGGAAGGTCTGCAAGATTTGTAGCCAAGCGTTCGTTCAGAAGGCCAGCTTGAATTTTCATATGGCCAAGTATCATCCTGATAAGTTTGTGCTACAGCCAGAGGATTATAGAAGAGAAGGTACAGATTATCACTGCACACGTTGCGAGAACAGATACACGAAATTCTTAACGCTACGGTACCATATCAAGACGAAGCACTACAATACGCCAAAGTTTGCATGTGAGATTTGCAGTGAAACGTTCATGACGCAGGCAAGATTTACGGTACACAAGCTAGAAGTACATGGCATTGACGACAGGTTCAAATGCAATGCGTGCAATAACGTGTTTAACACCAGAGTTCAGTTACGCAAGCATATAAATAATTATCACATGATGGGAGAGAAGCATAAATGCGAACATTGCAAGTATGAATCGTTTAGCTACGAGGGCCTGTATAAGCATAAGTTCAAACATAAAACGGTGAAGGATTACCACTGCAGATTTTGTAGAAAGTCGTTTTTAAGGAAAGCTAACTTGGATCTTCATGAGAGGATTCACACGGGAGACAGAAGAAAGGTTTGCAAGATGTGTGGCCAAGCTTTTGTGCAAAAGGCCAGTTTGAATTATCACATGGCAAAGTACCATCCTGAAGATTATAGAAGAGTGGGAACTTATTTTCACTGCTTACGATGCGATAAGAAATATACGCAATTCTTAAAGCTACGGTTTCATGTCAAGATGTTGCATACGCCGAAGTTTGCGTGTGAGATTTGCATAGATAAGTTCGTGACTGAGACAAAATTTACATTGCACAAGCTCGAAGTCCATGGCATCGATTATAGGTTTAAATGTAAGGCGTTAATAGTATGTTTAATATTACGATTTGCAAACGCGTTAAATAGTTGCGCCAACAACGCACTCAGTAACCTTTTTGTTCTAGGCGCGACGGAAGCCGATCAGAATTATACAAAGACGAAAGACGCGGACGGGTCTGATTTATACACTTGTACCATCTATAGCATCAAGCAGCACTTAAGCCATGTGCATCAGAAACAGCGACCAAAATTGAGAGGGTGTTACCTCTGCATTGATAAGGTGCCAGGGCACAGAAGGGCCTTTCATATGGAGAAAGTGCACGGCATTCAAGCACCTACTTGTAACGCCTGTGGGAAGAAATTCGCGTACCCATACCAGGTGGTCAGGCATCAGCAAACATTCCACATGGGCGAGAGGATGTTCGTGTGTGATATTTGTGAAATGGATTTCGCGGCTAGGAAGAATTTGGCGCAACACATGATAAAGCATTCGACAGTGAGGAATTTCAAGTGTGAGTTGTGTCAAGAAGCGTTCAAATTGAAGAAGCATCTCACGCAACATAGGAAAATACATATGAAGAGGATTGAAAAGGTTACTGAGTGCCGGAAAAGACAAGAGGAAGAACAGAACTATATCCTGACGACAGAGGCAGACGGTACAGAATGTTATACCTGCAAAGTTTGCGAACGAGCCTTCAAGAATAAGATGTGTTTTAGACAACATTACAATCATGTGCACTTACATCTTCGGCCGAAGTTAAGAGGATGCTATCTTTGCAACGAAAAAGTGCCGGGACATTTAAGAGCGTTCCACTTGGAAAAAATGCATGATATTCCCGCCCCTACCTGCAATGCTTGTGGAAAAAAATTCGCCTTCCCATACGAAGTGCTGCGGCATCAGAAAATCTATCATATGGGGGAGAAGAAATTTGTCTGTGAAATCTGCAACATGTCCTTTGCGCGGAGGAATAACTTGAGGCAACATGTCGTGAAGCATTCGTCGGTTAGAAGTTTTAAATGCGATTATTACGATGTTTTTGTTCTAGGCAAACTGGAGGAAGAACAGAACTATACACTGACGAAAGACGCCGACGGCACGGACAATTACACGTGCAACAGTTGCCAAAAGACTTTCAAGAACCGACCGTGTTTCAAACAACATTACAATCACGTTCATTTACACCTCCGCCCTAAACTAATAGGCTGTTATTACTGCGATGTAAAAGTTCCCCCGCATATGCGAGCGTTTCATCTAGAAGACATGCATGGCATTCAGGCGCCAACATGCAATGCATGCGGAAAGAAGTTTTCGAGAAACTGCGAAGTGTTACGTCATCAACAGATCTTTCATATGGGAGAAAAGAAGTATATTTGTGATGTTTGTAACATGAGGTTCGCTAGGCGGAACAGTTTGAGACAACATGTGGTGAAACACTCGTCGGCGCGTAATTTTAAATGCGATTATTGCGATAAGGCTTTCAAGTGGAGGAAGCATTTGAGAAGACATCTTTTGTTGCATATGAAGAGCCGAGATCTTTTTAGCCAACATGTACGAGAAGTACATCTCAAACTTCGTCCGAAGGTATTACAACATCAAAAAACTTTTCACATGGGCGAAAAGAAATTCCCTTGTGCGAACTGTACGATGACTTTCAGTACTAGGCAAGATTTGAAGCGACACGAGACTTCTCACTCTTCGATACGACCATTCAAATGTGGACACTGTGGCTCCACTTTTAAAAGTAAAAAGAATCTAAATAGTCACATGCTGATACATTTAGATGTTAGAAGACACGCCTGCAAAACGTGTGAGATCTTGTCGTATCATATTAAGAAACACCATCCAGATATGCACATTTCCACGCCCGAATGCTTCGACATGTGGTCTATCAAACCGCGCTTGGAAAAGAAATTCGCTATAGCAGGTATTGCCTGTGCTTACTGTAGAGAATTGTATAAAGATATTGAGCTACTTAGCAAGCATACAAATGAAAAACATGAGAACGGAGAAATTGAGAATAAACGGTGTGACAGGGATTCCTTATCTATAAAACTTGATATCACAGACCTAAAATGTAATATCTGCAATGCAAAACTTAATGTTATAGCTGATTTGAAAAAGCATTTAATAAAAGAACATAATATAAAATTTTACTCAATCAATGACTATTTCTTAGAATTCAAATTGACCGATACAGAGATACTAAACTGTGCATTGTGTCATTCAACTTTTGAAACATTTAAAATGCTTCTACAACATATGAATGGGCATTACAGGAACTATGTGTGTGATGTGTGTGACCTAGGCTTTATTAACCGGCATAGATTAAAAATCCACAAGAAAACACATGATGTTGGTGACTTCAAATGCTCGTACTGTGACAAAGTGTTCAGCACAAGAGTCCGGCAGAAATGCCATGAGAAATATTCACACAACACTGGCCCTAGGTATACTACGAACTGCTCCCACTGTGATAAGTCTTTTACGAGTTACTACCAGAGAAACCGGCATATGAAAACTGAACATAATGTGTCAGCGGCTACGTATAAGTGTAATATATGTGATACATTCTTCGTTTTGAAGTCAAAACTAACGAGTCATATTAAAAAAGTGCATTTGTTGGAACGGAATCATATTTGTGCTCAGTGTGGGCTAGGTTTCTTCACCCAGCATTCGTTAGATGATCATATGATCAAGCATAACGGTGAACGGGTATTTGAGTGCACGGTTTGTCATAAAGCATATGCAAGGAAGAAGACTTTACGTGAGCATATGCGGATACACAATAATGATAGACGGTTCAAATGTGGTGTGTGCAGCATGGCTTTCAAAGCGAAAAGACCTCCTTTAGCAATCCATAGCTCTATTAAGCTGGTCATAAGGCCCGAAAATGCTATTATGGACTTTTTAATACAATTGGGGTTTTAA
Protein Sequence: MSTVKNNGPIIDPGLCRCCRAIKKCRILTSEYTWMQQKEVYADMIMDCFGILLSHVDEERDCGVCATCVVRLRDAVAFRAQVLQCEELFLHSKLGDRDGEDAKKPTTIEPKIEPKDDTSDHNSIGGRDHDDVIITGYDIPEDVKPKAEDPALIPPQPLPEPMDDHTYEDLNDNGYSDSSSNSDKPIKRKSKKKKGKVNGTKKEKSAKKHKAGTSTVAKQPKVVKKPPVEKKNTYDRDLDCMSEENLLTIIHYSYVNNYYCFYCKDYYPKPEDLREHTLSHDTKPFQLLMGYKKMPKIDITRIDCRLCPAKIDDLETFKQHVDQIHGKKIYFEAPDKMLLYRLTWNDLVCVMCRDVFEDFNTLNTHMVEHFSNYTCDICGVCFLEKPRLDAHLKRHKDDERHTCEICGKVFKSNHYKDMHKAIIRCPRCDECFMSYALKNKHLTDAHGQKRAYPCNLCDKVYNRQKTLTEHQRRNHQKVLKHQCEYCDQRFYLPSRLKEHMATHTGERNFRCDYCDKSYPRLKSLQYHIRTHTNDRRYRCHICGQAFIQNASLKSHIKSHHPECDIDGLQKPKIRSKTKFKKQELDQDLMAYSNTIVIVNNSYVCPFHTRISIYYCFYCKDQFTNPTELREHTLQHDPVALFENTIENKKIPKIDITRIDCRLCDTKIDDLNTFKNHITSVHGIDIYPFKLTQENLTCTECDSTFPYFDALKKHMIEHFGTFICDVCGACFLERTSLRTHIKSHSKIEANFPCEVCGKNLKSKYSRYLHITTVHEKKPTVNCYKCDASFLSYAIRNRHLIEVHGDKRTFPCKLCDKVYNRRKTLMEHNRRNHQKVMRHQCNLCDQKFYLPSRLKEHMATHTGERNYRCELCDKTYPRLQSLQDHVRTHSTSDKKYKCHLCASAFTQHANWKNHLKNHHIGLHIKFNKDMAICVLVKKKNTNIYGFILDIIISNVKTLFSEQLPKDVKQVSERKRVILTCAIVLKDTTACPFRHHKSWFQCFFCSEDFMEINLLRNHIQQSHSDVEGELKNIKRYPRSLQIDISELKCRQCDLPLTDVESMTQHFEVNHQKVIYKEYSSPYTCHICKQEFHVFRTLTTHLNEHYANCICDVCGKSFLNSKRLKVHKRTHEKGTYPCTECGKILKTKTSKANHMESAHSKRVVKCQICFKPMKHYNDRIKHMSEVHNITHKFKCSICSREYNIKHYLATHMRQTHGHKNKKCLECGMAFITNHGLKKHMLRHSGEKPYSCSICTKSYVRSSTLREHMRIHESSDCKKFVLQPEDYRKEGTDYHCSHCESKCTDIRKLRYHIKTKHYNWGNFTCQMCENTFPSQAKFTVHKLEVHSIDERFKCDKCDSSFNSTVHYHMMGEKLNCKECKCDSSCPKSLYQHKFQHKTEKDHHCRFCKKSFMKRANLVVHERIHTGDKRKVCKICSQAFVQKASLNFHMAKYHPDKFVLQPEDYRREGTDYHCTRCENRYTKFLTLRYHIKTKHYNTPKFACEICSETFMTQARFTVHKLEVHGIDDRFKCNACNNVFNTRVQLRKHINNYHMMGEKHKCEHCKYESFSYEGLYKHKFKHKTVKDYHCRFCRKSFLRKANLDLHERIHTGDRRKVCKMCGQAFVQKASLNYHMAKYHPEDYRRVGTYFHCLRCDKKYTQFLKLRFHVKMLHTPKFACEICIDKFVTETKFTLHKLEVHGIDYRFKCKALIVCLILRFANALNSCANNALSNLFVLGATEADQNYTKTKDADGSDLYTCTIYSIKQHLSHVHQKQRPKLRGCYLCIDKVPGHRRAFHMEKVHGIQAPTCNACGKKFAYPYQVVRHQQTFHMGERMFVCDICEMDFAARKNLAQHMIKHSTVRNFKCELCQEAFKLKKHLTQHRKIHMKRIEKVTECRKRQEEEQNYILTTEADGTECYTCKVCERAFKNKMCFRQHYNHVHLHLRPKLRGCYLCNEKVPGHLRAFHLEKMHDIPAPTCNACGKKFAFPYEVLRHQKIYHMGEKKFVCEICNMSFARRNNLRQHVVKHSSVRSFKCDYYDVFVLGKLEEEQNYTLTKDADGTDNYTCNSCQKTFKNRPCFKQHYNHVHLHLRPKLIGCYYCDVKVPPHMRAFHLEDMHGIQAPTCNACGKKFSRNCEVLRHQQIFHMGEKKYICDVCNMRFARRNSLRQHVVKHSSARNFKCDYCDKAFKWRKHLRRHLLLHMKSRDLFSQHVREVHLKLRPKVLQHQKTFHMGEKKFPCANCTMTFSTRQDLKRHETSHSSIRPFKCGHCGSTFKSKKNLNSHMLIHLDVRRHACKTCEILSYHIKKHHPDMHISTPECFDMWSIKPRLEKKFAIAGIACAYCRELYKDIELLSKHTNEKHENGEIENKRCDRDSLSIKLDITDLKCNICNAKLNVIADLKKHLIKEHNIKFYSINDYFLEFKLTDTEILNCALCHSTFETFKMLLQHMNGHYRNYVCDVCDLGFINRHRLKIHKKTHDVGDFKCSYCDKVFSTRVRQKCHEKYSHNTGPRYTTNCSHCDKSFTSYYQRNRHMKTEHNVSAATYKCNICDTFFVLKSKLTSHIKKVHLLERNHICAQCGLGFFTQHSLDDHMIKHNGERVFECTVCHKAYARKKTLREHMRIHNNDRRFKCGVCSMAFKAKRPPLAIHSSIKLVIRPENAIMDFLIQLGF

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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