Basic Information

Insect: Megachile ligniseca
Gene Symbol: -
Assembly: GCA_945859565.1
Location: CAMAOB010000094.1:311646-337755[+]

Transcription Factor Domain

TF Family: TF_bZIP
Domain: bZIP domain
PFAM: AnimalTFDB
TF Group: Basic Domians group
Description: bZIP proteins are homo- or heterodimers that contain highly basic DNA binding regions adjacent to regions of α-helix that fold together as coiled coils
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 49 0.00052 0.5 10.7 3.5 34 59 47 72 45 75 0.91

2 49 1.4 1.3e+03 -0.2 0.3 29 50 99 120 96 133 0.63

3 49 0.0029 2.7 8.4 7.2 24 60 180 216 177 220 0.84

4 49 0.015 14 6.1 8.7 27 63 218 254 215 256 0.93

5 49 0.037 35 4.8 7.1 24 64 257 297 254 298 0.89

6 49 0.027 25 5.3 7.7 21 64 306 349 303 350 0.83

7 49 0.1 97 3.4 7.1 25 61 352 388 348 392 0.87

8 49 0.013 12 6.3 5.5 29 65 398 434 392 434 0.86

9 49 0.0023 2.2 8.7 3.0 22 55 468 501 456 505 0.66

10 49 8.8e-05 0.083 13.2 4.0 32 64 506 538 499 539 0.89

11 49 0.06 57 4.2 0.1 41 65 536 560 532 560 0.89

12 49 1.8e-05 0.017 15.5 1.5 25 64 548 587 540 588 0.85

13 49 7.4e-05 0.07 13.5 4.1 29 63 580 614 576 616 0.74

14 49 0.0023 2.2 8.7 10.5 27 64 599 636 598 644 0.89

15 49 0.011 10 6.5 13.8 25 64 618 664 610 665 0.67

16 49 5.5e-05 0.052 13.9 3.9 34 64 683 713 672 714 0.83

17 49 0.00036 0.34 11.3 9.7 24 61 708 745 707 748 0.92

18 49 0.0027 2.5 8.5 5.4 38 65 736 763 733 770 0.54

19 49 3e-05 0.028 14.7 5.5 26 64 773 811 768 812 0.92

20 49 0.00032 0.3 11.5 5.4 24 60 806 842 805 846 0.87

21 49 0.0021 2 8.8 1.9 32 63 835 866 832 868 0.92

22 49 1.1e-05 0.01 16.1 5.7 26 64 871 909 866 910 0.92

23 49 0.0013 1.2 9.5 4.4 35 64 908 937 905 938 0.88

24 49 0.25 2.4e+02 2.2 0.9 38 63 939 964 933 966 0.76

25 49 5.3e-06 0.0051 17.1 6.3 26 64 969 1007 965 1008 0.93

26 49 0.0021 2 8.8 5.6 35 64 1006 1035 1003 1036 0.86

27 49 0.0057 5.4 7.4 2.6 33 63 1032 1062 1031 1064 0.89

28 49 0.001 0.97 9.8 2.9 26 61 1067 1102 1062 1105 0.79

29 49 0.0033 3.1 8.2 6.9 30 63 1127 1160 1110 1169 0.73

30 49 0.11 1e+02 3.4 1.9 28 64 1153 1189 1150 1192 0.82

31 49 0.0036 3.4 8.1 2.3 28 63 1181 1216 1176 1225 0.67

32 49 0.37 3.5e+02 1.6 7.8 31 60 1233 1262 1226 1266 0.82

33 49 0.0048 4.6 7.7 7.4 24 62 1268 1306 1267 1309 0.92

34 49 0.00094 0.89 9.9 0.5 25 64 1304 1343 1303 1350 0.75

35 49 0.00088 0.83 10.0 2.3 21 59 1352 1390 1352 1396 0.88

36 49 0.011 10 6.5 4.2 24 57 1404 1437 1401 1455 0.86

37 49 0.01 9.5 6.6 5.3 25 62 1457 1494 1449 1497 0.70

38 49 0.007 6.7 7.1 8.9 24 65 1512 1553 1505 1553 0.87

39 49 9.2e-05 0.087 13.2 11.2 28 64 1544 1580 1540 1588 0.79

40 49 0.046 43 4.5 3.8 26 61 1584 1619 1580 1623 0.85

41 49 0.00025 0.24 11.8 7.1 25 62 1632 1669 1625 1672 0.79

42 49 0.059 56 4.2 3.7 29 61 1678 1710 1671 1714 0.87

43 49 0.0034 3.2 8.2 8.3 26 64 1724 1762 1718 1770 0.83

44 49 0.15 1.5e+02 2.8 3.4 28 55 1768 1795 1762 1797 0.85

45 49 0.00062 0.59 10.5 4.7 26 63 1794 1831 1792 1833 0.88

46 49 0.0055 5.2 7.5 5.3 26 55 1836 1865 1833 1873 0.58

47 49 0.0014 1.3 9.4 1.7 29 58 1878 1907 1870 1909 0.58

48 49 0.0098 9.3 6.7 9.2 28 63 1898 1933 1895 1935 0.87

49 49 1.5 1.4e+03 -0.3 0.3 30 64 2005 2039 2002 2040 0.76

#	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	49	0.00052	0.5	10.7	3.5	34	59	47	72	45	75	0.91
2	49	1.4	1.3e+03	-0.2	0.3	29	50	99	120	96	133	0.63
3	49	0.0029	2.7	8.4	7.2	24	60	180	216	177	220	0.84
4	49	0.015	14	6.1	8.7	27	63	218	254	215	256	0.93
5	49	0.037	35	4.8	7.1	24	64	257	297	254	298	0.89
6	49	0.027	25	5.3	7.7	21	64	306	349	303	350	0.83
7	49	0.1	97	3.4	7.1	25	61	352	388	348	392	0.87
8	49	0.013	12	6.3	5.5	29	65	398	434	392	434	0.86
9	49	0.0023	2.2	8.7	3.0	22	55	468	501	456	505	0.66
10	49	8.8e-05	0.083	13.2	4.0	32	64	506	538	499	539	0.89
11	49	0.06	57	4.2	0.1	41	65	536	560	532	560	0.89
12	49	1.8e-05	0.017	15.5	1.5	25	64	548	587	540	588	0.85
13	49	7.4e-05	0.07	13.5	4.1	29	63	580	614	576	616	0.74
14	49	0.0023	2.2	8.7	10.5	27	64	599	636	598	644	0.89
15	49	0.011	10	6.5	13.8	25	64	618	664	610	665	0.67
16	49	5.5e-05	0.052	13.9	3.9	34	64	683	713	672	714	0.83
17	49	0.00036	0.34	11.3	9.7	24	61	708	745	707	748	0.92
18	49	0.0027	2.5	8.5	5.4	38	65	736	763	733	770	0.54
19	49	3e-05	0.028	14.7	5.5	26	64	773	811	768	812	0.92
20	49	0.00032	0.3	11.5	5.4	24	60	806	842	805	846	0.87
21	49	0.0021	2	8.8	1.9	32	63	835	866	832	868	0.92
22	49	1.1e-05	0.01	16.1	5.7	26	64	871	909	866	910	0.92
23	49	0.0013	1.2	9.5	4.4	35	64	908	937	905	938	0.88
24	49	0.25	2.4e+02	2.2	0.9	38	63	939	964	933	966	0.76
25	49	5.3e-06	0.0051	17.1	6.3	26	64	969	1007	965	1008	0.93
26	49	0.0021	2	8.8	5.6	35	64	1006	1035	1003	1036	0.86
27	49	0.0057	5.4	7.4	2.6	33	63	1032	1062	1031	1064	0.89
28	49	0.001	0.97	9.8	2.9	26	61	1067	1102	1062	1105	0.79
29	49	0.0033	3.1	8.2	6.9	30	63	1127	1160	1110	1169	0.73
30	49	0.11	1e+02	3.4	1.9	28	64	1153	1189	1150	1192	0.82
31	49	0.0036	3.4	8.1	2.3	28	63	1181	1216	1176	1225	0.67
32	49	0.37	3.5e+02	1.6	7.8	31	60	1233	1262	1226	1266	0.82
33	49	0.0048	4.6	7.7	7.4	24	62	1268	1306	1267	1309	0.92
34	49	0.00094	0.89	9.9	0.5	25	64	1304	1343	1303	1350	0.75
35	49	0.00088	0.83	10.0	2.3	21	59	1352	1390	1352	1396	0.88
36	49	0.011	10	6.5	4.2	24	57	1404	1437	1401	1455	0.86
37	49	0.01	9.5	6.6	5.3	25	62	1457	1494	1449	1497	0.70
38	49	0.007	6.7	7.1	8.9	24	65	1512	1553	1505	1553	0.87
39	49	9.2e-05	0.087	13.2	11.2	28	64	1544	1580	1540	1588	0.79
40	49	0.046	43	4.5	3.8	26	61	1584	1619	1580	1623	0.85
41	49	0.00025	0.24	11.8	7.1	25	62	1632	1669	1625	1672	0.79
42	49	0.059	56	4.2	3.7	29	61	1678	1710	1671	1714	0.87
43	49	0.0034	3.2	8.2	8.3	26	64	1724	1762	1718	1770	0.83
44	49	0.15	1.5e+02	2.8	3.4	28	55	1768	1795	1762	1797	0.85
45	49	0.00062	0.59	10.5	4.7	26	63	1794	1831	1792	1833	0.88
46	49	0.0055	5.2	7.5	5.3	26	55	1836	1865	1833	1873	0.58
47	49	0.0014	1.3	9.4	1.7	29	58	1878	1907	1870	1909	0.58
48	49	0.0098	9.3	6.7	9.2	28	63	1898	1933	1895	1935	0.87
49	49	1.5	1.4e+03	-0.3	0.3	30	64	2005	2039	2002	2040	0.76

Sequence Information

Coding Sequence: ATGATATCACATTTGAAATTAAAACTGGCGGAAGCCGAGGAGGACGTCAGTTGTCCTGCCATATATCGTTTAAGGGCAAAGCTTCGCGAATTGATGGCAGGTGGTCATGAACGGCATCCCAGGAGTGCACCGGAGAACTGCGATGATCTGCAACTTGAAAACGAGCGTCTTTTAGATGAAATAGCTGAGTTACGACGCCAGTTAGCCAAGCTTGACGAAAGGGAAATAACCACGCAGATAATGCCAGCGATATCGGTCGAAACAACCACTGTACCAGAATACATAGATGTATCTGATTTGTTGCGAAAGCTCAAAGATTGTGAAAATACTGTAGCCAGTTTGAGGCAACAGCTAGCAGAGAAAGATGATCTCATTGATTCAATGAATCAGGCACTTGAAGGCACGATCAGTCAAAAAGATTTATTGGATCAGATCGCGGCACTGAAAGCGCAACTTCAAGAAAAAGAGGACAAGATCCAGGAACTATTAAACGAACTAAGGCAAGCAGAAATAAATTTGCTCGAGTTAAATAATTTGAAATCACAACTGGATGACCTGAAATCAGAATTAGAGGACCTAGAATTGGAGAGGAACCAACTGTTGGAAGAGATCGCTAAATTACAAAACGAACTTGCGCACTGTAACGCAATGAAGGAAAGTCTAGAAAAGCAGCTAGAAGTTTTAAGGAATGAAAACGACAAATTATTGAATGAGCTGGATAATGCGAACGAACAACTCCTGGCACTGACTAATCAATTGGACGAGGAAAAGGCGGCCAGGAGTACCTTAGAAGAAAATTTGAAAAATTGCCAAGATGAACTCGAAAGGTTACGGAAAGATAATACTAATCTGAGGGATCAGCTGGAGGCTGCAAACGAAGAAAATAATAAACTGCGTGAAGATGTAGAAGCGGCGAAGAAGCTGGCTGAAGAGAACGAGAGATTAAAAGCGGATCTGGAGAAGATGAAGAAAGAGAACGAGGAATTGATGAATTTGAACAACCTCTTAAAGAGCGATTGTGACAGCATGAAGCAAGCATTGAATAACCTAGAAGAAGAAATTAACAGACTGCAGAACGAATTGAATAAGGCTGAAGAAGAACGCAAAGCGTTGCTAGACGAGAACAGTAACATTAAAAAGCAACTTGAAGATGCAATGGCGATGAACGAGAGTCTAAAAGCTGAACTGGATAATGTCGGTGAACAACTCAACAAACTGAAATTAGAGAACGATAAACTGCAAGAGACTCTCAACGATATGAAGCTTGAGAACGATGCGTTGAAACAAAATGTGCGGGCTTTGCAAAGCGACCTTGAGAATGCGAGAAAGGAAGCGGATGACCTAAGAGGCGCTGGAGACGCATTAAGAGCCGCGGACAGAGACAAAATGTCCGAGCTTGAAAGGTTGAAAGATGAACTGGACAATTTGACAACCGAAAAGGATCGCTTAACGAACGAAAATATCGATTTGAAGGCCAGAAATGCGGACCTCGAGAAAAATCTCAAGGACGCAATGGAACAGGTGGAACAACTGAAATCGGAGAATGCCGATTTACTGGCCGAGATCGATCGCCTAAAAAAGGAGCTCGACAAAGCTGTGAACGAAATCGATCAATTGAAGTCTGAAATAGGTTCTTTGAAGGACGCTGTCGACAAGTGTATGGACGAATTGGAGAAATTGCAAGCTGAAAATGGCGATCTTAAATCAGAGAATCAAGCTGTTAAAAGTGAAATTGAGAAGTGCAAAGCTGAGATGGACGCTTTGAAACGGGAAAATTCTACTTTGCAAAACGAGATTGACGAGTTGAGAAAACAACTGAACGATTGTAAAACAGAGAACGAAAACTTAAAGGCGCAGAAAAATCAATTGGAAGCTGAAATTGATAAGTTGAAAGAAGAGTTGAACGCTTGCAAACAAGAAAATGAGGCGTTGAAGGCTGAAGGTGAAAAACTACGAGAACAGGTACAATCATTGAATGACGACTTGAGTAAGCTAAGGAGTCAGCTGGATATTGCAGAACGTAAAATTCAGGAACTCGATCCTTTGGGCGATCGTTTGCAAAAGGAAAATGATCAATTGCAAAACGAGATTGGCGAGTTGAGAAAACAACTGAACGATTGGAAAACAGAGAACGAGAACTTAAAGGCGCAGAAAAATCAATTGGAAGCTGAAAATGATAAATTGACAGAAGAGTTGAACGCTTGCAAACAAGAAAATGAGGCGTTGAAGGCTGAAGGTGAAAAACTACGAGAACAGGTACAATCATTGAATGACGAATTGAGTAAGCTAAGGAGTCAGTTGGATACTGCAGAACGTAAAATTCAGGAACTCGAGCCTTTGGTCGATCTTTTGCAAAAGGAAAAAGATAAATTGCAAAACGAGATTGGCGAGTTGAGAAAACAACTGAACGATTATAAAACAGAGAACGAAAACTTAAAGGCGCAGAAAAATCAATTGGAAGCTGAAAATGATAAGTTGAGAGATGAGTTGAACGCTTGCAAACAACAAATTGAGGCGATAAAGGCTGAAGGTGATAAACTACGAGAACAGGTACAATCATTGAATGACGAATTGAGTAAGCTAAGGAGTCAGTTGGATACTGCAGAACGTAAAATTCAAGAACTCGAGCCTTTGGTCGATCTTTTGCAAAAGGAAAATGATAAATTGCAAAACGAGATTAGCGAGTTGAGAAAACAACTGAACGATTGTAGAACAGAGAACGAAAACTTAAAGGCGCAGAAAAATCAATTGGAAGCTGAAATTGATAAGTTGAGAGAAGAGTTGAACGCTTGCAAACAAGAAATTGAGGCGATAAAAGCTGAAGGTGGAAAATCACGAGAAGAGGTACAATCATTGAATGACGAATTGAGTAAGCTAAGGAGTCAGCTGGAAACTGCAGAACGTAAAATTCAGGAACTCGAGCCTTTGGTCGATCTTTTGCAAAAAGAAAATGATAAATTGCAAAACGAGATTAGCGAGTTGAGAAAACAACTGAACGATTGTAAAGCAGAGAACGAAAACTTAAAGGCGCAGAAAAATCAATTAGAAGCTGAAATTGATAAGTTGAGAGAAGAGTTGAACGCTTGCAAACAAGAAAATGAGGCGATGAAGGCTGAAGGTGAAAAATTACGAGAACAGATACAATCGTTGAATGACGAATTGGGTAAGCTAAGGAGTCAACTGGATACCGCAGAACGTAGAATTCAGGAACTCGAGCCTTTGGTCGATCGTTTGCAAAAGGAAAATGATAAATTGCAAAATGATCTGAAAGCGTTAGAGGACGATGCAAGAAACTTAAGATCAAGGCTAGATGGCGGAATGGGTGACAATGAAAGAATGAGAAAAGACATAGCGACGTTAGAAAATGAAATAGGAGATTTGAATGAGAAATTAAAGGGAGCTAAAGCAGAAAATGACGCTTTGCAGCAAGAGAATCAAGCGCTACGAGCAAAACTATTAGAACTGGATGACGAATTGTCTCAAGCGAAAGCAGAATGTGCGGATTTGAAGGCGGAAATTGCCGATTTAAATAAATTAATTTCCGAATTACGAGCAAAAATTGCTAAATTGGAAGAGGATGTAGAACATTGGAAACTGGAGAATTGTAAGCTGCAGATGGAAATAGATAAATTAAGAGCGGATCTCGAGAAAGCATTAAAGGATTTAGCCGAATGCCAGGCGCTGAAAAAAGCACAAGAAGCAGAGTTGAATCGGCTGCAGAACGAAAAAGCTGAGTTGAATAAACAAATCGCCGATCTAACAGCGCAGATGGAACAACAAAAGAAAGCTGCCGAATTAGAAAAAGCCGCCAAGGACGAAAATGAGGCAAAACTCAAAGCTTTGCGGGAAGAGCTGGATGCATTGAAGAGGGAGTTAGAGAAACTTCGAATGGAGAATAACGATTGCAAGAACGAAATGGATAATTTGAAAAGACAGATTTCTGCGTTAAACAGTCAGTTAGATTCGTGCAAAGAAGAGATCGCTGCATTGAGAGCCGCAAATGATGCGTTGAAGGCTGAAATAAACGCGTTGAGTGGTATAAAAGACGAATACGATAAACTAAAAGCTAAAGTGAACAGTTTGGAAAATGAAATCGCGGGCCTTCAAGAAAACGCAAGGAATTTAGAACAGGAACGCAACAAACTTAGAGGAGAGGGTGACGGACAGAGAAATGAAATTGATAGACTGAAATCAGACTTGGATGCCGAAAAAGCAGCCGCAGGGAGACTCAAGTCAGATTTGGAGAATTGTCAAGCTGAAAACGACAGATTGCGGGCACAGTTGAAAGAGTTAGAAAAATGTAAAAGCGAGATTGATCGGTTGAATGCCGAAATTGATGGACTGAAGAAGGCACTAGCGGCTGCTGAAGCTAAAGCGAAGTCGCTGGAAGATCAGCTCTCGAACCTCCAAGATGAAAAGCAACAATTGGTTAATGAACTCAACAAAGTTCGCGGAGATCTGAGCAATCTTAGAAATGAAATAGAGAAACAGACAGCAGCAAAGGACATGGCGTCAAAGGAGTTGGCTGACGCTAAAGAGGAGCTGAAAGCTCTGAAGTCAACGTTGGATAAAATGCGCAATGAAAATGAAACATTACAGAACGAGAATGAAAAGTTGAAGTCGAAATTGGCAGAATTAAATGGACAATTGGAAGCGTTAAGAAATGAGAACGAACAGTTAAAGAAAGAAAATGAGAACTTAAAGAACGAGATTGCAAAATTGACTTCGGAATTAGCTGCGCTGAGAAATAAATTAAAAGAAACGGAGGATCAATTGAACGCGCTAAAGAATGAGAACGATACTCTGAAGGATACGATAGCTAATCAACAGAAAGCAATAAAAGACCTCGAAGCAGCAAAAGCACAATTAGAGCAGGGTATGAACGAGTTGAAGTCGAAATTGGCAGAATTAAATGGACAGTTGGAAAAGTTAAGAAACGACAACGAAAAGTTACAGAAAGAAAATGAGATTTTAAAGAACCAGAATGCAAAATTGTCTTCGGACTTAGATGCGATGACAAATCTATTAAAAGAAGCGGAGAAACAGTTGGATGCGCTAAAGAATGAGAACGATAATCTGAAGAATACGATAGCTAATCAACAGAAAGCAATAAAAGACCTCGAAGCAGCAAAAGCACAATTAGAGCAGGGTATGAACGAGTTGAAGTCGAAATTGGCAGAATTAAATGGACAGTTGGAAACGTTAAGAAATGACAACGAAAAGTTAAGAAATGACAACGAAAAGTTAAAGAAAGATAATGAGAACTTAAAGAACCAGACTGCAAAGTTGACTTCGGACTTAGATGCGATGACAAACAAATTAAAAGAAGCGGAGGATCAGTTGAACGCGCTAAAGAATGAGAACAATAATCTGAAGAATAAGATAGCTAATCAACAGAAAGCAATAAAAGAGCTCGAAGCAGCGAAAGCACAATTAGAGCAAGCTATAAAGGAGTTGAAGTCGGAAAATGCAGGACTGAAAGACAAACTAGAAGACGCGCAAAACAAAGCGAATAAATTGAAAAATGATTTGGAGAAGCTGAAAACAGACAACGCGAAATTGCAAAATGAATTAGGTAAATTAAAAGAGGAGAAGGCAAAGTCTGATGCAGCGGCGAAGGGTGATGCAGACAGAATAAAAAATGAAAATGAGAAATTGAAAGCTGAAAACGCGAAATTGATAGCTGAAAACGCGAAATTGATGGACGAGTTGAAAACTTGTCGAGCAGAAAACGAAGAGTTACGTAAACAATTGGAAAAGTTACTGGAAGAAAATGATCAATTGAAAAAAGCTGCAGTGAAACATGTGGAGCCGAAGGAAACGGAAGTGGACAAAGAAATTATTGATGAATGCGGGGACTTCATTAAGGCGAACAATTTGTTGAAACAAAAATTTGAAAAGCAGAACGAAGGTGTACAACGGGTTCGTGATTACATTAAGTATTTAGAAGGCAAAGTTGAAGAAGAACCGAAAATGGGGGACCAATTAGACGAGTTAAAAATTGATCCGCAAATGAGGGACGACGTTGTAGATTTATTGAAGAGGTCGCAGTCGCTATCTGAAAATATTAATCAAACTGAAGAAGAAATTAAAAATATTGCTAATGTATTAAAACAACTTAAGGAGCTTGCCGATAAACCAGCTGGGTTTGATCCTGATTCTTGGCTGAATTCGTTAACATTGACGCAGTTAGCAGATCTTCATGACAAGATTTGCCTGTTGACGTCGGATATGGTGCAGCAGGATTCGGGAGCGGTTATGTGTGATCGCGCTGCTCCTTATGATGAGGCAAATCCACTAACAGCAAATTACAATAATCTGAACCAGCGAATAGCTGCTTTACAGAAGCAGATCGCGGATAAGCAAATAGAGGCAGGTTGGAAACTACAAGAGCTAAAACGAGCTCTTCGACAGGAACAATCTAACTTGCTCGAAATCTCCGATCAAATGAACCTGGAGAGAAAACGAAATTTAGCCCTTCAATTTAACATGGACCAACCATTGTAA
Protein Sequence: MISHLKLKLAEAEEDVSCPAIYRLRAKLRELMAGGHERHPRSAPENCDDLQLENERLLDEIAELRRQLAKLDEREITTQIMPAISVETTTVPEYIDVSDLLRKLKDCENTVASLRQQLAEKDDLIDSMNQALEGTISQKDLLDQIAALKAQLQEKEDKIQELLNELRQAEINLLELNNLKSQLDDLKSELEDLELERNQLLEEIAKLQNELAHCNAMKESLEKQLEVLRNENDKLLNELDNANEQLLALTNQLDEEKAARSTLEENLKNCQDELERLRKDNTNLRDQLEAANEENNKLREDVEAAKKLAEENERLKADLEKMKKENEELMNLNNLLKSDCDSMKQALNNLEEEINRLQNELNKAEEERKALLDENSNIKKQLEDAMAMNESLKAELDNVGEQLNKLKLENDKLQETLNDMKLENDALKQNVRALQSDLENARKEADDLRGAGDALRAADRDKMSELERLKDELDNLTTEKDRLTNENIDLKARNADLEKNLKDAMEQVEQLKSENADLLAEIDRLKKELDKAVNEIDQLKSEIGSLKDAVDKCMDELEKLQAENGDLKSENQAVKSEIEKCKAEMDALKRENSTLQNEIDELRKQLNDCKTENENLKAQKNQLEAEIDKLKEELNACKQENEALKAEGEKLREQVQSLNDDLSKLRSQLDIAERKIQELDPLGDRLQKENDQLQNEIGELRKQLNDWKTENENLKAQKNQLEAENDKLTEELNACKQENEALKAEGEKLREQVQSLNDELSKLRSQLDTAERKIQELEPLVDLLQKEKDKLQNEIGELRKQLNDYKTENENLKAQKNQLEAENDKLRDELNACKQQIEAIKAEGDKLREQVQSLNDELSKLRSQLDTAERKIQELEPLVDLLQKENDKLQNEISELRKQLNDCRTENENLKAQKNQLEAEIDKLREELNACKQEIEAIKAEGGKSREEVQSLNDELSKLRSQLETAERKIQELEPLVDLLQKENDKLQNEISELRKQLNDCKAENENLKAQKNQLEAEIDKLREELNACKQENEAMKAEGEKLREQIQSLNDELGKLRSQLDTAERRIQELEPLVDRLQKENDKLQNDLKALEDDARNLRSRLDGGMGDNERMRKDIATLENEIGDLNEKLKGAKAENDALQQENQALRAKLLELDDELSQAKAECADLKAEIADLNKLISELRAKIAKLEEDVEHWKLENCKLQMEIDKLRADLEKALKDLAECQALKKAQEAELNRLQNEKAELNKQIADLTAQMEQQKKAAELEKAAKDENEAKLKALREELDALKRELEKLRMENNDCKNEMDNLKRQISALNSQLDSCKEEIAALRAANDALKAEINALSGIKDEYDKLKAKVNSLENEIAGLQENARNLEQERNKLRGEGDGQRNEIDRLKSDLDAEKAAAGRLKSDLENCQAENDRLRAQLKELEKCKSEIDRLNAEIDGLKKALAAAEAKAKSLEDQLSNLQDEKQQLVNELNKVRGDLSNLRNEIEKQTAAKDMASKELADAKEELKALKSTLDKMRNENETLQNENEKLKSKLAELNGQLEALRNENEQLKKENENLKNEIAKLTSELAALRNKLKETEDQLNALKNENDTLKDTIANQQKAIKDLEAAKAQLEQGMNELKSKLAELNGQLEKLRNDNEKLQKENEILKNQNAKLSSDLDAMTNLLKEAEKQLDALKNENDNLKNTIANQQKAIKDLEAAKAQLEQGMNELKSKLAELNGQLETLRNDNEKLRNDNEKLKKDNENLKNQTAKLTSDLDAMTNKLKEAEDQLNALKNENNNLKNKIANQQKAIKELEAAKAQLEQAIKELKSENAGLKDKLEDAQNKANKLKNDLEKLKTDNAKLQNELGKLKEEKAKSDAAAKGDADRIKNENEKLKAENAKLIAENAKLMDELKTCRAENEELRKQLEKLLEENDQLKKAAVKHVEPKETEVDKEIIDECGDFIKANNLLKQKFEKQNEGVQRVRDYIKYLEGKVEEEPKMGDQLDELKIDPQMRDDVVDLLKRSQSLSENINQTEEEIKNIANVLKQLKELADKPAGFDPDSWLNSLTLTQLADLHDKICLLTSDMVQQDSGAVMCDRAAPYDEANPLTANYNNLNQRIAALQKQIADKQIEAGWKLQELKRALRQEQSNLLEISDQMNLERKRNLALQFNMDQPL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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