Basic Information

Insect: Anorthoa munda
Gene Symbol: -
Assembly: GCA_945859655.1
Location: CAMAOM010000229.1:949497-970140[+]

Transcription Factor Domain

TF Family: zf-BED
Domain: zf-BED domain
PFAM: PF02892
TF Group: Zinc-Coordinating Group
Description: The BED finger, which was named after the Drosophila proteins BEAF and DREF, is found in one or more copies in cellular regulatory factors and transposases from plants, animals and fungi. The BED finger is an about 50 to 60 amino acid residues domain that contains a characteristic motif with two highly conserved aromatic positions, as well as a shared pattern of cysteines and histidines that is predicted to form a zinc finger. As diverse BED fingers are able to bind DNA, it has been suggested that DNA-binding is the general function of this domain [3].
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 65 3.6 5.2e+03 -1.3 0.2 19 26 433 440 429 443 0.88

2 65 0.12 1.7e+02 3.5 1.6 15 30 498 514 489 523 0.73

3 65 0.035 51 5.1 2.1 6 38 518 550 517 551 0.72

4 65 0.13 1.8e+02 3.4 2.9 5 34 545 570 543 584 0.81

5 65 0.0092 13 7.0 4.9 18 38 585 606 578 610 0.90

6 65 0.05 72 4.7 0.4 16 32 611 628 607 634 0.76

7 65 0.066 95 4.3 2.3 6 33 626 657 624 663 0.71

8 65 0.065 93 4.3 3.3 5 38 657 690 653 691 0.78

9 65 0.013 19 6.5 0.9 5 32 685 714 682 724 0.80

10 65 0.035 51 5.1 2.6 5 38 719 752 717 753 0.79

11 65 0.011 16 6.8 0.6 5 32 747 776 745 786 0.80

12 65 0.033 47 5.2 2.5 4 38 780 814 778 815 0.79

13 65 0.0098 14 6.9 0.1 5 31 809 837 807 841 0.80

14 65 0.033 48 5.2 2.5 5 38 843 876 841 877 0.79

15 65 0.011 16 6.8 0.6 5 32 871 900 868 909 0.81

16 65 0.037 53 5.1 2.7 4 38 904 938 902 939 0.79

17 65 0.012 17 6.6 0.6 6 32 934 962 932 972 0.79

18 65 0.034 49 5.2 2.6 4 38 966 1000 964 1001 0.79

19 65 0.011 17 6.7 0.6 5 32 995 1024 992 1032 0.81

20 65 0.032 46 5.3 2.2 4 38 1028 1062 1025 1063 0.80

21 65 0.01 15 6.8 0.3 5 31 1057 1085 1054 1089 0.80

22 65 0.035 51 5.1 2.6 5 38 1091 1124 1089 1125 0.79

23 65 0.01 15 6.9 0.5 5 32 1119 1148 1116 1157 0.81

24 65 0.04 57 5.0 1.0 5 30 1153 1178 1151 1187 0.73

25 65 0.0083 12 7.1 0.2 5 32 1181 1210 1177 1218 0.82

26 65 0.032 46 5.3 2.5 4 38 1214 1248 1212 1249 0.79

27 65 0.0097 14 6.9 0.4 5 32 1243 1272 1239 1280 0.82

28 65 0.032 47 5.3 2.5 4 38 1276 1310 1274 1311 0.79

29 65 0.012 17 6.6 0.6 6 32 1306 1334 1304 1344 0.79

30 65 0.031 45 5.3 2.2 4 38 1338 1372 1336 1373 0.80

31 65 0.012 18 6.6 0.6 6 32 1368 1396 1366 1406 0.79

32 65 0.036 51 5.1 2.7 4 38 1400 1434 1398 1435 0.79

33 65 0.011 16 6.7 0.5 5 32 1429 1458 1426 1466 0.81

34 65 0.034 48 5.2 2.5 5 38 1463 1496 1461 1497 0.79

35 65 0.01 15 6.9 0.5 5 32 1491 1520 1489 1531 0.80

36 65 0.035 51 5.1 2.6 5 38 1525 1558 1523 1559 0.79

37 65 0.013 19 6.5 1.0 5 32 1553 1582 1550 1593 0.80

38 65 0.035 50 5.2 2.6 4 38 1586 1620 1584 1621 0.79

39 65 0.01 15 6.8 0.5 5 32 1615 1644 1613 1654 0.80

40 65 0.033 47 5.2 2.5 5 38 1649 1682 1647 1684 0.79

41 65 0.0098 14 6.9 0.5 5 32 1677 1706 1675 1716 0.80

42 65 0.028 40 5.5 2.3 5 38 1711 1744 1709 1745 0.79

43 65 0.011 15 6.8 0.6 5 32 1739 1768 1737 1778 0.80

44 65 0.035 51 5.1 2.6 4 38 1772 1806 1770 1807 0.79

45 65 0.013 19 6.5 1.0 5 32 1801 1830 1798 1840 0.80

46 65 0.035 50 5.2 2.6 4 38 1834 1868 1832 1869 0.79

47 65 0.011 15 6.8 0.3 5 31 1863 1891 1860 1895 0.80

48 65 0.035 50 5.2 2.6 5 38 1897 1930 1895 1931 0.79

49 65 0.01 15 6.9 0.3 5 31 1925 1953 1922 1957 0.80

50 65 0.035 50 5.2 2.6 4 38 1958 1992 1956 1993 0.79

51 65 0.0098 14 6.9 0.3 5 32 1987 2016 1985 2024 0.81

52 65 0.035 50 5.2 2.6 4 38 2020 2054 2018 2055 0.79

53 65 0.013 19 6.5 1.0 5 32 2049 2078 2046 2088 0.80

54 65 0.035 50 5.1 2.6 4 38 2082 2116 2080 2117 0.79

55 65 0.0099 14 6.9 0.2 5 31 2111 2139 2109 2143 0.80

56 65 0.034 50 5.2 2.6 5 38 2145 2178 2143 2179 0.79

57 65 0.0099 14 6.9 0.1 5 31 2173 2201 2171 2205 0.80

58 65 0.038 54 5.0 2.7 4 38 2206 2240 2203 2241 0.80

59 65 0.007 10 7.4 1.3 5 38 2235 2268 2232 2275 0.84

60 65 0.13 1.9e+02 3.3 6.3 6 38 2264 2296 2259 2303 0.82

61 65 0.25 3.6e+02 2.4 4.9 14 38 2299 2324 2291 2331 0.80

62 65 0.045 65 4.8 2.1 6 38 2320 2352 2319 2353 0.84

63 65 0.53 7.7e+02 1.4 0.6 19 30 2360 2372 2353 2376 0.84

64 65 0.029 42 5.4 0.8 15 38 2378 2402 2372 2408 0.89

65 65 0.48 7e+02 1.5 0.7 19 30 2410 2422 2405 2428 0.81

#	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	65	3.6	5.2e+03	-1.3	0.2	19	26	433	440	429	443	0.88
2	65	0.12	1.7e+02	3.5	1.6	15	30	498	514	489	523	0.73
3	65	0.035	51	5.1	2.1	6	38	518	550	517	551	0.72
4	65	0.13	1.8e+02	3.4	2.9	5	34	545	570	543	584	0.81
5	65	0.0092	13	7.0	4.9	18	38	585	606	578	610	0.90
6	65	0.05	72	4.7	0.4	16	32	611	628	607	634	0.76
7	65	0.066	95	4.3	2.3	6	33	626	657	624	663	0.71
8	65	0.065	93	4.3	3.3	5	38	657	690	653	691	0.78
9	65	0.013	19	6.5	0.9	5	32	685	714	682	724	0.80
10	65	0.035	51	5.1	2.6	5	38	719	752	717	753	0.79
11	65	0.011	16	6.8	0.6	5	32	747	776	745	786	0.80
12	65	0.033	47	5.2	2.5	4	38	780	814	778	815	0.79
13	65	0.0098	14	6.9	0.1	5	31	809	837	807	841	0.80
14	65	0.033	48	5.2	2.5	5	38	843	876	841	877	0.79
15	65	0.011	16	6.8	0.6	5	32	871	900	868	909	0.81
16	65	0.037	53	5.1	2.7	4	38	904	938	902	939	0.79
17	65	0.012	17	6.6	0.6	6	32	934	962	932	972	0.79
18	65	0.034	49	5.2	2.6	4	38	966	1000	964	1001	0.79
19	65	0.011	17	6.7	0.6	5	32	995	1024	992	1032	0.81
20	65	0.032	46	5.3	2.2	4	38	1028	1062	1025	1063	0.80
21	65	0.01	15	6.8	0.3	5	31	1057	1085	1054	1089	0.80
22	65	0.035	51	5.1	2.6	5	38	1091	1124	1089	1125	0.79
23	65	0.01	15	6.9	0.5	5	32	1119	1148	1116	1157	0.81
24	65	0.04	57	5.0	1.0	5	30	1153	1178	1151	1187	0.73
25	65	0.0083	12	7.1	0.2	5	32	1181	1210	1177	1218	0.82
26	65	0.032	46	5.3	2.5	4	38	1214	1248	1212	1249	0.79
27	65	0.0097	14	6.9	0.4	5	32	1243	1272	1239	1280	0.82
28	65	0.032	47	5.3	2.5	4	38	1276	1310	1274	1311	0.79
29	65	0.012	17	6.6	0.6	6	32	1306	1334	1304	1344	0.79
30	65	0.031	45	5.3	2.2	4	38	1338	1372	1336	1373	0.80
31	65	0.012	18	6.6	0.6	6	32	1368	1396	1366	1406	0.79
32	65	0.036	51	5.1	2.7	4	38	1400	1434	1398	1435	0.79
33	65	0.011	16	6.7	0.5	5	32	1429	1458	1426	1466	0.81
34	65	0.034	48	5.2	2.5	5	38	1463	1496	1461	1497	0.79
35	65	0.01	15	6.9	0.5	5	32	1491	1520	1489	1531	0.80
36	65	0.035	51	5.1	2.6	5	38	1525	1558	1523	1559	0.79
37	65	0.013	19	6.5	1.0	5	32	1553	1582	1550	1593	0.80
38	65	0.035	50	5.2	2.6	4	38	1586	1620	1584	1621	0.79
39	65	0.01	15	6.8	0.5	5	32	1615	1644	1613	1654	0.80
40	65	0.033	47	5.2	2.5	5	38	1649	1682	1647	1684	0.79
41	65	0.0098	14	6.9	0.5	5	32	1677	1706	1675	1716	0.80
42	65	0.028	40	5.5	2.3	5	38	1711	1744	1709	1745	0.79
43	65	0.011	15	6.8	0.6	5	32	1739	1768	1737	1778	0.80
44	65	0.035	51	5.1	2.6	4	38	1772	1806	1770	1807	0.79
45	65	0.013	19	6.5	1.0	5	32	1801	1830	1798	1840	0.80
46	65	0.035	50	5.2	2.6	4	38	1834	1868	1832	1869	0.79
47	65	0.011	15	6.8	0.3	5	31	1863	1891	1860	1895	0.80
48	65	0.035	50	5.2	2.6	5	38	1897	1930	1895	1931	0.79
49	65	0.01	15	6.9	0.3	5	31	1925	1953	1922	1957	0.80
50	65	0.035	50	5.2	2.6	4	38	1958	1992	1956	1993	0.79
51	65	0.0098	14	6.9	0.3	5	32	1987	2016	1985	2024	0.81
52	65	0.035	50	5.2	2.6	4	38	2020	2054	2018	2055	0.79
53	65	0.013	19	6.5	1.0	5	32	2049	2078	2046	2088	0.80
54	65	0.035	50	5.1	2.6	4	38	2082	2116	2080	2117	0.79
55	65	0.0099	14	6.9	0.2	5	31	2111	2139	2109	2143	0.80
56	65	0.034	50	5.2	2.6	5	38	2145	2178	2143	2179	0.79
57	65	0.0099	14	6.9	0.1	5	31	2173	2201	2171	2205	0.80
58	65	0.038	54	5.0	2.7	4	38	2206	2240	2203	2241	0.80
59	65	0.007	10	7.4	1.3	5	38	2235	2268	2232	2275	0.84
60	65	0.13	1.9e+02	3.3	6.3	6	38	2264	2296	2259	2303	0.82
61	65	0.25	3.6e+02	2.4	4.9	14	38	2299	2324	2291	2331	0.80
62	65	0.045	65	4.8	2.1	6	38	2320	2352	2319	2353	0.84
63	65	0.53	7.7e+02	1.4	0.6	19	30	2360	2372	2353	2376	0.84
64	65	0.029	42	5.4	0.8	15	38	2378	2402	2372	2408	0.89
65	65	0.48	7e+02	1.5	0.7	19	30	2410	2422	2405	2428	0.81

Sequence Information

Coding Sequence: ATGAATCAGGATCATCATAATATGAATACGGGTGGTGGCCAGCCTCCGGGAAGTTCTGAGTCACAGGTTCAAAGAATTCAAGCCACCCAGCAGCAACAACAGAATAACTTGCCTGCCACGACATCTGCTACTGATTTGCGAGTGAACTCAGCTGCAGTGAACGTTGCTTTGTCTAGTGTCGCGAAATATTGGGTGTTTACAAATTTATTCCCCGGACCTATACCACAAGTGTCTGTGTACGGATTACCTGCCGGAGCTAGGATTGAAAATGGGAAGCCTGTCCAGGACCTTGGGCAAGCCCATGCAAGTATACTGAATGGTGATCCAAATATAATACTGGGGCATCATGCAGGCCAATCTCAAGTCACAGTATCAGCTGCTGGAGGTCAGCAGATACCAGTTTCACAGATCATTGCCACACAGTCGGGACAAACTCATGAAGCTCTCGTGGCCCATAGTCACCAGCAGGCTGAGCTGGCGGCGGTCCAAGCCTCCGTGAACAACGCGCAGGTGTCAGTTAGTGCAGGCCAGGCCACTCACCAGCAGGTACCCAATAATCGGGTCGAGTTTGTACAACACCATAACATTGATATGGTAAATCACGTGGGACACCATTCCCAACAACACATAATGCAGCAGCAACTGATGGCGCAGGCGCGACCAGAACATAGCAACCAACAGATTCAACTGACGGTAAGCGAGGACGGCATAGTCACGGTGGTGGAACCGGCAGGCACAAAAATGGTTGACAAGGAGGAACTCCACGAGGCCATCAAGATGCCCAACGACCACACCCTCACAGTACACCAGCTGCAGCAGATTGTGGGACAACAGGTCATAGACAGCGTAGTACGCATAGAGCAAGCGACTGGTGAGCCAGCCAACATCTTAGTGACCCACAATCCTGACGGCACAACCTCCATAGAAGCCAGCGCTGCTGACCCTATGATTGTCAAGGACGAGAAGAATGCTAACAAAATAGAGACCGCACAATTTGCTATACCTACTGAGATAAAGGATATAAAGGGGATTGACCTGAAGAGTGTAGGAGCCATGGGCATGGAAGGGGCCGTCGTGAAGATCTCCGGCGCCGCGGACCACGACCTGCACGCCATGTACAAGGTCAATGTGGAAGATCTGTCGCAGCTGCTGGCCTACCACGAAGTGTTCGGCAAACTTAACTCGGAGGGGCAGCAGCAGCAACAAGCCAAGGTAATAAGCGAGGTGGAAGTAGAAGTGGAAGCCGGCACCAGCGCAGCTATGTCTGCGGAAGAATCCTCGCCCGGCCACCACGCATGTGATATTTGCGGGAAAATATTCCAGTTCCGATACCAACTCATTGTTCATAGGCGTTATCACGGCGAAAGTAAACCGTTCACGTGTCAGGTTTGCGGTTCCGCATTTGCTAATCCTGTCGAATTATCCAGGCATGGGAAGTGCCATCTTGCTGGAGACCCGAACGAACGACACGCCAAGAGGATGGCGCAAGATAAGCCATACGCATGCACGACTTGCCACAAAACGTTCTCCCGTAAAGAACATTTGGACAATCATGTCCGAAGTCACACTGGAGAAACTCCTTACAGGTGCGAATTCTGCGCAAAGACTTTCACCCGCAAAGAGCACATGGTCAACCATGTACGAAAACATACGGGCGAGACGCCGCACCGGTGTGATATCTGCAAGAAGAGTTTCACAAGGAAAGAACACTTCATGAACCACGTTATGTGGCATACAGGAGAGACGCCGCACCATTGTACAATATGCGGCAAGAAGTATACTAGGAAGGAGCATTTAGTGAACCATATGCGATCTCACACCAACGATACTCCGTTCCGATGCGAACTGTGCGGCAAGTCGTTCACGAGAAAGGAACACTTCACCAATCACATACTGTGGCATACGGGAGAAACCCCTCACCGCTGCGACTTCTGTTCAAAGACATTCACTCGTAAAGAGCATCTTCTGAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCAGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCAGGAAGACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCAGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGGTAATACTTTGTCAGATTACAACCACGTCCGGCAGCACACGGGCGAGTCTCCTCACCGCTGCAACTTCTGCAGCAAGTCCTTCACGCGGCGGGAACACCTCGTCAACCACGTGCGGCAGCACACCGGGGAGACGCCCTTCCAGTGCGGCTACTGTCCTAAAGCGTTCACGAGGAAGGACCACCTGGTGAACCACGTCCGCCAGCACACCGGCGAGTCGCCGCACAAGTGCTCGTACTGCACCAAGTCGTTCACCCGCAAGGAGCACCTCACGAACCACGTGCGGCAACACACGGGCGAGTCTCCACATCGGTGCACCTTCTGCGCCAAGTCCTTCACCAGGAAGGAACACCTCACCAACCACGTCAGACAGCACACGGGAGAAACGCCACACAAGTGCACGTACTGCCCGCGGGCCTTCGCGCGCAAGGAGCACCTCACCAACCACGTGCGCCAGCACACCGGCGCCACGCCGCACGCCTGCTCCTACTGCAGCAAGAGCTTCACGCGCAAGGAGCATCTGGTCAACCATCGATACTACAACAAGTGCACGTACTGCCCGCGGGCCTTCGCGCGCAAGGAGCACCTCACCAACCACGTGCGCCAGCACACCGGCGCCACGCCGCACGCCTGCTCCTACTGCAGCAAGAGCTTCACGCGCAAGGAGCATCTGGTCAACCATGTGCGGTAG
Protein Sequence: MNQDHHNMNTGGGQPPGSSESQVQRIQATQQQQQNNLPATTSATDLRVNSAAVNVALSSVAKYWVFTNLFPGPIPQVSVYGLPAGARIENGKPVQDLGQAHASILNGDPNIILGHHAGQSQVTVSAAGGQQIPVSQIIATQSGQTHEALVAHSHQQAELAAVQASVNNAQVSVSAGQATHQQVPNNRVEFVQHHNIDMVNHVGHHSQQHIMQQQLMAQARPEHSNQQIQLTVSEDGIVTVVEPAGTKMVDKEELHEAIKMPNDHTLTVHQLQQIVGQQVIDSVVRIEQATGEPANILVTHNPDGTTSIEASAADPMIVKDEKNANKIETAQFAIPTEIKDIKGIDLKSVGAMGMEGAVVKISGAADHDLHAMYKVNVEDLSQLLAYHEVFGKLNSEGQQQQQAKVISEVEVEVEAGTSAAMSAEESSPGHHACDICGKIFQFRYQLIVHRRYHGESKPFTCQVCGSAFANPVELSRHGKCHLAGDPNERHAKRMAQDKPYACTTCHKTFSRKEHLDNHVRSHTGETPYRCEFCAKTFTRKEHMVNHVRKHTGETPHRCDICKKSFTRKEHFMNHVMWHTGETPHHCTICGKKYTRKEHLVNHMRSHTNDTPFRCELCGKSFTRKEHFTNHILWHTGETPHRCDFCSKTFTRKEHLLNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRQEHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRQEDLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRQEHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLGNTLSDYNHVRQHTGESPHRCNFCSKSFTRREHLVNHVRQHTGETPFQCGYCPKAFTRKDHLVNHVRQHTGESPHKCSYCTKSFTRKEHLTNHVRQHTGESPHRCTFCAKSFTRKEHLTNHVRQHTGETPHKCTYCPRAFARKEHLTNHVRQHTGATPHACSYCSKSFTRKEHLVNHRYYNKCTYCPRAFARKEHLTNHVRQHTGATPHACSYCSKSFTRKEHLVNHVR

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00111872;
90% Identity: iTF_00111872;
80% Identity: iTF_00111872;