Basic Information

Insect: Condylostylus longicornis
Gene Symbol: -
Assembly: GCA_029603195.2
Location: JAQSLO010000013.1:1072050-1088076[-]

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 57 0.11 12 7.3 0.1 2 23 179 200 178 200 0.96

2 57 3.1e-05 0.0033 18.5 2.3 1 23 209 231 209 231 0.98

3 57 0.41 44 5.5 1.5 3 23 261 281 259 281 0.96

4 57 1.4e-05 0.0015 19.5 1.9 1 23 286 308 286 308 0.98

5 57 0.00078 0.084 14.0 2.9 1 23 315 337 315 337 0.99

6 57 0.0087 0.95 10.7 0.3 2 23 363 384 362 384 0.95

7 57 0.0096 1 10.6 1.6 1 23 465 488 465 488 0.97

8 57 0.073 7.9 7.8 0.5 1 21 495 515 495 516 0.94

9 57 0.072 7.8 7.9 0.6 1 23 525 547 525 548 0.96

10 57 1.6e-06 0.00017 22.5 1.7 3 23 569 589 567 589 0.97

11 57 3.3e-05 0.0035 18.4 5.2 1 23 596 618 596 618 0.98

12 57 2.5e-05 0.0027 18.7 1.5 2 23 633 654 632 654 0.95

13 57 7.8e-07 8.5e-05 23.5 2.0 1 23 660 682 660 682 0.99

14 57 3.6e-06 0.0004 21.4 3.3 3 23 690 710 688 710 0.96

15 57 2.8e-07 3e-05 24.9 1.3 1 23 716 738 716 738 0.99

16 57 0.00068 0.073 14.2 0.2 1 23 744 768 744 768 0.94

17 57 0.0057 0.62 11.3 0.3 2 23 1028 1049 1027 1049 0.96

18 57 0.0035 0.38 12.0 1.1 1 23 1056 1078 1056 1078 0.97

19 57 0.99 1.1e+02 4.3 0.7 3 23 1137 1157 1135 1157 0.97

20 57 0.00027 0.029 15.5 1.6 1 23 1162 1185 1162 1185 0.94

21 57 0.12 13 7.2 0.6 2 23 1269 1290 1268 1290 0.97

22 57 1.7e-05 0.0018 19.3 4.3 1 23 1299 1321 1299 1321 0.98

23 57 2.2 2.4e+02 3.2 0.2 1 23 1535 1557 1535 1557 0.96

24 57 6.8e-05 0.0074 17.4 1.5 1 23 1562 1584 1562 1584 0.97

25 57 0.00022 0.024 15.8 1.8 1 23 1660 1682 1660 1682 0.98

26 57 0.00054 0.058 14.5 4.8 1 23 1685 1707 1685 1707 0.99

27 57 0.0087 0.95 10.7 0.3 2 23 1733 1754 1732 1754 0.95

28 57 0.0024 0.26 12.5 2.4 1 23 1835 1858 1835 1858 0.97

29 57 0.073 7.9 7.8 0.5 1 21 1865 1885 1865 1886 0.94

30 57 0.15 16 6.9 0.5 1 23 1895 1917 1895 1918 0.95

31 57 1.2e-05 0.0013 19.8 1.7 1 23 1944 1966 1944 1966 0.97

32 57 8.3e-05 0.009 17.1 0.9 2 23 1978 1999 1977 1999 0.95

33 57 4e-05 0.0043 18.1 5.0 1 23 2005 2027 2005 2027 0.99

34 57 2.9e-06 0.00032 21.7 4.6 1 23 2033 2055 2033 2055 0.98

35 57 6.1e-06 0.00066 20.7 0.7 1 23 2061 2083 2061 2083 0.99

36 57 0.0054 0.59 11.4 0.3 1 23 2089 2113 2089 2113 0.93

37 57 0.0057 0.62 11.3 0.3 2 23 2233 2254 2232 2254 0.96

38 57 0.0048 0.52 11.5 1.6 1 23 2261 2283 2261 2283 0.97

39 57 0.99 1.1e+02 4.3 0.7 3 23 2342 2362 2340 2362 0.97

40 57 0.00027 0.029 15.5 1.6 1 23 2367 2390 2367 2390 0.94

41 57 0.12 13 7.2 0.6 2 23 2474 2495 2473 2495 0.97

42 57 3.1e-05 0.0033 18.4 3.3 2 23 2505 2526 2504 2526 0.96

43 57 2.2 2.4e+02 3.2 0.2 1 23 2740 2762 2740 2762 0.96

44 57 6.8e-05 0.0074 17.4 1.5 1 23 2767 2789 2767 2789 0.97

45 57 2.7 2.9e+02 2.9 0.3 8 23 2795 2810 2795 2810 0.89

46 57 0.00022 0.024 15.8 1.8 1 23 2865 2887 2865 2887 0.98

47 57 9e-05 0.0098 17.0 4.4 1 23 2890 2912 2890 2912 0.99

48 57 0.0087 0.95 10.7 0.3 2 23 2938 2959 2937 2959 0.95

49 57 0.0024 0.26 12.5 2.4 1 23 3040 3063 3040 3063 0.97

50 57 0.073 7.9 7.8 0.5 1 21 3070 3090 3070 3091 0.94

51 57 0.19 21 6.5 0.9 1 23 3100 3122 3100 3123 0.95

52 57 1.2e-05 0.0013 19.8 1.7 1 23 3149 3171 3149 3171 0.97

53 57 0.00011 0.012 16.7 1.5 2 23 3183 3204 3182 3204 0.95

54 57 4e-05 0.0043 18.1 5.0 1 23 3210 3232 3210 3232 0.99

55 57 8.4e-07 9.1e-05 23.4 4.2 1 23 3238 3260 3238 3260 0.98

56 57 7.1e-07 7.7e-05 23.6 0.8 1 23 3266 3288 3266 3288 0.99

57 57 0.0019 0.21 12.8 0.5 1 23 3294 3318 3294 3318 0.94

#	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	57	0.11	12	7.3	0.1	2	23	179	200	178	200	0.96
2	57	3.1e-05	0.0033	18.5	2.3	1	23	209	231	209	231	0.98
3	57	0.41	44	5.5	1.5	3	23	261	281	259	281	0.96
4	57	1.4e-05	0.0015	19.5	1.9	1	23	286	308	286	308	0.98
5	57	0.00078	0.084	14.0	2.9	1	23	315	337	315	337	0.99
6	57	0.0087	0.95	10.7	0.3	2	23	363	384	362	384	0.95
7	57	0.0096	1	10.6	1.6	1	23	465	488	465	488	0.97
8	57	0.073	7.9	7.8	0.5	1	21	495	515	495	516	0.94
9	57	0.072	7.8	7.9	0.6	1	23	525	547	525	548	0.96
10	57	1.6e-06	0.00017	22.5	1.7	3	23	569	589	567	589	0.97
11	57	3.3e-05	0.0035	18.4	5.2	1	23	596	618	596	618	0.98
12	57	2.5e-05	0.0027	18.7	1.5	2	23	633	654	632	654	0.95
13	57	7.8e-07	8.5e-05	23.5	2.0	1	23	660	682	660	682	0.99
14	57	3.6e-06	0.0004	21.4	3.3	3	23	690	710	688	710	0.96
15	57	2.8e-07	3e-05	24.9	1.3	1	23	716	738	716	738	0.99
16	57	0.00068	0.073	14.2	0.2	1	23	744	768	744	768	0.94
17	57	0.0057	0.62	11.3	0.3	2	23	1028	1049	1027	1049	0.96
18	57	0.0035	0.38	12.0	1.1	1	23	1056	1078	1056	1078	0.97
19	57	0.99	1.1e+02	4.3	0.7	3	23	1137	1157	1135	1157	0.97
20	57	0.00027	0.029	15.5	1.6	1	23	1162	1185	1162	1185	0.94
21	57	0.12	13	7.2	0.6	2	23	1269	1290	1268	1290	0.97
22	57	1.7e-05	0.0018	19.3	4.3	1	23	1299	1321	1299	1321	0.98
23	57	2.2	2.4e+02	3.2	0.2	1	23	1535	1557	1535	1557	0.96
24	57	6.8e-05	0.0074	17.4	1.5	1	23	1562	1584	1562	1584	0.97
25	57	0.00022	0.024	15.8	1.8	1	23	1660	1682	1660	1682	0.98
26	57	0.00054	0.058	14.5	4.8	1	23	1685	1707	1685	1707	0.99
27	57	0.0087	0.95	10.7	0.3	2	23	1733	1754	1732	1754	0.95
28	57	0.0024	0.26	12.5	2.4	1	23	1835	1858	1835	1858	0.97
29	57	0.073	7.9	7.8	0.5	1	21	1865	1885	1865	1886	0.94
30	57	0.15	16	6.9	0.5	1	23	1895	1917	1895	1918	0.95
31	57	1.2e-05	0.0013	19.8	1.7	1	23	1944	1966	1944	1966	0.97
32	57	8.3e-05	0.009	17.1	0.9	2	23	1978	1999	1977	1999	0.95
33	57	4e-05	0.0043	18.1	5.0	1	23	2005	2027	2005	2027	0.99
34	57	2.9e-06	0.00032	21.7	4.6	1	23	2033	2055	2033	2055	0.98
35	57	6.1e-06	0.00066	20.7	0.7	1	23	2061	2083	2061	2083	0.99
36	57	0.0054	0.59	11.4	0.3	1	23	2089	2113	2089	2113	0.93
37	57	0.0057	0.62	11.3	0.3	2	23	2233	2254	2232	2254	0.96
38	57	0.0048	0.52	11.5	1.6	1	23	2261	2283	2261	2283	0.97
39	57	0.99	1.1e+02	4.3	0.7	3	23	2342	2362	2340	2362	0.97
40	57	0.00027	0.029	15.5	1.6	1	23	2367	2390	2367	2390	0.94
41	57	0.12	13	7.2	0.6	2	23	2474	2495	2473	2495	0.97
42	57	3.1e-05	0.0033	18.4	3.3	2	23	2505	2526	2504	2526	0.96
43	57	2.2	2.4e+02	3.2	0.2	1	23	2740	2762	2740	2762	0.96
44	57	6.8e-05	0.0074	17.4	1.5	1	23	2767	2789	2767	2789	0.97
45	57	2.7	2.9e+02	2.9	0.3	8	23	2795	2810	2795	2810	0.89
46	57	0.00022	0.024	15.8	1.8	1	23	2865	2887	2865	2887	0.98
47	57	9e-05	0.0098	17.0	4.4	1	23	2890	2912	2890	2912	0.99
48	57	0.0087	0.95	10.7	0.3	2	23	2938	2959	2937	2959	0.95
49	57	0.0024	0.26	12.5	2.4	1	23	3040	3063	3040	3063	0.97
50	57	0.073	7.9	7.8	0.5	1	21	3070	3090	3070	3091	0.94
51	57	0.19	21	6.5	0.9	1	23	3100	3122	3100	3123	0.95
52	57	1.2e-05	0.0013	19.8	1.7	1	23	3149	3171	3149	3171	0.97
53	57	0.00011	0.012	16.7	1.5	2	23	3183	3204	3182	3204	0.95
54	57	4e-05	0.0043	18.1	5.0	1	23	3210	3232	3210	3232	0.99
55	57	8.4e-07	9.1e-05	23.4	4.2	1	23	3238	3260	3238	3260	0.98
56	57	7.1e-07	7.7e-05	23.6	0.8	1	23	3266	3288	3266	3288	0.99
57	57	0.0019	0.21	12.8	0.5	1	23	3294	3318	3294	3318	0.94

Sequence Information

Coding Sequence: atgcCTAAGATAATACAAAATCTAAATATTGATATTACATGTCGATCATGTTTGGCTGAGTGCGATACTTTAACATCCTTATATTCTGTTGCTGAAACATTCCATTCACCGCTTTCATTGGGTGATATTctgttaaaactttttcaagTTAAATGGAACGAATCTGTGGAATTACCAACAAAAATTTGTGACTCCTGCCAACAAGAACTAATTACAGcctacaattttaaaattaaaactgaagaAAGTGAAAATGCTCTAGTTGATTATTTACgtcgaaatgaactatttaacTCTGCTGATGCTATTGAAAAATcagattataatttaatgaaaattaaagacgAAAAACATGAAGACACTAACTTTGATGATATTTTTAGCTCAGAACCTATAAATGTCGattcaaatttatgtattagtaaaaatttttatgatgaaaaaggagggcaaaacaaaaattctgtaaGGGAAGAAGAATTTGAACAGCAAAatgatgaatattttttaatcaaaaaagttaCTGAGAATTTAATCTGCAACCAATGTAATATAGAATTTGCTGTTAAATTAGAATTTGATGAGCATATTAAAACTCATGAGAATGAAAAGGAGTCTGCCAGGTTTTATTGCGaagtttgcaataaaaattttgtatcgaacaaaaatttagaacgGCATTCAAAAAagcatttgaaaaagaaaagtgaTGTCAAAGTTCTAGAAGTTCCGGAGTTTGTaccatcaaaattaaaaatggcaaTTGATAGACATTATGGTTGTACGAGTTGTTCAGCTAAGTTTTCTAGTCCTGTACAATTAAAATGTCACATGAAAGCTCATACGGGGAAGAGCTTCTACTGCGAATTGTGTGATagattttttgtaaacaatCGAAATTTGCAGAGGCACTTAAAATTGCATTCTGAGGAAAAGGAAGAGTTTAAATGTTCaaattgcgaaaaaaattttgaaactaaattaaaattgaaattacacgAAAGAACTCATAATACTTTTGGTGTTGACATTGATGGTATAGATTTggacaaaaataattgtatgccTCACGAAACAAAATACTTAGAATGTAAAAtatgtgatttaaaatttgacaaaatatttttattaaggcGACATTTAATTGGCCACAGCGAAATAGAAACTATAGATCCCAACTTTGtagaaaaaagttattatttgaAAAGCCTTATTCCTGATAGTAGAGAAGATattcaaagaataataaattttataagtgaaGAAGTGCGAAACggacattttcataaattttattctgggACAAATTTGATAGGTAATGAGTTAAATTTCAGCGATTCAGAAACTGATGTAGACGAAACTAATAGCGAGACAGTAACTTTATCTCGTTTATACACATGCGAAAATTGTTTTGAGATATTTGATCgtcgttataaaatattaagacacCAACGGTATGTTCATTCGTTAGAGGAACATAAATACGAATGTGATTTATGTCATATGCGATATGTTTCTGAAGATTTGCTCGAATATCATAAAAAGAGCCAATGTTATAACGATGAAAAATCGTATACATGTGATGTTTGCCAGATGAAATTTATGTGGAAAGCTAATATAGAAGAACATATTAGAATTCATCATAGTAGAACTAGAGCACCACAAAAGCttattcgaaaatattcatCTAAGTGTAAGCTAGATTGTGAaatatgttacaaaaaattttcaagaccAGAGCATTTAGAACGTCATTTACGAACACATAATCCAGCAGAAAAAAAGTTTGAATGcccaaaatgtaaaaaaaaatttagtagaaaAGATAATTTACGTTGTCATATGAAAGTGCATGATGAAAAACGTACAGATATAGGAGATGAAGGTAAACATTTCCTTTGCGTATTTTGTGGTCGAAAATTTCGTAATTCGTCTAATCTTGTTGTTCACACAAGACGCCATACAGGAGAGAAGCcatttaaatgtgatttttgtgATAAGGGATTTCCAAGATCTTCAGATTTACGAACACACCGACGTACACATACAGGAGAAAAACCTCATCTATGTAACACTTGTGGCAAAGGATTTTCAAGATCAAATAAATTGACAAGACATATGCGTATTCATACTGGGGATCGACCTTATAAATGTACTTACTGTGATCGGGCTTTCACTCAATCGAATGATTTAACAATTCACATACGCCGACATACCGGTGAGAAACCATATACATGTGGTATTTGTGGCGAACGTTTCATTCAAGGGACAGCGCTTCAAACACACCGTAAAACTCGTGGACATTATGAAGATGTCGCGGGTGTTGATGTTCCATTTGCTCATTTAAGTCAAAATAATCCGAACCCTTTAAACAATGCTGGTCGTGTTGATCAAATTGGACTGCCTAAACCGAATtcgttaaaaaataatgaagatacAAAACCCATGAAAAATGAATTGCCGGACGATGAAAATGTCACTATGGAATCACATCTAGGAAAAGTAaagaattcaattaataaagttaataGCCTGCCTCAACATATTGTAGATCGTAACCCTGACTCTGATGTAGGAATTGGAAATTCCTCATTCAATTATAAAGACATCTCAAGTTTTGTAACAGGTGCTCAGGCGCATCATCCTTATATACAATGTAATCCGTTAACATTGCCTTTATTGCAAAGTACTTCTGTTATAAGCAATACTCCCCATAATGGAGGTTCTTTATGTGCGACGAATTACACAATATTAGAATCTGAAACAAcctacaattttaaaattaaaactgaagaAAGTGAAAAAGATCTATTTGATTATTTACGTCGATTAAACTCTGCAGAAGCTGTTGAAAATTCAGAttgtaattcaattgaaattaatgattTCCAACATGAAAACACTGATTTTGACGAAATTTTTAACTCAGAACCTGTCAATATTGATTCAGATTcagatattgataaaaattttaatagtgaacAAGATGGACAGAAAAAAGATTCTATAAGGGAAGATGAATTTGTGGAGGAGAATTATGACAATGTTTTGTTAGTCAGCAAAAAAGTTTCTGAAAGTTTAATCTGCAATCAATGCAATTTAGAATTTACAACTAAATCAGGATTTGATGAACATGTTAAAATCCATGAAAAGAAGTCTTCCAAGTTTATTTGTAaagtttgcaataaaaattttgccttaattaaaaattttgaacaacatttaaaaaatcatttagaaaacaaatttaatgttaaacctATAGCAGTTCCGGAACCTTTGCCATCAAAACCACAAACATTATTTGAAGGACAAGGGAAcgacaaaaagaaaattgatgtCGAAACTATAGAAGTTCCAAAATCTTTACCATCAAAACGAAATACAACTTTTGAAAGACTTTTTGGTTGCACAAAGTGTTCAGCTAAGCTTTCTACTCCCACTCAGTTGCAATTTCATATGAAAGCTCATTCAGGAAAAAGGTTCTATTGCGAATTGTGTGAAagattttttgtaaacaatCGGAATTTACAGAGACATCTTTACAATTTGCATTCTATTGGAAAAGAAGAATTCGAATCTCCTAGTAGCAAAAAATTGTCTAAACccgaaataaaattgaaattgcaagaaaaaagccaaaataatttaattgttgacATTGATGGTATAGACAAAATTAGTTGTAGACCACAGGAAGTTATATATGTAGATGAACATGGAGAATCTAcaagagaaaatgaaattgaacaggaaaataatgacaattttcCATTAGTCAGCAAAAAAGTTACTGAAAATTTAACTTGCAATCAATGCAATTTGGAATCTGCAAATAAACTGGAATTTGATAAGCATATTAAAACTCATGAGATTGAGAAGAAATCTGCCAAGTTTTATTGCGAAGTTTGCAATAAATGTTTTGTATCGAACAAAAATTTAGAGCGACATTCGAAAACGCATTTGGAAAAGAAAGGTGATGTCGACACTGTAGGCGTTACGGAATCCTTAACACTTAAACcaaaaaactcatttaaaagacaacagaaaaacaaaaaaaaaagtgaagtcAAAGTTATAGCAGATTCGGGATTTTTATCAATAAAGCCAAAAACGACATTTGAAAGGCAAGGGAACATTGATGGTATAAACTTAGACAAAAATAGTTGTGGGCCAAATGAAACAATATATTTAGATGAACAAGATGGACAAAGAAAAGAATCTATAAGAGAAGATGAAGTTAAAGAgaaacataatgaaaatttttcgttaGTCAGCAAAAAAGTTACTGAAAATTTAACCGGCACTCAATGCAATTTGGAACTTCCAATTAAATTAGAACTTGATGAACATGTTGAAACCGATGGGAAAGAGTCCTCCAAGTCTTATTgtgaagttttaaataaaaatttagagaaaatagaTGTCGAACCACTAAATCAACAAGTCGAATTTAAAAGACAAGAAAATTGCAAAGAGAAAAGTGGTGTTAAAGTTATAGAAGTTCCGGAATCCCCACCATCAAAACCAAAAACGACACATGAAAGACAAGAAAAAGACAAAACGAAAAGTGATGTCAAAGTTATTACTAGGCCATTTCTGTATGATTGCGCAAAATGTTCAGCTAAGCTTCCTAATCTCGATcagttgaaatttcatatgaaagcTCATTCGGGAAAGAATTTCTACTGCGAATCGTGTGATagattttttgtaaacaatCGAAATTTGCAGAGGCATTTATTATTGCATTCTGAAGAAAAAGTAAAGTGTGGAACAACATCCAAAAATTTAGACCAACATCGAAAAAGTCATTTGGAAAAGAAAACTGTTGTTCAAGCCATAACCGTTGCAGAACCTTTAACATTAAAACCAAATTCGAACTATAAAACCCATTATAGTTGCATAAATTGTTCTGCTAAGTTCTCTACTCTTATTCAGTTGAAATGCCATAAAAGAGCTCATtcagaaaaaaagttttactgtGAGTGGTGTGATCAATATTTTGTGAGTAATCGAAATTTACAGAATCATTTCCGATCGCATTCTGAGTTTAAATGTTCTAATTGcgaaaaaaagtttcaaactaaaaaaaagctgaaattgCACGAAAGAACTCATAATACTTTTGGTGTTGACATTGATGGTATAGATTTggacaaaaataattgtatgccTCACGAAACAAAATACTTAGAATGTAAAAtatgtgatttaaaatttgacaaaatatttttattaaggcGACATTTAATTGGCCACGGCGAAATAGAAACTATAGATCCCGACTTTGTAGAAAAAAGCAATCATTTGAAAAGCCTTATTCCTGATAATAGagaagatattcaaaaaataataaattttataagtgaaGAAGTGCGAAACggacattttcataaattttattctgggACAAACTTGATAGGTAATGAGTTAAATATCAGTGATTCAGAAACTGATGTAGACGAAACTAATAGCGAGACTGTAACTTTATCTCGTTTATACACATGCCAAAATTGTTCTGAAACATTTGATCgtcgttataaaatattgagaCATCAACGGTATGTTCATCCATTAAAGGAACATAAATACGAATGTGATTTATGTCATATGCGATATGTTTCTGAAGATTTGCTCGAATATCATAAAAAGAGCCAATGTTATAACGATGAAAAATCGTATACATGTGATGTTTGCCAGATGAAATTTATGTGGAAAGctaatatagaaaaacatatTGCAATTCATCACAGTAGTACTGCAGCATCAACTAAGCCAGATTTATTAAAACGACATTTAAAGACAAATATTCAACGAGAAAAAAAGTTTGAGTGTccgaaatgtaaaaaaaaatttactacaaaaacAGGTTTGCGTTTACATATGGACCTTCACGATGAAAAACGTTCGGAAGAAGGTAAACATTTTCTTTGCGTATTTTGTGGTCGTAAATTTCGTAATTCGTCTGCTCTTGTTGTTCATACGAGGCGTCATACTGGAGAAAAACCATTTAAATGTGATTTATGTGATAAAGCATTTCCAAGATCTTCATGTTTGCACGAACACAGACGAACTCATACGGGAGAGAAGCCTCATAAATGTGGCATTTGTGGTAAAGGATGTTCGAGAGCATATAAATTGAGAAGACATATGCGTACTCATACTGGGGAGCGCCCTTTTAAATGTACTTACTGTGATCGAGCTTTCGCTCAAgacaatgatttaaaaattcacattcGTAGACATACCGGAGAGAAACCATATGCATGTGGAATTTGTGGTGAtcgttttattcaaaaaacactTCTTGAAACACACCGTAAAACACGTGGACATTATGAAAATGTACCGGGTGTTGATGCCCCATTTGctcatttaacctacaattttaaaattaaaactgaagaAAGTGAAAAAGCTCTATTTGATTATTTACGTCGATTAAACTCTGCAGAAGCTGTTGAAAATTCAGGttgtaattcaattgaaattaaggATTTCCAACATGAAAACACTGATTTTGACGAAATTTTTAACTCAGAACCTGTCAATATTGATTCAGATTCAgatgttgataaaaattttaatagtgaacAAGATGGACAGAAAAAAGATTCTATAAGGGAAGATGAATTTGTGGAGGAGAATTATGACAATGTTTTGTTAGTCAGCAAAAAAGTTTCTGAAAGTTTAATCTGCAATCAATGCAATTTAGAATTTACAACTAAATCAGGATTTGATGAACATGTTAAAATCCATGAAAAGAAGTCTTCCAAGTTTAATTGTAaagtttgcaataaaaattttgccttaattaaaaattttgaacaacatttaaaaaatcatttagaaaACAAAGGTAATGTTAAACCTATAGCAGTTCCGGAACCTTTGCCATCAAAACCACAAACATTATTTGAAGGACAAGGGAAcgacaaaaagaaaattgatgtCGAAACTATAGAAGTTCCAAAATCTTTACCATCAAAACGAAATACAACTTTTGAAAGACTTTTTGGTTGCACAAAGTGTTCAGCTAAGCTTTCTACTCCCACTCAGTTGCAATTTCATATGAAAGCTCATTCAGGAAAAAGGTTCTATTGCGAATTGTGTGAAagattttttgtaaacaatCGGAATTTACAGAGACATCTTTACAATTTGCATTCTATTGGAAAAGAAGAATTCGAATCTCCTAGTAGCAAAAAATTGTCTAAACccgaaataaaattgaaattgcaagaaaaaagccaaaataatttaattgttgacATTGATGGTATAGACAAAATTAGTTGTAGACCACAGGAAGTTATATATGTAGATGAACATGGAGAATCTAcaagagaaaatgaaattgaacaggaaaataatgacaattttcCATTAGTCAGCAAAAAAGTTACTGAAAATTTAACTTGCAATCAATGCAATTTGGAATCTGCAAATAAACTGGAATTTGATAAGCATATTAAAACTCATGAGATTGAGAAGAAATCTGCCAAGCTTTATTGTGAAGTTTGCAATAAATGTTTTGTATCGAACAAAAATTTAGAGCGACATTCGAAAACGCATTTGGAAAAGAAAGGTGATGTCGACACTGTAGGCGTTACGGAATCCTTAACACTTAAACcaaaaaactcatttaaaagacaacagaaaaacaaaaaaaaaagtgaagtcAAAGTTATAGCAGATTCGGGATTTTTATCAATAAAGCCAAAAACGACATTTGAAAGGCAAGGGAACATTGATGGTATAAACTTAGACAAAAATAGTTGTGGGCCAAATGAAACAATATATTTAGATGAACAAGATGGACAAAGAAAAGAATCTATAAGAGGAGATGAAGTTAAAGAgaaacataatgaaaatttttcgttaGTCAGCAAAAAAGTTACTGAAAATTTAACCGGCACTCAATGCAATTTGGAACTCCCAATTAAATTAGAACTTGATGAACATGTTGAAACCGATGGGAAAGAGTCCTCCAAGTCTTATTgtgaagttttaaataaaaatttagagaaaatagaTGTCGAACCACTAAATCAACAAGTCGAATTTAAAAGACAAGAAAATTGCAAAGAGAAAAGTGGTGTTAAAGTTATAGAAGTTCCGGAATCCCCACCATCAAAACCAAAAACGACACATGAAAGACAAGAAAAAGACAAAAGGAAAAGTGATGTCAAAGTCATTACTAGGCCATTTCTGTATGATTGCGCAAAATGTTCAGCTAAGCTTCCTAATCTCGATcagttgaaatttcatatgaaagcTCATTCGGGAAAGAATTTCTACTGCGAATCGTGTGATagattttttgtaaacaatCGAAATTTGCAGAGGCATTTATTATTGCATTCTGAAGAAAAAGTAAAGTGTGGAACAACAtccaaaaatttagaacaaCATCGAAAAAGTCATTTGGAAAAGAAAACTGTTGTTCAAGCCATAACCGTTGCAGAACCTTTACCATTAAAACCAAATTCGAACTATAAAACCCATTATAGTTGCATAAATTGTTCTGCTAAGTTCTCTACTCTTATTCAGTTGAAATGCCATAAAAGAGCTCATtcagaaaaaaagttttactgtGAGTGGTGTGATCAATATTTTGTGAGTAATCGAAATTTACAGAATCATTTCCGATCGCATTCTGAGTTTAAATGTTCTAATTGCGGAAAAAAGTTTCAAACTAGAAAAAAGCTGAAATTGCACGAAAGAACTCATAATACTTTTGGTGTTGACATTGATGGTATAGATTTggacaaaaataattgtatgccTCACGAAACAAAATACTTAGAATGTAAAAtatgtgatttaaaatttgacaaaatatttttattaaggcGACATTTAATTGGCCACGGCGAAATAGAAACTATAGATCCCGACTTTGTAGAAAAAAGCAATCATTTGAAAAGCCTTATTCCTGATAACAGagaagatattcaaaaaataataaattttataagtgaaGAAGTGCGAAAGggacattttcataaattttattctgggACAAACTTGATAGGTAATGAGTTAAATATCAGTGATTCAGAAACTGATGTAGACGAAACTAATAGCGAGACTGTAACTTTATCTCGTTTATACACATGCCAAAATTGTTCTGAAACATTTGATCgtcgttataaaatattgagaCATCAACGGTATGTTCATCCATTAAAGGAACATAAATACGAATGTGATTTATGTCATATGCGATATGTTTCTGAAGATTTGCTCGAATATCATAAAAAGAGCCAATGTTATAACGATGAAAAATCGTATACATGTGATGTTTGCCAGATGAAATTTATGTGGAAAGctaatatagaaaaacatatTACAATTCATCACAGTAGTACTGCAGCATCAACTAAGCCAGATTTATTAAAACGACATTTAAAGACAAATATTCAACGAGAAAAAAAGTTTGAGTGTccgaaatgtaaaaaaaaatttactacaaaaacAGGTTTGCGTTTACATATGGACCTTCACGATGAAAAACGTTTGGAAGAAGGTAAACATTTTCTTTGCGTATTTTGTGGTCGTAAATTTCGTAATTCGTCTACTCTTGTTGTTCATACGAGGCGTCATACTGGAGAAAAACCATTTAAATGTGATTTATGTGATAAAGCATTTCCAAGATCTTCATGTTTGCACGAACACAGACGAACTCATACGGGAGAGAAGCCTCATAAATGTGGCATTTGTGGTAAAGGATGTTCGAGAGCATATCAATTGAGAAGACATATGCGTACTCATACTGGGGAGCGCCCTTTTAAATGTACTTACTGTGATCGAGCTTTCGCTCAATCGAATGATTTAACAATTCACATACGCAGACATACCGGTGAGAAACCATATACATGTGGAATTTGTGGTGAtcgttttattcaaaaaacactTCTTGAAACACACCGTAAAACACGTGGACATTATGAAAATGTACCGGGTGTTGATGCCCCATTTGctcatttaagtaaaaataatccGAACccctttaacaatattaaacgTGTTGATCATATTGGGAAACCTGCCTaa
Protein Sequence: MPKIIQNLNIDITCRSCLAECDTLTSLYSVAETFHSPLSLGDILLKLFQVKWNESVELPTKICDSCQQELITAYNFKIKTEESENALVDYLRRNELFNSADAIEKSDYNLMKIKDEKHEDTNFDDIFSSEPINVDSNLCISKNFYDEKGGQNKNSVREEEFEQQNDEYFLIKKVTENLICNQCNIEFAVKLEFDEHIKTHENEKESARFYCEVCNKNFVSNKNLERHSKKHLKKKSDVKVLEVPEFVPSKLKMAIDRHYGCTSCSAKFSSPVQLKCHMKAHTGKSFYCELCDRFFVNNRNLQRHLKLHSEEKEEFKCSNCEKNFETKLKLKLHERTHNTFGVDIDGIDLDKNNCMPHETKYLECKICDLKFDKIFLLRRHLIGHSEIETIDPNFVEKSYYLKSLIPDSREDIQRIINFISEEVRNGHFHKFYSGTNLIGNELNFSDSETDVDETNSETVTLSRLYTCENCFEIFDRRYKILRHQRYVHSLEEHKYECDLCHMRYVSEDLLEYHKKSQCYNDEKSYTCDVCQMKFMWKANIEEHIRIHHSRTRAPQKLIRKYSSKCKLDCEICYKKFSRPEHLERHLRTHNPAEKKFECPKCKKKFSRKDNLRCHMKVHDEKRTDIGDEGKHFLCVFCGRKFRNSSNLVVHTRRHTGEKPFKCDFCDKGFPRSSDLRTHRRTHTGEKPHLCNTCGKGFSRSNKLTRHMRIHTGDRPYKCTYCDRAFTQSNDLTIHIRRHTGEKPYTCGICGERFIQGTALQTHRKTRGHYEDVAGVDVPFAHLSQNNPNPLNNAGRVDQIGLPKPNSLKNNEDTKPMKNELPDDENVTMESHLGKVKNSINKVNSLPQHIVDRNPDSDVGIGNSSFNYKDISSFVTGAQAHHPYIQCNPLTLPLLQSTSVISNTPHNGGSLCATNYTILESETTYNFKIKTEESEKDLFDYLRRLNSAEAVENSDCNSIEINDFQHENTDFDEIFNSEPVNIDSDSDIDKNFNSEQDGQKKDSIREDEFVEENYDNVLLVSKKVSESLICNQCNLEFTTKSGFDEHVKIHEKKSSKFICKVCNKNFALIKNFEQHLKNHLENKFNVKPIAVPEPLPSKPQTLFEGQGNDKKKIDVETIEVPKSLPSKRNTTFERLFGCTKCSAKLSTPTQLQFHMKAHSGKRFYCELCERFFVNNRNLQRHLYNLHSIGKEEFESPSSKKLSKPEIKLKLQEKSQNNLIVDIDGIDKISCRPQEVIYVDEHGESTRENEIEQENNDNFPLVSKKVTENLTCNQCNLESANKLEFDKHIKTHEIEKKSAKFYCEVCNKCFVSNKNLERHSKTHLEKKGDVDTVGVTESLTLKPKNSFKRQQKNKKKSEVKVIADSGFLSIKPKTTFERQGNIDGINLDKNSCGPNETIYLDEQDGQRKESIREDEVKEKHNENFSLVSKKVTENLTGTQCNLELPIKLELDEHVETDGKESSKSYCEVLNKNLEKIDVEPLNQQVEFKRQENCKEKSGVKVIEVPESPPSKPKTTHERQEKDKTKSDVKVITRPFLYDCAKCSAKLPNLDQLKFHMKAHSGKNFYCESCDRFFVNNRNLQRHLLLHSEEKVKCGTTSKNLDQHRKSHLEKKTVVQAITVAEPLTLKPNSNYKTHYSCINCSAKFSTLIQLKCHKRAHSEKKFYCEWCDQYFVSNRNLQNHFRSHSEFKCSNCEKKFQTKKKLKLHERTHNTFGVDIDGIDLDKNNCMPHETKYLECKICDLKFDKIFLLRRHLIGHGEIETIDPDFVEKSNHLKSLIPDNREDIQKIINFISEEVRNGHFHKFYSGTNLIGNELNISDSETDVDETNSETVTLSRLYTCQNCSETFDRRYKILRHQRYVHPLKEHKYECDLCHMRYVSEDLLEYHKKSQCYNDEKSYTCDVCQMKFMWKANIEKHIAIHHSSTAASTKPDLLKRHLKTNIQREKKFECPKCKKKFTTKTGLRLHMDLHDEKRSEEGKHFLCVFCGRKFRNSSALVVHTRRHTGEKPFKCDLCDKAFPRSSCLHEHRRTHTGEKPHKCGICGKGCSRAYKLRRHMRTHTGERPFKCTYCDRAFAQDNDLKIHIRRHTGEKPYACGICGDRFIQKTLLETHRKTRGHYENVPGVDAPFAHLTYNFKIKTEESEKALFDYLRRLNSAEAVENSGCNSIEIKDFQHENTDFDEIFNSEPVNIDSDSDVDKNFNSEQDGQKKDSIREDEFVEENYDNVLLVSKKVSESLICNQCNLEFTTKSGFDEHVKIHEKKSSKFNCKVCNKNFALIKNFEQHLKNHLENKGNVKPIAVPEPLPSKPQTLFEGQGNDKKKIDVETIEVPKSLPSKRNTTFERLFGCTKCSAKLSTPTQLQFHMKAHSGKRFYCELCERFFVNNRNLQRHLYNLHSIGKEEFESPSSKKLSKPEIKLKLQEKSQNNLIVDIDGIDKISCRPQEVIYVDEHGESTRENEIEQENNDNFPLVSKKVTENLTCNQCNLESANKLEFDKHIKTHEIEKKSAKLYCEVCNKCFVSNKNLERHSKTHLEKKGDVDTVGVTESLTLKPKNSFKRQQKNKKKSEVKVIADSGFLSIKPKTTFERQGNIDGINLDKNSCGPNETIYLDEQDGQRKESIRGDEVKEKHNENFSLVSKKVTENLTGTQCNLELPIKLELDEHVETDGKESSKSYCEVLNKNLEKIDVEPLNQQVEFKRQENCKEKSGVKVIEVPESPPSKPKTTHERQEKDKRKSDVKVITRPFLYDCAKCSAKLPNLDQLKFHMKAHSGKNFYCESCDRFFVNNRNLQRHLLLHSEEKVKCGTTSKNLEQHRKSHLEKKTVVQAITVAEPLPLKPNSNYKTHYSCINCSAKFSTLIQLKCHKRAHSEKKFYCEWCDQYFVSNRNLQNHFRSHSEFKCSNCGKKFQTRKKLKLHERTHNTFGVDIDGIDLDKNNCMPHETKYLECKICDLKFDKIFLLRRHLIGHGEIETIDPDFVEKSNHLKSLIPDNREDIQKIINFISEEVRKGHFHKFYSGTNLIGNELNISDSETDVDETNSETVTLSRLYTCQNCSETFDRRYKILRHQRYVHPLKEHKYECDLCHMRYVSEDLLEYHKKSQCYNDEKSYTCDVCQMKFMWKANIEKHITIHHSSTAASTKPDLLKRHLKTNIQREKKFECPKCKKKFTTKTGLRLHMDLHDEKRLEEGKHFLCVFCGRKFRNSSTLVVHTRRHTGEKPFKCDLCDKAFPRSSCLHEHRRTHTGEKPHKCGICGKGCSRAYQLRRHMRTHTGERPFKCTYCDRAFAQSNDLTIHIRRHTGEKPYTCGICGDRFIQKTLLETHRKTRGHYENVPGVDAPFAHLSKNNPNPFNNIKRVDHIGKPA

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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