Basic Information

Insect: Lamprigera yunnana
Gene Symbol: -
Assembly: GCA_013368075.1
Location: JABVZV010000380.1:1116987-1173623[+]

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 71 5.1 73 4.2 1.1 1 23 243 265 243 265 0.96

2 71 0.094 1.3 9.7 1.2 1 23 297 319 297 319 0.98

3 71 0.22 3.1 8.6 1.0 1 23 324 346 324 346 0.98

4 71 0.36 5.1 7.9 0.8 1 23 356 378 356 378 0.98

5 71 0.002 0.029 15.0 1.6 1 23 383 405 383 405 0.99

6 71 0.03 0.43 11.3 1.5 1 23 410 432 410 432 0.98

7 71 0.00053 0.0075 16.8 3.0 1 23 437 459 437 459 0.99

8 71 0.0025 0.035 14.7 2.0 1 23 464 486 464 486 0.99

9 71 0.76 11 6.9 0.6 1 23 491 513 491 513 0.98

10 71 6.6 93 3.9 1.4 1 23 518 540 518 540 0.93

11 71 7.4e-05 0.001 19.5 2.0 1 23 545 567 545 567 0.99

12 71 0.0036 0.051 14.2 2.1 1 23 572 594 572 594 0.98

13 71 2 29 5.5 1.1 1 23 599 621 599 621 0.96

14 71 0.37 5.2 7.8 2.1 1 23 626 648 626 648 0.97

15 71 4.4 62 4.4 1.2 1 23 653 675 653 675 0.90

16 71 0.098 1.4 9.6 1.0 1 23 680 702 680 702 0.98

17 71 0.00063 0.0089 16.6 1.6 1 23 707 729 707 729 0.99

18 71 0.14 2 9.2 0.8 1 23 734 756 734 756 0.98

19 71 0.37 5.2 7.8 2.1 1 23 761 783 761 783 0.97

20 71 4.4 62 4.4 1.2 1 23 788 810 788 810 0.90

21 71 0.00058 0.0083 16.7 2.2 1 23 842 864 842 864 0.99

22 71 0.83 12 6.7 2.6 1 23 869 891 869 891 0.98

23 71 3 43 5.0 2.6 1 23 896 916 896 916 0.89

24 71 4 57 4.6 2.4 1 23 921 943 921 943 0.97

25 71 0.098 1.4 9.6 1.0 1 23 948 970 948 970 0.98

26 71 1.4 19 6.1 2.9 1 23 975 997 975 997 0.98

27 71 0.41 5.8 7.7 3.3 1 23 1002 1024 1002 1024 0.98

28 71 0.41 5.8 7.7 3.3 1 23 1029 1051 1029 1051 0.98

29 71 1.4 19 6.1 2.9 1 23 1056 1078 1056 1078 0.98

30 71 1.4 19 6.1 2.9 1 23 1083 1105 1083 1105 0.98

31 71 1.4 19 6.1 2.9 1 23 1110 1132 1110 1132 0.98

32 71 0.41 5.8 7.7 3.3 1 23 1137 1159 1137 1159 0.98

33 71 0.41 5.8 7.7 3.3 1 23 1164 1186 1164 1186 0.98

34 71 0.41 5.8 7.7 3.3 1 23 1191 1213 1191 1213 0.98

35 71 1.4 19 6.1 2.9 1 23 1218 1240 1218 1240 0.98

36 71 1.4 19 6.1 2.9 1 23 1245 1267 1245 1267 0.98

37 71 1.4 19 6.1 2.9 1 23 1272 1294 1272 1294 0.98

38 71 0.41 5.8 7.7 3.3 1 23 1299 1321 1299 1321 0.98

39 71 0.41 5.8 7.7 3.3 1 23 1326 1348 1326 1348 0.98

40 71 0.025 0.36 11.5 1.1 1 23 1423 1445 1423 1445 0.98

41 71 5.9 84 4.0 2.4 1 23 1450 1472 1450 1472 0.97

42 71 0.44 6.2 7.6 2.0 1 23 1477 1499 1477 1499 0.98

43 71 0.00013 0.0018 18.7 2.3 1 23 1504 1526 1504 1526 0.99

44 71 0.00025 0.0035 17.8 2.3 1 23 1531 1553 1531 1553 0.99

45 71 3.3 46 4.9 0.4 1 23 1558 1580 1558 1580 0.95

46 71 0.002 0.029 14.9 2.1 1 23 1585 1607 1585 1607 0.99

47 71 1.2 18 6.2 2.6 1 23 1612 1634 1612 1634 0.98

48 71 0.45 6.4 7.6 1.5 1 23 1639 1661 1639 1661 0.98

49 71 0.33 4.7 8.0 1.4 1 23 1728 1750 1728 1750 0.98

50 71 0.022 0.31 11.7 1.1 1 23 1782 1804 1782 1804 0.98

51 71 4 56 4.6 1.8 1 23 1809 1831 1809 1831 0.97

52 71 8.2 1.2e+02 3.6 5.0 1 23 1836 1858 1836 1858 0.98

53 71 5.1e-05 0.00073 20.0 1.8 1 23 1863 1885 1863 1885 0.99

54 71 0.14 2 9.1 2.6 1 23 1917 1939 1917 1939 0.98

55 71 0.00021 0.0029 18.1 0.5 1 23 1944 1966 1944 1966 0.99

56 71 0.14 2 9.1 2.6 1 23 1971 1993 1971 1993 0.98

57 71 0.0023 0.032 14.8 0.4 1 23 1998 2020 1998 2020 0.99

58 71 0.14 2 9.1 2.6 1 23 2025 2047 2025 2047 0.98

59 71 0.14 2 9.1 2.6 1 23 2106 2128 2106 2128 0.98

60 71 0.00021 0.0029 18.1 0.5 1 23 2133 2155 2133 2155 0.99

61 71 0.14 2 9.1 2.6 1 23 2160 2182 2160 2182 0.98

62 71 0.0015 0.021 15.4 0.7 1 23 2187 2209 2187 2209 0.99

63 71 0.47 6.6 7.5 1.6 1 23 2214 2236 2214 2236 0.98

64 71 0.3 4.2 8.1 1.3 1 23 2241 2263 2241 2263 0.98

65 71 0.046 0.66 10.7 1.3 1 23 2268 2290 2268 2290 0.98

66 71 0.62 8.8 7.1 1.7 2 23 2361 2382 2360 2382 0.97

67 71 0.3 4.2 8.1 1.3 1 23 2387 2409 2387 2409 0.98

68 71 0.3 4.2 8.1 1.3 1 23 2414 2436 2414 2436 0.98

69 71 0.3 4.2 8.1 1.3 1 23 2441 2463 2441 2463 0.98

70 71 0.12 1.7 9.4 1.8 1 23 2468 2490 2468 2490 0.99

71 71 0.14 2 9.1 2.6 1 23 2495 2517 2495 2517 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	71	5.1	73	4.2	1.1	1	23	243	265	243	265	0.96
2	71	0.094	1.3	9.7	1.2	1	23	297	319	297	319	0.98
3	71	0.22	3.1	8.6	1.0	1	23	324	346	324	346	0.98
4	71	0.36	5.1	7.9	0.8	1	23	356	378	356	378	0.98
5	71	0.002	0.029	15.0	1.6	1	23	383	405	383	405	0.99
6	71	0.03	0.43	11.3	1.5	1	23	410	432	410	432	0.98
7	71	0.00053	0.0075	16.8	3.0	1	23	437	459	437	459	0.99
8	71	0.0025	0.035	14.7	2.0	1	23	464	486	464	486	0.99
9	71	0.76	11	6.9	0.6	1	23	491	513	491	513	0.98
10	71	6.6	93	3.9	1.4	1	23	518	540	518	540	0.93
11	71	7.4e-05	0.001	19.5	2.0	1	23	545	567	545	567	0.99
12	71	0.0036	0.051	14.2	2.1	1	23	572	594	572	594	0.98
13	71	2	29	5.5	1.1	1	23	599	621	599	621	0.96
14	71	0.37	5.2	7.8	2.1	1	23	626	648	626	648	0.97
15	71	4.4	62	4.4	1.2	1	23	653	675	653	675	0.90
16	71	0.098	1.4	9.6	1.0	1	23	680	702	680	702	0.98
17	71	0.00063	0.0089	16.6	1.6	1	23	707	729	707	729	0.99
18	71	0.14	2	9.2	0.8	1	23	734	756	734	756	0.98
19	71	0.37	5.2	7.8	2.1	1	23	761	783	761	783	0.97
20	71	4.4	62	4.4	1.2	1	23	788	810	788	810	0.90
21	71	0.00058	0.0083	16.7	2.2	1	23	842	864	842	864	0.99
22	71	0.83	12	6.7	2.6	1	23	869	891	869	891	0.98
23	71	3	43	5.0	2.6	1	23	896	916	896	916	0.89
24	71	4	57	4.6	2.4	1	23	921	943	921	943	0.97
25	71	0.098	1.4	9.6	1.0	1	23	948	970	948	970	0.98
26	71	1.4	19	6.1	2.9	1	23	975	997	975	997	0.98
27	71	0.41	5.8	7.7	3.3	1	23	1002	1024	1002	1024	0.98
28	71	0.41	5.8	7.7	3.3	1	23	1029	1051	1029	1051	0.98
29	71	1.4	19	6.1	2.9	1	23	1056	1078	1056	1078	0.98
30	71	1.4	19	6.1	2.9	1	23	1083	1105	1083	1105	0.98
31	71	1.4	19	6.1	2.9	1	23	1110	1132	1110	1132	0.98
32	71	0.41	5.8	7.7	3.3	1	23	1137	1159	1137	1159	0.98
33	71	0.41	5.8	7.7	3.3	1	23	1164	1186	1164	1186	0.98
34	71	0.41	5.8	7.7	3.3	1	23	1191	1213	1191	1213	0.98
35	71	1.4	19	6.1	2.9	1	23	1218	1240	1218	1240	0.98
36	71	1.4	19	6.1	2.9	1	23	1245	1267	1245	1267	0.98
37	71	1.4	19	6.1	2.9	1	23	1272	1294	1272	1294	0.98
38	71	0.41	5.8	7.7	3.3	1	23	1299	1321	1299	1321	0.98
39	71	0.41	5.8	7.7	3.3	1	23	1326	1348	1326	1348	0.98
40	71	0.025	0.36	11.5	1.1	1	23	1423	1445	1423	1445	0.98
41	71	5.9	84	4.0	2.4	1	23	1450	1472	1450	1472	0.97
42	71	0.44	6.2	7.6	2.0	1	23	1477	1499	1477	1499	0.98
43	71	0.00013	0.0018	18.7	2.3	1	23	1504	1526	1504	1526	0.99
44	71	0.00025	0.0035	17.8	2.3	1	23	1531	1553	1531	1553	0.99
45	71	3.3	46	4.9	0.4	1	23	1558	1580	1558	1580	0.95
46	71	0.002	0.029	14.9	2.1	1	23	1585	1607	1585	1607	0.99
47	71	1.2	18	6.2	2.6	1	23	1612	1634	1612	1634	0.98
48	71	0.45	6.4	7.6	1.5	1	23	1639	1661	1639	1661	0.98
49	71	0.33	4.7	8.0	1.4	1	23	1728	1750	1728	1750	0.98
50	71	0.022	0.31	11.7	1.1	1	23	1782	1804	1782	1804	0.98
51	71	4	56	4.6	1.8	1	23	1809	1831	1809	1831	0.97
52	71	8.2	1.2e+02	3.6	5.0	1	23	1836	1858	1836	1858	0.98
53	71	5.1e-05	0.00073	20.0	1.8	1	23	1863	1885	1863	1885	0.99
54	71	0.14	2	9.1	2.6	1	23	1917	1939	1917	1939	0.98
55	71	0.00021	0.0029	18.1	0.5	1	23	1944	1966	1944	1966	0.99
56	71	0.14	2	9.1	2.6	1	23	1971	1993	1971	1993	0.98
57	71	0.0023	0.032	14.8	0.4	1	23	1998	2020	1998	2020	0.99
58	71	0.14	2	9.1	2.6	1	23	2025	2047	2025	2047	0.98
59	71	0.14	2	9.1	2.6	1	23	2106	2128	2106	2128	0.98
60	71	0.00021	0.0029	18.1	0.5	1	23	2133	2155	2133	2155	0.99
61	71	0.14	2	9.1	2.6	1	23	2160	2182	2160	2182	0.98
62	71	0.0015	0.021	15.4	0.7	1	23	2187	2209	2187	2209	0.99
63	71	0.47	6.6	7.5	1.6	1	23	2214	2236	2214	2236	0.98
64	71	0.3	4.2	8.1	1.3	1	23	2241	2263	2241	2263	0.98
65	71	0.046	0.66	10.7	1.3	1	23	2268	2290	2268	2290	0.98
66	71	0.62	8.8	7.1	1.7	2	23	2361	2382	2360	2382	0.97
67	71	0.3	4.2	8.1	1.3	1	23	2387	2409	2387	2409	0.98
68	71	0.3	4.2	8.1	1.3	1	23	2414	2436	2414	2436	0.98
69	71	0.3	4.2	8.1	1.3	1	23	2441	2463	2441	2463	0.98
70	71	0.12	1.7	9.4	1.8	1	23	2468	2490	2468	2490	0.99
71	71	0.14	2	9.1	2.6	1	23	2495	2517	2495	2517	0.98

Sequence Information

Coding Sequence: ATGGAGGGCGCGGCATCTGGGGCAACTAAAGCCCACCGTGCTGGGGACGTTACCGATCGAGCAGTACCATCCACATCCACGACGGAGGCTGCGAAGCCGTCAACATCAGGTTTGTTGAAACCTGGATCTAAGGTCGCTGGAGCAAAACTTAAAATAAGTACGGGTGACAAGCCTCATACTAGCACCTCCCAGCGTCCACGTATTAGATCTGAAGCTACATCAACGACGACATATGAGTGCGATAAATGTGGCAGAGGAGATATTAGCTTCAAGTCGGCCTCACTCGCCATCAGCGAGAATGCGGAGTACCGGACAGGGACAGATTGTAATTCATATGTGTTTAGTCACTACAGGTTTTGTTGTACATCTACCGGCAATGACGTAATCCACGATAAGTCTATTGTCGACGTTAACTTCACAGTTCACACACCTTATACAATGGATATTGACTCGTTAGACTTTGTTGAAAGTTGtactataaaatcagaagtgattttaacagagacattttctttttgtgagaAATACAAAGATTGTGGGAGTAATGAACTAAAAAGGGAGCCAGTAAATTACGAAGAACCGCTTCAACGTAAAAAAGAATATGACCTGAAAGAACCCATAGATACACATGCTGCTCCGATGCGACAAGATGTTTGTAATGACTCTAATTTTACAACTGGAGAAAATTCTCTAATAGAACTTTTGACAGTTAggaaaaacattaaatactcttgtaaggaatgtaattttacaaccCAGTTAGAAAGTTCTATAAAAGAGCATAAGAACATTCACAATGACGGATGTAATATTGAAGACTGTAATTTTAAGATGCCACAGATTTTTTCTCCATCACCACAGTTGAAACCTCTAAGAAGTGCAAatgaatatatttgtaatgaatgtaattacaccacattgaacaaagattttctaaggaaaCATGTGAAGATTCACAAAACCACTTCATATAGTTGcgagaaatgtgattataatacacGGTGGAAAAGTCAGTTCACAGCACATGcaaaaattcattctggtgatgaatataagtgtgaagggtataattgtaaagaatgtgattatagaacagTGTGGAGAAAACAactaaaagaacatgtcaaaattcatgtagatggtgaatataagtgtaatgaatgtgattataaaacaattcagAAAAGgtatctaatgcaacatgtcaaaattcattctggtaatgaatataagtgcaaagaatgtgattatacaacaaaatggaaaaatcttctaaaggaacatctcaaaattcataccggtgatgaatataagtgtaaagaatgtgattataaaactgtacgaaAAAGACAGCTAAAGGAGCATCTCAAAAgtcatactggtgataaatataagtgtaaagaatgtgattataaaacaatacagaaaaggtatctaatgcaacatgtcaaaattcattatGGCAATGAATAtacgtgtaaagaatgtgattttaaaacaatatggaaaaattctctaaatgaacatgtcaaaatccatttaggtgaagaatataattgtaaagaatgtgattataaaacaaaatggaaatatattttaaaggaacatctcaaaattcatactgatgatgaatataagtgtaaagaatgtgattataaaactgtacgaaAAAGTCAGctaaaggaacatctcaaaattcatactggtgataaatttaagtgtaaagaatgtgattataaaacaatacagaaaaggtatctaatgcaacatgtcaaaattcatacaggggatgaatataagtgtaaagaatgtgattacaaaacgaTATGGAAAAATCGTCTAAgtgaacatctcaaaattcatacaggtgaagaatataaatgtaaagaatgtgattataaaacaatatggaaatattctctaaaggaacatttcaaaattcatacaggtgaagaatataagtgtaaagattgtgattataaaacattgtggaaaaatcaactaaaggaacacgtcaaaattcatgcaggtgaaggatataaatgtaaagaatgtgattataaaacggtgtggaaaaatcaactaaaggaacacgtcaaaattcatgtAGAtggtgaatataagtgtaatgaatgtgattataaaacaattcagAAAAGGTATCTAatgcaacatatcaaaattcattctggtaatgaatatatgtgtaaagaatgtgattataaaacggtgtggaaaaatcaactaaaggaacatctcaaaattcatacaggtgaagaatataaatgtaaagaatgtgattataaaacaatatggaaatattctctaaaggaacatttcaaaattcatacaggtgaagaatataagtgtaaagattgtgattataaaacattgtggaaaaatcaactaaaggaacacgtcaaaattcatgcaggtgaaggatataaatgtaatgcatgtaattataaaacagcgtgGAAAAAACAACttaaggaacatgtcaaaattaatataggtggtgaatataagtgtaatgaatgtgattataaaacaaatcagaaaaggtatctaatgcaacatatcaaaattcattctggtaatgaatatatgtgtaaagaatgtgattataaaacggtgtggaaaaatcaactaaaggaacatcacaaaattcatactggtgatgaatataagtgtaaagaatgtgattataaaacaAAAAGgtatctaatgcaacatgtcaaaattcatacaggtgaagaatataattgtaaagaatgtgattataaaacagtatggaaaaattgtctaaaggagcatgtcaaaattcatacaggggatgaatataagtgtaaagaatgtgattataaaacggtgtggaaaaatcaactaaaggaacacgtcaaaattcatacaggtgaagaatataagtgtaaagaatgtgattataaaacagtatggaaaaattgtctaaaggagcatgtcaaaattcatactggtgatgaatataagtgtaaagaatgtgattataaaacggtgtggaaaaatcaactaaaggaacatcacaaaattcatactggtgatgaatataagtgtaaagaatgtgattataaaacggtgtggaaaaatcaactaaaggaacatcacaaaattcatactggtgatgaatataagtgtaaagaatgtgattataaaacagtatggaaaaattgtctaaaggagcatgtcaaaattcatactggtgatgaatataagtgtaaagaatgtgattataaaacagtatggaaaaattgtctaaaggagcatgtcaaaattcatactggtgatgaatataagtgtaaagaatgtgattataaaacagtatggaaaaattgtctaaaggagcatgtcaaaattcatactggtgatgaatataagtgtaaagaatgtgattataaaacggtgtggaaaaatcaactaaaggaacatcacaaaattcatactggtgatgaatataagtgtaaagaatgtgattataaaacggtgtggaaaaatcaactaaaggaacatcacaaaattcatactggtgatgaatataagtgtaaagaatgtgattataaaacggtgtggaaaaatcaactaaaggaacatcacaaaattcatactggtgatgaatataagtgtaaagaatgtgattataaaacagtatggaaaaattgtctaaaggagcatgtcaaaattcatactggtgatgaatataagtgtaaagaatgtgattataaaacagtatggaaaaattgtctaaaggagcatgtcaaaattcatactggtgatgaatataagtgtaaagaatgtgattataaaacagtatggaaaaattgtctaaaggagcatgtcaaaattcatactggtgatgaatataagtgtaaagaatgtgattataaaacggtgtggaaaaatcaactaaaggaacatcacaaaattcatactggtgatgaatataagtgtaaagaatgtgattataaaacggtgtggaaaaatcaactaaaggaacatcacaaaattcatactggtgatgaatataagtattGTGGAAGTAAGGAACTGAAAATGGAACCAGTAGATTACGAAGAATCGCTTAAACGTAGAGAAGAAAATGATATGGCAAAACCCTTAGATACACATGCTGCTCCGATGCAACAAGACTTTTGTGATGACTCTAATTTGACAATAATCAGAGAAAATTCTCAAATATCACCACAGTTCAAAACCCCAAGAGGTGAGAacgaatatatttgtaatgaatgtaattacaccacattgAACAAAGATTATCTAAGGAAACATGTGAAGATTCACAAAGGCACTTCATATAGTTGcaagaaatgtgattataatacacAGTGGAAAGGTCACTTCACTGCACATGCAAAAATTCATTGtggtaataaatataagtgtaaagaatgtgattataaagcagtgacaaaaatttgtataaaggaacatctcaaaattcatactggtgatgaatataagtgtaaacaatgtgattataaaacagtacaaaaaagtCAGCTAAatcgacatgtcaaaattcatgcttgtaatgaatataagtgtaaacaatgtgattacaaaacagtacgAAAAAGTCAACTAaatcaacatgtcaaaattcatactggtgacaaatttaagtgtaaagaatgtaattatgaaaCAGTGTGGAAAACACTTCTAATgggacatgtcaaaattcatacaggtgatgaatataagtgtaaacaatgtgattataaaacagtagaaaaaagtaaactaaacagacatgtcaaaattcatattagtgacaaatataactgtaaacaatgtgattataaaacggtgtggaaaaatcatctaaaggaacatgtcaaaattcatacaggtgaagaatataagtgtaaacaatgtgtttataaaacagtatggaaaaataatctaaacagacatgtcaaaattcacacagattGTGGGAGTAAGGAACTAAAAACGGAGGCAGTAAATTATGAAGAATTGCTTAAacctaaagaagaaaatgatctaGCAGAACTCCTAGATACACATACTGCTCCGATAAAACAAGATTTTTGTAATGACTCTAATTTTACAATTGGAAAAACTTCACAAATTGAACTTTTAAGAGttactaaaaacattaaatactcttgtaaggaatgtaactttacaacccAGTTAGAAAGTTCTATAAAAGAGCATATGAGGAATCACAATGACGGaaataatattgaagaatgtaattttaagatgcCACAGATTTCCTCTCTACTACCACAGTTGAAAACTCCAAGAAGTGACAACCAAtatgtttgtaatgaatgtaattacacaaCATTAAACAGAGATTATTTAAggaaacatgtgaaaattcacaaAGGCACTTCATATAGTTGCGAGAAATGCGATTATAATACATGGAGTAAACGTTACTTCACACaacatgcaaaaattcattctggtaatgaatataagtgtaaagaatgtaattataaaacagtatgcaAAACTCGCctaaaggaacatctcaaaattcatactggtgaaaaatataagtgtaaagaatgtgattataaaacagtacaaaaaagcCAGCTAAatcgacatgtcaaaattcatactggtgacaaatataagtgtaaaaaatgtgattataaaacattgtggaaaacacatctaaaggaacatgtcaaaattcatactggtgaagaatataagtgtaaagaatgtgattataaaacagtgtggaaaacgcatctaaaggaacatgtcaaaattcacacaggtgaagaatataaatgtaaagaatgtgattatgaaacgatacggaaaagtgatctaattcaacatgtcaaaattcatactggtgaagaatataaatgtaaagaatgtgattataaaacagtgtggaaaacacatttaaaggaacatgtcaaaattcacacaggtgatgaatataagtgtggagaatgtgattatgaaacgATACGGAAAAGggatctaatgcaacatgtcaaaattcatacaggtgatgaatataagtgtaaagaatgtgattataaaacagtgtggaaaacacatctaaaggaacatgtcaaaattcatacaggtgatgaatataagtgtaaagaatgtgattataaaacattgtggaaaacacatctaaaggaacatgtcaaaattcatactggtgaagaatataagtgtaaagaatgtgattataaaacattgtggaaaacacatctaaaggaacatgtcaaaattcatactggtgaaaaatataagtgtaaagaatgtgattataaaacagtgtggaaaacgcatctaaaggaacatgtcaaaattcacacaggtgaagaatataaatgtaaagaatgtgattatgaaacgatacggaaaagtgatctaattcaacatgtcaaaattcatactggtgaagaatataaatgtaaagaatgtgattataaaacagtgtggaaaacacatttaaaggaacatgtcaaaattcacacaggtgatgaatataagtgtggagaatgtgattataaaacaatacggaaaagggatctaatgcaacatgtcaaaattcatacaggtgatgaatataagtgtaaagaatgtgattataaaacagtgtgggaaCATAGTctgaaggaacatgtcaaaattcatacaggtgatgaatataagtgtaaagaatgtgattataaaacagtttggaaaaataaactaaaggaacatgtcaaaattcatactggtgataagtataaatgtaaagaatgtgattttaaaacagcatggaaaaataatctaaacaaacatgtcaaaattcatactggtgaagaatataagtgtaaagaacgtgcttataaaacaatatggaaaaatcttctaaaggaacatctcaaaattcatacggatgacaaatatgagtgtaaacaATGTgcttataaaacagtatggaaaaatcaactaaaggaacatgtcaaattCATATgcgtgatgaatataagtgtaaagaatgtggttttaaaacagtgtggaaaatgtaaagaatgtgattataaaacagtgtggaaaacgcatctaaaggaacatgtcaaaattcatactggtgaagaatataaatgtaaagaatgtgattataaaacagtttggaaaaataaactaaaggaacatgtcaaaattcatactggtgaagaatataaatgtaaagaatgtgattataaaacagtttggaaaaataaactaaaggaacatgtcaaaattcacacaggtgaagaatataagtgtaaagaatgtgattataaaacagtttggaaaaataaactaaaggaacatgtcaaaattcacacaggtgatgaatataagtgtggagaatgtgattataaaacagtgtggaaaacacatctaaaggaacatctcaaaattcatacaggtgatgaatataagtgtaaagaatgtgattataaaacagtgtggaaaacgcatctaaaggaacatgtcaaaattcacacagACAAGGCGCCCAGTTTGAAAGGTTATGGCGGCGAAACACAAAATTCCCTTACAACTTGTTCATCTTTACATTTCATCGACTCGTTCAACATTCTGTTTCACttataa
Protein Sequence: MEGAASGATKAHRAGDVTDRAVPSTSTTEAAKPSTSGLLKPGSKVAGAKLKISTGDKPHTSTSQRPRIRSEATSTTTYECDKCGRGDISFKSASLAISENAEYRTGTDCNSYVFSHYRFCCTSTGNDVIHDKSIVDVNFTVHTPYTMDIDSLDFVESCTIKSEVILTETFSFCEKYKDCGSNELKREPVNYEEPLQRKKEYDLKEPIDTHAAPMRQDVCNDSNFTTGENSLIELLTVRKNIKYSCKECNFTTQLESSIKEHKNIHNDGCNIEDCNFKMPQIFSPSPQLKPLRSANEYICNECNYTTLNKDFLRKHVKIHKTTSYSCEKCDYNTRWKSQFTAHAKIHSGDEYKCEGYNCKECDYRTVWRKQLKEHVKIHVDGEYKCNECDYKTIQKRYLMQHVKIHSGNEYKCKECDYTTKWKNLLKEHLKIHTGDEYKCKECDYKTVRKRQLKEHLKSHTGDKYKCKECDYKTIQKRYLMQHVKIHYGNEYTCKECDFKTIWKNSLNEHVKIHLGEEYNCKECDYKTKWKYILKEHLKIHTDDEYKCKECDYKTVRKSQLKEHLKIHTGDKFKCKECDYKTIQKRYLMQHVKIHTGDEYKCKECDYKTIWKNRLSEHLKIHTGEEYKCKECDYKTIWKYSLKEHFKIHTGEEYKCKDCDYKTLWKNQLKEHVKIHAGEGYKCKECDYKTVWKNQLKEHVKIHVDGEYKCNECDYKTIQKRYLMQHIKIHSGNEYMCKECDYKTVWKNQLKEHLKIHTGEEYKCKECDYKTIWKYSLKEHFKIHTGEEYKCKDCDYKTLWKNQLKEHVKIHAGEGYKCNACNYKTAWKKQLKEHVKINIGGEYKCNECDYKTNQKRYLMQHIKIHSGNEYMCKECDYKTVWKNQLKEHHKIHTGDEYKCKECDYKTKRYLMQHVKIHTGEEYNCKECDYKTVWKNCLKEHVKIHTGDEYKCKECDYKTVWKNQLKEHVKIHTGEEYKCKECDYKTVWKNCLKEHVKIHTGDEYKCKECDYKTVWKNQLKEHHKIHTGDEYKCKECDYKTVWKNQLKEHHKIHTGDEYKCKECDYKTVWKNCLKEHVKIHTGDEYKCKECDYKTVWKNCLKEHVKIHTGDEYKCKECDYKTVWKNCLKEHVKIHTGDEYKCKECDYKTVWKNQLKEHHKIHTGDEYKCKECDYKTVWKNQLKEHHKIHTGDEYKCKECDYKTVWKNQLKEHHKIHTGDEYKCKECDYKTVWKNCLKEHVKIHTGDEYKCKECDYKTVWKNCLKEHVKIHTGDEYKCKECDYKTVWKNCLKEHVKIHTGDEYKCKECDYKTVWKNQLKEHHKIHTGDEYKCKECDYKTVWKNQLKEHHKIHTGDEYKYCGSKELKMEPVDYEESLKRREENDMAKPLDTHAAPMQQDFCDDSNLTIIRENSQISPQFKTPRGENEYICNECNYTTLNKDYLRKHVKIHKGTSYSCKKCDYNTQWKGHFTAHAKIHCGNKYKCKECDYKAVTKICIKEHLKIHTGDEYKCKQCDYKTVQKSQLNRHVKIHACNEYKCKQCDYKTVRKSQLNQHVKIHTGDKFKCKECNYETVWKTLLMGHVKIHTGDEYKCKQCDYKTVEKSKLNRHVKIHISDKYNCKQCDYKTVWKNHLKEHVKIHTGEEYKCKQCVYKTVWKNNLNRHVKIHTDCGSKELKTEAVNYEELLKPKEENDLAELLDTHTAPIKQDFCNDSNFTIGKTSQIELLRVTKNIKYSCKECNFTTQLESSIKEHMRNHNDGNNIEECNFKMPQISSLLPQLKTPRSDNQYVCNECNYTTLNRDYLRKHVKIHKGTSYSCEKCDYNTWSKRYFTQHAKIHSGNEYKCKECNYKTVCKTRLKEHLKIHTGEKYKCKECDYKTVQKSQLNRHVKIHTGDKYKCKKCDYKTLWKTHLKEHVKIHTGEEYKCKECDYKTVWKTHLKEHVKIHTGEEYKCKECDYETIRKSDLIQHVKIHTGEEYKCKECDYKTVWKTHLKEHVKIHTGDEYKCGECDYETIRKRDLMQHVKIHTGDEYKCKECDYKTVWKTHLKEHVKIHTGDEYKCKECDYKTLWKTHLKEHVKIHTGEEYKCKECDYKTLWKTHLKEHVKIHTGEKYKCKECDYKTVWKTHLKEHVKIHTGEEYKCKECDYETIRKSDLIQHVKIHTGEEYKCKECDYKTVWKTHLKEHVKIHTGDEYKCGECDYKTIRKRDLMQHVKIHTGDEYKCKECDYKTVWEHSLKEHVKIHTGDEYKCKECDYKTVWKNKLKEHVKIHTGDKYKCKECDFKTAWKNNLNKHVKIHTGEEYKCKERAYKTIWKNLLKEHLKIHTDDKYECKQCAYKTVWKNQLKEHVKFICVMNISVKNVVLKQCGKCKECDYKTVWKTHLKEHVKIHTGEEYKCKECDYKTVWKNKLKEHVKIHTGEEYKCKECDYKTVWKNKLKEHVKIHTGEEYKCKECDYKTVWKNKLKEHVKIHTGDEYKCGECDYKTVWKTHLKEHLKIHTGDEYKCKECDYKTVWKTHLKEHVKIHTDKAPSLKGYGGETQNSLTTCSSLHFIDSFNILFHL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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