Basic Information

Insect: Achroia grisella
Gene Symbol: -
Assembly: GCA_030625045.1
Location: JAULSB010000017.1:888078-909900[-]

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 63 0.32 24 6.3 0.7 1 23 238 260 238 260 0.95

2 63 0.05 3.7 8.8 0.1 2 23 289 311 288 311 0.93

3 63 0.36 27 6.1 0.1 3 23 333 354 331 354 0.92

4 63 0.0014 0.1 13.7 2.6 2 23 360 382 359 382 0.95

5 63 0.0096 0.7 11.1 1.3 1 23 387 410 387 410 0.95

6 63 2.2 1.6e+02 3.7 0.1 2 23 413 435 412 435 0.93

7 63 0.066 4.9 8.5 2.5 2 22 442 462 441 462 0.93

8 63 0.019 1.4 10.2 0.6 1 23 523 546 523 546 0.93

9 63 0.97 71 4.8 0.1 3 23 575 596 573 596 0.92

10 63 0.049 3.6 8.9 0.9 2 23 619 642 618 642 0.96

11 63 0.0023 0.17 13.0 0.6 3 20 649 666 647 670 0.90

12 63 0.037 2.7 9.3 0.4 1 23 675 698 675 698 0.97

13 63 0.0097 0.72 11.1 0.2 2 23 704 726 704 726 0.94

14 63 0.00016 0.012 16.7 4.9 1 23 730 753 730 753 0.97

15 63 0.00074 0.054 14.6 0.6 2 23 760 781 759 781 0.96

16 63 0.0026 0.19 12.9 0.5 1 23 829 851 829 851 0.97

17 63 0.27 20 6.5 0.2 2 23 879 901 878 901 0.92

18 63 0.021 1.6 10.0 0.9 2 23 922 944 921 944 0.94

19 63 0.00069 0.051 14.7 6.3 1 23 949 971 949 972 0.93

20 63 0.01 0.75 11.0 3.0 1 23 976 999 976 999 0.93

21 63 0.008 0.59 11.4 1.5 2 23 1002 1024 1001 1024 0.96

22 63 0.0056 0.41 11.8 2.3 1 23 1102 1125 1102 1125 0.94

23 63 0.41 30 6.0 0.0 2 23 1154 1176 1153 1176 0.96

24 63 1.3 99 4.4 0.6 1 23 1198 1221 1198 1221 0.93

25 63 0.0015 0.11 13.7 0.1 3 23 1228 1249 1226 1249 0.95

26 63 0.039 2.9 9.2 1.7 1 19 1254 1272 1254 1277 0.95

27 63 0.00043 0.032 15.3 0.4 2 23 1283 1305 1283 1305 0.95

28 63 0.0041 0.3 12.3 6.8 1 23 1309 1332 1309 1332 0.97

29 63 0.066 4.9 8.5 0.8 2 23 1339 1360 1338 1360 0.96

30 63 0.29 21 6.4 1.6 1 21 1366 1386 1366 1387 0.93

31 63 0.95 70 4.8 2.2 1 23 1429 1451 1429 1451 0.95

32 63 0.95 70 4.8 0.0 3 23 1480 1501 1478 1501 0.89

33 63 0.0039 0.29 12.3 0.5 1 23 1521 1544 1521 1544 0.97

34 63 0.00095 0.07 14.3 0.4 1 23 1549 1572 1549 1572 0.96

35 63 0.00052 0.038 15.1 1.0 1 23 1577 1600 1577 1600 0.98

36 63 0.00024 0.018 16.1 1.4 2 23 1603 1625 1603 1625 0.97

37 63 0.045 3.3 9.0 0.4 2 21 1632 1651 1631 1652 0.93

38 63 0.0053 0.39 11.9 1.8 1 23 1707 1730 1707 1730 0.97

39 63 2.1 1.5e+02 3.7 0.0 2 23 1803 1826 1802 1826 0.92

40 63 0.00035 0.026 15.6 1.0 3 23 1833 1854 1832 1854 0.94

41 63 0.011 0.77 11.0 3.2 2 23 1859 1881 1858 1881 0.94

42 63 0.0098 0.72 11.1 2.2 1 23 1886 1909 1886 1909 0.97

43 63 0.00017 0.013 16.6 5.3 1 23 1913 1936 1913 1936 0.97

44 63 0.0012 0.089 13.9 0.3 2 23 1943 1964 1942 1964 0.96

45 63 0.54 40 5.6 0.3 1 23 2021 2044 2021 2044 0.94

46 63 0.57 42 5.5 0.2 2 23 2075 2097 2074 2097 0.95

47 63 0.015 1.1 10.5 2.1 2 23 2120 2141 2120 2142 0.95

48 63 0.012 0.86 10.8 1.5 1 23 2147 2170 2147 2170 0.95

49 63 4.1 3e+02 2.8 0.2 1 23 2175 2198 2175 2198 0.80

50 63 0.017 1.3 10.3 1.0 2 23 2204 2226 2203 2226 0.91

51 63 0.0008 0.059 14.5 0.1 2 23 2234 2256 2233 2256 0.97

52 63 0.56 42 5.5 0.0 2 23 2263 2284 2262 2284 0.95

53 63 2.7e-05 0.002 19.1 0.7 1 23 2290 2312 2290 2312 0.93

54 63 2.3e-05 0.0017 19.3 1.4 1 23 2318 2341 2318 2341 0.97

55 63 0.13 9.5 7.6 2.9 1 23 2416 2439 2416 2439 0.96

56 63 0.0024 0.18 13.0 1.5 3 23 2514 2535 2512 2535 0.96

57 63 0.0045 0.33 12.1 2.4 1 23 2540 2563 2540 2563 0.94

58 63 0.15 11 7.3 2.8 1 23 2566 2589 2566 2589 0.96

59 63 0.0063 0.47 11.7 0.7 1 23 2595 2618 2595 2618 0.95

60 63 0.01 0.75 11.0 0.5 2 23 2626 2648 2625 2648 0.95

61 63 1.5 1.1e+02 4.2 0.5 1 23 2653 2675 2653 2675 0.98

62 63 1.4e-07 1.1e-05 26.3 0.5 1 23 2681 2703 2681 2703 0.98

63 63 0.05 3.7 8.8 1.2 2 23 2710 2732 2710 2732 0.92

#	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	63	0.32	24	6.3	0.7	1	23	238	260	238	260	0.95
2	63	0.05	3.7	8.8	0.1	2	23	289	311	288	311	0.93
3	63	0.36	27	6.1	0.1	3	23	333	354	331	354	0.92
4	63	0.0014	0.1	13.7	2.6	2	23	360	382	359	382	0.95
5	63	0.0096	0.7	11.1	1.3	1	23	387	410	387	410	0.95
6	63	2.2	1.6e+02	3.7	0.1	2	23	413	435	412	435	0.93
7	63	0.066	4.9	8.5	2.5	2	22	442	462	441	462	0.93
8	63	0.019	1.4	10.2	0.6	1	23	523	546	523	546	0.93
9	63	0.97	71	4.8	0.1	3	23	575	596	573	596	0.92
10	63	0.049	3.6	8.9	0.9	2	23	619	642	618	642	0.96
11	63	0.0023	0.17	13.0	0.6	3	20	649	666	647	670	0.90
12	63	0.037	2.7	9.3	0.4	1	23	675	698	675	698	0.97
13	63	0.0097	0.72	11.1	0.2	2	23	704	726	704	726	0.94
14	63	0.00016	0.012	16.7	4.9	1	23	730	753	730	753	0.97
15	63	0.00074	0.054	14.6	0.6	2	23	760	781	759	781	0.96
16	63	0.0026	0.19	12.9	0.5	1	23	829	851	829	851	0.97
17	63	0.27	20	6.5	0.2	2	23	879	901	878	901	0.92
18	63	0.021	1.6	10.0	0.9	2	23	922	944	921	944	0.94
19	63	0.00069	0.051	14.7	6.3	1	23	949	971	949	972	0.93
20	63	0.01	0.75	11.0	3.0	1	23	976	999	976	999	0.93
21	63	0.008	0.59	11.4	1.5	2	23	1002	1024	1001	1024	0.96
22	63	0.0056	0.41	11.8	2.3	1	23	1102	1125	1102	1125	0.94
23	63	0.41	30	6.0	0.0	2	23	1154	1176	1153	1176	0.96
24	63	1.3	99	4.4	0.6	1	23	1198	1221	1198	1221	0.93
25	63	0.0015	0.11	13.7	0.1	3	23	1228	1249	1226	1249	0.95
26	63	0.039	2.9	9.2	1.7	1	19	1254	1272	1254	1277	0.95
27	63	0.00043	0.032	15.3	0.4	2	23	1283	1305	1283	1305	0.95
28	63	0.0041	0.3	12.3	6.8	1	23	1309	1332	1309	1332	0.97
29	63	0.066	4.9	8.5	0.8	2	23	1339	1360	1338	1360	0.96
30	63	0.29	21	6.4	1.6	1	21	1366	1386	1366	1387	0.93
31	63	0.95	70	4.8	2.2	1	23	1429	1451	1429	1451	0.95
32	63	0.95	70	4.8	0.0	3	23	1480	1501	1478	1501	0.89
33	63	0.0039	0.29	12.3	0.5	1	23	1521	1544	1521	1544	0.97
34	63	0.00095	0.07	14.3	0.4	1	23	1549	1572	1549	1572	0.96
35	63	0.00052	0.038	15.1	1.0	1	23	1577	1600	1577	1600	0.98
36	63	0.00024	0.018	16.1	1.4	2	23	1603	1625	1603	1625	0.97
37	63	0.045	3.3	9.0	0.4	2	21	1632	1651	1631	1652	0.93
38	63	0.0053	0.39	11.9	1.8	1	23	1707	1730	1707	1730	0.97
39	63	2.1	1.5e+02	3.7	0.0	2	23	1803	1826	1802	1826	0.92
40	63	0.00035	0.026	15.6	1.0	3	23	1833	1854	1832	1854	0.94
41	63	0.011	0.77	11.0	3.2	2	23	1859	1881	1858	1881	0.94
42	63	0.0098	0.72	11.1	2.2	1	23	1886	1909	1886	1909	0.97
43	63	0.00017	0.013	16.6	5.3	1	23	1913	1936	1913	1936	0.97
44	63	0.0012	0.089	13.9	0.3	2	23	1943	1964	1942	1964	0.96
45	63	0.54	40	5.6	0.3	1	23	2021	2044	2021	2044	0.94
46	63	0.57	42	5.5	0.2	2	23	2075	2097	2074	2097	0.95
47	63	0.015	1.1	10.5	2.1	2	23	2120	2141	2120	2142	0.95
48	63	0.012	0.86	10.8	1.5	1	23	2147	2170	2147	2170	0.95
49	63	4.1	3e+02	2.8	0.2	1	23	2175	2198	2175	2198	0.80
50	63	0.017	1.3	10.3	1.0	2	23	2204	2226	2203	2226	0.91
51	63	0.0008	0.059	14.5	0.1	2	23	2234	2256	2233	2256	0.97
52	63	0.56	42	5.5	0.0	2	23	2263	2284	2262	2284	0.95
53	63	2.7e-05	0.002	19.1	0.7	1	23	2290	2312	2290	2312	0.93
54	63	2.3e-05	0.0017	19.3	1.4	1	23	2318	2341	2318	2341	0.97
55	63	0.13	9.5	7.6	2.9	1	23	2416	2439	2416	2439	0.96
56	63	0.0024	0.18	13.0	1.5	3	23	2514	2535	2512	2535	0.96
57	63	0.0045	0.33	12.1	2.4	1	23	2540	2563	2540	2563	0.94
58	63	0.15	11	7.3	2.8	1	23	2566	2589	2566	2589	0.96
59	63	0.0063	0.47	11.7	0.7	1	23	2595	2618	2595	2618	0.95
60	63	0.01	0.75	11.0	0.5	2	23	2626	2648	2625	2648	0.95
61	63	1.5	1.1e+02	4.2	0.5	1	23	2653	2675	2653	2675	0.98
62	63	1.4e-07	1.1e-05	26.3	0.5	1	23	2681	2703	2681	2703	0.98
63	63	0.05	3.7	8.8	1.2	2	23	2710	2732	2710	2732	0.92

Sequence Information

Coding Sequence: ATGGATTTTAGGGATATTATTGTGAAGGAGAGCCCCGGGCTTTGCCGATGCTGTCTTTCGGAAGGTTGTTACAAAGATTTAGGATCGGAGTATTCTTGgatgaatgaaaatgaaatttacgCGGATATGTTATTGGAATGCTTCGATATTAGTATATCACAGCACAATGAAGGTCCCAACGGCCCTAATCGACTCATATGTGAAGTTTGCATCACAAGGTTGCGGGACGCATGCAACTTCAAAAAGCAGGTTCTGGACTCGGAAAAAAAATTCGTTGACATGGTCGGCAGAGGGGAATTTAGATCAAAAGTACTTATATATCAAGCCCAAATGAAGGCGGAAAGTGAAGATGTCGAGATGGACAATGATGCAGAAGTTGAGTACCTGGAAGACGACCTAGACCTTGGAGATGATGTCCCCCTGAAGTCTTACAAGAAACAAGAACCCACCGTCTCCAAAGATATCACAGTCGCGACCTTGCCATTGAAGACCAAACGTGGACGGCCGAAGAAGACAGCCACAGCAGTGAAATCGGAGAAAAAGGCGAAACTCTCACACGCGGAGGAGAAGCCCAGATCGTCCAAAGCTGTAATCAAAGATCTAAAACTGCGGAAATACAAGGGCTGCGAATCATCTTCGATGCGTAGAAGGAAAAACCTACAGATTGTGTTTAACAACACAAGCATACTGCCGTTCAAATGGCGAGGAAAGTATCTATGCTTCTACTGCAGCAAAGATATCGCTGAGTATGCAGAATTAAGGAAGCATACGAAATCACACGGCAGCTGTTCTACCAAAGATCATTCTCTGAAAGTTTTAAAAGGCGGTCAAAACATGGAGATAAAAATAGATGTCTCAGAAATTACATGCGAAATCTGCAACGAAACATTCCCTTCATTTGGCGAGATTATAAACCacttatacataaaacatacaCTAGAATACGATAGAGACGTAGATATGGCTATAGAAGAATACAGATTGGTAGATTTAGCTTGTTTAGCGTGCGGTGAGAAATTTTCCTACTTCGGTTACTTAGTGTCACATGTGAACAATAATCACCCGAAGAACTGTCTCATTTGTGACAAATGCAATCAAAAGTTCAATAAGAAGAGAGATTTATTCTCCCACATGAAGAATTATCATCGCGAAGGGGGCTATCAATGTGAAATGTGCCCTCAAACGTTTAGCTCTTTAAATATCTTGCggaaacataaaaacaatagacATTTAACTAGATGTAATATTTGTCAATTGAAATTACCATCGGCTGCTTTGAAGCAAAAGCATATAGAATTAGAACATCCTGATGACGGATCTCTGCAATGTGATAATTGTTACAAAGAGTTCCACACGAAACATGGTCTAAAAATGCATGCAAGGAAGTGTAAAGGAGAAGGCGATATATTCGATTTTACGATAAAGAAAGAGAGCTACGATGTTATGGATCTCGACGATTGTTACGAAGATAAAGTGAAGCGGCCCAGTGTTAAGCAAATTCGCGAAAACATTCTCATAGTTATAAACATGTCGACTGCTGTACCctttaacttttataaaaacaaatttaattgtttCTACTGCTCTAAAGATTTCCCTGATTCAGATACTATGAGAGAACACACAGTTATGGAGCATCCAGTGTGCGATATAAAACAGAAATGTATTAGAAAATGTAGGGAATCGGTTGCTTGCGTGAAAATCGACGTATCTTCTCTCGCTTGTAAGATTTGTTTCGAATCTATGAGTGATTTGGAAAACTTATTGGACCATTTGACTTTGAAACACGAAGCTAACTATGACAAATCTATCACCACATGTCTGCAACCGTTTAGACTTATCAAAGACCATATGGAATGCCCTCACTGTCCTGGTGAAGTGTTTCGATTTTTCGGAACACTTTTGAAGCACATGAATAAGAAACACaccaataacaatataatatgcgTTTATTGTGGTCAAACTTTTAGACGCGATCAAAACTTGAGAGTTCATATTTGGAGACACCACAGGGACGGCCGATTTAAATGTAACATTTGTGGTGCAGAATGTAATATACCTTCTagattatatatgcatatggcGAAAGCACACGGTGTTAAAGCAGCTAAATGTTCAAAATGCCCGGAAGCGTTTGCCACCCAATATTTAAGACAAAAACATTTGATCGAAGCCCACGACTCAGGGCATAAATGTACGTATTGCGGGAAACTATTCACCCGTAACTCCTTTATGCGTGATCACATAAGAAGAACGCATTTAAAAGAGAAAAACGTGGAATGTTCTATTTGTAATATGAAGTTCTTCAATAATATACTGCTAAGACGGCATATGGTGAAACACAGTGGCGAGAAAAATTTCCATTGTGATGTCTGCGATGAAATTGGGCCGGCAAAAATTGTGAACGCCAATAAACTAAGGCGGCGGAATCTGCAAATATTATTCAACAATACCTCGATGGTGCCATTTAAATGGAGAGGAAAGTACATGTGCTTTTACTGTGGCGAGGACTTGACTAATTATGCGGATTTGAGGAAGCATACAAAAGCCCACGGCTACTGTTCAGACCGGGATCGAGCGCTTAAATTAGTACGCACCAGTGACGCTGAAGTGAAAATAGATGTTTCTGATGTTACTTGTGAACTGTGCAATGAATTTTTTAGTAGCTTCGATGAAATAGTAACTCATTTGGTGTCTAAACATAAACTACCTTATAACAAGGAAGTAGAGTTGACAATATCCACGTACAGATTAGTagatttaaaatgtttgttatgCGAAGAAAGTTTTAAATACTTTAGTAAACTTATAACTCATGTTAATAATACTCACCCAATCAATTGTTTCCTTTGTCATGAATGTAatcagaaatttaataaaaaaagagattTGGAATCCCATTTAAGGACACATCATAGAAAACAGTATCAATGCACGAAATGTTCATTACAATTTTCAACTAATGCCGCTCTACTGAAACACAAAACACACTCTCATTCGTCAACTTGCAATATATGTTTCGCAACATTCTCCTCCAGTAGTAAAAGGCTTAAACACATGAAACTCGAACATATATCTGACGGGGTTTTACAATGCGGATTTTGCCTCAAAACTCTAAGTACTAAACTAGCTTTTCTAAACCACGCCGCGAAATGCAATGTTAAAGATGGTTCTGAAATTGTAGAAGAATGTATCACGATTGATGATACCGAAAAGAAAGCGTCTGTATCTGAAATTAGGAATAATATcgcttgtattttaaatatgtctaCTGCTATaccatttaaatatttcatgaaCAGATTTCGATGCTTCTATTGCCCGAAAGATTTTACTGAATGTGATGATCTCAAAGAACATACGGTATCTGAACATCCAGTTTGTGATATTAAACTGAAATGTTTAAGACTCCGTAATAGAGAAGACGGTATTAGAGTTAAAGTAGATATTTCCTCTCTGTCCTGTAAAATGTGTTTCGAACCAATCCCAGATTTGGACGCgctaataaatcatattattacgGAACATAAAGCGCAGTACATAGAGTCTGTCGACAATAACATGCAACCTTTTAAGTTAATAAAAGAAAGTTTTTCATGTCCTTTCTGTGAGCAAGTGTATAGATATTTCGGAATACTCTTAAAACACGTAAGTAGAAGTCATActgataacaaaattatttgtgtgTACTGTGGAAAGGCGTATAGGACTGATCCTAGCTTAAGAGCTCACATTTCACGACGTCATAGACCTAACAGTTACAAATGTGATTTTTGTCAACTAGAATTCTCTACAAGTAACGCCTTGCAAATTCATTGTGGCCGCGTCCACGGTTCTAAGATAGCTGAGTGCTCCGAATGTTCAGAGAAGTTTACATCTCAGTATTGGATGCAGAGGCACATGATAAATGTTCATGGTACAGGCCATAAATGTTCGTACTGTAACAAATTGTTCACTAAGAACTCTCACATGGTGAATCACGTTAGGCGGACACACTTGAAGGAGAAAAACGTACAATGTTCAGTATGTTTCGAGAGATTTTTCGATGTGCAAAATTTAAGAACGCACACCGTAAAACACATCGGCGAACGGAACTTCCATTGCGATTTTTGCGGCAAGAAATTCCTCTGGAAGAAAAACCTTAGAGCTCACATCAAGAATAATTTGTTTTCAGATGAATATGCGCCTGGGCCTTACGAAGCGTGTGCCTCTGAGAGAAGGCGGAAAAACATGAAAATACTGTTCAACAACACTACGATAATACCATTCAAATGGCGCGGAAAATTTCTCTGTTTCTACTGCGCTCAGGCCTATATGCAGTATCAGGAGTTTAAAAAGCATACAAAATCACACGGACATTGTACAACTAAGGATTACTCGTTAAAAGTTATTAAAGGGAATCACATTGAAATAAAACTAGATATATCAGAAATTGCATGCGAAATTTGCAACGAACCATTTGATAGTTTAAAGGAAATAGTGGACCATTTGATCGGAAAACACAAGTTGGAGTATGATAAAACAGTAGAGATCCCATTCCAAGAATACAAGCTCGTAGATTTTCGATGTTTATACTGTGATGAACAGTTCAGCTATTTCGGATATCTGGTTAACCACGTGAATGTTATGCATCCacaaaacagttttatttgCGACGATTGCGGTGCAACATTCAATAAGAAAAGAGATATGGCATTACATTTAAGAAATTACCACCGTCAAGGTGGTTACCCATGTGATCAATGTACACAGAACTTTGAGACTTATTATCTATTGCGCACACATCAGAACACAATACATTTTCGAAGGTGCAAGAAATGTAACATGAAATTTGTATCGCTTACCCTTCTTCAGAAACACATTCGGATAGAACATCCTCAGGATGGTACTTTAAAATGCTCATTTTGCGCAAAAGAGTTCCGTTCTTCTCAAGGTCTCTCACAACATATAAGTAAGTGTAAGGTCAAAGCTCCTCAAATAGAAGTGCAGGACAATACTGCATTTATCTCAGAACATAATCAAGAACCGAAAAAGAAACAGAACATTTTGCAGATACGACAAAATATTCAATGTGTCCTCAACATGTCCACAGCTGTGCCTTTTAAATTCTTCTCCAAATACACTTGTTTTTATTGTTCGAAAAAGTTTATCGAGTTTGACGAATTGCGAGAACATACAACAACGGAACATCCTGTTTGTGATCTTAAATCGAAATCTATGAGGAAATGTAAAGGAGAGAGAGTCTGCGTCAAAATTGATATTGCCTCGCTAGCTTGTAAACTGTGTTGCCAATCAATATCCGAATTGGATACACTTATAGATCATTTAATATCAGAACATGATGCAAATTACGATAAATCTGTCACTGGTTGTTTGGAACCATTTAAAGTTATAAAAGATAACATGCCGTGTCCGGTGTGCCCCGAGAAAGTATTTCGATATTTTGGTATCCTTTTGCGTCACATGAATGCAGAGCATAGCAATAACAACAGAATTTGTGATTTCTGCGGACGATGCTTCAGAAACGTGGCCAATTTAAACGTGCATATATCGTATACGCATACCGGCTCGTGTGAATGTAATATTTGTGGGATACAATATAAGAATCAGTGGTGTCTCGCTCGACATCGAGCTAGGAAGCACAACGCGAAAGATTATAAATGCCCGAAATGTCCAGACAAGTTCCCTTCTCAGTATCACAAGCAGAAGCATCTGATTAAGGCGCATGATATCGGCCACAAGTGTAGTTACTGTGAGAAGATGTTTACAAGAAACTCCTTTATGAAGGATCATATCAGGCGGACGCATTTAAGGGAGAAGAATGTACCGTGCTCCGTTTGTAATGAACGATTCTTTGATAATTATCTACTGAGGATGCATATGGTGAAACATGAGGGGGAAAGGAAATTTGTTTGTGCAGTTTGCGGTGCAAAATTAAACACAGTGGAAGacaaatataagaaaatggaaTTGGCGCGTAAACTAATGATAAAATGCAGAAATATCGAGTATGTGCTGCAGTACAGCAACGTGACGCCATTCCTCTGGTACAAAGGGAAATATAGGTGTTACTATTGCTCAGAACCTATGAAAGATCCACAATTACTTCGTGAACATACAGCAAATTCACACCAATTGGAAAATCTTGAACTCATCGTACATGATCGAACTAAGAACAATAGAAATAAAGACGCCGCAGTTAAAATTGACGTAACAGATATTACTTGCAAACTTTGTCATAATGGTGTTGCAAATTTGGAAGAATTGATACATCACTTAATTATAGCTCACGACGCTGAGTATGATGTAAGCGTTCCCAACTGCTTGTTGCCTTTCAAACTCGACAAAGATCAACCTACATGTCCTACCTGTGATACCAAATTCGTCTTCTTTGAGTACCTCCTTCGGCACGCTAACAAGCATCATTTGTCACATGATTACATCTGTGACGTGTGCGGTACAAGTTTCCAAGGTGAGAATCACTTGAAGATGCATAACCGTTATTACCACAGACAAGGCGGCTACACCTGCGATTATTGCGGCATAAACATGGCAACACTATCAAAGAAGATACTCCATGAGAAAAACGTGCATTTGGTGAACTTATCCACTTGCCCCCATTGCCCAGAGACCTTCAAAAGTccgtattttaaaaagttacacTTGGCGAATGTTCATGGTGTTGAAGAGTTGAAGATTAAATGTCCTTATTGTCCAAAAGTTTATCCCCAAGAGAGTATAATGTCCCGGCATATGAGAAGAGTCCATTTGCGAGAGAAGAATGTGGAATGCGAGGTCTGCGGAGATAAGTTCTTCGGACCTTACGACGTTAAATTGCACATGGTTAAACACAATGGCGATAAGAAATTCATATGTGCCGTATGCGGAAAGAAATTCTCGAAAAAGAGCAACTTGAATACGCATTCTATTCTACATACGGGAGAGAAGAAATTTGTATGCGCCATTTGTAACAGAGCATTCGCTCACCAAGCCAACTTTAAGATGCACATGAGGAATCGTCACCCAGAGTTTTCTGAAGAGCTACCTGAGGTGGTTGAGGATATTGATGAAACAGAACTTGTACAAATGGAATTTATAGATGGTGCTGAAGTTATAGAACAATACGTGAGATTGCAAACCAAGAGAGATATGCAGAATACAAAGCGACTCTATATTGCAAGGAAGAATGTTCTCACCGTACTGCAGTATGGCAAAGTGATGCCGTTCAACTGGAATACATCAGGATTCAGGTGTTTCTACTGCGGGAAAGTTATGAGGGATTGTATTACACTCCGTGAGCACACAGAATCGAAACACGATTTAGTAGACCTGGAAAATTGTATAccaaagaaaataataacgaAAGATGTCCCCGTTAAAATTGATGTCACCAATATATCTTGCAAACTGTGTCCAAATAATACACTGAATAATCTTGAAGAACTTATATCGCATATAACAGCAGTACATGAAGAAGAATATGACGATACAGCAGGAGTTTGCTTCTTCCCCTTCAATCTAAAGAAAGACATTATGCATTGCGTAATCTGTGACACTGAATTTGACAATTTCACCTCTTTAATGCGACATATGAACAAGGAACATATCACGCATGAATATATTTGTCAAGTTTGCGGATTGAGTTTCATTGACAGTATACGCCTTAAGCGTCACATTACCCATTGTCATGTTGGACATCGTTGCAGCTTATGCGGGAAACTCTTTGAGGCTTCTCATAAATTGGATTGGCACAGACAGAGGATCCATGGTCAAGTCAAAACTCACGAATGCAATCTGTGCAGTGCGACATTTGATAATAACTATCAAGTGAAAGTGCATATGGGGAAAGCGCATAATGTAGAGAAATATAGGATTAAATGTGATTATTGCCCGAAGATTTGCACGACGAAAGGCGCTATGGTGTTACATGTGCAAAGTCTGCATTCTGATGTGCGTTATGAATGTGATCTGTGCGAATATAAAACGGCTATTAAATGGATGATCAAACTCCACAGGAGGAAACATTTTGGGGAGAAGAATTACGCTTGTAGTATTTGCGACAAAAAGTTTGGTAGATCGAGCAATTTGCGTGCGCATATGAAAGTACATACAGGCCAGAACGGGCGTGTGTGTAGACGGTGTCATAAAGGATTTACCGATTTTGAGGCGCTAAGTAAACATGAAATGGAGCTACATTATTTTGAACAAGTGTAG
Protein Sequence: MDFRDIIVKESPGLCRCCLSEGCYKDLGSEYSWMNENEIYADMLLECFDISISQHNEGPNGPNRLICEVCITRLRDACNFKKQVLDSEKKFVDMVGRGEFRSKVLIYQAQMKAESEDVEMDNDAEVEYLEDDLDLGDDVPLKSYKKQEPTVSKDITVATLPLKTKRGRPKKTATAVKSEKKAKLSHAEEKPRSSKAVIKDLKLRKYKGCESSSMRRRKNLQIVFNNTSILPFKWRGKYLCFYCSKDIAEYAELRKHTKSHGSCSTKDHSLKVLKGGQNMEIKIDVSEITCEICNETFPSFGEIINHLYIKHTLEYDRDVDMAIEEYRLVDLACLACGEKFSYFGYLVSHVNNNHPKNCLICDKCNQKFNKKRDLFSHMKNYHREGGYQCEMCPQTFSSLNILRKHKNNRHLTRCNICQLKLPSAALKQKHIELEHPDDGSLQCDNCYKEFHTKHGLKMHARKCKGEGDIFDFTIKKESYDVMDLDDCYEDKVKRPSVKQIRENILIVINMSTAVPFNFYKNKFNCFYCSKDFPDSDTMREHTVMEHPVCDIKQKCIRKCRESVACVKIDVSSLACKICFESMSDLENLLDHLTLKHEANYDKSITTCLQPFRLIKDHMECPHCPGEVFRFFGTLLKHMNKKHTNNNIICVYCGQTFRRDQNLRVHIWRHHRDGRFKCNICGAECNIPSRLYMHMAKAHGVKAAKCSKCPEAFATQYLRQKHLIEAHDSGHKCTYCGKLFTRNSFMRDHIRRTHLKEKNVECSICNMKFFNNILLRRHMVKHSGEKNFHCDVCDEIGPAKIVNANKLRRRNLQILFNNTSMVPFKWRGKYMCFYCGEDLTNYADLRKHTKAHGYCSDRDRALKLVRTSDAEVKIDVSDVTCELCNEFFSSFDEIVTHLVSKHKLPYNKEVELTISTYRLVDLKCLLCEESFKYFSKLITHVNNTHPINCFLCHECNQKFNKKRDLESHLRTHHRKQYQCTKCSLQFSTNAALLKHKTHSHSSTCNICFATFSSSSKRLKHMKLEHISDGVLQCGFCLKTLSTKLAFLNHAAKCNVKDGSEIVEECITIDDTEKKASVSEIRNNIACILNMSTAIPFKYFMNRFRCFYCPKDFTECDDLKEHTVSEHPVCDIKLKCLRLRNREDGIRVKVDISSLSCKMCFEPIPDLDALINHIITEHKAQYIESVDNNMQPFKLIKESFSCPFCEQVYRYFGILLKHVSRSHTDNKIICVYCGKAYRTDPSLRAHISRRHRPNSYKCDFCQLEFSTSNALQIHCGRVHGSKIAECSECSEKFTSQYWMQRHMINVHGTGHKCSYCNKLFTKNSHMVNHVRRTHLKEKNVQCSVCFERFFDVQNLRTHTVKHIGERNFHCDFCGKKFLWKKNLRAHIKNNLFSDEYAPGPYEACASERRRKNMKILFNNTTIIPFKWRGKFLCFYCAQAYMQYQEFKKHTKSHGHCTTKDYSLKVIKGNHIEIKLDISEIACEICNEPFDSLKEIVDHLIGKHKLEYDKTVEIPFQEYKLVDFRCLYCDEQFSYFGYLVNHVNVMHPQNSFICDDCGATFNKKRDMALHLRNYHRQGGYPCDQCTQNFETYYLLRTHQNTIHFRRCKKCNMKFVSLTLLQKHIRIEHPQDGTLKCSFCAKEFRSSQGLSQHISKCKVKAPQIEVQDNTAFISEHNQEPKKKQNILQIRQNIQCVLNMSTAVPFKFFSKYTCFYCSKKFIEFDELREHTTTEHPVCDLKSKSMRKCKGERVCVKIDIASLACKLCCQSISELDTLIDHLISEHDANYDKSVTGCLEPFKVIKDNMPCPVCPEKVFRYFGILLRHMNAEHSNNNRICDFCGRCFRNVANLNVHISYTHTGSCECNICGIQYKNQWCLARHRARKHNAKDYKCPKCPDKFPSQYHKQKHLIKAHDIGHKCSYCEKMFTRNSFMKDHIRRTHLREKNVPCSVCNERFFDNYLLRMHMVKHEGERKFVCAVCGAKLNTVEDKYKKMELARKLMIKCRNIEYVLQYSNVTPFLWYKGKYRCYYCSEPMKDPQLLREHTANSHQLENLELIVHDRTKNNRNKDAAVKIDVTDITCKLCHNGVANLEELIHHLIIAHDAEYDVSVPNCLLPFKLDKDQPTCPTCDTKFVFFEYLLRHANKHHLSHDYICDVCGTSFQGENHLKMHNRYYHRQGGYTCDYCGINMATLSKKILHEKNVHLVNLSTCPHCPETFKSPYFKKLHLANVHGVEELKIKCPYCPKVYPQESIMSRHMRRVHLREKNVECEVCGDKFFGPYDVKLHMVKHNGDKKFICAVCGKKFSKKSNLNTHSILHTGEKKFVCAICNRAFAHQANFKMHMRNRHPEFSEELPEVVEDIDETELVQMEFIDGAEVIEQYVRLQTKRDMQNTKRLYIARKNVLTVLQYGKVMPFNWNTSGFRCFYCGKVMRDCITLREHTESKHDLVDLENCIPKKIITKDVPVKIDVTNISCKLCPNNTLNNLEELISHITAVHEEEYDDTAGVCFFPFNLKKDIMHCVICDTEFDNFTSLMRHMNKEHITHEYICQVCGLSFIDSIRLKRHITHCHVGHRCSLCGKLFEASHKLDWHRQRIHGQVKTHECNLCSATFDNNYQVKVHMGKAHNVEKYRIKCDYCPKICTTKGAMVLHVQSLHSDVRYECDLCEYKTAIKWMIKLHRRKHFGEKNYACSICDKKFGRSSNLRAHMKVHTGQNGRVCRRCHKGFTDFEALSKHEMELHYFEQV

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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