Basic Information

Insect: Atrophaneura dixoni
Gene Symbol: -
Assembly: GCA_018248015.1
Location: DWHX01000815.1:24749-36302[+]

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 1.8 2.9e+02 3.8 2.1 1 20 78 97 78 98 0.96

2 57 0.031 5 9.4 0.2 2 23 171 192 170 192 0.97

3 57 0.0064 1 11.5 0.1 1 23 196 218 196 218 0.96

4 57 0.97 1.5e+02 4.7 1.7 1 21 223 243 223 246 0.74

5 57 0.045 7.1 8.9 2.6 1 23 252 275 252 275 0.95

6 57 0.014 2.3 10.5 0.3 1 23 282 305 282 305 0.95

7 57 0.0075 1.2 11.3 2.8 1 23 312 334 312 334 0.94

8 57 2.5e-06 0.0004 22.3 1.0 1 23 340 362 340 362 0.98

9 57 0.0018 0.28 13.3 0.2 2 23 366 388 365 388 0.96

10 57 0.013 2.1 10.6 0.2 1 23 476 499 476 499 0.92

11 57 0.93 1.5e+02 4.7 1.8 2 23 526 548 525 548 0.95

12 57 0.064 10 8.4 2.3 1 23 570 592 570 592 0.99

13 57 0.0004 0.063 15.3 0.5 1 23 596 618 596 618 0.97

14 57 0.022 3.5 9.8 0.8 1 23 652 675 652 675 0.91

15 57 0.96 1.5e+02 4.7 0.2 1 13 682 694 682 696 0.90

16 57 0.031 5 9.4 0.1 1 23 744 766 744 766 0.92

17 57 0.0021 0.33 13.1 0.6 2 23 792 814 791 814 0.92

18 57 0.033 5.2 9.3 4.1 1 21 862 882 862 884 0.94

19 57 0.51 80 5.6 0.1 1 23 889 912 889 912 0.95

20 57 0.12 19 7.5 3.0 1 23 918 941 918 941 0.96

21 57 1.7 2.7e+02 3.9 0.1 1 23 947 970 947 970 0.91

22 57 0.061 9.7 8.5 0.1 1 23 1066 1088 1066 1088 0.95

23 57 2 3.2e+02 3.7 1.3 2 23 1112 1134 1111 1134 0.96

24 57 0.036 5.7 9.2 5.3 1 23 1156 1178 1156 1178 0.98

25 57 2.1e-05 0.0033 19.4 2.0 2 23 1183 1204 1183 1204 0.97

26 57 2.2 3.5e+02 3.5 4.4 1 21 1211 1231 1211 1234 0.95

27 57 0.049 7.8 8.8 2.3 1 23 1240 1263 1240 1263 0.97

28 57 0.032 5 9.4 3.0 1 23 1269 1292 1269 1292 0.97

29 57 9.1e-05 0.014 17.4 0.9 1 23 1298 1320 1298 1320 0.98

30 57 0.0015 0.24 13.5 4.5 1 23 1326 1348 1326 1348 0.99

31 57 0.0024 0.37 12.9 0.3 2 23 1478 1499 1477 1499 0.97

32 57 0.034 5.3 9.3 2.7 1 23 1521 1543 1521 1543 0.97

33 57 0.00047 0.074 15.1 0.6 1 23 1547 1569 1547 1569 0.98

34 57 6.5 1e+03 2.1 0.1 1 23 1574 1597 1574 1597 0.94

35 57 0.00026 0.04 16.0 2.0 1 23 1603 1626 1603 1626 0.98

36 57 0.021 3.3 9.9 1.0 1 23 1633 1656 1633 1656 0.96

37 57 0.066 10 8.4 3.1 1 23 1662 1684 1662 1684 0.93

38 57 3.5e-06 0.00056 21.8 1.0 1 23 1690 1712 1690 1712 0.99

39 57 9.4e-06 0.0015 20.5 1.0 1 23 1718 1741 1718 1741 0.97

40 57 1.2 1.9e+02 4.4 0.2 1 19 1818 1836 1818 1841 0.78

41 57 0.02 3.1 10.0 1.2 3 23 1871 1892 1871 1892 0.95

42 57 0.28 43 6.4 6.6 1 23 1914 1936 1914 1936 0.98

43 57 0.0017 0.27 13.3 0.3 1 23 1940 1962 1940 1962 0.96

44 57 0.0053 0.84 11.8 0.1 1 23 1967 1990 1967 1990 0.95

45 57 0.069 11 8.3 3.6 1 23 1996 2019 1996 2019 0.94

46 57 0.00016 0.026 16.6 0.3 1 23 2026 2049 2026 2049 0.98

47 57 0.00018 0.029 16.4 0.9 1 23 2055 2077 2055 2077 0.95

48 57 1.8e-06 0.00029 22.7 1.6 1 23 2083 2105 2083 2105 0.99

49 57 1.4e-05 0.0021 20.0 5.5 1 23 2111 2133 2111 2134 0.96

50 57 0.029 4.5 9.5 2.0 1 23 2281 2304 2281 2304 0.94

51 57 0.093 15 7.9 0.1 1 23 2376 2398 2376 2398 0.98

52 57 0.0012 0.19 13.8 0.2 1 23 2402 2424 2402 2424 0.98

53 57 0.00033 0.053 15.6 1.3 1 23 2429 2452 2429 2452 0.96

54 57 0.035 5.6 9.2 0.8 2 23 2459 2481 2459 2481 0.93

55 57 0.23 36 6.7 7.3 1 23 2488 2511 2488 2511 0.96

56 57 0.0014 0.22 13.6 5.4 1 23 2517 2539 2517 2539 0.97

57 57 0.0001 0.016 17.2 0.9 1 23 2545 2567 2545 2567 0.99

#	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	1.8	2.9e+02	3.8	2.1	1	20	78	97	78	98	0.96
2	57	0.031	5	9.4	0.2	2	23	171	192	170	192	0.97
3	57	0.0064	1	11.5	0.1	1	23	196	218	196	218	0.96
4	57	0.97	1.5e+02	4.7	1.7	1	21	223	243	223	246	0.74
5	57	0.045	7.1	8.9	2.6	1	23	252	275	252	275	0.95
6	57	0.014	2.3	10.5	0.3	1	23	282	305	282	305	0.95
7	57	0.0075	1.2	11.3	2.8	1	23	312	334	312	334	0.94
8	57	2.5e-06	0.0004	22.3	1.0	1	23	340	362	340	362	0.98
9	57	0.0018	0.28	13.3	0.2	2	23	366	388	365	388	0.96
10	57	0.013	2.1	10.6	0.2	1	23	476	499	476	499	0.92
11	57	0.93	1.5e+02	4.7	1.8	2	23	526	548	525	548	0.95
12	57	0.064	10	8.4	2.3	1	23	570	592	570	592	0.99
13	57	0.0004	0.063	15.3	0.5	1	23	596	618	596	618	0.97
14	57	0.022	3.5	9.8	0.8	1	23	652	675	652	675	0.91
15	57	0.96	1.5e+02	4.7	0.2	1	13	682	694	682	696	0.90
16	57	0.031	5	9.4	0.1	1	23	744	766	744	766	0.92
17	57	0.0021	0.33	13.1	0.6	2	23	792	814	791	814	0.92
18	57	0.033	5.2	9.3	4.1	1	21	862	882	862	884	0.94
19	57	0.51	80	5.6	0.1	1	23	889	912	889	912	0.95
20	57	0.12	19	7.5	3.0	1	23	918	941	918	941	0.96
21	57	1.7	2.7e+02	3.9	0.1	1	23	947	970	947	970	0.91
22	57	0.061	9.7	8.5	0.1	1	23	1066	1088	1066	1088	0.95
23	57	2	3.2e+02	3.7	1.3	2	23	1112	1134	1111	1134	0.96
24	57	0.036	5.7	9.2	5.3	1	23	1156	1178	1156	1178	0.98
25	57	2.1e-05	0.0033	19.4	2.0	2	23	1183	1204	1183	1204	0.97
26	57	2.2	3.5e+02	3.5	4.4	1	21	1211	1231	1211	1234	0.95
27	57	0.049	7.8	8.8	2.3	1	23	1240	1263	1240	1263	0.97
28	57	0.032	5	9.4	3.0	1	23	1269	1292	1269	1292	0.97
29	57	9.1e-05	0.014	17.4	0.9	1	23	1298	1320	1298	1320	0.98
30	57	0.0015	0.24	13.5	4.5	1	23	1326	1348	1326	1348	0.99
31	57	0.0024	0.37	12.9	0.3	2	23	1478	1499	1477	1499	0.97
32	57	0.034	5.3	9.3	2.7	1	23	1521	1543	1521	1543	0.97
33	57	0.00047	0.074	15.1	0.6	1	23	1547	1569	1547	1569	0.98
34	57	6.5	1e+03	2.1	0.1	1	23	1574	1597	1574	1597	0.94
35	57	0.00026	0.04	16.0	2.0	1	23	1603	1626	1603	1626	0.98
36	57	0.021	3.3	9.9	1.0	1	23	1633	1656	1633	1656	0.96
37	57	0.066	10	8.4	3.1	1	23	1662	1684	1662	1684	0.93
38	57	3.5e-06	0.00056	21.8	1.0	1	23	1690	1712	1690	1712	0.99
39	57	9.4e-06	0.0015	20.5	1.0	1	23	1718	1741	1718	1741	0.97
40	57	1.2	1.9e+02	4.4	0.2	1	19	1818	1836	1818	1841	0.78
41	57	0.02	3.1	10.0	1.2	3	23	1871	1892	1871	1892	0.95
42	57	0.28	43	6.4	6.6	1	23	1914	1936	1914	1936	0.98
43	57	0.0017	0.27	13.3	0.3	1	23	1940	1962	1940	1962	0.96
44	57	0.0053	0.84	11.8	0.1	1	23	1967	1990	1967	1990	0.95
45	57	0.069	11	8.3	3.6	1	23	1996	2019	1996	2019	0.94
46	57	0.00016	0.026	16.6	0.3	1	23	2026	2049	2026	2049	0.98
47	57	0.00018	0.029	16.4	0.9	1	23	2055	2077	2055	2077	0.95
48	57	1.8e-06	0.00029	22.7	1.6	1	23	2083	2105	2083	2105	0.99
49	57	1.4e-05	0.0021	20.0	5.5	1	23	2111	2133	2111	2134	0.96
50	57	0.029	4.5	9.5	2.0	1	23	2281	2304	2281	2304	0.94
51	57	0.093	15	7.9	0.1	1	23	2376	2398	2376	2398	0.98
52	57	0.0012	0.19	13.8	0.2	1	23	2402	2424	2402	2424	0.98
53	57	0.00033	0.053	15.6	1.3	1	23	2429	2452	2429	2452	0.96
54	57	0.035	5.6	9.2	0.8	2	23	2459	2481	2459	2481	0.93
55	57	0.23	36	6.7	7.3	1	23	2488	2511	2488	2511	0.96
56	57	0.0014	0.22	13.6	5.4	1	23	2517	2539	2517	2539	0.97
57	57	0.0001	0.016	17.2	0.9	1	23	2545	2567	2545	2567	0.99

Sequence Information

Coding Sequence: ATGCATGAAGCTCACTCaaaactctttttatttttaggatGTCAAGGACAAAGTGGGAACGAAACtatcattaaaatagaaaGACATGATGATTTAGGATTAAAAGATGTGAAGGAAAAGCGGCGGTATATCAGGAGCGCCCGCGCCGAGGCCAGGATCCTTACAAAGAGGAACGCCAATACCCTACTGGAATGTTGGACCTTCTGCCCGTTCAGATGGCAGAGGAACCGTTTCAAATGCGCATATTGCGAGGACAGCTTTTTGCATTGCAGCGATCTGAGACGGCACGTCGCCGATTGCTCATCTAAGCACAGCGTTAAGGATATCTACAGcaagtttaaagaaatgtcCCTCATCAATGTCGACGTGACCGACGCCTGCTGCCGTCTATGCAAATGCCCTTACTCCAACATCACTCAAATGCGCCACCACGCCGTCCAACACGGATACCACTTCGATTCTACTCAACCGGACGGTGTCTTACCTTTCAGTCTTGATAAGGAATGCTGGCGCTGCGTCATATGCCGCGAGGTATTCAACAACTTCTTAAAACTCTACGAGCATATGAACGTACATTACCAACACTACATCTGCCCGACTTGCGGCAAGGGTTACATGACCGCACCCCGTCTGAGGAAACATTCCGAGGTGCACATAACAGGTTCTTTTCCCTGCAACAAATGCGAGCGAGCTTTCACTATGCGCGCGGCCCGCGACCATCACaaagcgcacgcgcacgctaAGGGCCCAAGGTACGAATGTCCGCATTGCAACATGCGTTTCAACGGTTACTACGACAGGATGCACCACCTTAACGAGGCTCATAGAGAGAAGGAGGTCTCTTACCGGTGCAGCGTCTGCGAACTGTCGTTCAAGACGAGCGGCAAGCGTGCGATGCACGTGCGCGCCGTGCACCTGCCACAGCCGCGTAACTTCGCATGCACTTGCTGCGACTGGCTGTTCAAGACCAGTTACGAGCTGAAGAGGCACATGGTTAAGCACACCGGTGAAAGGAACTTCAGTTGTACCGTATGCGGGAAATCTTACCCAAGGAGCCGCGCTCTGAGGACCCACTTGAAAACCCACGAGGAGCTCACCTGCAAGTGGTGCGGCGAGCTGTTCAAGCAGCGTGCGCAGGTGATCACGCACTTGAGAGTCAACCATCCGGACTTAAACGAATTCATTGTCGTCGAAACTGAAAAGCTGTCGTGTTCCGCTAACGCGGAAGCGGTGGAAAATGTAGTTAAGCCAGTTAGGAAGTTAAAGGAAAACGTGAGCGCGCGCCAAATGCGAAGACGGCGGCGCGCGAACAACGAGCTGCCGGAGGAATCGGAAAGGCGGATCTCCAAAACTATGATGAGGAGGAACGCCCTGACCATTCTGGAGTGCTCCACCGCGTGGGCTTTCCGCTGGTTTCACAGCGCGTTCTTCTGCTCCTATTGCGACGAAAAGTTCGTTGATACCGCACCACTGCGACAACATGTACTCGCATCCCACATGTCGAGTAATCCCACTGGACGCGTATTCTCAAAATTAACCGAGAACAACATGCTTAAAATCGACATCACCAATTTAACTTGTAGACTCTGCAGCTTTAACTGCAGCACCATAGACACACTTAAAGATCACTTGATAATGtcacataaaaagaaaatctggAACGAGCACAGCGATGGTGTTCTGCCGTTCAAACTTGACCAGGATGGATACCGCTGTCAAATATGTTTCGATTATTTCACCAGTTTTTCGAGATTAAACGAACACATGAATTCGCATTATCAAAATTACATATGTGACGCTTGTGGGAAGGCTTTCGTTTCGAAATCTAGATTCAGAACCCATGTACAATCGCACGAGACCGGTAAATTCTCTTGCGGGGAATGCGACGAGGTCTTACCTACACGAGCTGCACGTATGTGTCATAGGTTGAAGGTGCACAAGAAAGGTGTTCGGTACACATGCCCGCGGTGCTCTGAAGTTTTCACAACTTACTATACAAGGGCAAAGCACTTGGTGGAGAGGCATGCGCAGCAGAAAAGGGATTATGAGTGCACAGCATGCGGGAAAGCTTTCGAGACGAGCTgGACCGAAGAGATCAATGCAACTGAACCAAAGgaaaaggttaaagttaaatgGAACAGGAAACGTAAGCTAGCTGAGGATAAATCCAATGCAGCAATCATCTTAGAATGTTCAAATGCTGTCACATTCAGATGGAAACGTGGGAGGTTCATGTGCGGCTACTGTCCTCGCGTTTTCCCCAGCATCTCCGACATCCGTCTTCACACTGTCGAGCATAACGATAAGCTCGCTGTTTTCGAAAATTCTAAAGTGCGAAATTCATTCCCTTTACGAGTAGACATTGCTGATCTGACTTGTAATTATTGTGAACAAAAATTTGACAACttggataattttaaaattcatctaACGGAAGAGCATGACAAATGTTTCCATTTAAATCATGGTAATGGTCTGTTGCCATTTGTGCTGACTGATGGAGAATTCAGATGCATCAATTGCCACAATCAATACGAAAGTTTTATGGGTCTGTTGGCTCACATGAACGAACATTATGCGACTTTTATCTGTTATATATGCGGCAAGGGTTATTCAGGGAAACATAAACTGCAGTCTCACCTAAAGTGCCACGAATCTGGTAAATTCGAGTGTCCCAAGTGTGACAGTGTGTTGCCGAGTAGAACTGCTAAGAGTAGACATCTGTCCGTCGCCCACGGACCTAGAGAACGCTACCGATGTCCACTATGCGAGGAACACTTCATCTCTTACCATTCTCGATTACGGCACCTGGATAAGATACACGGAAGGAAGTCTGAGTACAGATGCAATGTGTGTTCTTCTGTATTCGCTAGTGGTGCTTTGAGGAATTATCACGTGAAGATTGTGCATAGAAAGAACTGGCGAAGGTCGTGGGAAACCGCTGTGAACAGTGTAGGATCGTTTGGAGTGGAAATCTTTGTGGGAAGCCTTTGCTTAGCAGTGGGTGTCTATctgctgatgattgattgtaAGAACCGCTGGAGGCAAACCATTCGCTCCAAACGCAACTCTGTCGggTGCCGGGATAAAATTGTTAGATGGAAACCGAAACGGAAGTTTAACGATCACAGAGATAACGCCGGTGTTATAATCGAGTATTCCAACGTTTGCCCGTTTAGATGGAAAAGGGGTGAATTCGCGTGTGCCTATTGTCCGATCACATTCGGAGATTTCACCGATGTCAGGCGGCACACAGCGAACCACCCCCACAGGTTGGAGGCACTGCGCCACGTGCGTCCAGTAAACTCGATCAAAGCCGACATCACAAATTTACAATGCACCCTCTGTTTAGCATGCATGAAAGATCTAGACGAACTCGCCAATCATTTGTGCACCGGCCACAACAAACCAATCGATAAACAATACGGTTTAGGTATCACCCCATTCTTCCTAAACAGCAAAGAGTTCGTTTGCTACCATTGCAATAAGCATTATGACTTATTTACAAACCTCAACATTCACATGAATCAGCATGACAGGAATAACGTGTGCTTCAAATGTGGAAAAACTTTCTCCTCCTCCCATCGGCTGGAGGCCCACATGATCACCCACGAGGGAGCCGATGATCTGTTCAGATGCACCAAGTGCAGCGATACCTTCGCCACACGCAAGCTCATGAGCAGCCACATGAACTGCAAGCACGGTACACTGTTTAGATACAAATGCCCTTACTGCCAAGATAAGTTTAAAACCTACGGCGACCGATCGAAGCATCTCAAGCAAGACCACGATAGAAATGTCGAATATCCCTGTCATCTGTGCACCGCTGTGTTCGCTCAATGTAATCAAAGAACGAAACACATTCAACGTGTCCACTTTAAATTTGAACCTTACAAATGCCAATATTGCGATTACAAATCGTCAACGTCGTCAGAGTTGCAGAATCATGCGCTGATACACGTGTCCTCGAAGCAGTTCAAGTGCAACACCTGCGACAAAGTCTACAATAGGATAACAACATACCGTCAGCACATACATACGCACAACGTAGACAAAAGGTTCGCCTGCGAATGCTGCAACAGAGAATTTGTACACAGGCACCGTTTGGAAAgGGGAAAAGCTGAAGAGGTACAGGTTAAGAGAGAAGTGGAATCTGACAGAGAGAATGTCAGCGCCGCCGTCATGGCGTCAGCTCGCGAAGCAGGCAAGGAGAGACGCGCCGTATTCCGGAACAACATTAAAACCATAATGGAATCCTGCACCGCGTACCCGTTCAAATACAGGACGGGCACCTATCTGTGTTTCTTCTGCAAACAATCGTTCTTGGAGCCGGAACGCCTGCGAGAGCACACCCAGCAGCAGCATTCGGATGTGAAGCATGTTCTGAAGCCGAGGAAGTATGAACCGTTGAAGATAGACTTTGCGGTCACAACATGCAAAATATGCGGCGCGTCCATCAAGGATTACGAAACGCTCAAATCGCACTTGCGGGAACACGGGAAGACGCTCGACTGCTCGCACGGAGACAGCGTGCTGCCTTACAGCCTCACCAGGGACAACCACCGCTGCCAGATATGCGGCAAGCGTTACGAGGTGTTCCTCAGCTTGCACATACACATGAACGATCACTACGAACACTTCATCTGCGAGACGTGCGGGAAACGTTTCGCGACCTCCCAGCGGATGGTGAACCACGCGCGGACCCACGAGCGGGGCAACTTTCCGTGCAAACGGTGCCTGGACACTTTCCCCTCGTACGCGTCTGTGAACGCCCACGTAGCTAGAGTCCACAGGTCCAACAAGAGGTACAAGTGTCCGATATGCGACGAGAAGTTCGCCTCGTACAAGCACAGGCTGAAGCACCTCAACACGGTGCACGGCGAGAAGACGGCGCTGTTCCCCTGCCCGTCGTGCCCACGTGTCTTCGACCTATGCAGCCAGAGGACCGCGCACATACGCTTCCAGCATCTGCAGGAGCGGAACCACTCGTGCCCGCTGTGCTTCATGAAGTTCTTCACAAAGTACGAGCTGAGGGTGCACTCGGTGAAGCACGGCGGTGAGAGGATATACCAGTGCGACGTTTGCAAGAAGTCCTACGCGAGGCTGAAGACGCTGCGGGAGCACATGAGGATCCATAACAACGACAGGAGATTCGTTTGCCCAGTTTGTGGGCAGTCGTTCATACAGAACTGTAGTTTGAAGCAGCACGTCAGGGTATACCATCCTAATCAAATGAAGATTGACCTTCCTTTGATAAAACGTGATGATTCGTACAACGGAGGAGAAGGTAATGATTCCTTGAATGGAGAAGGAAAAGGCGTCGAACCAACAAAACAACCCACTGAAAGGAGCGTTGTGAACGATATCGATACGTTAACAACAAGAAGAAGGAATACTATGTTACTCCTGGAGAACTCCAAGATGTGTCCGTTCAGATGGATGAAGAACCTTTATCTATGCTTCTATTGCGGTCAGCAGTTCTCGGACCCCGCAATTATGAGAGATCACAACGTCCGTGAACACATTTCACCATCTACGGCAAAGATTAAATATGAACTCTTCAAACACAAAAGGCACGAGCTGGTCAAAGTAGACGTCACAGGCCTTGGCTGCAGGGTTTGCGACGAATCATTTCACGACATCACAAGTCTAAAGCGCCACCTCATGGAGCTGCACGCTATGGACATAGATCTTGATTCGGACGACGGCATACTGCCGTTCAAGATCACGAAGGACACATTCGTCTGCACGATATGCCAGCACAGGTGCGACGAGTTCAAATCCTTGAATCACCACATGAACGTTCATTACCAGAACTACATCTGCGAACAGTGCGGCACCGGCTTCATCACGTCGGACCGGCTGCGGACACACTCGCTATCACACGAGAACGGCTCGTACCCCTGCGACGGCTGCGACAAGGTCTTCCGCTCCACCATCGCCAGGAACGAGCATTACGCGACCGTTCACAAGAAGGTGAAACGGCACCGGTGTCCGCATTGCGCCGAGACATTCCGCAATTACTTCCAAAGGAACAAACATGTCGCCTCCGTCCACGGCTTGAAGCTGAAGGAGTTCAAATGCAAGCTGTGCCCGAAGGTGTTCACGCTGAGCGGGAAACTTGGTGTCCACGTGAGGACGGTGCACTTGAAGTTGAAACGGCACGCGTGCGACGTCTGCGAATGGAAGTTCTACTCAAAGTCGGAGCTGAGGGACCACATGGTGAGGCACGGCGGCGAGAGGAAGTTCCAATGCAAGGTCTGCAAGAAGGCGTATGCCAGGAAGTATACACTGCGCGAGCACATGCGCATACACGACAACGACAGGAGGTTCGTCTGCCCGGAATGCGGCAGGTCGTTCGTGCAGAACTGCAGCCTCAAACACCACACCAGGGTCCATCATCCAACGGCAGCTGTGAAAGCTAACGTCGCGTTTCAAGACTGGTCACATCTTcataacatttgtttgtttctaGGATCGGACAGTTCGGATATACAAGCATCAACAGCAAAAAAGATCGTGCCGTTGTTTCAAGTGGATTACGATCGCAGCCTGTGTAGACCACTTGGGACTGTAACCAACTTTAAAAAGATGGTTATGATGGCAAAGCTGCCCCACAGGGCTACTATACCATCACCTGCTTCAAACTGTTTTCCTTCCCGCAGCCCTTCGCCTCTATCAGACGGTCGCAGGTCACCGTCATCAGACGTCGCCATTGACGATACATTACCAACACCGTTATCGGGACAAGGCGGAAATAAACAGGCGGACAATCGTCAAAACGCGCTGACCCTCTTCGAATTCTCCACCGTGTACCCGTTCATCTACGGGAACAACAAGTTCAAATGCTTCATATGCTCGCAGCCGTTTCTACAATCGGCTCTACTTAGGCGTCACATGCACGACACCCACACATTCGCACCGCTAAAACGTTTAGTTAACAACCGCAGGGAGAACGTAATCAAAGTTGATGTAAGCGAAATGACATGTAAACTGTGTTCTGATAAACCTGATGATTTACATCAACtcaagttacatttaaagCAGGATCACCAAAAGCTCATAGATCCGGAGCTCAAGGATAACATAATTCCCTTCAGGCTCGAAGGCGACGAAGAGGAAGGCTTCAAATGTGTAATGTGCGACGGAATCTTCATCAAAGTTCGAACCCTCGTCATCCACATGAGTGTACACTTCAACAACTACAGCTGCGAGATCTGCGGCTCCGGTTTCATGACTTTGAGGCTATTGAAGAAACATCTAGAAGTCCATGAGAGCGGGAACTTCCCATGCGATCGTTGCAGTAAAGTCTTCAATACTTCGCACAAGTTGTCCCTGCACATCAGAGGGGTTCACCTGAAGCAGTATCCTCGCCGCTGTCCCATGTGCCCGGAGAGGTTCAACTCGAACTACCGTCGTACTAAACATTTGCAGGACGTCCACAATCAATCAACTCGTGTACACAAATGCAAGACCTGCGGCCGGGCTTTCAACTTGAAGTATCACCTGGTGTGTCACACCCGATCGGTCCACCTCCAGGAGAGGAATCACCAATGCAAAGTTTGCTTACAGAGATTCTGCAATAAGGAAACACTGAAAAGGCATATGGTCATTCACACGGGcgaaaagaattataaatgcGAAATGTGTGGTCAAGCATTCCTGCGGCGTAAAAATTTAAGAGATCATTTGCGATTACATGAAGTagtttaa
Protein Sequence: MHEAHSKLFLFLGCQGQSGNETIIKIERHDDLGLKDVKEKRRYIRSARAEARILTKRNANTLLECWTFCPFRWQRNRFKCAYCEDSFLHCSDLRRHVADCSSKHSVKDIYSKFKEMSLINVDVTDACCRLCKCPYSNITQMRHHAVQHGYHFDSTQPDGVLPFSLDKECWRCVICREVFNNFLKLYEHMNVHYQHYICPTCGKGYMTAPRLRKHSEVHITGSFPCNKCERAFTMRAARDHHKAHAHAKGPRYECPHCNMRFNGYYDRMHHLNEAHREKEVSYRCSVCELSFKTSGKRAMHVRAVHLPQPRNFACTCCDWLFKTSYELKRHMVKHTGERNFSCTVCGKSYPRSRALRTHLKTHEELTCKWCGELFKQRAQVITHLRVNHPDLNEFIVVETEKLSCSANAEAVENVVKPVRKLKENVSARQMRRRRRANNELPEESERRISKTMMRRNALTILECSTAWAFRWFHSAFFCSYCDEKFVDTAPLRQHVLASHMSSNPTGRVFSKLTENNMLKIDITNLTCRLCSFNCSTIDTLKDHLIMSHKKKIWNEHSDGVLPFKLDQDGYRCQICFDYFTSFSRLNEHMNSHYQNYICDACGKAFVSKSRFRTHVQSHETGKFSCGECDEVLPTRAARMCHRLKVHKKGVRYTCPRCSEVFTTYYTRAKHLVERHAQQKRDYECTACGKAFETSWTEEINATEPKEKVKVKWNRKRKLAEDKSNAAIILECSNAVTFRWKRGRFMCGYCPRVFPSISDIRLHTVEHNDKLAVFENSKVRNSFPLRVDIADLTCNYCEQKFDNLDNFKIHLTEEHDKCFHLNHGNGLLPFVLTDGEFRCINCHNQYESFMGLLAHMNEHYATFICYICGKGYSGKHKLQSHLKCHESGKFECPKCDSVLPSRTAKSRHLSVAHGPRERYRCPLCEEHFISYHSRLRHLDKIHGRKSEYRCNVCSSVFASGALRNYHVKIVHRKNWRRSWETAVNSVGSFGVEIFVGSLCLAVGVYLLMIDCKNRWRQTIRSKRNSVGCRDKIVRWKPKRKFNDHRDNAGVIIEYSNVCPFRWKRGEFACAYCPITFGDFTDVRRHTANHPHRLEALRHVRPVNSIKADITNLQCTLCLACMKDLDELANHLCTGHNKPIDKQYGLGITPFFLNSKEFVCYHCNKHYDLFTNLNIHMNQHDRNNVCFKCGKTFSSSHRLEAHMITHEGADDLFRCTKCSDTFATRKLMSSHMNCKHGTLFRYKCPYCQDKFKTYGDRSKHLKQDHDRNVEYPCHLCTAVFAQCNQRTKHIQRVHFKFEPYKCQYCDYKSSTSSELQNHALIHVSSKQFKCNTCDKVYNRITTYRQHIHTHNVDKRFACECCNREFVHRHRLERGKAEEVQVKREVESDRENVSAAVMASAREAGKERRAVFRNNIKTIMESCTAYPFKYRTGTYLCFFCKQSFLEPERLREHTQQQHSDVKHVLKPRKYEPLKIDFAVTTCKICGASIKDYETLKSHLREHGKTLDCSHGDSVLPYSLTRDNHRCQICGKRYEVFLSLHIHMNDHYEHFICETCGKRFATSQRMVNHARTHERGNFPCKRCLDTFPSYASVNAHVARVHRSNKRYKCPICDEKFASYKHRLKHLNTVHGEKTALFPCPSCPRVFDLCSQRTAHIRFQHLQERNHSCPLCFMKFFTKYELRVHSVKHGGERIYQCDVCKKSYARLKTLREHMRIHNNDRRFVCPVCGQSFIQNCSLKQHVRVYHPNQMKIDLPLIKRDDSYNGGEGNDSLNGEGKGVEPTKQPTERSVVNDIDTLTTRRRNTMLLLENSKMCPFRWMKNLYLCFYCGQQFSDPAIMRDHNVREHISPSTAKIKYELFKHKRHELVKVDVTGLGCRVCDESFHDITSLKRHLMELHAMDIDLDSDDGILPFKITKDTFVCTICQHRCDEFKSLNHHMNVHYQNYICEQCGTGFITSDRLRTHSLSHENGSYPCDGCDKVFRSTIARNEHYATVHKKVKRHRCPHCAETFRNYFQRNKHVASVHGLKLKEFKCKLCPKVFTLSGKLGVHVRTVHLKLKRHACDVCEWKFYSKSELRDHMVRHGGERKFQCKVCKKAYARKYTLREHMRIHDNDRRFVCPECGRSFVQNCSLKHHTRVHHPTAAVKANVAFQDWSHLHNICLFLGSDSSDIQASTAKKIVPLFQVDYDRSLCRPLGTVTNFKKMVMMAKLPHRATIPSPASNCFPSRSPSPLSDGRRSPSSDVAIDDTLPTPLSGQGGNKQADNRQNALTLFEFSTVYPFIYGNNKFKCFICSQPFLQSALLRRHMHDTHTFAPLKRLVNNRRENVIKVDVSEMTCKLCSDKPDDLHQLKLHLKQDHQKLIDPELKDNIIPFRLEGDEEEGFKCVMCDGIFIKVRTLVIHMSVHFNNYSCEICGSGFMTLRLLKKHLEVHESGNFPCDRCSKVFNTSHKLSLHIRGVHLKQYPRRCPMCPERFNSNYRRTKHLQDVHNQSTRVHKCKTCGRAFNLKYHLVCHTRSVHLQERNHQCKVCLQRFCNKETLKRHMVIHTGEKNYKCEMCGQAFLRRKNLRDHLRLHEVV

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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