Basic Information

Insect: Nomada fucata
Gene Symbol: -
Assembly: GCA_948146005.1
Location: OX411280.1:7270972-7284743[+]

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 43 0.14 73 3.1 0.1 25 50 56 81 52 87 0.61

2 43 0.44 2.4e+02 1.5 0.3 39 62 101 124 97 127 0.67

3 43 2.6 1.4e+03 -1.0 0.2 40 55 200 215 184 219 0.85

4 43 1.7 9e+02 -0.4 0.3 28 63 241 276 238 278 0.88

5 43 1.1 5.7e+02 0.3 3.4 37 62 281 306 264 314 0.74

6 43 0.0067 3.6 7.3 2.1 27 60 342 375 318 380 0.81

7 43 0.035 19 5.0 0.3 34 60 408 434 387 439 0.73

8 43 0.012 6.6 6.5 2.1 24 60 433 469 431 474 0.85

9 43 0.0093 5 6.9 0.8 32 64 462 494 460 495 0.86

10 43 0.0086 4.7 7.0 4.7 23 64 502 543 500 551 0.75

11 43 0.04 22 4.8 7.3 20 60 527 567 521 569 0.91

12 43 0.0052 2.8 7.7 5.5 30 61 551 582 544 600 0.58

13 43 1.5e-06 0.00084 19.0 3.2 23 63 621 661 620 663 0.94

14 43 0.0014 0.74 9.5 4.7 33 64 666 697 664 705 0.68

15 43 0.0053 2.8 7.6 0.3 22 63 711 752 699 754 0.77

16 43 5.6e-05 0.03 14.0 3.4 26 60 757 791 752 793 0.92

17 43 4.8e-06 0.0026 17.4 3.8 25 65 791 831 790 831 0.92

18 43 4e-05 0.022 14.4 1.2 26 64 841 879 840 879 0.96

19 43 1.4e-05 0.0076 15.9 0.5 22 65 893 936 892 936 0.91

20 43 0.00083 0.45 10.2 3.4 20 61 947 988 940 991 0.95

21 43 0.018 9.9 5.9 2.2 36 64 991 1019 988 1020 0.91

22 43 1.8e-05 0.0098 15.5 0.8 24 64 1021 1061 1020 1061 0.95

23 43 0.00086 0.46 10.2 0.5 25 64 1078 1117 1068 1118 0.71

24 43 0.00018 0.098 12.3 4.5 24 63 1126 1165 1123 1167 0.93

25 43 0.00011 0.059 13.0 3.5 26 62 1156 1192 1155 1195 0.91

26 43 0.0054 2.9 7.6 0.7 26 59 1205 1238 1196 1244 0.81

27 43 0.0076 4.1 7.1 6.0 23 62 1258 1297 1249 1300 0.85

28 43 0.00071 0.38 10.4 5.6 23 64 1286 1327 1284 1336 0.92

29 43 0.038 21 4.9 0.9 25 64 1316 1355 1315 1363 0.91

30 43 0.0071 3.8 7.2 8.1 26 63 1366 1403 1354 1405 0.89

31 43 0.00035 0.19 11.4 4.7 18 63 1407 1452 1403 1454 0.76

32 43 0.77 4.2e+02 0.7 0.5 32 60 1456 1484 1452 1489 0.75

33 43 0.00011 0.057 13.1 3.7 24 61 1486 1523 1485 1526 0.92

34 43 0.00045 0.25 11.1 11.0 23 63 1555 1595 1542 1597 0.64

35 43 0.00011 0.057 13.1 8.8 25 63 1596 1634 1592 1636 0.93

36 43 5.8 3.1e+03 -2.1 4.8 41 63 1647 1669 1631 1706 0.64

37 43 0.41 2.2e+02 1.6 0.8 26 64 1681 1719 1676 1720 0.83

38 43 0.0055 3 7.6 6.6 24 62 1714 1752 1712 1755 0.87

39 43 0.91 4.9e+02 0.5 0.9 29 61 1750 1782 1745 1786 0.69

40 43 0.32 1.7e+02 1.9 1.9 24 57 1787 1820 1777 1828 0.54

41 43 0.01 5.5 6.7 2.6 34 60 1846 1872 1822 1875 0.78

42 43 0.0041 2.2 8.0 1.8 24 60 1857 1893 1856 1897 0.91

43 43 1 5.4e+02 0.4 0.5 29 58 1966 1995 1936 2001 0.56

#	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	43	0.14	73	3.1	0.1	25	50	56	81	52	87	0.61
2	43	0.44	2.4e+02	1.5	0.3	39	62	101	124	97	127	0.67
3	43	2.6	1.4e+03	-1.0	0.2	40	55	200	215	184	219	0.85
4	43	1.7	9e+02	-0.4	0.3	28	63	241	276	238	278	0.88
5	43	1.1	5.7e+02	0.3	3.4	37	62	281	306	264	314	0.74
6	43	0.0067	3.6	7.3	2.1	27	60	342	375	318	380	0.81
7	43	0.035	19	5.0	0.3	34	60	408	434	387	439	0.73
8	43	0.012	6.6	6.5	2.1	24	60	433	469	431	474	0.85
9	43	0.0093	5	6.9	0.8	32	64	462	494	460	495	0.86
10	43	0.0086	4.7	7.0	4.7	23	64	502	543	500	551	0.75
11	43	0.04	22	4.8	7.3	20	60	527	567	521	569	0.91
12	43	0.0052	2.8	7.7	5.5	30	61	551	582	544	600	0.58
13	43	1.5e-06	0.00084	19.0	3.2	23	63	621	661	620	663	0.94
14	43	0.0014	0.74	9.5	4.7	33	64	666	697	664	705	0.68
15	43	0.0053	2.8	7.6	0.3	22	63	711	752	699	754	0.77
16	43	5.6e-05	0.03	14.0	3.4	26	60	757	791	752	793	0.92
17	43	4.8e-06	0.0026	17.4	3.8	25	65	791	831	790	831	0.92
18	43	4e-05	0.022	14.4	1.2	26	64	841	879	840	879	0.96
19	43	1.4e-05	0.0076	15.9	0.5	22	65	893	936	892	936	0.91
20	43	0.00083	0.45	10.2	3.4	20	61	947	988	940	991	0.95
21	43	0.018	9.9	5.9	2.2	36	64	991	1019	988	1020	0.91
22	43	1.8e-05	0.0098	15.5	0.8	24	64	1021	1061	1020	1061	0.95
23	43	0.00086	0.46	10.2	0.5	25	64	1078	1117	1068	1118	0.71
24	43	0.00018	0.098	12.3	4.5	24	63	1126	1165	1123	1167	0.93
25	43	0.00011	0.059	13.0	3.5	26	62	1156	1192	1155	1195	0.91
26	43	0.0054	2.9	7.6	0.7	26	59	1205	1238	1196	1244	0.81
27	43	0.0076	4.1	7.1	6.0	23	62	1258	1297	1249	1300	0.85
28	43	0.00071	0.38	10.4	5.6	23	64	1286	1327	1284	1336	0.92
29	43	0.038	21	4.9	0.9	25	64	1316	1355	1315	1363	0.91
30	43	0.0071	3.8	7.2	8.1	26	63	1366	1403	1354	1405	0.89
31	43	0.00035	0.19	11.4	4.7	18	63	1407	1452	1403	1454	0.76
32	43	0.77	4.2e+02	0.7	0.5	32	60	1456	1484	1452	1489	0.75
33	43	0.00011	0.057	13.1	3.7	24	61	1486	1523	1485	1526	0.92
34	43	0.00045	0.25	11.1	11.0	23	63	1555	1595	1542	1597	0.64
35	43	0.00011	0.057	13.1	8.8	25	63	1596	1634	1592	1636	0.93
36	43	5.8	3.1e+03	-2.1	4.8	41	63	1647	1669	1631	1706	0.64
37	43	0.41	2.2e+02	1.6	0.8	26	64	1681	1719	1676	1720	0.83
38	43	0.0055	3	7.6	6.6	24	62	1714	1752	1712	1755	0.87
39	43	0.91	4.9e+02	0.5	0.9	29	61	1750	1782	1745	1786	0.69
40	43	0.32	1.7e+02	1.9	1.9	24	57	1787	1820	1777	1828	0.54
41	43	0.01	5.5	6.7	2.6	34	60	1846	1872	1822	1875	0.78
42	43	0.0041	2.2	8.0	1.8	24	60	1857	1893	1856	1897	0.91
43	43	1	5.4e+02	0.4	0.5	29	58	1966	1995	1936	2001	0.56

Sequence Information

Coding Sequence: ATGGAGGTGTGCCATTGCGGATGCGCTTCATCGACGTCTCTAGAATCGTTCAATCCGCCGAACGAGCCATGCTGTTGCTGCAGTTACAATCCCTTCAGCGACAATTCCAAGGAATCAGAGATCTATGATCTCTCGTTCGCCCTGAGGAAGCTCGGTGTAATGAAGTGTCAGATGAAGAAGTGGCGAATGGAACGACTTCAGCTCGAGAGCGAAAATAGGTCTCTGAAACAAACCCTGCAGTCATTCGGTGTAAATGCGGATGAGATATTGAAGCCTGATCCACTGCTAGTGCACTCCAGAGAAGAAATCGAAAGGCTGCAAAATGCAAACGCGAGTCTCGACGATAAAGTGAGGGATCTGGAGGAAATTCTCGCTGAACGAGATTGCTGCGACGATCCGGACGCCACGATTCACTTCCTCAGAGAGAAGATGAGACATCTCAGGGAGCGTTTCGCGCTTGAAAAGAAAGAATTGCGGGACATAATATCGAATTTGAAGTTGAAGCTGGCGCAGACCGAGGAGGACGTCAGTTGTCCGGCGATATATCGCCTTCGGGCGAAGTTGCGTGACCTGATGAAGGGTCAAACGAGCCTCGGCGAAAACGACCATCTTCTTGCCGAGCTAGACGAGCTTCGACGGGGGTTGGCTGGTCGCGAGAAACGGGAAGCAGTCGAGACGAGGGCAATGGAAACGGCCACGGTGCCTGAATACGCTGATGTCTCGGATCTATTGAAAAAATTGAACGACTGCGAAGACGTTGTGGGCGACCTGGAGAGGAAGTTAGAAGAGAAAGACGAGAAGATCGCAGACCTCCTGGACAGACTAAAGCAGTTCGACATACTGCAGGCCGAACTCGAGGATCTTAAACGTAAACTGGCAGAACGCGAATCGGAGAACGGCAAGCTAAAGACAGAATACGCCGACAGAGCGTCGAACCTGCAGTTACAACACGAAGGCAGAACCTCCATGCTGCAGTTACAAATGGACGAACTGTTAGCCGAAATAATGGGTCTGAATCAAACCATCGGCACCTTGAACAAAAACGTCGACGATTTGAATCAAGAGATCGCCGCGCTGAAGTCGCGAATAGCCGATCTGGAGAACCAACTGGAGGAGTGCAACAAGCGAAACGTCGAACTGGAGGAGTGTTGCCAGGACAGGGAGTCCGTTTTAGAGAGGCACGGGGCCCTGGAGCGAGAGCACGCGTCCGCTATGGCCACGATAAAAGACCTCGAGGCAGAGGTGGACGCTTTGAAGGCGCAGATCGCGGCGCTGACCGGGCAACTGGAGAGCGAGAAGGCGGCGAGAAGCGCGCTGGAAAAAGAACTGGAGGACAGCCGGGGTGAGGTTGAAAGTCTGCGCAAGGAGAATTCGGATCTGAAGGGTCGGATAGACGCGGCGAACGCCGAGAACGATGAGCTGAAGGGGCAGATCGAGCAACTGCGAAACAACGTAAAGGACCTGGAGGACCTGAATAACGCCCTGAGGGGCGACTACGACAACATGAAACAGGCGCTGGATAATTTGGAGGCAGAGATCAACAGACTGGAGGCGGAAGGAAGGAGGGCAGCGGACGAACGGCAGGCATTGTTGAATGAGATCGACGGCGTTAGAAGGCAACTGGAGGAGGCGCTGGCCGAGAACGAGACGCTGAAAGCCGAACTGGACGAGGCCGGCGAGCAACTCGAGAAACTGAGAGCGGAGAAGGACGAGCTGCAGAAGAGTGTCGACGCGCTTCGGCACGAGAACGATTCGTTCAAACGGGATATGAGGGCGTTAAGGGAGGATCTCGACGACGCGAGGAGGCAGGTGGACGAGCTGAAAGCGTCTGGCGACGCGCTGATGGCCGCGGACGGTGATAAGAAGTCTGAAATCGAGAGGCTGACGGAGGAGGTGGAGGGTCTGAGGTCTGAAAAGGATCGCCTGACCAGCGAGAACGCCGATTTGAAAGACGAAAACGCGGAACTCGGACGAAAATTGGAGGATGCCGTGAAGGAGTTGGAACAATTGAGAGAGAAAAATGCTGATTTACGGGCGGAGGTGGATCGTTTGGCGCAGGAATTGGAGAGGACGCGGGGCGAGCTGGATCAATTGAAATCGGAAATGGCTGCGGTGAAGGACGCGCTCGATAAGTGCGTCGACGAGTTGGAAAAGTTGAAGGGTGAAAACAGTGATCTTAAATCGCTGAACGAGGCCTTGAAGACGGAGATTCAAGGGGTTAGGGGCGAAGGTGACGGTTTGGCGGTCGAGTTGAACACTCTGAAGGGCGAGAGGGATCAATTGAAGGGCCAACTGAGCGAGTGTAACGCGGAGAACGAGAGACTGAAAACAGAGAAGAGCCAGTTGGAGGGCGAAATCGATAGCTTGAAGACGGAGAAGGGTCAATTGGAGGCCGAGGTCGAGAAGCTGAAGGGAGAGAATGCCGGGCTGAAGGACGAGATCGAGAAGCTGCGGGGACAATTGCAAGCATTGAACGATGAATTGAATGCGTTGAAGACGCAGCTCGAAGAGGCTGGGAACAAAATTCAGGCGCTGGAGTCGACGGTCTCGAGTCTTCAAGGTGAAAATGAGAAATTTCGAAATGATTTGAGCTCTCTCCGGGGCGAGGTAGAAACTTTGAAGGCGCAATTGGAGAAGGAAGCTGGCGATAATCTAAAGTTGAGGAACGATCTCAAGATGCTGGAGGACCAGGTGCAAGATCTGACCAAGCAGGTGGAAAATGCCAGGGCAGAGAACGAGGCCTTGAAGACGGAGATTCAAGGTGTTAGAGGCGAAGGTGACGGTTTGTCGGCCGAATTGAACGCTCTGAGGGATGAAAGGTCCGCTTTGACGGGCGAGAGGGATCGATTGAAGGAACAACTGGGCGAATGCAACGCGGAAATCGAGAGATTGAAAACAGAGAAGAACCGATTGGAAGCCGATGTCGACAGGCTGAACGGCGAGTTAAATACCTGTAAAGACGAAAATGGCAGGCTGAAGGACGAAATGGAAAAACTGCGAGGACAATTGCAGTCACTGAACGACGAAATGGATGCATTGAAGGCGCAGCTCGAGGAGGCCAGAAAAAAAATTCAATCATTGGAGTCAACGGTCTCGAGTCTCCAAGGCGAAAATGAGAAATTTCGAAACGATTTGAGCTCCCTCCAGGGCGAGGTGGACAATTTGAAAGCGCAATTGGAGAAGGAAGCTGGCGATAATCTGAAGTTGAGAAACGATCTGAAGCAACTGGAGGACCGAGTGCAAGATTTGGCCAAGCAATTGGACAACTCCAGGGCAGAGAACGAGGCACTGAAGTCGGAGATTCAAGGGGTTAGAGGCGAAGGTGACGGTATGGCGGTCGAATTGAACGCTCTAAGGGACGAGAATTCGGTTCTGAAGGACGAGAGAGATCGATTGAGGAATCAATTTAACGAGTCCAACGCGGAGAACGAGAGACTGAGAGCCGAGAAGGGCCAATTGGAGGCCGAGATCGAGAGACTGAAGGGAGAATTAAATACTTGCAAGGAAGAAAATGGTAGGCTGAAAGAAGAAATTGAACAACTGCGTGGACAATTGCAGTCGCTGAACGATGAAATTAATGGATTGAAGACGCAGCTTGACGAGGCCAGTAACAAAATTCAGACGCTGGAGTCAACGGTCTCGAGTCTACAAGGTGAAAACGAGAAATTTCGAAACGATTTGAGCTCTCTGCAGACCGAGCTAAAGAATTCGAGAGCGCAATCGGACAGGGAAGCTGACGAAAATGTGAAACTGAAGAATGATCTGAAGATGCTGGAGGACCAGGTGAACGATTTGATCAAGAAATTGGAGAACGCCAGGACAGAAAACGACGCCTTGAAGGTGGAAAATCAAAATCTGAAGGAACAGGTGAACGACATGAATCAAGAATTGGCCGGTCTAAGAACGGAGTGCGCGGACCTGAAGTCAGAGATCGCGGAATTGAAGAAGTCAATCGAAGAATTGAAGGCAAAGATTGCCAAACTGGAGGAAGATTTGGAGTACTGGAAATTGGAGAACTGTAAATTTCAGATGGAGGTAGACAAAGTAAAAGCTGAACTTCAGAAAGCTCTGAAGGATTTGAGCGAAGCTCAGGCCCTGAAACAGCAGCTAGAGGCAGAGGTGAATCGTCTCAAGGGCGAGAAGGCCGAGCTTGACAAAAAACTTGCAGACGCAACGGCACAGCTCGAGCAACTTAAGAAAGCACTCGAAGCGGACAAATCGGCGAAAGACAAGGCCGAGTCGCAAGTCGACGCACTAAGGGCGGAACTCGATGCGTTGAAAGCGGAACTGGAAAAGCTAAGGGCCGAGAACAGCAAGTGCAAAGGTGAGCTGGACGATCTGGCCAGGCTGCTGTCGGCCACGAAGAACGAGCTTGACGCGTGCAAACAGGAGCTGTTCGCATTGAGGGAGGCCAACAACGCTCTGAAGTCGGATTTGGAGGCGCTGAAAGGCGTAAAGGACGAGCACAATAAATTAAAGGCGGATGTGGATGCAATGAAAGCCGAGAATACGAATCTTCAACAAGAGAGACAAAGACTGCAGGACGAGTACGCCAAGCTGAAAGCGGAGGCGGACGGTCAAAGGGTGGAACTGGACAAGCTGAGATCGGACTTGGCGTCGGAGAGGGCAGCCGCGGAAAAGCTGAGAGCGGATCTGCAGAACCGGCAAGCCGAGAACGCCAAGCTGCAGTCAGAAGTGAACGAACTGAGAAACGAATTGGACAGACTGAAAAACGAGACCGCCAGTTTGAGGAACGAAATGAACGAGCTGAAGAAAACGCTCGAGGCTAAGATCAAGTCCTTGGAGGATCAACTTTCGAACCTCCTGGCGGAGAAGGAGGAGCTGCTGAAGGAACTGGCTCGTCTGCGCGACGAGGTGGCCAATTTGAAAAACGAGATCGAGAAACAGAAAGCCGCCAAGGAGGCAGCCTTGAGCGAACTGGCGGGCCTGAGGAAGGAGCTGGCCGATCTAGAAAATGTTTTGGCCGGCCTCAGAGCGGCGCTGGACAAGGCGAACGGTGACAACGAAGCGCTGCGCAAGGACAACGAGAGGATGAAAGCGGACCTGGCGAACGCTAGCAAAGATCTGGAAGCGCTTAGAGGCCAGAACTCGCAATTGGCAGCTGACTTAGCTGGGGCGAAAGAGAAATTGACAGACTTGGAGAAACAGCTCGAAGACTTGAAAAAGGAGAACGGCGACCTGAAGTACAAAGCTGCTCGCCTCGAGGACACGTTGACGGAGCTCGAAGCATTGAAGAAACAATTGGACGGCGCTAACACGGAGCTGGACAAACTACGGTCCGGATTGGATAGATTGAATTCGGAAAACGCAAAACTGCGGGACGATTTCAACAGGGCGACGGCCGAAGCGAATAAGTTGCAGGACAGTTTGGACAAACTGCAAAACGACTACAACGGGCTGCAGGACGAACTATCTAAGACGCAGGATAAATTATCTAAGACGCAGAATGATTTGTCTAAGCTGCAGGACGAAGATGCGAAGCAGAAAGCGCTCGGTGCGTCGCAACTAGGTGATCTGAATAAATTGCAGAAGGAGAATAACGATCTGCGGGATCAAATCGCGAAGCTGAAGAGCCAGTTGCACGACTGCCGCGAGGAGAGCGATGGGCTGCACAAGGAGCTGGGAAATTTGCAGAGGAAGAATGCCAAGCTGATGGAGGCAGCAGAGAGGCCGATGGAGCCAAAGGAGACGGAAATGGACAAAGATATTCTGGATGAATGCGGCGACTTCATTAAGGCGAACGAATTACTGGGGGACAAGTTTGAAAAGCAGAACGAAGGCGTTCAACGCGTTCGAGATTATATATCATATTTGGAAGGTAAAGCCGAGGAGCCGAAAATGGCGGATCAATTGGAAGAATCGCATATCGAACCCCAATTAAGGGAAGACATTGCTGACTTGTTGAAGAAATCACAGGCGTTATCGAAATCTATTTATGAAACGGAGCAGACAATACAACACCTTACTGATATCCTGAAAAAACCAGCGGAGGCCGTGGCTCCAGGAGCCTTCGATCCCGATTCTTGGCTGAGTGCGTTGACGTTGACGCAGTTAGCGGAGCTTCACGATAAGATTTGCCTGTTGACATCGGACATGGTGCAGCAGGATAGCAAAGCGGTGCCATGCAGTTCGGCCCCCGGGCCGGCGAATCCGCAAGCGGATTACAATGTTTTGAACAAGCGGATAGCCGCTTTGCAGAAACAGATAGCAGAGAAGCAAATGGAGGCGGCGTGGAAGATGCAGGAATTGAAGCGGTCCCTTCGAATGGAGCAGGCTAACCTAATTGAAATCTCCGACTATATGAATTTGGAGAGAAAGCGAAACTTGGCCCTACAGTTCACCATCGATGAATCACCATAG
Protein Sequence: MEVCHCGCASSTSLESFNPPNEPCCCCSYNPFSDNSKESEIYDLSFALRKLGVMKCQMKKWRMERLQLESENRSLKQTLQSFGVNADEILKPDPLLVHSREEIERLQNANASLDDKVRDLEEILAERDCCDDPDATIHFLREKMRHLRERFALEKKELRDIISNLKLKLAQTEEDVSCPAIYRLRAKLRDLMKGQTSLGENDHLLAELDELRRGLAGREKREAVETRAMETATVPEYADVSDLLKKLNDCEDVVGDLERKLEEKDEKIADLLDRLKQFDILQAELEDLKRKLAERESENGKLKTEYADRASNLQLQHEGRTSMLQLQMDELLAEIMGLNQTIGTLNKNVDDLNQEIAALKSRIADLENQLEECNKRNVELEECCQDRESVLERHGALEREHASAMATIKDLEAEVDALKAQIAALTGQLESEKAARSALEKELEDSRGEVESLRKENSDLKGRIDAANAENDELKGQIEQLRNNVKDLEDLNNALRGDYDNMKQALDNLEAEINRLEAEGRRAADERQALLNEIDGVRRQLEEALAENETLKAELDEAGEQLEKLRAEKDELQKSVDALRHENDSFKRDMRALREDLDDARRQVDELKASGDALMAADGDKKSEIERLTEEVEGLRSEKDRLTSENADLKDENAELGRKLEDAVKELEQLREKNADLRAEVDRLAQELERTRGELDQLKSEMAAVKDALDKCVDELEKLKGENSDLKSLNEALKTEIQGVRGEGDGLAVELNTLKGERDQLKGQLSECNAENERLKTEKSQLEGEIDSLKTEKGQLEAEVEKLKGENAGLKDEIEKLRGQLQALNDELNALKTQLEEAGNKIQALESTVSSLQGENEKFRNDLSSLRGEVETLKAQLEKEAGDNLKLRNDLKMLEDQVQDLTKQVENARAENEALKTEIQGVRGEGDGLSAELNALRDERSALTGERDRLKEQLGECNAEIERLKTEKNRLEADVDRLNGELNTCKDENGRLKDEMEKLRGQLQSLNDEMDALKAQLEEARKKIQSLESTVSSLQGENEKFRNDLSSLQGEVDNLKAQLEKEAGDNLKLRNDLKQLEDRVQDLAKQLDNSRAENEALKSEIQGVRGEGDGMAVELNALRDENSVLKDERDRLRNQFNESNAENERLRAEKGQLEAEIERLKGELNTCKEENGRLKEEIEQLRGQLQSLNDEINGLKTQLDEASNKIQTLESTVSSLQGENEKFRNDLSSLQTELKNSRAQSDREADENVKLKNDLKMLEDQVNDLIKKLENARTENDALKVENQNLKEQVNDMNQELAGLRTECADLKSEIAELKKSIEELKAKIAKLEEDLEYWKLENCKFQMEVDKVKAELQKALKDLSEAQALKQQLEAEVNRLKGEKAELDKKLADATAQLEQLKKALEADKSAKDKAESQVDALRAELDALKAELEKLRAENSKCKGELDDLARLLSATKNELDACKQELFALREANNALKSDLEALKGVKDEHNKLKADVDAMKAENTNLQQERQRLQDEYAKLKAEADGQRVELDKLRSDLASERAAAEKLRADLQNRQAENAKLQSEVNELRNELDRLKNETASLRNEMNELKKTLEAKIKSLEDQLSNLLAEKEELLKELARLRDEVANLKNEIEKQKAAKEAALSELAGLRKELADLENVLAGLRAALDKANGDNEALRKDNERMKADLANASKDLEALRGQNSQLAADLAGAKEKLTDLEKQLEDLKKENGDLKYKAARLEDTLTELEALKKQLDGANTELDKLRSGLDRLNSENAKLRDDFNRATAEANKLQDSLDKLQNDYNGLQDELSKTQDKLSKTQNDLSKLQDEDAKQKALGASQLGDLNKLQKENNDLRDQIAKLKSQLHDCREESDGLHKELGNLQRKNAKLMEAAERPMEPKETEMDKDILDECGDFIKANELLGDKFEKQNEGVQRVRDYISYLEGKAEEPKMADQLEESHIEPQLREDIADLLKKSQALSKSIYETEQTIQHLTDILKKPAEAVAPGAFDPDSWLSALTLTQLAELHDKICLLTSDMVQQDSKAVPCSSAPGPANPQADYNVLNKRIAALQKQIAEKQMEAAWKMQELKRSLRMEQANLIEISDYMNLERKRNLALQFTIDESP

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_01067355;
90% Identity: iTF_01065989;
80% Identity: -