Basic Information

Insect: Lucilia cuprina
Gene Symbol: -
Assembly: GCA_001187945.1
Location: JRES01000955.1:272331-308380[-]

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 44 0.0099 0.66 10.2 0.7 2 23 287 309 286 309 0.96

2 44 0.0021 0.14 12.3 1.8 1 23 319 341 319 341 0.97

3 44 2.4 1.6e+02 2.7 0.1 2 23 348 368 347 368 0.93

4 44 0.12 7.9 6.8 0.6 1 23 374 396 374 396 0.97

5 44 1.1 72 3.8 4.0 3 20 404 421 402 424 0.94

6 44 0.0033 0.22 11.7 2.1 2 23 592 614 591 614 0.97

7 44 0.00012 0.0083 16.2 1.5 1 23 624 646 624 646 0.96

8 44 3.5 2.4e+02 2.2 0.6 2 23 653 673 652 673 0.94

9 44 0.18 12 6.3 0.4 1 23 679 701 679 701 0.96

10 44 0.033 2.2 8.6 1.4 3 23 709 729 707 729 0.97

11 44 0.024 1.6 9.1 0.8 6 23 854 872 854 872 0.97

12 44 0.00019 0.012 15.7 5.1 1 23 883 905 883 905 0.98

13 44 0.19 13 6.2 0.1 1 23 911 933 911 933 0.95

14 44 0.93 62 4.0 1.1 1 23 939 961 939 961 0.97

15 44 0.94 63 4.0 6.7 2 23 968 989 967 989 0.95

16 44 0.00054 0.036 14.2 1.5 2 23 1187 1208 1186 1208 0.97

17 44 0.025 1.7 9.0 4.1 2 23 1315 1336 1314 1336 0.97

18 44 0.00035 0.023 14.8 0.3 2 23 1345 1366 1344 1366 0.97

19 44 0.63 42 4.6 0.4 2 23 1370 1390 1369 1390 0.96

20 44 0.0016 0.11 12.7 1.2 1 23 1396 1418 1396 1418 0.97

21 44 0.2 14 6.1 5.0 1 21 1424 1444 1424 1446 0.94

22 44 0.00029 0.019 15.1 0.3 2 23 1520 1541 1520 1541 0.93

23 44 2.7 1.8e+02 2.6 1.0 3 23 1546 1565 1544 1565 0.94

24 44 0.0039 0.26 11.5 1.2 1 23 1571 1593 1571 1593 0.97

25 44 0.00093 0.062 13.5 2.6 1 23 1599 1621 1599 1621 0.97

26 44 0.081 5.4 7.4 0.2 1 12 1624 1635 1624 1638 0.90

27 44 0.55 37 4.7 1.3 2 23 2017 2038 2016 2039 0.92

28 44 0.0017 0.11 12.6 1.9 1 21 2049 2069 2049 2072 0.88

29 44 7.4 4.9e+02 1.2 0.7 2 23 2078 2098 2077 2098 0.90

30 44 0.0085 0.57 10.4 0.3 1 23 2104 2126 2104 2126 0.98

31 44 0.00034 0.022 14.9 2.1 1 23 2132 2154 2132 2154 0.97

32 44 0.19 13 6.2 2.9 1 23 2262 2285 2262 2285 0.95

33 44 0.00052 0.034 14.3 3.5 1 23 2295 2317 2295 2317 0.98

34 44 0.28 19 5.7 0.2 1 23 2323 2345 2323 2345 0.92

35 44 0.012 0.77 10.0 0.3 1 23 2351 2373 2351 2373 0.98

36 44 0.0012 0.078 13.2 2.2 3 23 2381 2401 2380 2401 0.99

37 44 7.3 4.9e+02 1.2 3.0 1 10 2404 2413 2404 2416 0.89

38 44 7.4 4.9e+02 1.2 3.2 1 23 2630 2653 2630 2653 0.86

39 44 0.00038 0.025 14.7 1.6 2 23 2899 2920 2899 2920 0.97

40 44 4.9e-05 0.0033 17.5 2.8 1 23 2926 2948 2926 2948 0.99

41 44 0.0088 0.58 10.4 0.1 1 23 2954 2976 2954 2976 0.97

42 44 7.9e-05 0.0053 16.8 6.4 1 23 3010 3032 3010 3032 0.97

43 44 3.8 2.5e+02 2.1 1.1 1 12 3035 3046 3035 3052 0.87

44 44 0.00014 0.0097 16.0 0.8 2 23 3130 3152 3129 3152 0.95

#	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	44	0.0099	0.66	10.2	0.7	2	23	287	309	286	309	0.96
2	44	0.0021	0.14	12.3	1.8	1	23	319	341	319	341	0.97
3	44	2.4	1.6e+02	2.7	0.1	2	23	348	368	347	368	0.93
4	44	0.12	7.9	6.8	0.6	1	23	374	396	374	396	0.97
5	44	1.1	72	3.8	4.0	3	20	404	421	402	424	0.94
6	44	0.0033	0.22	11.7	2.1	2	23	592	614	591	614	0.97
7	44	0.00012	0.0083	16.2	1.5	1	23	624	646	624	646	0.96
8	44	3.5	2.4e+02	2.2	0.6	2	23	653	673	652	673	0.94
9	44	0.18	12	6.3	0.4	1	23	679	701	679	701	0.96
10	44	0.033	2.2	8.6	1.4	3	23	709	729	707	729	0.97
11	44	0.024	1.6	9.1	0.8	6	23	854	872	854	872	0.97
12	44	0.00019	0.012	15.7	5.1	1	23	883	905	883	905	0.98
13	44	0.19	13	6.2	0.1	1	23	911	933	911	933	0.95
14	44	0.93	62	4.0	1.1	1	23	939	961	939	961	0.97
15	44	0.94	63	4.0	6.7	2	23	968	989	967	989	0.95
16	44	0.00054	0.036	14.2	1.5	2	23	1187	1208	1186	1208	0.97
17	44	0.025	1.7	9.0	4.1	2	23	1315	1336	1314	1336	0.97
18	44	0.00035	0.023	14.8	0.3	2	23	1345	1366	1344	1366	0.97
19	44	0.63	42	4.6	0.4	2	23	1370	1390	1369	1390	0.96
20	44	0.0016	0.11	12.7	1.2	1	23	1396	1418	1396	1418	0.97
21	44	0.2	14	6.1	5.0	1	21	1424	1444	1424	1446	0.94
22	44	0.00029	0.019	15.1	0.3	2	23	1520	1541	1520	1541	0.93
23	44	2.7	1.8e+02	2.6	1.0	3	23	1546	1565	1544	1565	0.94
24	44	0.0039	0.26	11.5	1.2	1	23	1571	1593	1571	1593	0.97
25	44	0.00093	0.062	13.5	2.6	1	23	1599	1621	1599	1621	0.97
26	44	0.081	5.4	7.4	0.2	1	12	1624	1635	1624	1638	0.90
27	44	0.55	37	4.7	1.3	2	23	2017	2038	2016	2039	0.92
28	44	0.0017	0.11	12.6	1.9	1	21	2049	2069	2049	2072	0.88
29	44	7.4	4.9e+02	1.2	0.7	2	23	2078	2098	2077	2098	0.90
30	44	0.0085	0.57	10.4	0.3	1	23	2104	2126	2104	2126	0.98
31	44	0.00034	0.022	14.9	2.1	1	23	2132	2154	2132	2154	0.97
32	44	0.19	13	6.2	2.9	1	23	2262	2285	2262	2285	0.95
33	44	0.00052	0.034	14.3	3.5	1	23	2295	2317	2295	2317	0.98
34	44	0.28	19	5.7	0.2	1	23	2323	2345	2323	2345	0.92
35	44	0.012	0.77	10.0	0.3	1	23	2351	2373	2351	2373	0.98
36	44	0.0012	0.078	13.2	2.2	3	23	2381	2401	2380	2401	0.99
37	44	7.3	4.9e+02	1.2	3.0	1	10	2404	2413	2404	2416	0.89
38	44	7.4	4.9e+02	1.2	3.2	1	23	2630	2653	2630	2653	0.86
39	44	0.00038	0.025	14.7	1.6	2	23	2899	2920	2899	2920	0.97
40	44	4.9e-05	0.0033	17.5	2.8	1	23	2926	2948	2926	2948	0.99
41	44	0.0088	0.58	10.4	0.1	1	23	2954	2976	2954	2976	0.97
42	44	7.9e-05	0.0053	16.8	6.4	1	23	3010	3032	3010	3032	0.97
43	44	3.8	2.5e+02	2.1	1.1	1	12	3035	3046	3035	3052	0.87
44	44	0.00014	0.0097	16.0	0.8	2	23	3130	3152	3129	3152	0.95

Sequence Information

Coding Sequence: ATGTCGGTAGACATAATAGAAAGCATTACCATACCACCACTCAAAAGATTACGCTCATCTAGCATCATCTCTAGCGAGAGCACTAACTCCAAATGTGGTGAGgtatttgtaacaaattgtgCCGACAAATGGACATTTTATTGCAGCCATTGTCAATTGTCTACAACCGATATAGGCGTATTCGTTTGTCACATACGCCTGCAACatttaaaccaacaacaaacgCCGGCTCAGGAAACTCCAAAAAATGATACGTCTATTACAATTGCCTCGTCGCGACAAAATGTTGAGGTCTTGACTCCTACACCTCCACCGCCGCCGCCACCTATGACCTTCATACCGAGAGATAACATAATTGTTCCGGAAATTGTAACCTCTAAAGGGCCTGAAACTGAACAAATGCAAAGTGATATAGTTAAAGAAGAACCTACTGTATCAACGAATGAATCTAATATGGACTATGAGGCAATTTGTTCAAAAGTTTCGAAAATTGTTGATATTTCTACGTTAACCCAGCCGGAAAGTAATAATCAGACTACAGCAGATGTCACCAGTGATaagaTCCCCATTGTAAAAAATGAAGCTTTAGGGGATCAAATGGTAATAgaacaacaagaacaagaagaagaacaacaacaagaagaacaacaagaacaacaacaacaagaaactatacaagttttttatataagagATGTGTCGGAAAACAATAAAGATGAAGAAGCGGATAAAATAACACTAACTACagatgatgaagaagatgaagaagacgaagataatgatgatgatgataatgatgatgattatgaggGCGAGGATATTGACAATATTCTAACAGAGGATCAAATAACAAgtttaaaatgtacatattgttataaactttttgatgatAAAACCTCTGTTCTTAATCACATAAACAGCATTCACTTAAAggataatgttaaaaattttccctacacttgtaaaatatgtaaaaaaggtTTCAAAAGTAGAAACGGTATGAAGGGCCACTCTAGATTACACGAGACAAACAATCAATTGAAATGTCCTATCTGTCCGTCAACACTTGATAGAACCTATTTTGCGACACACGTTCTAATGCACGAAAGTGAAACGTGTTTTCCTTGTCAGGTCTGTGGCGAAATCTATGACAGTCACGTGCAACGTCTTAAGCACTGGTATACACATGGAAATGAACAACCATATGGTTGTAATTATTGTTTTCGTCGTTATAAGAAAGAGAAATATCTGCTTAAACATCTCGAATGTCACAAGCCCTTAGAGTGTAGTTGCTGTAAGAAAGAATTCTATTCACCTGATACACAACCACGTCCACCTTTGATTTGTCGAAATTGTATTAACAATCCGGACATGaggaaaagtgttaaaatattgCGAAAAAAATATCGCCTATCTGTCAAGGAAAAGTCTATCAATCTCGAATATGACGAGGCTGACTCTCAAGAAGATGATTCAGATGTGGAATTTGTAGAGGATGAAAATAAGCCCAGCAGcagtagtttattatataataagAATCCCCTGGTATCGGATGAAGCTTCTGGGGAAGAtatagtaaaacaacaacaaaacttagAAGAAAACTTACAAGTTTTTGTTATAACCAATATGGCAGAGGACACCAATGATAAAGAAAgggaaaacataaaactaactACAGATGAAGATgacgaagatgatgatgatgatgatgatggatgCGAGGATAATGGTGATGGAAATATCTTAACAGAAGAGCATATAACCAGCTTAAGATGTACATATTGTCATAAACTTTTTGATGATAAAACCGCTGTCCTTAATCATATAAAAACCAATCACTTGATGAATAATATCCAAAGTTATCCTTACACTTGTACTATCTGTAAAAAAGGCTTTAAAAGTAAAAGCGGTTTAAAGGGTCACTCCAGTTCACATGAGACAAACAATCAATTGCAATGTCCCATCtgtttgtcaaaattttataaaacctaTTTTGTAACACATGTTCTGATGCACGAAAGTGAAACGTGTTTTCCTTGCCAGGTTTGTGGCGAAATCTATGACAGCAACGAGAAACGTCTTGATCATTGGCATACTCATGAAAAGGATAAACCATATGGTTGTAATTATTGTTTTCGTCGTTATGAGAAAGAGAAAAGTCTCCTTAAACATCTTCAATTGCACAAGCCTGTGGAGTGCAGTTCCTGTAAGACAGAATTCTATGCAACTGATACACGTCCTCCCTTCTTTTGTCGGCCTTGTATGAAGGAACATGTCAAAGAATTGCAGACAAGATATCGTCCAGCAGAAGAGgaaaaatctATTAATTCCAAAGAGGATGAGGATAAATCTCAAGAAGATGATTCAGATGCCGAATTTATAACAGATGAAATTCTGCCCAGCAGCAGTGGTTCTTTCTACAACAagaaaatcCCAGAAGACTCCGACACACAAACCATTGATGAAAACTCTGGCGAATTAACAGATTCTGATGTAGAATTTGTTGATGTTTCACACGAATCTAACGTTTCAAAAGCCTCTGGTGCCTTTATATGTTGcggtaaaaattttcataactaTGGAAATCTAAATGCTCATATCACACGAACGCATGAAAGCAACAGGAATAGAAAACATCGTAAACATGTTTGTCACCTTTGTAAGAAATCATTTAAAGTTAGATCGAGTCTAGTTTATCATGTACGGACTCATGATATAAATAATCAATTTGAATGTCCCATTTGTCCTTATGCCGAATTTCGTGAGTCTGATTTCTTAAATCATGTTATAACGCATGAAAGTCCTACATGTTATCCGTGTCAGGTTTGTGCTGAAATTTTCCACACACAAGAAGAACGTCTTGAACATTGGCACACACATGCCGATGAGAAGCCGTGTGCATGTCACGTTTGTCATCGTCGTTTtaggaaaacatttatattggTAAATCATATGCGTGCACATGGCATTTACCAGTGTCAATTCTGTGAGGAAAGTTACGAATCAACGGTAATTCAACGTCATCCCTATGTTTGTGGCAAGTGTGAAGAAGAACCTGAAATTAAGAAGACCGTAGATCAGCAAAGAACTTTGCCGAGTAATAAGCGTGTTTTCGATGGGAAACAGAGGatGAACTCAAATTATCCATTACTTCCTATGATAGCAATCAAACAAGAACCAGAATCAACtacaaatgaagaaataagaaatGCTGTTGATGTTAATGCTGAAATGGATGGATTTCAAAGTAATAACCTAAATGTAACAATTTCCCGAGATGATGATAATGAGAATACCACCCAACCTCAAGAAAACTCTATTCGGCAATTATTCCCTATGCCAATGGCAATAAAACAAGAATCAGAATCAATTATAAATGAAGAAAGAAATAACACAAATGAGACAATTTCCCAAGAAAATGAAGAGGAAATAAGAAATGACAATATTAATAACGATATATTAAAGAGCCAAAGCGAAAAACGcgataaaactttaaaagataaACAGAAAGTAttgcaaaagaattttaaaatatgccGTCAGAAATTATCCTTAAAATGTGGCAAATGCAAAAGAAGTTTCAATACGCGTCGAGGTCTGCTTATACATTTAACAACTCATAATAAAAAGAAACCTAAAGATGATGTTAGAAATGAAAACATTATGAATCTTAGACCACGCAAgTCTACTATGCTGGCAATTGATGAAGTGAACAAAAGTTTAAAGGAGGCACAAGATAACCAACAGCAATTAGCTGTAACTGACACAGTTAAACCGactaataatgaaaatgataaaGAAGTTAATGACACCAATATGAAAACCTGTGATTCCGTAAATGAAGAAGATGAATATAAAGACGACATGCCAGCTAATCAAAGGAACAAAGGCAAAAAATCTAGTGTTaggaaaatacatattttgtccAGACACGacttaaaatgtttcatttgcAAAAAGAAGTtcagaaataaactaaaacaattagAGCATATGAAACGTCATCGGCGTGGCAAAAATGCAAGTGTTAAATGTCGCGAATGTAATAAAGTTTTTGCTTCGATCAATGGCTTAAAGGCTCACCTGAGattccatttaaatttaacatgtcCAATGTGTGAAATCGAAACAACACcgcatttatttataaagcatGTTTTAACACACGAAAGTGATGGCTGCTACCCGTGTCAGTCGTGtggcaaaatattttctaatcaGGAAGCACGTATGAAACATTGGCATAGTCATGACAAGGAGAGACCATTTGCCTGCAGTGTATGTTATCGGCGTTATGGTAGGATACAACATTTGCGGAGGCATATGAAATGTCATGAGCAAGAGTCAAACATGGCAGCAGCTGCTGATCATAACAATACAACGAGGGATATACAAGCGAGCCAACAGCAATTAGGCGGTAAAACGCCCAAAAAACTTAAATCACCCAACAAGAAAGATAAGCTACTTAATGTCTcctatataaattcattttgcTCGACAAATTTAGAAGTAGACGAAGGCGAAAACCTAAATTTTGCTAATTACAACGAAGAAAAGTGTCCACAATGCAATAAATCTTTTGCATCAATAAGTGCCTTAAATTCCCATTTAGTATTCCATTCAAATGTACATTGTCCCATTTGTAAACTGGAAGTAACAcagaatttctttataaaacatattctaAAGCATGAAGGTGAAAACTGCTATCCCTGTCAGTCGTGtggtaaaatattttccaatctAGAAGAACGTATGAAACATTGGCATAGTCATGCCCAGGAGAAACCGTTTGCCTGCACTATTTGTTTTAGACGTTATGGTAGATTGCAACATTTGAGTCGTCATATGAGAGGTCATATGGAATACGATTGTAATTTGTGtggtaaaacatttaaatcagtTGCAGAATCTGCCAAGCCACCGCATGTCTgtaagaaatgtaaaaaatcattgaaatataTTCCTTTGAGTGGTGAATGGGAAAagTTTTATTGTTTCTACAACATGGCCCTAAAAACTTTGCAGCCTAATTTAACAACAGCTCCCTTACAAGAAACAGCTTGTGAATCTATGACATTGTTGAATACTACTTCCGGTGGTGCGTCTAAATGTGCCGaaatatttgttacaaataatGCCGATAAGTGGACATTTTTTTGTGTTCATTGCGAAAAATCCACCAGTGATATAGGAGTTTTCATTTGTCACATACGTTTGGAACATTTAAGTTGTCTTAATGATTTGCGAAAAAGTAAAGAGTCTACTGAACATCCAGGTAATATAATGGCtccaaaaacaaataacatttctaTATCACAAAATGTAGATACTGAGAAAACTAGGCCCGAAAATGAGCGAAGTGAACAAACAACAGATATTCAATCCAATACTTCCGAAGTTtccaaaatttttgatattagcCCACATCCACTGGCAAGTAAAGAAAACCAAAATCaaagtaatattattaaacagGAAGTAATAACGGACGAACAGTCATTTACGTGCAAAAAACCCAAGAATACTCCTAATCGAATGCAGGATGAGTCTTCTAAGGTTCCAAAGAATTTTGAGGTTTCTTCAGTGGTAAATCTACCTTCTCCTGTGGTTGAAGAACTTGCTGCAGATCAACAGCCAATGCAATGTGATGTTATTAAAGaagaaatctttattaatgAACCTGTAGACTTGCAAGATACTGGCTCTAAAGTTCCCAAAATTTCAGAAGTTACTTCATTAAGGCAGACGGCGACAAGTAAGGAATTGGAGAACATAACAAATAAGAACACTTCAACAGCAATAGCGCAACAACTGAAACCGAATCAGGAATATTTTGCTATAACAGCAATCGAACAAGACCTAAAACCGCAAGCACGAAACGAAATTGTACAAGTGTTTTATATAAACGACGAAGAAAACAACATCTCTACGAATAAGGAAAATTCAAATGATGATGaagataataatgaaattaatattgaagACATTAGTGCCGCAGATAATGTCGATGATAATAATGCtaatgagaaaaatttaaaacttaaatgttcATATTGTCAGGCGATGttcaaaaatatgcaaatactttATGCACACATTTCCCAACATCACGAAACAAATGTTCGCATAAAAACTCCATATAAATGTACTAAATGTGATAAAAGTTTCAAATATAAGggtattttagaaaaacataatTTGGCCAAACATAAAGGACTACTTTTACAATGTCCAGTGTGTCCGGTAAAGAGAAGTAAATGGTGTTTTCTGGCTCATGTACAGACACATGAAAGCGATACGTGTTTTCCTTGTCAGGTATGTGCGAAAATATTCGCTAGTAATGAGGAACGTATGAAACATTGGAAAAAACATGCTGTTGATAAACCATATCCCTGTAAGATATGTTTTCAACGTTTTCGTAAACCACAGTATTTAACACGTCATACAAAAGGTCATCCTCGATATCAATGTAGTGTatgttcaaatttattttactcaATGCAAACTCAAAATGTTCCTTATATTTGCGAGAAATGTAAAGATTTATCCGAAAATCTAGTAATGGAGCTTGATCCTTTAGTAACAAATACCGCAGCTGTTATGAATGATCATATTGAGAATACAGAAATCATTACTAATGATAATTCAGCCATTTTCATTAACGAAGACAAGGACTCGGATATAGAATTTATTGAAGAGTCATACGCCGATAATGTAGCCAGTGTTAGCAGTTCAAATACTGCTCAAACTACTAGCAACGATGACAGTAACTCACTGCATAAATGTCTATATTGCAATAGAGAATTTATGACCGAAAGACGTCTCATAATACACACCACAAAAATGCATGATAAAGGTGAACGTCTGCTCTCACGTTTCATATGTCGCTATTGCAATAGATCGTTTCAAACTAGATCAGGTTTGGCCCTTCATCATAAAACTCACGATAAAAGTAATCAATTTCGTTGCCCTGTCTGTCCTTTAACCGAATTCAGAGAAAGTTCTTTTATAACACATGTCCTTATGCACGAAAGTGAGTCATGTTTTCCCTGTCAGGTCTGTGCCAAATTATTCACCAGTAATTCAGAACGTTTACAACATTGGCGCATACACATTGAGGAGAGACCACATGGTTGTAATTACTGCTATAGACGTTTCTATCAGAAAAATGTACTCAAAAATCATATGAAATCTCATCGTCTATATTATTGTCATTTTTGTCATAAGAATTTTCAATCAGATCGTATCATTAAGACGCCGTATGTTTGTGGTGAATGTGAGAAGTCGCCATATGTTAAGAATCAATTAAAACGACTGAAAGAAGATTTGACGAGTAGCAACGAAACAATGTCGGCCATAGTTATAAAAACGGAAAAGGATGAAGAATGTGAAGATGTGAAACCAGTAATAAAAGAAGGCGGTGGTATAGTAATACAACAGGCAAATAGTGGTGTTGTAGCAGGAGGCAATAATGTAAGAACTAGTGCTGTGGCAACTGGGGGACCAaaagaaattgttgaaaaaaccCAGGCGGCTTTAAAGGTAGCCAACGAAGCTaagcaattaaatttaagattaaagGAGCCCCAAAAACTTCTACAACAACAAACGACCACAAATACTTTGGGTAAAAGAAGCAGCAGTATAGCAGCCGAACAATTGCATACAGATAACAGCAATGAAACCACAAATTTACCCTATAAAGTGGGTAATAAACGTTTTCGGGTACAAACACCCGTACGTtatgctaaaaaagtaaatactcCACCATCACCTGCCGCCACCGCCACACAATTGCAACCACCACCCCCAGCAGCAAGCGCTATGGCTCCCGCAAAATGCGGtgaaatatttgtaacaaataatgCCCGCAAATGGACATTTGTTTGTACTTTCTGCCAAAAGTCTACCCGTGATATAGGAGAATTTGTAtgtcatattaaatttaaacacatgCCAACCGATTATCAAGAAGATGAAGACTATGAAGAAGATGTTAATGATGTTTTTGTCACAGGCCAGGAAGATAACTACAACAATCATGAACAAGatgtaagaaattatttatgcaaatcTAATACATTGGAAGAGTCTTGCTCCTCCTCAAACTCTCCTTATCAAACTATTAAACAAGATTTAGCCACAAATAGCTGCCCATTTCCCACCATTATACAGGTGTCCTCTATGGTAGCAGCTAAAACTACTAATTCTCTAAATAACAACACCTCTAATAAAGAGTATTTCGATTGTACCAACTATTTGGATGTTAATGTACACACTGAGTCCGATGAACTGCCGCCACAAAATAATGGTGTCAAAGCTAAATTACAAGCAAAACTAACACGACAATCTACCGCAACAagtgcagcagcaacaaaagaTCAACACAAACGGCAAATggataaaagtaaatatattgttGATCTATTAGATGATGACGAAGACCAGGAACAAGGTCGTAACACTAACGAAAAGGATATGCAACAGAAAAACGATATGTTTGACTATGAAATGGAAGAAGATGAAGACGGTGTCGAAATTGTcgatgatgacaatgatgaaATGGAACCGATGGAAGAAGataatttattattcttaagATCTAGCTCTATAGAAGATGCTAATGTGGAGACGACGGGTGTTAAGGGTAGCAGTAAAAAATATCGTTCCCATGTAAGGGGTAAGGCCTATTGTAATCTATGCgataaaacttttcaatactATTCACTATATCGCAATCATATGATCAAACATTCCAATATAACACCGTACAAGTGTCAGTATTGCAGTAAAGCCTTTAAATCCAAACAGGCCATACGTTATCACATGAATACGCATACAAAAGAAGTACAATACACTTGTCCACTCTGTCCCATGACCTATGGTACCGAAAATCAATTTATAACACATGTGTTAAATCATGAAAGTGATACATGTTTCCCCTGTATGGTGTGTGcgaaaattcttaaaagtgATCAGGAACGTGATGAACATTTATCAACACACAGCGAGGAAAGACCCTTTCCGTGTGGTTATTGCAATAAACGTTTTAGACAAAAGCATCATCTATCGAATCATTTGAAATTACACTGTCAATATCGTTGTGATTTCTGTAAAGAGGAGTTCTCCTCAACGCAAACACAACGACGTCCTTATGCCTGTGCCTCGTGTGAAGAATATCCCGAAATAAGAATACAGGTTGAGAAACAACGTtcgaaaaacttaaataatgaGGTGAATCCTTTGGAATTATCCTATGATAATATGCCTACCAACGAAACGGAGGCTACCGAATGTGTTGATTTGGCTACGGACGATGAAGATGAAGAGAGCGAGAATAGCACTAGTTTATTGGGTGGAGCTAATGGCCAGAAGCGTATTTCTTGTCAATATTGTCCACGTTCTTATAAACAAACTAGTGCTCTTAACTATCATATAAGACAGAAACATCCACAGATTTGGGCCGAGATGAAAGTAAATTAA
Protein Sequence: MSVDIIESITIPPLKRLRSSSIISSESTNSKCGEVFVTNCADKWTFYCSHCQLSTTDIGVFVCHIRLQHLNQQQTPAQETPKNDTSITIASSRQNVEVLTPTPPPPPPPMTFIPRDNIIVPEIVTSKGPETEQMQSDIVKEEPTVSTNESNMDYEAICSKVSKIVDISTLTQPESNNQTTADVTSDKIPIVKNEALGDQMVIEQQEQEEEQQQEEQQEQQQQETIQVFYIRDVSENNKDEEADKITLTTDDEEDEEDEDNDDDDNDDDYEGEDIDNILTEDQITSLKCTYCYKLFDDKTSVLNHINSIHLKDNVKNFPYTCKICKKGFKSRNGMKGHSRLHETNNQLKCPICPSTLDRTYFATHVLMHESETCFPCQVCGEIYDSHVQRLKHWYTHGNEQPYGCNYCFRRYKKEKYLLKHLECHKPLECSCCKKEFYSPDTQPRPPLICRNCINNPDMRKSVKILRKKYRLSVKEKSINLEYDEADSQEDDSDVEFVEDENKPSSSSLLYNKNPLVSDEASGEDIVKQQQNLEENLQVFVITNMAEDTNDKERENIKLTTDEDDEDDDDDDDGCEDNGDGNILTEEHITSLRCTYCHKLFDDKTAVLNHIKTNHLMNNIQSYPYTCTICKKGFKSKSGLKGHSSSHETNNQLQCPICLSKFYKTYFVTHVLMHESETCFPCQVCGEIYDSNEKRLDHWHTHEKDKPYGCNYCFRRYEKEKSLLKHLQLHKPVECSSCKTEFYATDTRPPFFCRPCMKEHVKELQTRYRPAEEEKSINSKEDEDKSQEDDSDAEFITDEILPSSSGSFYNKKIPEDSDTQTIDENSGELTDSDVEFVDVSHESNVSKASGAFICCGKNFHNYGNLNAHITRTHESNRNRKHRKHVCHLCKKSFKVRSSLVYHVRTHDINNQFECPICPYAEFRESDFLNHVITHESPTCYPCQVCAEIFHTQEERLEHWHTHADEKPCACHVCHRRFRKTFILVNHMRAHGIYQCQFCEESYESTVIQRHPYVCGKCEEEPEIKKTVDQQRTLPSNKRVFDGKQRMNSNYPLLPMIAIKQEPESTTNEEIRNAVDVNAEMDGFQSNNLNVTISRDDDNENTTQPQENSIRQLFPMPMAIKQESESIINEERNNTNETISQENEEEIRNDNINNDILKSQSEKRDKTLKDKQKVLQKNFKICRQKLSLKCGKCKRSFNTRRGLLIHLTTHNKKKPKDDVRNENIMNLRPRKSTMLAIDEVNKSLKEAQDNQQQLAVTDTVKPTNNENDKEVNDTNMKTCDSVNEEDEYKDDMPANQRNKGKKSSVRKIHILSRHDLKCFICKKKFRNKLKQLEHMKRHRRGKNASVKCRECNKVFASINGLKAHLRFHLNLTCPMCEIETTPHLFIKHVLTHESDGCYPCQSCGKIFSNQEARMKHWHSHDKERPFACSVCYRRYGRIQHLRRHMKCHEQESNMAAAADHNNTTRDIQASQQQLGGKTPKKLKSPNKKDKLLNVSYINSFCSTNLEVDEGENLNFANYNEEKCPQCNKSFASISALNSHLVFHSNVHCPICKLEVTQNFFIKHILKHEGENCYPCQSCGKIFSNLEERMKHWHSHAQEKPFACTICFRRYGRLQHLSRHMRGHMEYDCNLCGKTFKSVAESAKPPHVCKKCKKSLKYIPLSGEWEKFYCFYNMALKTLQPNLTTAPLQETACESMTLLNTTSGGASKCAEIFVTNNADKWTFFCVHCEKSTSDIGVFICHIRLEHLSCLNDLRKSKESTEHPGNIMAPKTNNISISQNVDTEKTRPENERSEQTTDIQSNTSEVSKIFDISPHPLASKENQNQSNIIKQEVITDEQSFTCKKPKNTPNRMQDESSKVPKNFEVSSVVNLPSPVVEELAADQQPMQCDVIKEEIFINEPVDLQDTGSKVPKISEVTSLRQTATSKELENITNKNTSTAIAQQLKPNQEYFAITAIEQDLKPQARNEIVQVFYINDEENNISTNKENSNDDEDNNEINIEDISAADNVDDNNANEKNLKLKCSYCQAMFKNMQILYAHISQHHETNVRIKTPYKCTKCDKSFKYKGILEKHNLAKHKGLLLQCPVCPVKRSKWCFLAHVQTHESDTCFPCQVCAKIFASNEERMKHWKKHAVDKPYPCKICFQRFRKPQYLTRHTKGHPRYQCSVCSNLFYSMQTQNVPYICEKCKDLSENLVMELDPLVTNTAAVMNDHIENTEIITNDNSAIFINEDKDSDIEFIEESYADNVASVSSSNTAQTTSNDDSNSLHKCLYCNREFMTERRLIIHTTKMHDKGERLLSRFICRYCNRSFQTRSGLALHHKTHDKSNQFRCPVCPLTEFRESSFITHVLMHESESCFPCQVCAKLFTSNSERLQHWRIHIEERPHGCNYCYRRFYQKNVLKNHMKSHRLYYCHFCHKNFQSDRIIKTPYVCGECEKSPYVKNQLKRLKEDLTSSNETMSAIVIKTEKDEECEDVKPVIKEGGGIVIQQANSGVVAGGNNVRTSAVATGGPKEIVEKTQAALKVANEAKQLNLRLKEPQKLLQQQTTTNTLGKRSSSIAAEQLHTDNSNETTNLPYKVGNKRFRVQTPVRYAKKVNTPPSPAATATQLQPPPPAASAMAPAKCGEIFVTNNARKWTFVCTFCQKSTRDIGEFVCHIKFKHMPTDYQEDEDYEEDVNDVFVTGQEDNYNNHEQDVRNYLCKSNTLEESCSSSNSPYQTIKQDLATNSCPFPTIIQVSSMVAAKTTNSLNNNTSNKEYFDCTNYLDVNVHTESDELPPQNNGVKAKLQAKLTRQSTATSAAATKDQHKRQMDKSKYIVDLLDDDEDQEQGRNTNEKDMQQKNDMFDYEMEEDEDGVEIVDDDNDEMEPMEEDNLLFLRSSSIEDANVETTGVKGSSKKYRSHVRGKAYCNLCDKTFQYYSLYRNHMIKHSNITPYKCQYCSKAFKSKQAIRYHMNTHTKEVQYTCPLCPMTYGTENQFITHVLNHESDTCFPCMVCAKILKSDQERDEHLSTHSEERPFPCGYCNKRFRQKHHLSNHLKLHCQYRCDFCKEEFSSTQTQRRPYACASCEEYPEIRIQVEKQRSKNLNNEVNPLELSYDNMPTNETEATECVDLATDDEDEESENSTSLLGGANGQKRISCQYCPRSYKQTSALNYHIRQKHPQIWAEMKVN

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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