Basic Information

Insect: Papilio glaucus
Gene Symbol: -
Assembly: None
Location: scaffold:25336-51080[-]

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 72 0.41 25 5.4 0.3 1 20 212 231 212 233 0.94

2 72 5.5 3.4e+02 1.8 3.3 1 23 288 310 288 310 0.97

3 72 0.0039 0.24 11.7 0.8 1 23 314 336 314 336 0.98

4 72 0.033 2 8.9 1.2 1 23 341 364 341 364 0.92

5 72 0.086 5.3 7.5 0.4 2 23 372 394 371 394 0.93

6 72 0.0033 0.2 12.0 6.0 1 23 401 423 401 424 0.95

7 72 0.0055 0.34 11.3 0.8 1 23 430 452 430 452 0.96

8 72 1e-06 6.2e-05 23.0 1.8 2 23 459 480 458 480 0.96

9 72 0.00027 0.016 15.4 4.6 1 23 486 508 486 508 0.98

10 72 0.013 0.79 10.1 0.2 1 23 640 663 640 663 0.95

11 72 0.76 46 4.5 0.1 2 23 689 711 688 711 0.93

12 72 0.055 3.3 8.1 3.5 3 23 736 756 734 756 0.96

13 72 0.003 0.18 12.1 0.5 1 23 760 782 760 782 0.97

14 72 0.031 1.9 8.9 0.1 1 23 789 812 789 812 0.97

15 72 0.0052 0.31 11.4 1.3 2 23 820 842 819 842 0.95

16 72 1.3e-05 0.00078 19.6 0.7 2 23 848 870 847 870 0.97

17 72 2.2 1.3e+02 3.1 1.0 1 23 876 899 876 899 0.87

18 72 3.2 2e+02 2.6 0.8 1 11 905 915 905 921 0.84

19 72 3.5 2.1e+02 2.5 0.0 1 23 1115 1137 1115 1137 0.89

20 72 0.085 5.2 7.5 3.0 1 23 1142 1165 1142 1165 0.96

21 72 0.49 30 5.2 1.1 2 23 1173 1195 1173 1195 0.88

22 72 0.0008 0.049 13.9 0.9 2 23 1203 1225 1202 1225 0.96

23 72 0.0082 0.5 10.7 3.3 1 23 1231 1253 1231 1253 0.97

24 72 2e-05 0.0012 18.9 2.8 1 23 1259 1281 1259 1281 0.98

25 72 0.00049 0.03 14.6 3.4 1 23 1287 1310 1287 1310 0.97

26 72 0.0069 0.42 11.0 1.8 1 23 1376 1399 1376 1399 0.96

27 72 0.016 0.98 9.8 0.1 2 23 1418 1440 1417 1440 0.90

28 72 0.0029 0.18 12.2 1.0 2 23 1463 1484 1462 1484 0.97

29 72 0.00099 0.06 13.6 0.1 1 23 1488 1510 1488 1510 0.97

30 72 0.66 40 4.7 3.2 1 23 1515 1538 1515 1538 0.97

31 72 0.092 5.6 7.4 1.4 2 23 1546 1568 1545 1568 0.95

32 72 7.9e-05 0.0048 17.1 0.4 2 23 1576 1598 1575 1598 0.96

33 72 0.0028 0.17 12.2 1.7 1 23 1604 1626 1604 1626 0.95

34 72 1.1e-05 0.00065 19.8 2.9 1 23 1632 1654 1632 1654 0.99

35 72 0.011 0.68 10.3 0.7 1 22 1660 1681 1660 1681 0.95

36 72 0.39 24 5.5 0.2 1 23 1725 1748 1725 1748 0.93

37 72 0.39 24 5.5 4.0 2 23 1811 1832 1810 1832 0.97

38 72 0.28 17 5.9 2.3 1 19 1863 1881 1863 1883 0.90

39 72 0.12 7.6 7.0 2.0 2 23 1894 1916 1893 1916 0.91

40 72 0.00035 0.021 15.0 0.9 2 23 1924 1946 1923 1946 0.96

41 72 0.00016 0.0096 16.1 2.3 1 23 1952 1974 1952 1974 0.98

42 72 2.1e-05 0.0013 18.9 3.6 1 23 1980 2002 1980 2002 0.99

43 72 0.00019 0.012 15.9 1.9 1 23 2008 2031 2008 2031 0.97

44 72 0.18 11 6.5 0.1 2 23 2131 2153 2130 2153 0.95

45 72 0.031 1.9 8.9 2.6 2 23 2176 2197 2175 2197 0.97

46 72 0.11 6.7 7.2 1.3 1 23 2201 2223 2201 2223 0.91

47 72 0.0012 0.075 13.3 1.0 1 23 2228 2251 2228 2251 0.96

48 72 0.02 1.2 9.5 0.5 1 23 2257 2280 2257 2280 0.93

49 72 0.047 2.9 8.4 1.1 2 23 2288 2310 2287 2310 0.96

50 72 0.0046 0.28 11.5 0.8 1 23 2316 2338 2316 2338 0.95

51 72 0.00099 0.06 13.6 0.5 1 23 2344 2367 2344 2367 0.97

52 72 0.73 45 4.6 0.4 1 10 2373 2382 2373 2385 0.92

53 72 0.038 2.3 8.6 0.3 3 23 2418 2439 2416 2439 0.91

54 72 0.027 1.6 9.1 1.0 2 23 2465 2487 2463 2487 0.93

55 72 0.13 7.8 7.0 0.4 2 23 2510 2531 2509 2531 0.97

56 72 0.001 0.061 13.6 0.5 1 23 2535 2557 2535 2557 0.98

57 72 0.043 2.6 8.5 3.4 1 23 2562 2585 2562 2585 0.95

58 72 0.85 52 4.4 3.1 2 23 2593 2615 2592 2615 0.92

59 72 0.0073 0.45 10.9 1.5 2 23 2623 2645 2622 2645 0.95

60 72 0.051 3.1 8.2 7.8 1 23 2651 2673 2651 2673 0.96

61 72 9.8e-06 0.0006 19.9 2.7 1 23 2679 2701 2679 2701 0.99

62 72 0.00023 0.014 15.6 2.7 1 23 2707 2730 2707 2730 0.98

63 72 0.0038 0.23 11.8 2.3 1 23 2783 2806 2783 2806 0.95

64 72 0.00026 0.016 15.5 0.7 2 23 2830 2852 2829 2852 0.96

65 72 0.063 3.9 7.9 0.6 2 23 2875 2896 2874 2896 0.96

66 72 0.054 3.3 8.2 0.6 1 23 2900 2922 2900 2922 0.98

67 72 5.1 3.1e+02 2.0 4.5 1 21 2927 2947 2927 2950 0.73

68 72 0.28 17 5.9 0.8 2 23 2958 2980 2957 2980 0.94

69 72 0.00088 0.054 13.8 1.1 2 23 2988 3010 2987 3010 0.96

70 72 0.0081 0.5 10.7 3.5 1 23 3016 3038 3016 3038 0.97

71 72 0.024 1.5 9.3 3.0 1 23 3044 3066 3044 3066 0.99

72 72 0.31 19 5.8 0.4 1 13 3072 3084 3072 3086 0.89

#	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	72	0.41	25	5.4	0.3	1	20	212	231	212	233	0.94
2	72	5.5	3.4e+02	1.8	3.3	1	23	288	310	288	310	0.97
3	72	0.0039	0.24	11.7	0.8	1	23	314	336	314	336	0.98
4	72	0.033	2	8.9	1.2	1	23	341	364	341	364	0.92
5	72	0.086	5.3	7.5	0.4	2	23	372	394	371	394	0.93
6	72	0.0033	0.2	12.0	6.0	1	23	401	423	401	424	0.95
7	72	0.0055	0.34	11.3	0.8	1	23	430	452	430	452	0.96
8	72	1e-06	6.2e-05	23.0	1.8	2	23	459	480	458	480	0.96
9	72	0.00027	0.016	15.4	4.6	1	23	486	508	486	508	0.98
10	72	0.013	0.79	10.1	0.2	1	23	640	663	640	663	0.95
11	72	0.76	46	4.5	0.1	2	23	689	711	688	711	0.93
12	72	0.055	3.3	8.1	3.5	3	23	736	756	734	756	0.96
13	72	0.003	0.18	12.1	0.5	1	23	760	782	760	782	0.97
14	72	0.031	1.9	8.9	0.1	1	23	789	812	789	812	0.97
15	72	0.0052	0.31	11.4	1.3	2	23	820	842	819	842	0.95
16	72	1.3e-05	0.00078	19.6	0.7	2	23	848	870	847	870	0.97
17	72	2.2	1.3e+02	3.1	1.0	1	23	876	899	876	899	0.87
18	72	3.2	2e+02	2.6	0.8	1	11	905	915	905	921	0.84
19	72	3.5	2.1e+02	2.5	0.0	1	23	1115	1137	1115	1137	0.89
20	72	0.085	5.2	7.5	3.0	1	23	1142	1165	1142	1165	0.96
21	72	0.49	30	5.2	1.1	2	23	1173	1195	1173	1195	0.88
22	72	0.0008	0.049	13.9	0.9	2	23	1203	1225	1202	1225	0.96
23	72	0.0082	0.5	10.7	3.3	1	23	1231	1253	1231	1253	0.97
24	72	2e-05	0.0012	18.9	2.8	1	23	1259	1281	1259	1281	0.98
25	72	0.00049	0.03	14.6	3.4	1	23	1287	1310	1287	1310	0.97
26	72	0.0069	0.42	11.0	1.8	1	23	1376	1399	1376	1399	0.96
27	72	0.016	0.98	9.8	0.1	2	23	1418	1440	1417	1440	0.90
28	72	0.0029	0.18	12.2	1.0	2	23	1463	1484	1462	1484	0.97
29	72	0.00099	0.06	13.6	0.1	1	23	1488	1510	1488	1510	0.97
30	72	0.66	40	4.7	3.2	1	23	1515	1538	1515	1538	0.97
31	72	0.092	5.6	7.4	1.4	2	23	1546	1568	1545	1568	0.95
32	72	7.9e-05	0.0048	17.1	0.4	2	23	1576	1598	1575	1598	0.96
33	72	0.0028	0.17	12.2	1.7	1	23	1604	1626	1604	1626	0.95
34	72	1.1e-05	0.00065	19.8	2.9	1	23	1632	1654	1632	1654	0.99
35	72	0.011	0.68	10.3	0.7	1	22	1660	1681	1660	1681	0.95
36	72	0.39	24	5.5	0.2	1	23	1725	1748	1725	1748	0.93
37	72	0.39	24	5.5	4.0	2	23	1811	1832	1810	1832	0.97
38	72	0.28	17	5.9	2.3	1	19	1863	1881	1863	1883	0.90
39	72	0.12	7.6	7.0	2.0	2	23	1894	1916	1893	1916	0.91
40	72	0.00035	0.021	15.0	0.9	2	23	1924	1946	1923	1946	0.96
41	72	0.00016	0.0096	16.1	2.3	1	23	1952	1974	1952	1974	0.98
42	72	2.1e-05	0.0013	18.9	3.6	1	23	1980	2002	1980	2002	0.99
43	72	0.00019	0.012	15.9	1.9	1	23	2008	2031	2008	2031	0.97
44	72	0.18	11	6.5	0.1	2	23	2131	2153	2130	2153	0.95
45	72	0.031	1.9	8.9	2.6	2	23	2176	2197	2175	2197	0.97
46	72	0.11	6.7	7.2	1.3	1	23	2201	2223	2201	2223	0.91
47	72	0.0012	0.075	13.3	1.0	1	23	2228	2251	2228	2251	0.96
48	72	0.02	1.2	9.5	0.5	1	23	2257	2280	2257	2280	0.93
49	72	0.047	2.9	8.4	1.1	2	23	2288	2310	2287	2310	0.96
50	72	0.0046	0.28	11.5	0.8	1	23	2316	2338	2316	2338	0.95
51	72	0.00099	0.06	13.6	0.5	1	23	2344	2367	2344	2367	0.97
52	72	0.73	45	4.6	0.4	1	10	2373	2382	2373	2385	0.92
53	72	0.038	2.3	8.6	0.3	3	23	2418	2439	2416	2439	0.91
54	72	0.027	1.6	9.1	1.0	2	23	2465	2487	2463	2487	0.93
55	72	0.13	7.8	7.0	0.4	2	23	2510	2531	2509	2531	0.97
56	72	0.001	0.061	13.6	0.5	1	23	2535	2557	2535	2557	0.98
57	72	0.043	2.6	8.5	3.4	1	23	2562	2585	2562	2585	0.95
58	72	0.85	52	4.4	3.1	2	23	2593	2615	2592	2615	0.92
59	72	0.0073	0.45	10.9	1.5	2	23	2623	2645	2622	2645	0.95
60	72	0.051	3.1	8.2	7.8	1	23	2651	2673	2651	2673	0.96
61	72	9.8e-06	0.0006	19.9	2.7	1	23	2679	2701	2679	2701	0.99
62	72	0.00023	0.014	15.6	2.7	1	23	2707	2730	2707	2730	0.98
63	72	0.0038	0.23	11.8	2.3	1	23	2783	2806	2783	2806	0.95
64	72	0.00026	0.016	15.5	0.7	2	23	2830	2852	2829	2852	0.96
65	72	0.063	3.9	7.9	0.6	2	23	2875	2896	2874	2896	0.96
66	72	0.054	3.3	8.2	0.6	1	23	2900	2922	2900	2922	0.98
67	72	5.1	3.1e+02	2.0	4.5	1	21	2927	2947	2927	2950	0.73
68	72	0.28	17	5.9	0.8	2	23	2958	2980	2957	2980	0.94
69	72	0.00088	0.054	13.8	1.1	2	23	2988	3010	2987	3010	0.96
70	72	0.0081	0.5	10.7	3.5	1	23	3016	3038	3016	3038	0.97
71	72	0.024	1.5	9.3	3.0	1	23	3044	3066	3044	3066	0.99
72	72	0.31	19	5.8	0.4	1	13	3072	3084	3072	3086	0.89

Sequence Information

Coding Sequence: ATGGAGACTACAGTGAGTAACGGCATGTGCCGGTGTTGTGCTTCGGAAGGTCTTTTCAAAGATATGTATGGAACATACAGTTGGATGGGAGAAGACGAGGTTTATGCGGATATGTTGCAATTTTGTTTTGATATAACACTATCAACAGCGGAGGATCAGAACAATGGCGGTATTTGTGAAGTGTGTATCACACAACTGCGGAATGCTGCAAATTTTAAAAAGCAGGTGCAACACACAGAGGTGCAGTTCCAGAAGCTGCAAGAACAAAAAGCTTTCTTTCCTAAACCAGTGAAGTTGGAAATATCCTTGGAAGATGAACCCGATTCTGAAAATAATATATCTGATGATTATCAATCTGGCACAGAATTTGCTGTTGCTATAAAAGAAGAAAGCCCCGAGCCGAAGCCCAAGAAAAGATCGAGCAAGACAACAAGTTCTAGAGTAAAAAAGTCCAAGACTGATTCTGGAGAGACATCTACAAAACGAACGGACGGCGAGCCTCCCAAGCGCAGAAAGAGGAGAAAGAAATCGACGGAAAGCGCTACACCGGAGCGCATTGAGCATAGAGTTAACTTGACCGCGATACTTCAGCACTCCAACGCGAGTCCCTTCCGGGACAAGACCATGCGCGGCTTCTCCTGCCTCTACTGCGCCAAGTACTTTCAGCAAATCGAAGACCTGCGCACCCACACCGCCCAGCAATCCGAAAAAGACAAAATCAACACCATGATAGACTACAAACTCAGCTACAATCCCATCAAACTCGACATCACCAACCTCTGCTTCAATGTCCACAACAAAACGATATACAGGAACATAAAAGACATCATCCTACCGTTCCGTTTGGAGAACGGACAGAACTTCACTTGCGTCATCTGTTCCGTCGTTCACATATCGTTCAAGAACCTCTATCATCACATGAGCAGTCACTATAGGAATTATTGCTGCAAGAAATGCGGCGCAGGGTACATCACAATCGCGGCACTAAGGAAGCACGGGAAGACGCATTACCAGGGCAACTTCCCTTGCGACTACTGCGAGAAGACCTACACCTCTCTAACTAAGAAGCGTAACCACGAAAAGGGCGTCCATACGGGAGGCTGGCTGAGGAACAAATGCCCTCACTGTCCTGAAATATTTGTCAGCTACTATGACAGGAGCGAGCATCTCGTCAAAGTGCACAACGAAGCACCCGTCGTGTATCCCTGCAACGCTTGCAACAGAACCTACAAGAAGAAGTTCGAGCTCAACAGACATATAAAGCACCATCATTTGCAGCAGAAGAACTATCTATGCGATAAATGTAATGCCAAGTTCTTTTCGAAGCGTGGCTTAGTCGATCATATGCTAAGGCATACGGGCGCGGAGCTGTGCGCGTGCGATGTCTGTGGAAGATCGTTCTCGAGAGCGCGCACTCTAAGAGAGCATATGCGAACCCATGACGATGATAAAAAATTCCAATGCGAGGTCTGCAAGAAGACATTTATGCAGAAGTGCAGCTTGAAGAGCCACGTTCGTCTACACCAGGACGATCTGGACATCTTCAAAGAGTTCGACGACGTCAAACACCTGATTGACAACAGAGAGTTAACGTTGAAACAGATTGCGGCAGAGAATAAAAAGAAAGCGGAGGCCTTAACAGGGATAGATAAATATAGCAATGTCCACAAAACAAAATTAAAGACAGGTGCAGATATGTATGTTTGTGTGAAATTCGTTAGATCAATGTGTAGACCTCGCCGCACCGCAGAGAGAAAGACCCGAAGACGGGTAAAGGAGGAAGTCGACGATACGAAAGTTGTTAAAACGGTCCTCCGGGAAAAGCACTTGCCAGAGATGCAAAAGCAATGGCACAACTTGACCACGTTGCTCAAATACTCCAACGCAACGCCGTTCAAGGATAGAAATGATGCGGGATACATCTGCGCTTACTGCTTCAAAACATACCCAGATCCTGAGGTGTTGAGGATTCACACGCAGTACGATCACGTGAAAGAGAAACCGACTTATAAAGCTGGTTCAGGAATGAGCAGCTTCGTCGCTTTCCTCGACGTCCTCAACCTCAAATGCACCATCTGTAATCAGCCAATGGATAACTTAAAGTCGCTGATGGATCATCTAGTCAAAGCCCACGACAAGAAGTACTACATCGGTCTCACGGACTATTTTCAACCTTTCAAGCTGACCAACGAGCAGCAGATGAACTGCTGCCTCTGTAACGAAGTCTTCCACAACATGAAGCTCCTGATGCAGCACATGAATGTGCACTTCAGGAACTTCATTTGTACGACATGCGGCGCCGGATTCGTAAACAGTTTTCGACTGAATAGACACGAAACGACGCATGTCAAAAAGAAATCGAGTTTCCCTTGCCGACAGTGCGGCCAAGTCTTCGCAGCGGAGTCCAAGAAGAAGGCGCACGTTAACACGGAGCACAAAGGTATAGCGGGCGATAGTGTTTGTCAGATCTGTAAGGCGAGATTCAAGAATTACTACCAGAAAACGCGCCACATGATGCAAATCCACAACGTGGAGGGTATCAAGTGTGAGGTCTGTGAAAAGAAGTTCAACCTCAAGTCTAACCTAATGCTGCACATGAGGAGTGTGCACTTGAAGGAGCGTCCGTACGAATGTTCCGTGTGTAACATGGGATTCTTCATCAAGCGACACATGTTGGGCCATTACTTAGCGACGCACACCAACGAGAGGAAATTCAAGTGTGACGTATGTGGGAAGGCGCGGAAGCACATGAAGAAGAATCACGGCATCTCCAAGAACAATAGCATTTCGAACTTGTCCAAGAGAGGAGAACTATCAGTCAATAACTTGTACTTTTCTCTTGTAGGTACGCATCGTACCAAGAGAAAACAAATCGGAACAGAAACTACCAAAACGTTAATCGAAAAATGCAAGAAACCTACCGAAAGTTACAAGGGCCGCGAACTAGAGAAACACCGGACGAATATCAGAGAGATATTGCAATGCTCCAACGCTACCCCGATCAGATGCTACGCGGGTATCGGGTACTTCCCGGACCCTAAGGACCTGAAGAAGCATACGCTTGAAGATCACGACGGCAAAGCCAAGCGGAATTTCATGGAGGGTAAACAGATGTTCTCTTACATTGTAAAACTCGATATAACCTCCTTGGAGTGTATCCTCTGCCGCACCAACATACCCACACTCGAGCTCCTCATCGAGCACTTGACCAATGTGCACAATAGAAAATTATATACAGATATCAATAATCATATATTGCCCTTCAAGTTTGACGACGGTACGTTGTTGAAATGCGTGTACTGTGTGACTCTACAAGAACATATGAACTCGCACTATAGGAATTACGTGTGCAACGCGTGCGACGCTGGCTTTGTCAATAAAAACATACTATTAAACCATGCAGAGGGCCACAAAAAGGGAACGTTCAAATGCGATTTTTGCGAAAAAGTCTTTGATACTTACCGCAAGAAGAAATCACACGAGAAATCTGTTCATATACACTTGAACATGCTGAACAGATGCGGCTATTGTAATGAAAAATTCAAGAACTACAGTCGGAAACTAGATCATTTGGTAAAAGTGCACGGCGTCCAATCGACGGTACTGAAATGTCAAGCTTGCGAGAAGCAATTTGATACACAAAAGTCTTTGACGGTCCATATCAAAAGGGACCACTTGTTAGAGAGGAAGCACGAGTGCCAGATTTGCGACATGAAGTTCTTTGTTACTCACGAACTGAAAGAGCATATGATAAAGCACACCGGCTTGAGGTGCTTCGAGTGCGAAGTGTGCCACAAGGCATACAAGAGGAGAAAGACTTTGAAGGAGCATCTTCGTATCCATGCTGACGATAGACGGTTTAAATGTGAACATTGTGGACAGGCATTCGTCCAGAAATGCAGCTGGCGGGGACATATGCGCGCGAAACATGGTATAGAAGGAACCACAGGTATTACGAAACACGAGTCGGAGAACGATAGAACGAACGAAAGAAGAGCGGATTGTACAATCAAATTAAAAAGGATCAAATCTCACAGTCGCGAATTGGTCAGACACCATTTTAATGTTCGCGAGGTACTACTCTGGTCCAATGCTACTCCGATAAAGTCTGAAGAAACACGTGGTTACACTTGTTGCTATTGTGATGACGTATTCCGTAAGCCGAAGGACCTAAAAGAGCATACAATTATCAATCACACAGCCGCTAATGATTTAGGAGCTTATTACGTGAAATTAGACATAAGTAATCTTCAGTGTAAAATATGCAATAAAGAAATAAATACTCTGGATGAACTAACCATCCATTTAGTCGAAGTCCACAAGAAACATCTGTATAATGATGTAAAGAACCATATGATGCCTTTCAAATTTGACGGCGATACGCTGCGCTGCTTCATCTGTTCCCGAGAGTTCCGTAAATTCAAGTTATTAATAGAGCACATGCAAATACATTGCAGAAACTACATATGTGACATCTGCGATTCCGGTTTTATAAATAGAAGGAGTTTAAAAAATCATGCCAACGTTCACAAAACTGGACAATTCCAATGCGGCGTTTGCATGAAAACATTTCATACCCAACAAAAACGAAAATCTCATGAAAGGGTAGTCCATACCCATGGATATTTACTCAATAAATGTGGATACTGTGATGAAAAATTCTCCAGCGTACAAAAAAAGGAGCAGCATATGTTTAAAGAGCACGGAATCGATATAAAACCGATAAAATGTTCGGCCTGCGACCAGATTTTCACGAGACAGAGTGGGTTAAGTAGGCACATCAAAAGGTGGCATTTGATGGAGAGAGATCACGCTTGTACCATATGCGGAGACAAGTTCTTCAGGAAGAACAACCTGATGGAGCACATGGTTAAACACAGCGGGGAAAAGAAATATCAATGCGATGTTTGTCATAAATTTTACACAAAAAAGGGGTCATTACAGGTCCACATACGAAGCCATCAGAACGACAGGCGGTTTAAATGCACGCAATGCGATCAGACGTTCCTTCAAAAAGTCACTCTTCGGCTACACATAAGTACTCAGCGTACCGTCAAATCCGAAACGAACTATGACAGCGCTGACACGGATGCTAAAGTTAAGAAAGGCATCGAATTATCCAAACATAGAATGAACATGCGCGAGATACTCGTCAATTCGAATGCAACAGGCTACGCCTGTAGCTTCTGCACGGACCAATATCCAGATCCTGCTGATCTTAAAAAACACACCATCAACTCCCATCAAAATATTTCCAAATTTATGAAAGGAAAGGATCTGTATAGATTTCACGTTAAATTGGACATAACAGATTTGCGTTGTAAAGTTTGCGACGATACCATTGATAATCTTGAAAACACACACAATAAGAATATACACACTGACGTTAAAAACCAAATATTACCGTTTAAATTCGACAGCGAGACGTTACGTTGTTTCATCTGTTCGAATAAATTTCACAAGTTCAAGACCTTGCAGGAACATATGAACGTCCATTACAGGAACTACATCTGCCAAGTTTGCGACGCCGGTTTCGTTGCCCGAGGCATCATGATCCAGCATTCCGAAAGCCACAAGTTTGGCTCCTTCACCTGCGACTACTGCTCCAAAGAATTCAATACGCTTAGAAAGAAAAAGTCGCACGAGAAATGCGTCCATACCCATTCGAACCTACTCAACAAGTGCGGTTACTGTAACGAGAAATTCAAAGATTACCGAAAGAAGCAAAAGCATCTGACAGACGCGCACGGCGTACCAACGCAACTACTGAAATGCGAGGCTTGTGACAAGACTTTCGTCGGTCAGAAGCATCTGAGTGTGCACATTAAAAGAGTCCATTTAATAGAGCGCCGTCATCAGTGTACCGATTGTGATATGACATTCTTCTCTTTGTCCGAAATGAAAATACATATGCTGAAACATACCGGGGTGCGGGATTTTAAGTGTTCAGTGTGCCACAAGTCGTACGGTAGGAGACGGACTCTGCAGGAGCATATGCGAATCCATGCGGACGATAGACGATTCAAATGCGAGTATTGTGGACAGGCCTTCGTGCAAAAGTGTAGTTGGCGTGGACACATGCGTGCAAAGCATGGTGAAAGATACGAAACCGAAATGAATCAGCCAGAAGAAAAGTTTACTCATTCTAGTGCTAAATATAAAAATGAAGAACCAAGGTCAAAGCATGGCGAAGAATTGGAAAAACATCGTACAAATGTAAGAGAAGTGTTGTACTGGTCGAACGCGACGCCGATACGGTGCAAAGGCGGCATCGATCCCCAGGACCTAAAGCGGCATTGTATAGAAGTACATGATAGAACGGCCATCGGGACATTCATGAAAGGTAGAGATATGTACGGATACTTCGTGAAACTAGATGTTACAGCGCTGCGTTGCAACATATGTAATCTATCACTCGAAACTTTGGATCAAATAATGGATCATCTGAAGAATGTTCACGAGAAAAATATAGATCGAAATATAAAGAATCATATGATACCTTTTAAATTCGAAGGCGACGATCTCAAATGTTATATTTGTAATAACATTTTTCACAGATTCCAATCACTTCAAGTTCACATGAATAATCACATCAGGAATTATGTTTGTGATATTTGCGACGCCGGTTTCGTTAATAGGCACATGTTGAGATGTCACAGAGATGGGCATAAGACTGGAACGTTTGCATGCGACCAGTGCACGAAAAGCTTTAAGAATCTAAGGACAATGAAGTTGCACGAACGTATCGTTCATCGTTCGAGCATGCCTTACAAATGCGGCTACTGTGATCAACGATTCAAAGAAAGCGTCAACAAGGACGAGCATTTGTCCGTAGTCCACGGGATTCGAAGTCCCGGAATGAAGTGCCAAGCGTGCGATAAGAAGTTTGAGTCGCAGCAAAGATGGCTGCTGCATATGAAACGTGATCATTTGATGCAGAGACAGCATGCATGCAACACGTGCGAGAAGGCGTTCTACGCAAAGCGAGAGCTGATAGACCATATGGTGAAACATACAGGTTTAAAAGAGTTCAATTGTGAGGCGTGTCCTAAATCTTACGGCAGATTGAAGACTTTAAAGGATCACATACGGAGGTTACATCCAGATGATGTTAGATTCAAATGCCCCCATTGTAGGTGGACGTTTGTGGCGAGTTTGGTACGGAACAAAAATAAATATGCAGGTTTTGAATTGTATCAATGTTTAAATATTTGCTGTGGTCCAGTGTGTAAGGACAGCCAGGGATACGGCTGCGCGTTCTGTCCCAAACAGTTTCAACAACCGACAGCTCTGAAGAAACACTTCCTCGAGGAACACAACAGCGATAGACTGATTAAATTCATGTCGAGTAAACTCTTCGAAAATGTCGTCAAACTAGACATCACCTACTTATGTTGTGCGCTCTGTGATACCGAATTTGCACAACTAAACGATTTCGTGCAACATTTAAAGACTACCCACAAAAAAGATTTGTACGTAGATACTAAAAATCAGATCCTACCCTTCAGATTCGACACCCCCGAATTGAGATGTGCCATATGTTCGACCGAGTATTCCTCATTCAAGATTCTTCAGGAGCATATGAACACGCACTTTGGTAACTATCCGTGCAAGATCTGCGGCGGGTGCTACGTTACTGAACGATTACTACAAGGGCATATCAAACGTCATGGAAATGGTGAATTCAAATGCGCCCAGTGCGATAAAACTTTCCCCAGCTTATATAAAAGACGGGAACATGTGCACAGAACCCACCTCGGCTTCAAAAAAAGGAATAAATGTCATTACTGTGATGAAAGATTTCACGATTATTGGAAGAAGGTCGACCACATGGTAAAGGTGCACGGGGCTCCGCCGGTGGAGCTGAAGTGTCAGGCTTGTGAGCGGACGTTCAACAACCAGAGGGCACTGTCGAGGCACAACAAGAAGGATCACTTGTTAGAGAAGCGGCACAACTGTTCAGAGTGCGAGATGAAGTTCTTTAGCAGCAGCTGTTTGCACAGGCATATGGCGAAACATACCGGTCTGAGGCAGTATACTTGTGACGTCTGCCACAAGTCGTATGGCAGGAAGAATACTTTAAGAGAACACATGAGGATACACGCTGATGATAGACGCTTTAAGTGTGAGTACTGCGGACAGGGATTCGTGCAAAAGTGCAGCTGGAGGGGTCACATGAGGTCCAAACATGGGGAAAATCAACGTAAGAAAAGAATCAAATCAATCATGAAAACTGACACAGAAACAAATGCAAAGTCGTCTAATTTCAAGAAGCACCAGGAGAATCTGAGATCCATCTTGCAATATTCAAACGCGAGCATGATACGGGGAAAGGATGCCGATGGATATAGTTGTAACTTCTGCCCGAAACGATTTCCTGAACCTAACGATCTCAAGTCTCACTTCCACAAAGACCACAATGATCTACAACAAATGAAACTACCGAAATTCACTGATTACTTGCTCAAACTAGATATAACCGGTTTAAAATGTAATCTATGCGATAAAGTCTTTGACAAATTGGATCTATTCACTTCTCATCTACGCAACGATCACGGAAAAAATATATACACAGATGTTAACAACGAAATAATACCTTTTAAATTCGATACTAAAGCTTTGAAATGCGCCGTATGCGGAGCTAACTTTACCACGTTTAAAATTCTACAGGAACATATGCATGTTCACTTTAGCAACTACTTTTGTGATATATGTAGTGCTGGGTTCATCACCAAGCGACGTCTGGTCGGCCATAAGCGCCGCCACGGGATCGGCAGCTTCAAATGCGAGCACTGCGAGAAAATATTCACGTGCGATTCAAAACGACGCGACCACGAACAGAGGATTCATCTCGGATTGAAGAAAAGGAACAAATGTAAATTCTGCGATGAGAAATTCGCGGATTACTGGTCTAAAGTTGACCACATGGTGAAGAAACATGACCAGCCACGTGTGATACTGAAATGCCAGGCTTGCGAAAGAACTTTCGAGAACAAGAGAGCGTTAACGCGACACGTAAAAAAGGACCATTTGATGGAGAGAAGGCACGTTTGTAGCATTTGTGATATGCGTTTCTACCTCAAGCATCGTTTGAAAGACCACATGCTGGTGCACACTGGTGAGAAGCAATACCAGTGCCACGTCTGCTCCAGGTGGTACGCCACCAAGAAGTCAGTGCGACAGCATCTAAGATCGCACGCTGATGATAGACGATATGCTTGTACGGTTTGCGGACAAACTTTTGTGCAGCAGTTTTCTCCTGATTTATTGATTTCAAAAGATAAAAATAATGAAATTAATTATTATAGGTGTGGTAATCCTACAGAAATTGTGCCTATATAA
Protein Sequence: METTVSNGMCRCCASEGLFKDMYGTYSWMGEDEVYADMLQFCFDITLSTAEDQNNGGICEVCITQLRNAANFKKQVQHTEVQFQKLQEQKAFFPKPVKLEISLEDEPDSENNISDDYQSGTEFAVAIKEESPEPKPKKRSSKTTSSRVKKSKTDSGETSTKRTDGEPPKRRKRRKKSTESATPERIEHRVNLTAILQHSNASPFRDKTMRGFSCLYCAKYFQQIEDLRTHTAQQSEKDKINTMIDYKLSYNPIKLDITNLCFNVHNKTIYRNIKDIILPFRLENGQNFTCVICSVVHISFKNLYHHMSSHYRNYCCKKCGAGYITIAALRKHGKTHYQGNFPCDYCEKTYTSLTKKRNHEKGVHTGGWLRNKCPHCPEIFVSYYDRSEHLVKVHNEAPVVYPCNACNRTYKKKFELNRHIKHHHLQQKNYLCDKCNAKFFSKRGLVDHMLRHTGAELCACDVCGRSFSRARTLREHMRTHDDDKKFQCEVCKKTFMQKCSLKSHVRLHQDDLDIFKEFDDVKHLIDNRELTLKQIAAENKKKAEALTGIDKYSNVHKTKLKTGADMYVCVKFVRSMCRPRRTAERKTRRRVKEEVDDTKVVKTVLREKHLPEMQKQWHNLTTLLKYSNATPFKDRNDAGYICAYCFKTYPDPEVLRIHTQYDHVKEKPTYKAGSGMSSFVAFLDVLNLKCTICNQPMDNLKSLMDHLVKAHDKKYYIGLTDYFQPFKLTNEQQMNCCLCNEVFHNMKLLMQHMNVHFRNFICTTCGAGFVNSFRLNRHETTHVKKKSSFPCRQCGQVFAAESKKKAHVNTEHKGIAGDSVCQICKARFKNYYQKTRHMMQIHNVEGIKCEVCEKKFNLKSNLMLHMRSVHLKERPYECSVCNMGFFIKRHMLGHYLATHTNERKFKCDVCGKARKHMKKNHGISKNNSISNLSKRGELSVNNLYFSLVGTHRTKRKQIGTETTKTLIEKCKKPTESYKGRELEKHRTNIREILQCSNATPIRCYAGIGYFPDPKDLKKHTLEDHDGKAKRNFMEGKQMFSYIVKLDITSLECILCRTNIPTLELLIEHLTNVHNRKLYTDINNHILPFKFDDGTLLKCVYCVTLQEHMNSHYRNYVCNACDAGFVNKNILLNHAEGHKKGTFKCDFCEKVFDTYRKKKSHEKSVHIHLNMLNRCGYCNEKFKNYSRKLDHLVKVHGVQSTVLKCQACEKQFDTQKSLTVHIKRDHLLERKHECQICDMKFFVTHELKEHMIKHTGLRCFECEVCHKAYKRRKTLKEHLRIHADDRRFKCEHCGQAFVQKCSWRGHMRAKHGIEGTTGITKHESENDRTNERRADCTIKLKRIKSHSRELVRHHFNVREVLLWSNATPIKSEETRGYTCCYCDDVFRKPKDLKEHTIINHTAANDLGAYYVKLDISNLQCKICNKEINTLDELTIHLVEVHKKHLYNDVKNHMMPFKFDGDTLRCFICSREFRKFKLLIEHMQIHCRNYICDICDSGFINRRSLKNHANVHKTGQFQCGVCMKTFHTQQKRKSHERVVHTHGYLLNKCGYCDEKFSSVQKKEQHMFKEHGIDIKPIKCSACDQIFTRQSGLSRHIKRWHLMERDHACTICGDKFFRKNNLMEHMVKHSGEKKYQCDVCHKFYTKKGSLQVHIRSHQNDRRFKCTQCDQTFLQKVTLRLHISTQRTVKSETNYDSADTDAKVKKGIELSKHRMNMREILVNSNATGYACSFCTDQYPDPADLKKHTINSHQNISKFMKGKDLYRFHVKLDITDLRCKVCDDTIDNLENTHNKNIHTDVKNQILPFKFDSETLRCFICSNKFHKFKTLQEHMNVHYRNYICQVCDAGFVARGIMIQHSESHKFGSFTCDYCSKEFNTLRKKKSHEKCVHTHSNLLNKCGYCNEKFKDYRKKQKHLTDAHGVPTQLLKCEACDKTFVGQKHLSVHIKRVHLIERRHQCTDCDMTFFSLSEMKIHMLKHTGVRDFKCSVCHKSYGRRRTLQEHMRIHADDRRFKCEYCGQAFVQKCSWRGHMRAKHGERYETEMNQPEEKFTHSSAKYKNEEPRSKHGEELEKHRTNVREVLYWSNATPIRCKGGIDPQDLKRHCIEVHDRTAIGTFMKGRDMYGYFVKLDVTALRCNICNLSLETLDQIMDHLKNVHEKNIDRNIKNHMIPFKFEGDDLKCYICNNIFHRFQSLQVHMNNHIRNYVCDICDAGFVNRHMLRCHRDGHKTGTFACDQCTKSFKNLRTMKLHERIVHRSSMPYKCGYCDQRFKESVNKDEHLSVVHGIRSPGMKCQACDKKFESQQRWLLHMKRDHLMQRQHACNTCEKAFYAKRELIDHMVKHTGLKEFNCEACPKSYGRLKTLKDHIRRLHPDDVRFKCPHCRWTFVASLVRNKNKYAGFELYQCLNICCGPVCKDSQGYGCAFCPKQFQQPTALKKHFLEEHNSDRLIKFMSSKLFENVVKLDITYLCCALCDTEFAQLNDFVQHLKTTHKKDLYVDTKNQILPFRFDTPELRCAICSTEYSSFKILQEHMNTHFGNYPCKICGGCYVTERLLQGHIKRHGNGEFKCAQCDKTFPSLYKRREHVHRTHLGFKKRNKCHYCDERFHDYWKKVDHMVKVHGAPPVELKCQACERTFNNQRALSRHNKKDHLLEKRHNCSECEMKFFSSSCLHRHMAKHTGLRQYTCDVCHKSYGRKNTLREHMRIHADDRRFKCEYCGQGFVQKCSWRGHMRSKHGENQRKKRIKSIMKTDTETNAKSSNFKKHQENLRSILQYSNASMIRGKDADGYSCNFCPKRFPEPNDLKSHFHKDHNDLQQMKLPKFTDYLLKLDITGLKCNLCDKVFDKLDLFTSHLRNDHGKNIYTDVNNEIIPFKFDTKALKCAVCGANFTTFKILQEHMHVHFSNYFCDICSAGFITKRRLVGHKRRHGIGSFKCEHCEKIFTCDSKRRDHEQRIHLGLKKRNKCKFCDEKFADYWSKVDHMVKKHDQPRVILKCQACERTFENKRALTRHVKKDHLMERRHVCSICDMRFYLKHRLKDHMLVHTGEKQYQCHVCSRWYATKKSVRQHLRSHADDRRYACTVCGQTFVQQFSPDLLISKDKNNEINYYRCGNPTEIVPI

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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