Basic Information

Insect: Danaus plexippus
Gene Symbol: -
Assembly: GCA_018135715.1
Location: JAEQBL010000033.1:622172-632034[+]

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 59 3.1 2.2e+02 2.9 2.7 2 23 38 60 37 60 0.92

2 59 0.044 3.1 8.7 0.1 2 23 85 107 84 107 0.92

3 59 0.14 9.9 7.1 1.9 3 23 131 151 130 151 0.98

4 59 2.3e-07 1.6e-05 25.4 1.2 1 23 155 178 155 178 0.96

5 59 4.3 3e+02 2.5 0.8 3 21 185 203 184 204 0.85

6 59 0.038 2.7 8.9 0.1 1 23 211 234 211 234 0.94

7 59 1.3 87 4.2 1.2 1 23 241 264 241 264 0.95

8 59 4.4 3.1e+02 2.4 0.5 3 23 310 331 309 331 0.94

9 59 6.9 4.8e+02 1.8 1.7 2 23 358 379 357 380 0.94

10 59 0.048 3.4 8.6 1.8 1 21 429 449 429 452 0.96

11 59 3.1 2.2e+02 2.9 0.3 1 21 456 476 456 477 0.91

12 59 0.017 1.2 10.0 0.3 1 21 484 504 484 507 0.89

13 59 0.0043 0.3 11.9 3.8 1 23 514 537 514 537 0.95

14 59 0.19 14 6.7 5.4 1 20 542 561 542 564 0.93

15 59 0.0013 0.094 13.5 0.8 1 20 570 589 570 592 0.95

16 59 0.15 10 7.1 1.4 3 23 644 665 643 665 0.96

17 59 3.3 2.3e+02 2.8 0.1 2 23 690 712 689 712 0.93

18 59 0.022 1.5 9.7 0.2 2 23 736 757 735 757 0.96

19 59 0.0017 0.12 13.2 0.7 1 21 761 781 761 782 0.96

20 59 0.32 22 6.0 0.4 2 23 872 894 871 894 0.95

21 59 0.0047 0.33 11.8 0.6 2 23 918 939 917 939 0.95

22 59 0.00074 0.051 14.3 0.0 1 23 943 966 943 966 0.97

23 59 4.6 3.2e+02 2.4 1.2 1 23 970 993 970 993 0.97

24 59 5.6 3.9e+02 2.1 0.5 3 23 1082 1103 1081 1103 0.95

25 59 1 72 4.4 0.2 1 23 1126 1149 1126 1149 0.92

26 59 0.026 1.8 9.5 1.2 3 23 1174 1194 1173 1194 0.98

27 59 0.39 27 5.8 0.4 2 21 1199 1218 1198 1219 0.93

28 59 0.82 57 4.8 0.1 1 23 1260 1283 1260 1283 0.95

29 59 1.3 89 4.1 1.0 2 23 1309 1331 1308 1331 0.95

30 59 0.015 1 10.3 0.3 2 23 1355 1376 1354 1376 0.94

31 59 0.00034 0.024 15.4 0.0 1 23 1380 1403 1380 1403 0.97

32 59 0.033 2.3 9.1 0.6 1 23 1407 1430 1407 1430 0.98

33 59 6.5 4.5e+02 1.9 0.6 1 23 1435 1460 1435 1460 0.88

34 59 0.42 29 5.7 5.4 1 22 1469 1490 1469 1492 0.88

35 59 0.0073 0.51 11.2 0.8 1 21 1578 1598 1578 1599 0.96

36 59 0.46 32 5.5 0.1 3 23 1628 1648 1627 1648 0.97

37 59 0.048 3.4 8.6 0.7 2 23 1671 1692 1670 1692 0.96

38 59 0.046 3.2 8.7 0.4 1 23 1696 1718 1696 1718 0.95

39 59 0.11 7.5 7.5 1.3 1 21 1723 1743 1723 1746 0.82

40 59 0.039 2.7 8.9 0.5 1 23 1752 1775 1752 1775 0.96

41 59 0.013 0.89 10.4 1.1 3 23 1784 1805 1782 1805 0.97

42 59 0.0011 0.076 13.8 1.7 1 23 1812 1834 1812 1834 0.97

43 59 0.00076 0.053 14.3 0.1 2 20 1838 1856 1838 1858 0.94

44 59 0.0033 0.23 12.3 1.8 1 23 1931 1953 1931 1954 0.95

45 59 2.1 1.5e+02 3.4 0.2 3 23 1982 2003 1981 2003 0.95

46 59 0.11 7.7 7.5 5.0 1 23 2025 2047 2025 2047 0.98

47 59 0.00035 0.024 15.4 0.5 1 23 2051 2073 2051 2073 0.97

48 59 0.0086 0.6 11.0 0.1 1 21 2107 2127 2107 2130 0.90

49 59 0.14 9.6 7.2 3.7 1 22 2137 2158 2137 2158 0.95

50 59 1.3 92 4.1 4.2 1 23 2197 2219 2197 2219 0.97

51 59 0.084 5.9 7.9 0.0 2 23 2243 2265 2242 2265 0.92

52 59 0.0014 0.095 13.5 2.6 3 23 2289 2309 2288 2309 0.98

53 59 0.036 2.5 9.0 3.7 3 23 2315 2335 2314 2335 0.97

54 59 0.0099 0.69 10.8 3.6 1 23 2342 2365 2342 2365 0.98

55 59 0.00013 0.0091 16.7 1.9 1 23 2371 2394 2371 2394 0.96

56 59 0.01 0.7 10.8 0.7 1 23 2400 2423 2400 2423 0.97

57 59 0.00025 0.018 15.8 0.5 1 23 2429 2451 2429 2451 0.98

58 59 2.5e-06 0.00017 22.1 1.2 1 23 2457 2479 2457 2479 0.99

59 59 0.00015 0.011 16.5 5.6 1 23 2485 2507 2485 2508 0.96

#	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	59	3.1	2.2e+02	2.9	2.7	2	23	38	60	37	60	0.92
2	59	0.044	3.1	8.7	0.1	2	23	85	107	84	107	0.92
3	59	0.14	9.9	7.1	1.9	3	23	131	151	130	151	0.98
4	59	2.3e-07	1.6e-05	25.4	1.2	1	23	155	178	155	178	0.96
5	59	4.3	3e+02	2.5	0.8	3	21	185	203	184	204	0.85
6	59	0.038	2.7	8.9	0.1	1	23	211	234	211	234	0.94
7	59	1.3	87	4.2	1.2	1	23	241	264	241	264	0.95
8	59	4.4	3.1e+02	2.4	0.5	3	23	310	331	309	331	0.94
9	59	6.9	4.8e+02	1.8	1.7	2	23	358	379	357	380	0.94
10	59	0.048	3.4	8.6	1.8	1	21	429	449	429	452	0.96
11	59	3.1	2.2e+02	2.9	0.3	1	21	456	476	456	477	0.91
12	59	0.017	1.2	10.0	0.3	1	21	484	504	484	507	0.89
13	59	0.0043	0.3	11.9	3.8	1	23	514	537	514	537	0.95
14	59	0.19	14	6.7	5.4	1	20	542	561	542	564	0.93
15	59	0.0013	0.094	13.5	0.8	1	20	570	589	570	592	0.95
16	59	0.15	10	7.1	1.4	3	23	644	665	643	665	0.96
17	59	3.3	2.3e+02	2.8	0.1	2	23	690	712	689	712	0.93
18	59	0.022	1.5	9.7	0.2	2	23	736	757	735	757	0.96
19	59	0.0017	0.12	13.2	0.7	1	21	761	781	761	782	0.96
20	59	0.32	22	6.0	0.4	2	23	872	894	871	894	0.95
21	59	0.0047	0.33	11.8	0.6	2	23	918	939	917	939	0.95
22	59	0.00074	0.051	14.3	0.0	1	23	943	966	943	966	0.97
23	59	4.6	3.2e+02	2.4	1.2	1	23	970	993	970	993	0.97
24	59	5.6	3.9e+02	2.1	0.5	3	23	1082	1103	1081	1103	0.95
25	59	1	72	4.4	0.2	1	23	1126	1149	1126	1149	0.92
26	59	0.026	1.8	9.5	1.2	3	23	1174	1194	1173	1194	0.98
27	59	0.39	27	5.8	0.4	2	21	1199	1218	1198	1219	0.93
28	59	0.82	57	4.8	0.1	1	23	1260	1283	1260	1283	0.95
29	59	1.3	89	4.1	1.0	2	23	1309	1331	1308	1331	0.95
30	59	0.015	1	10.3	0.3	2	23	1355	1376	1354	1376	0.94
31	59	0.00034	0.024	15.4	0.0	1	23	1380	1403	1380	1403	0.97
32	59	0.033	2.3	9.1	0.6	1	23	1407	1430	1407	1430	0.98
33	59	6.5	4.5e+02	1.9	0.6	1	23	1435	1460	1435	1460	0.88
34	59	0.42	29	5.7	5.4	1	22	1469	1490	1469	1492	0.88
35	59	0.0073	0.51	11.2	0.8	1	21	1578	1598	1578	1599	0.96
36	59	0.46	32	5.5	0.1	3	23	1628	1648	1627	1648	0.97
37	59	0.048	3.4	8.6	0.7	2	23	1671	1692	1670	1692	0.96
38	59	0.046	3.2	8.7	0.4	1	23	1696	1718	1696	1718	0.95
39	59	0.11	7.5	7.5	1.3	1	21	1723	1743	1723	1746	0.82
40	59	0.039	2.7	8.9	0.5	1	23	1752	1775	1752	1775	0.96
41	59	0.013	0.89	10.4	1.1	3	23	1784	1805	1782	1805	0.97
42	59	0.0011	0.076	13.8	1.7	1	23	1812	1834	1812	1834	0.97
43	59	0.00076	0.053	14.3	0.1	2	20	1838	1856	1838	1858	0.94
44	59	0.0033	0.23	12.3	1.8	1	23	1931	1953	1931	1954	0.95
45	59	2.1	1.5e+02	3.4	0.2	3	23	1982	2003	1981	2003	0.95
46	59	0.11	7.7	7.5	5.0	1	23	2025	2047	2025	2047	0.98
47	59	0.00035	0.024	15.4	0.5	1	23	2051	2073	2051	2073	0.97
48	59	0.0086	0.6	11.0	0.1	1	21	2107	2127	2107	2130	0.90
49	59	0.14	9.6	7.2	3.7	1	22	2137	2158	2137	2158	0.95
50	59	1.3	92	4.1	4.2	1	23	2197	2219	2197	2219	0.97
51	59	0.084	5.9	7.9	0.0	2	23	2243	2265	2242	2265	0.92
52	59	0.0014	0.095	13.5	2.6	3	23	2289	2309	2288	2309	0.98
53	59	0.036	2.5	9.0	3.7	3	23	2315	2335	2314	2335	0.97
54	59	0.0099	0.69	10.8	3.6	1	23	2342	2365	2342	2365	0.98
55	59	0.00013	0.0091	16.7	1.9	1	23	2371	2394	2371	2394	0.96
56	59	0.01	0.7	10.8	0.7	1	23	2400	2423	2400	2423	0.97
57	59	0.00025	0.018	15.8	0.5	1	23	2429	2451	2429	2451	0.98
58	59	2.5e-06	0.00017	22.1	1.2	1	23	2457	2479	2457	2479	0.99
59	59	0.00015	0.011	16.5	5.6	1	23	2485	2507	2485	2508	0.96

Sequence Information

Coding Sequence: ATGAAAGACATTTTGTCTGTTTTAGACACGTTATCCCAGGCCAGGCGGAATGCCGAAGTAGTGGTGAAATACTCGACAGCCTACCCGTTCAGGCTGCCAGAGACCTCGCTCATGTGCGTGTACTGCTGCGAAACGTACTCCGACACAGCACAGTTCAGATCGCACATGCACGAGGAACATCAGACTTTTAAAGTCGAAACAGCGTTCGCACATTGCAATGAGGGATACTTGAAAGCTGATTGCACAGACCTCAAGTGCAGAATCTGTTGGGAACCATTTAAAAAGTTGGATGATGTCGCCAAACATATTAGCGATGTCCATAATATTAAAATACTATTTGAATTTCACATTGGCATACAACCTTTTAAGTTCGATGATGAAAAGCTTTTATGCGGTATATGTGATAGGAATTTCCCTTGTCTCCGGCAGCTTAGTCGTCACATGACTTCCCATTACCAGAACTATACTTGCGAAGAGTGCGGGAAGTCTTATACTACAAACAGCTCTCTACAGCAGCATATCAGATTTTCGCATATATCAAACAAAAGGATTTGCAGAAGGTGTAAGAAGACGTTTAATTCGTTGCTAGATAAAAGGGAACATGTTAAATCTTCATCAAAATGTTGGGCTTACCAGTGCGCCGTCTGTGGTGTACGATTTATGACGTGGACTCTGAAAGAACAGCATTTAGAAAATGTGCATGGACAAGCTAAAAAGACACATAAGTGTCCAGAATGCGCAACAATATTCTTGACCAGGAACGCCTACAGAAATCATTTTGCGACAATGCACGCGGGAATTAATTTCGTTTGCTCCTATTGTGTTACCGAACCAGTCAGTAGCAAGCAAATGGCAAAACGGAACGCTCAACTTGTGTTGCAATACTCAACGGCTTATCCGTTCAGAACGCGGGGCAACTTGATGCTTTGTGTCTATTGTTGCGAAGAATACGCTGATCCAAAAGACTATCGCGATCACATGGATAGGACGCACGAATCTTTTACAATAAGCACCGCCTTTGCTCATGTCGGGAGAAGCAAGGAATATCTTAAAGTGGACCTGAGCGATTTAAAATGTCGATTATGTTTAACTCCGTGTAATAATTTAGAAGAAATAGCTCTTCATATTCGTAATCATCATGGGATCAATAACATTGACATCAGTTTTGATATCGGGATGCACCCCTATAAAATAGACATTGATAGGTGGTCGTGTTTTCTATGCAACAAAAAAATGGCATCCCTCACAAAATTATGCAGACACACTACTTGTCACTACCAAAAATATACCTGCGATGTCTGCGGTAGAAGTTATTTGACCTACGAGGCTTTGAAATACCACATACGTTGCAGTCATTCCGGTAACTATGTATGTAGAAAATGTTGGACAGATTTTCCCACGCTTGAAAAGAAAAGGGAGCATGTAAAAAATTCTAAGGCATGCTGGGGATTTATCTGTCTTAGTTGCGGAGAAAGATTTAAGTCGTGGGAAAGTAAACAGAGACATCTTGTCGATGTCCACGGTGCTCCAAAAAAAGTGTTTACATGTCCGGACTGCGAGGAAACCTTTGACAGTCGCAAACATTTTTATAATCATTTCAAATTAAACCACAGCGACGAGACTTTCGTGTGTTCTTGTTGTGGACTTAAATTCACAACTAAATCACAATTGGAAGAGCACAGATCTTGCCACACCGGGGAGAAGCCCTACCGTTGCGACATATGTATGAAAACGTTCTCAAGAACCAAGGGGTTAAAACAGCATATGTGGATTCACAGAAACACATTGGAAATTCGTGGACGTAGGGAGAATGAGAGTGAGAAAAAGAAAATAGTACTCGTTTATCAAACTCCTCAGCGTCGTAACGCAGAATTAATTTTAAGGCATTCGACCGCTTATCCGTTTAAAACGCGATTTAGTCAGATTTTATGCGCCTATTGTCATGACGAATATAACACATTATCATCTCTCAGATATCATATGAAAAACGAACACAAAACATCCGATTTTAAAAACGTTTTCTATAGAGCTAAAGATAACTTAATAAAAGTGGATATAACCAATTTGACATGCAATATTTGTAATGAAAACATACAAGATATTGATACTTTGATGGGTCATTTGTCTAGAGAACACAATAAGCCAGTGAAATTCAACTCTCGATTTGGTGTTCTGCCTTACAAACAAAATGCGTCCAATCATTGGGTTTGCGTTTACTGTCAAAGGACTTATATAGAATTTGTTCAATTCAAACGACACATAGCTTCACATTTCATGAACTTTAGCTGCGATAAGTGCGGAACGACTTTTATATCGGATCATGCTCTACGAGATCACAGGCGACAGGTTAAATGCTTCAGAACAGCGTATAAACCTCGCAATGGTAAAGTGATGAGGCCAAGAAGTAATGCAGAGATCATATTGCAATGTTCAACGGCCTGTCCCTTCAGGACATGGAAAAGTAACTTTAACTGCGTGTTCTGTAGAGTACAATCCAATGATCCCAGTATACTTAGAAGCCACGTAGCGACAAGACATGAAAACTATGACGTACAGGCAGCGTTCTATAAAAAACTAGGCAAGGAATTCCTTAAGATTGATATAACAGATCTGCAGTGTAAGTTATGCTTTATGCCGATAACTAATTTTGAAAATTTGACGTATCATTTGATGAATGATCACCAACAGCCTATAAACTCTGACGCCCAATTAGGGGTGTTGCCATTCCGACTTAACGATGGTTCAGTTTGGAAGTGCACAATGTGTCCAAATGTTTTTAAAGATTTCGTCTCTCTCAATAAGCACACGTCAGAACATTTCCAAAACTACGTTTGCGATACCTGCGGTGAAGGTTTTATTACTGAATCCGCGATGATTGCACACACTAAAGTTCCTCACGAAAATAAATATAGCTGTAGCCGTTGTGTAGCGACTTTTTGCGCGTTAGAGGAAAGGAACATTCATGTTAAAACCCAGCATACATCCACTCCCTATATGTGTGTGTACTGTAAAGATAAACCACGCTTCGCCAATTGGGAACTGCGGAAAAAACACTTGATGGAAGTTCACAATTATAAGACAGGACCCACGAAGGATATTGACGGACTCAAAGAGAAAGAGAGAAAACAAAAAAAGGGGTTATTCGAAAGATCCGTTAAACATAACCCCCAGCGTCGAAACGCTGTTTTGGTTCTTAGACATTCCACGGCTATTCCTTTTAAAACACGATTTAATAGAATACTCTGCTCTTATTGCCATGATGAATTCCAGCCCATGGAGGCTCTTAGAATACATATTAAGGAGAAACACATTAACGCTGATTTTAACAGTGCTTTTTATAAGGTGGTCGATGATCTCAAAATTGATATAAGCCATTTCAAATGTAACATATGCTCGCAAGACATTGAGAACGTTGACACATTTATGAATCATTTATCAGGGGATCATGGGAAACCAGTTAATTTTGATGTACCTTTCGGTGTGTTACCGTATAGACAGAATGAGACTGGTGCTTGGCTGTGCCTTCACTGTGATAAAATATATCCGGAATTCTCCCAAATAAACAGCCATTTACGAACCCACGCCAAAATTTCTACTTGCGATAAGTGCGGGGCGACTTTCCTCTCGGAGCACGGTCTAAAACAACACGAGCGTAATTTCCAATGCTATAAAGCAACATATAAACCTCGCTTCGGTAAAGCCTTGAAGCATAAATACAATACTGAAATTATTTTACAATGTTCAACTGCATGTCCTTTCAGAACGTGGGGACAAAATTTTAACTGTGTCTTTTGCAGAGTGCAATCAAATGATCCCAATGGGCTACGAGCTCATATGGCATCTAGACATGCCAACTTTGACATACAACTAGTATTTAGCAGGAAATTACGAAAGGAATTTTTAAAAGTCGATATAACAGATTTGCAATGTAAACTTTGCTTCATGCACATTGACACTTTAGATGATTTATTGACACATCTCAAAAATGATCACAAACAACCGGTGAACATAGACGTCCAACCGGGGGTCTTGCCGTTCAAGTTGAACGACGGCTCTTGTTGGAAATGTGCTATATGCAAAATACAGTTCTCCGATTTCATATCGTTAAAAAAACACACAGCGGAACACTATCAGAATTACGTTTGCGACACATGTGGGGAGGGTTTCATCACAGAAGTCGCATTGCGGGCGCACACGAAAATACCGCATGACAATAAATACACCTGCAGTAGATGCGTTGCGACGTTCTCCACGTTAGAAGAGAGAAGTGTTCACATAAAAACACAACATACGAACCTACCGTACATGTGTACTTATTGCAAGGACAAACCGCGGTTCGCCACCTGGGAGCTCAGGAAGCGGCACTTATATGAGATACACAATTATAAATCAGGGGCGGAAATGTACGAGTGTACCACCTGTCACATGATGTTCAAGACGCGATCTCAGAAATATCACCACAACGTCAAAGTTCATCGGACAAAAAAGGAAATAGATTTCGGTTTCTCTTGCGGCCACTGCGCTAGAGGAAGAAGCAGAGAAACAGAAAATATCACTGATATAAACATACTCCAACAGTCACATCTCGATACAGATAATGACATTAAGGTTGGAGAGAAACGAAAGTATCAAAAAAGTGCTAGATCCCAAGCGAGATTCATGACAAAGAAGAACGCAAGCTCTATTCTCGAATGCTGGTCTGGAATACCATTCAGATGGAAAAAAAATAGATTTAAATGCGCCTATTGTGAAGAAAATTTTAATGAGTGTTCGGATCTGAGGGAGCATGTTAGATTATGTGCTACCCAGTACAATGTAGGCAGTATATTCAGTAAATTTAAAGAAATGACTCTCATAAATATGGATGTCAGTGAGGCCGCTTGTCGAATATGTTCTGAGCCGTTCAGAGAACTTGATGGTATGCGAGAGCACGTCATTCGACACGGCTACGAATTAGATGTTTCGCATCCGGACGGTGTTATACCGTTTTGTCTCACGAAAGAATCCTGGTCGTGTGTCTTATGTCGCGAGACATTCAATAACTTTCTGAAACTTTACGAGCATATGAACACGCATTATCAGTACCACATATGTTCTATATGCGGAAAAGGTTACATGACTGGACCGAGGCTAAGGAAACATCTAGAATTACACATAACGGGAACATTTCCTTGCGATAAATGCAAGAAAGTTTTTACAAAACGCACAGGGAGAGACAATCACAAAGCCTACGCCCACGCTAAAGGTCCGCGTTATGAATGCCCACAGTGTAATATGAGATTTGAAGGTTATTATGATCGAATGAATCATTTGAAACAAGCTCACAGAGAAAAGGAAGTGAAGTACGGCTGTTCACACTGTGATCTGTCATTTAAAACGAGCGGCAAGCGAGCCATCCACGTCAAAACGGTTCACTTTCCTCGTCAGAGTAACTTTAGTTGCCCTTATTGCAAAACCCTATTCAAAACAGCCTTCGGTATGAAACGTCACATGGTAAAACATAATGGAGAAACCTGTACTGTTTGTGGTGAAAGCTTTACTAAAAGTAAAGCATTGAAGGAACACTTGGCAGGTTCCGCTAAGGCGGACTTGGCAGGTACTGTAGGCGTTAAACCGGTTAGGAAGTTAAAGGAAAATGTCTGCGCGAGACAAATGCGCCGTCGGAGACGCGCTAACAACGAACTCCCCGAAGAATCCGAGAAACGTATCGCGAAAACTATGATGCGCAGAAACGCTTTAACTATACTAGAAAGTTCTACAGCTTGGGCCTTTCGTTGGTTTCAAAGCGCTTTTTACTGCTCCTATTGCGACGCAAAATTTATCGAGACTTTAAATTTAAGGAGACACGTACAAATACACCATCTAAATGCCCCTCCCACAAAACAAATATTTTCAAAACTAACGGAAAATAATATGGTTAAAATAGATGTGTCAGATTTACTTTGTAGGATATGTAACAGTTCAATCGATACAATTGATATGCTAAAAAAACATTTAGTAACAATTCACGCGAAAAAAATATATGCCGACTTCAATGATGGAGTTCTTCCCTTCAAGCTCGAGGAAAGTAAATTTAACTGTCAGAAATGCGATTTATTTTTCACTAGTTTCTGTAAAATTAATGAGCATATGAATACTCACTATCAGAATTACATATGCGATGCTTGTGGTAAAGCGTTTGTGTCGAAATCGCGATTTAGGACACACGTACAATCACATGAGATCGGTAGTTTCCCTTGCGGAGAATGTGATGAAGTTTTGGAGACGAGAGCGGCTAGAATGTGTCATAAACTTAAAATACACAGACGAGGAATTAGATATACTTGTCCGAGATGCCCGGAAGTCTTTACGACTTACTATGCCAGAGCTAAACATCTAGTCGATGGCCACGATCAGCAAAAGACCGCGTACCAGTGCTCATCCTGTGGGAAAATATTTGAGACCAGCTGTAAACGAACGAACCACTTTCGAACCGTCAAGAAAGTAATATGGAAACGAAGAAGGCGGCCGTATAACGATCATAGAGATAACGCGGCCATTATTATTGAGTTCTCAAACGTGTGTCCTTTCCGTTGGAAACGCGGTGCGTTTGCGTGCTCGTACTGTCCGAGTACCTTCGGTCATTTCAGAGACGTTTGTACCCACACTCGGGAACACACCAGCCGAATAGAGGCAATGAGATACGCTCGGCCTTATGATAACATTAAGATTGAAGTCAGCAATCTTAAATGTGAAATTTGTGCTGAAAGCTTGAGTACATTGGAAGATTTGAAATATCATTTGATTGACGTACATCAGAAGCCAATTTTAAAACATCTGGGTTTGGGTGTTACGCCGTTTGTGCTTCAAGACAAAGAGATGCTCTGTACGCATTGCGGAGAACGTTTCTCGTTATTTTCCAAATTAAATAGCCACATGAACGAGCACTACCCCAACAATATATGTTTTCATTGCGGCAAATCTTTCACAGCTGTACATAGAATGAAAGCCCACCAGCTCACCCACGAAACGAACGACCAGGAGCACAAATGTTCTAAATGCAATGAAGTCTTTGAAACTAGGGTGTTGAGAAACTATCATATGAACACAAAGCACAGTCCGGTAAACCGATATAGATGCCCTTACTGCAATTTGTCGTTTAAGCGCTACTCTGATAGATTAAGACATTTGAAGGAACTTCACGGCCAAACCATTGAGTATCCCTGCCATTTGTGCTCAGCAGTGTTTGCAATGTCCGATCAGCGAACCAAACACATTAAGAATGTGCATATAAAACATAAACAATTCCAATGTGATTTTTGCCCCAGTAAATTCGTGACTGCCGGGCAATTGAAGAATCACATGGTCAAGCACACGGGAATACGGGAATTTCAATGCACCGTCTGTAAAAAGAGCTACGCGCGTGCTAGGACTCTCAAAGAACATATGCGTATACACAATAATGATAGGAGGTTTCAATGCGAATATTGTAATAATGCGTTTATACAAAAATGCAGCTTAAAAAGTCACATCCGGACACATCACCCCAACGCGGAATCGAACAAAATAGCTGAATAA
Protein Sequence: MKDILSVLDTLSQARRNAEVVVKYSTAYPFRLPETSLMCVYCCETYSDTAQFRSHMHEEHQTFKVETAFAHCNEGYLKADCTDLKCRICWEPFKKLDDVAKHISDVHNIKILFEFHIGIQPFKFDDEKLLCGICDRNFPCLRQLSRHMTSHYQNYTCEECGKSYTTNSSLQQHIRFSHISNKRICRRCKKTFNSLLDKREHVKSSSKCWAYQCAVCGVRFMTWTLKEQHLENVHGQAKKTHKCPECATIFLTRNAYRNHFATMHAGINFVCSYCVTEPVSSKQMAKRNAQLVLQYSTAYPFRTRGNLMLCVYCCEEYADPKDYRDHMDRTHESFTISTAFAHVGRSKEYLKVDLSDLKCRLCLTPCNNLEEIALHIRNHHGINNIDISFDIGMHPYKIDIDRWSCFLCNKKMASLTKLCRHTTCHYQKYTCDVCGRSYLTYEALKYHIRCSHSGNYVCRKCWTDFPTLEKKREHVKNSKACWGFICLSCGERFKSWESKQRHLVDVHGAPKKVFTCPDCEETFDSRKHFYNHFKLNHSDETFVCSCCGLKFTTKSQLEEHRSCHTGEKPYRCDICMKTFSRTKGLKQHMWIHRNTLEIRGRRENESEKKKIVLVYQTPQRRNAELILRHSTAYPFKTRFSQILCAYCHDEYNTLSSLRYHMKNEHKTSDFKNVFYRAKDNLIKVDITNLTCNICNENIQDIDTLMGHLSREHNKPVKFNSRFGVLPYKQNASNHWVCVYCQRTYIEFVQFKRHIASHFMNFSCDKCGTTFISDHALRDHRRQVKCFRTAYKPRNGKVMRPRSNAEIILQCSTACPFRTWKSNFNCVFCRVQSNDPSILRSHVATRHENYDVQAAFYKKLGKEFLKIDITDLQCKLCFMPITNFENLTYHLMNDHQQPINSDAQLGVLPFRLNDGSVWKCTMCPNVFKDFVSLNKHTSEHFQNYVCDTCGEGFITESAMIAHTKVPHENKYSCSRCVATFCALEERNIHVKTQHTSTPYMCVYCKDKPRFANWELRKKHLMEVHNYKTGPTKDIDGLKEKERKQKKGLFERSVKHNPQRRNAVLVLRHSTAIPFKTRFNRILCSYCHDEFQPMEALRIHIKEKHINADFNSAFYKVVDDLKIDISHFKCNICSQDIENVDTFMNHLSGDHGKPVNFDVPFGVLPYRQNETGAWLCLHCDKIYPEFSQINSHLRTHAKISTCDKCGATFLSEHGLKQHERNFQCYKATYKPRFGKALKHKYNTEIILQCSTACPFRTWGQNFNCVFCRVQSNDPNGLRAHMASRHANFDIQLVFSRKLRKEFLKVDITDLQCKLCFMHIDTLDDLLTHLKNDHKQPVNIDVQPGVLPFKLNDGSCWKCAICKIQFSDFISLKKHTAEHYQNYVCDTCGEGFITEVALRAHTKIPHDNKYTCSRCVATFSTLEERSVHIKTQHTNLPYMCTYCKDKPRFATWELRKRHLYEIHNYKSGAEMYECTTCHMMFKTRSQKYHHNVKVHRTKKEIDFGFSCGHCARGRSRETENITDINILQQSHLDTDNDIKVGEKRKYQKSARSQARFMTKKNASSILECWSGIPFRWKKNRFKCAYCEENFNECSDLREHVRLCATQYNVGSIFSKFKEMTLINMDVSEAACRICSEPFRELDGMREHVIRHGYELDVSHPDGVIPFCLTKESWSCVLCRETFNNFLKLYEHMNTHYQYHICSICGKGYMTGPRLRKHLELHITGTFPCDKCKKVFTKRTGRDNHKAYAHAKGPRYECPQCNMRFEGYYDRMNHLKQAHREKEVKYGCSHCDLSFKTSGKRAIHVKTVHFPRQSNFSCPYCKTLFKTAFGMKRHMVKHNGETCTVCGESFTKSKALKEHLAGSAKADLAGTVGVKPVRKLKENVCARQMRRRRRANNELPEESEKRIAKTMMRRNALTILESSTAWAFRWFQSAFYCSYCDAKFIETLNLRRHVQIHHLNAPPTKQIFSKLTENNMVKIDVSDLLCRICNSSIDTIDMLKKHLVTIHAKKIYADFNDGVLPFKLEESKFNCQKCDLFFTSFCKINEHMNTHYQNYICDACGKAFVSKSRFRTHVQSHEIGSFPCGECDEVLETRAARMCHKLKIHRRGIRYTCPRCPEVFTTYYARAKHLVDGHDQQKTAYQCSSCGKIFETSCKRTNHFRTVKKVIWKRRRRPYNDHRDNAAIIIEFSNVCPFRWKRGAFACSYCPSTFGHFRDVCTHTREHTSRIEAMRYARPYDNIKIEVSNLKCEICAESLSTLEDLKYHLIDVHQKPILKHLGLGVTPFVLQDKEMLCTHCGERFSLFSKLNSHMNEHYPNNICFHCGKSFTAVHRMKAHQLTHETNDQEHKCSKCNEVFETRVLRNYHMNTKHSPVNRYRCPYCNLSFKRYSDRLRHLKELHGQTIEYPCHLCSAVFAMSDQRTKHIKNVHIKHKQFQCDFCPSKFVTAGQLKNHMVKHTGIREFQCTVCKKSYARARTLKEHMRIHNNDRRFQCEYCNNAFIQKCSLKSHIRTHHPNAESNKIAE

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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