Basic Information

Insect: Euura saliciscinereae
Gene Symbol: -
Assembly: GCA_018420115.1
Location: JAFFZH010002400.1:8875-15958[-]

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 47 3.4 4.1e+03 -1.5 1.1 38 62 65 82 52 85 0.48

2 47 0.041 49 4.6 1.2 38 63 102 127 98 129 0.83

3 47 0.00035 0.42 11.3 0.7 35 63 217 245 213 247 0.88

4 47 0.15 1.8e+02 2.8 0.2 40 62 264 286 256 288 0.83

5 47 0.33 4e+02 1.7 0.6 28 60 294 326 289 352 0.62

6 47 3 3.6e+03 -1.3 0.2 30 58 362 390 360 397 0.50

7 47 0.0036 4.3 8.0 3.8 23 64 429 470 428 471 0.93

8 47 0.077 92 3.8 1.2 29 47 473 491 469 496 0.75

9 47 0.00011 0.13 12.9 4.2 25 62 497 534 493 536 0.94

10 47 0.001 1.2 9.8 10.0 24 64 538 578 537 579 0.88

11 47 0.022 27 5.5 7.4 24 64 573 613 571 614 0.78

12 47 2.6e-05 0.031 14.9 8.2 24 64 608 648 607 649 0.92

13 47 1.7 2e+03 -0.6 12.6 28 63 654 689 648 716 0.65

14 47 0.11 1.3e+02 3.3 9.4 22 63 697 738 683 739 0.77

15 47 0.00098 1.2 9.8 18.9 9 62 718 772 711 775 0.88

16 47 7.2e-05 0.086 13.5 6.2 21 60 766 805 766 808 0.90

17 47 0.00071 0.85 10.3 1.7 31 64 804 837 800 838 0.93

18 47 0.00092 1.1 9.9 3.9 28 64 857 893 850 894 0.89

19 47 7.1e-07 0.00085 19.9 3.5 25 64 889 928 888 929 0.93

20 47 0.0017 2.1 9.0 8.9 28 64 927 963 924 964 0.87

21 47 7.4e-07 0.00089 19.8 6.9 25 63 959 997 957 999 0.93

22 47 0.078 94 3.7 1.5 39 65 1008 1034 1000 1034 0.82

23 47 2.9e-06 0.0035 17.9 9.1 22 64 1026 1068 1025 1069 0.92

24 47 0.00058 0.69 10.5 12.5 21 64 1039 1082 1039 1090 0.83

25 47 5.4e-05 0.065 13.8 10.3 22 63 1082 1123 1081 1125 0.94

26 47 0.0004 0.47 11.1 12.5 9 64 1117 1173 1117 1174 0.86

27 47 0.00018 0.21 12.2 9.1 26 65 1149 1188 1147 1188 0.93

28 47 0.003 3.6 8.3 10.1 22 65 1159 1202 1159 1202 0.94

29 47 1.7e-05 0.02 15.5 9.8 23 64 1195 1236 1192 1237 0.92

30 47 0.00011 0.13 12.8 5.0 28 64 1235 1271 1233 1272 0.92

31 47 1.1e-05 0.013 16.0 9.3 22 65 1278 1321 1277 1321 0.96

32 47 0.0014 1.7 9.3 10.6 21 65 1298 1342 1297 1349 0.93

33 47 0.00048 0.58 10.8 9.9 10 64 1321 1376 1319 1377 0.79

34 47 0.0001 0.12 13.0 5.0 26 65 1352 1391 1350 1391 0.92

35 47 0.00014 0.16 12.6 8.5 22 63 1383 1424 1376 1426 0.94

36 47 0.0032 3.9 8.2 8.5 23 64 1433 1474 1425 1481 0.84

37 47 0.0018 2.1 9.0 2.8 24 64 1469 1509 1468 1510 0.89

38 47 0.00087 1 10.0 7.7 22 65 1488 1531 1486 1531 0.90

39 47 0.00039 0.46 11.1 7.4 24 64 1511 1551 1508 1552 0.84

40 47 8.4e-05 0.1 13.2 8.6 9 63 1530 1585 1529 1587 0.89

41 47 0.00057 0.68 10.6 8.6 22 64 1593 1635 1589 1636 0.94

42 47 0.0015 1.8 9.2 7.1 21 62 1620 1661 1620 1664 0.88

43 47 0.2 2.4e+02 2.4 18.9 2 64 1635 1698 1634 1713 0.85

44 47 4.3e-05 0.052 14.2 7.5 21 64 1704 1747 1703 1748 0.93

45 47 0.018 22 5.7 2.9 25 61 1743 1779 1742 1782 0.84

46 47 0.0098 12 6.6 2.6 26 61 1779 1814 1777 1817 0.87

47 47 8.1 9.7e+03 -2.7 0.1 37 52 2025 2040 2021 2052 0.52

#	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	47	3.4	4.1e+03	-1.5	1.1	38	62	65	82	52	85	0.48
2	47	0.041	49	4.6	1.2	38	63	102	127	98	129	0.83
3	47	0.00035	0.42	11.3	0.7	35	63	217	245	213	247	0.88
4	47	0.15	1.8e+02	2.8	0.2	40	62	264	286	256	288	0.83
5	47	0.33	4e+02	1.7	0.6	28	60	294	326	289	352	0.62
6	47	3	3.6e+03	-1.3	0.2	30	58	362	390	360	397	0.50
7	47	0.0036	4.3	8.0	3.8	23	64	429	470	428	471	0.93
8	47	0.077	92	3.8	1.2	29	47	473	491	469	496	0.75
9	47	0.00011	0.13	12.9	4.2	25	62	497	534	493	536	0.94
10	47	0.001	1.2	9.8	10.0	24	64	538	578	537	579	0.88
11	47	0.022	27	5.5	7.4	24	64	573	613	571	614	0.78
12	47	2.6e-05	0.031	14.9	8.2	24	64	608	648	607	649	0.92
13	47	1.7	2e+03	-0.6	12.6	28	63	654	689	648	716	0.65
14	47	0.11	1.3e+02	3.3	9.4	22	63	697	738	683	739	0.77
15	47	0.00098	1.2	9.8	18.9	9	62	718	772	711	775	0.88
16	47	7.2e-05	0.086	13.5	6.2	21	60	766	805	766	808	0.90
17	47	0.00071	0.85	10.3	1.7	31	64	804	837	800	838	0.93
18	47	0.00092	1.1	9.9	3.9	28	64	857	893	850	894	0.89
19	47	7.1e-07	0.00085	19.9	3.5	25	64	889	928	888	929	0.93
20	47	0.0017	2.1	9.0	8.9	28	64	927	963	924	964	0.87
21	47	7.4e-07	0.00089	19.8	6.9	25	63	959	997	957	999	0.93
22	47	0.078	94	3.7	1.5	39	65	1008	1034	1000	1034	0.82
23	47	2.9e-06	0.0035	17.9	9.1	22	64	1026	1068	1025	1069	0.92
24	47	0.00058	0.69	10.5	12.5	21	64	1039	1082	1039	1090	0.83
25	47	5.4e-05	0.065	13.8	10.3	22	63	1082	1123	1081	1125	0.94
26	47	0.0004	0.47	11.1	12.5	9	64	1117	1173	1117	1174	0.86
27	47	0.00018	0.21	12.2	9.1	26	65	1149	1188	1147	1188	0.93
28	47	0.003	3.6	8.3	10.1	22	65	1159	1202	1159	1202	0.94
29	47	1.7e-05	0.02	15.5	9.8	23	64	1195	1236	1192	1237	0.92
30	47	0.00011	0.13	12.8	5.0	28	64	1235	1271	1233	1272	0.92
31	47	1.1e-05	0.013	16.0	9.3	22	65	1278	1321	1277	1321	0.96
32	47	0.0014	1.7	9.3	10.6	21	65	1298	1342	1297	1349	0.93
33	47	0.00048	0.58	10.8	9.9	10	64	1321	1376	1319	1377	0.79
34	47	0.0001	0.12	13.0	5.0	26	65	1352	1391	1350	1391	0.92
35	47	0.00014	0.16	12.6	8.5	22	63	1383	1424	1376	1426	0.94
36	47	0.0032	3.9	8.2	8.5	23	64	1433	1474	1425	1481	0.84
37	47	0.0018	2.1	9.0	2.8	24	64	1469	1509	1468	1510	0.89
38	47	0.00087	1	10.0	7.7	22	65	1488	1531	1486	1531	0.90
39	47	0.00039	0.46	11.1	7.4	24	64	1511	1551	1508	1552	0.84
40	47	8.4e-05	0.1	13.2	8.6	9	63	1530	1585	1529	1587	0.89
41	47	0.00057	0.68	10.6	8.6	22	64	1593	1635	1589	1636	0.94
42	47	0.0015	1.8	9.2	7.1	21	62	1620	1661	1620	1664	0.88
43	47	0.2	2.4e+02	2.4	18.9	2	64	1635	1698	1634	1713	0.85
44	47	4.3e-05	0.052	14.2	7.5	21	64	1704	1747	1703	1748	0.93
45	47	0.018	22	5.7	2.9	25	61	1743	1779	1742	1782	0.84
46	47	0.0098	12	6.6	2.6	26	61	1779	1814	1777	1817	0.87
47	47	8.1	9.7e+03	-2.7	0.1	37	52	2025	2040	2021	2052	0.52

Sequence Information

Coding Sequence: ATGGCCGGTAGAACGTGCAGATGCGGCTGCGCGGATCCGGTCGAGATGTCGGTTCCGGATCCTCCGCACGAGGGTTCCTGCGGTTGCGGGTATAACCCTTTCGTCGACGACCGTTCCGACGAGACTGAGATCAAGGATTTGTCCTACGCGGTGCGGAAGCTGAGTCTGATGAAATGCCAGATGAAAAAATGGCGCATGGAGCGACTCCAGCTGGAGAGCGAGGCGCGGTCTTTGAAGCAGGTGCTGCAAGCTCACGGGCTCAACGACGACATCGTCAGGCCTGATCCCCTGTTGACACACTTCAGGGAGGAGAACGAGAGACTTGAAAATGAGAAAAGCGAGCTCGCGGAGAGGGTGAAATTCCTTGGAGATGAGCTCGCCGAGCGGGAGAGGAGCGAGTATCCAATGTGCGAGGCTGTTGACAGAATGAGGGACAGGATCAGAGCCATGAGGGAGGAGCACCAGGCCGAAAAACGGAGACTCAGAGGTATAATTTCCGACCTTAAAATCCGCCTCCAAGAAGCGGAGTCCGAGTCTTCCTGCGCCGCGATAAACAGGCTGCGAGCAAAGCTCAGAGAGTTGATGAAGGGGGGAAAGGAGGCGGACCACCGAGTGTCCGTCGTGGTCCAGCGCTCGATTGAAACGCTGGTCGAGCTTACGGACAACGTTGACGAGCTCAAGGCCGAGATCGAGAGACTCAGAGCTGAGATAAAGAGGCTGAAGGACCTCCTCAAGGCCTGCGAAGATCGTCCGGTTCCGGAGGCCGGGGAGAAGCCCCCCGCCGAAATGGACGTGTCGGAGTTGTTGAACAGGATAAAAGAGCTCGAAGAGCTCATAGCTCAGTTGAGAAAGCAGCTGATCGATAAAGACGCGCTGATTAATTCCCTACAGAATGAAACCTTCGAGCTAGGATCTGATAATAAACGATTGTCCACGGATCTTGATCAGTTCAAGGTCAGCTATAACGCTCTTATGCAGGAAGTCAAGGCCATGAAGGAGGAGCTCAAGAAGAGGGACGCGAAGGTTTCCGAGCTTTTGAGAGACCTTCGAGCATCCGCAATCGACATGCTGGGCTTGAACCGTCTGCAGAGTGAGATGGAAGCGATAAAGCCACAGATGTATAATCTCGAGATAGAGCGCGATCAGCTCTTATCGGAGCTCGGTAAAGTCCGCGGTGTCGTTTCGGAGCGAAATGACCAGATAATAAAGATCCTCGAAGAGCGAGACAAGCACGTTCGAGAACTTAAAAAAGCATCCAGTCTGATGCAGGCGACGATAGAGCCCATGAAGGAGAAGGAGAGTGCGTTGAAAGGCGAGATCAACGGGTACAAAGACCGCATAGCGGAGCTCGAACGTGAGCTTGCAGAGCTCAGGAAGAAACTGGCAGAGCTAGAAGCTCAGAATTCCAAGATACCTGGCCTTGAAGCGAGGATAAAAGAGCTGGAAGACGAGCTAGAAAAGCTCCGAGCTCAGTTGGCAGCTGCGAACGCCAGGATGACTGAGCTGGAGAAAGAGATTGCCGGTTTAAAAGCGGCCAAAGAGGAGCTAGAGAAAGAGCTCGGAGCGGCTAAAAACGAAATAGAAAAGCTCAGGGCGGAGCTTGCGAGTGAGAAAGCCGAGAAAGAAGCTGCGCTTAAAGAGCTTTCGAACTGTAGAGCAGAGAACGAGAAGCTAAAAGCGGAGAACGAGAGACTTAAGAATGAGCTAGATGAGGCTAAAGCTGAGACTGAAAAGCTCAGGAAAAATTTAGACGAACTTAAAAAAGAACTAGAAGCTCTGAAAGCTGAGAATGACGATTTGAAGAATATACTCGCGGGGGCTAAAAGTGAGATCGAAAAACTCAGAGGCGAGCTCGAGAAGCTGAAAGCTGAGAATGACGAGCTTAAAAAAGAACTTGAAAAGCTCCGCGCGGAAGTAGACATGCTCAAAGCAGAGAACAACAACCTCAAATCAGAGCTTGAAAAACTCAAAGACAAAATAAATGAGCTCGAAGCTGAATTGGAAAAGCTTAAGAGCGCTTTGGCGGCGGCCAATGATGAGGTAGAGAAGCTCAAAAATGCTCTGACTGCTGCTAACGCAGAAATTGAGAAACTGAAAAACGATCTAAACCAAATGAAAGCCGATCTTGATAATCTGAAATCTGAAAACGATCGTTTGAAAAATGAGCTAGCAGCTGAAAAGGCGGAAAACTTGAAGCTGAAAAACGAGCTGGAAGGGATGAAAGCGGAACTAGAGAAGCTGAAAGGAGAAAATGAGAAGCTTAAGGCTGAGAAAGACGCTCTGGAAGCAGAGTTGAACAAATTAAAGGAAGAAAATGGAAAACTGAAGTCGGAGCTCGAAAAGCTCAAGAGCGAGAACGATGCGTTGATATCAGAAAATCAGAATTTGAAGAAAAGCCTGAGTGACGCAGAGGCGAAGATCAAAGCTCTAGAAGCTGAGAACGCGGATCTATTGAAAAGTATATCCGAGCTTAAAGACCGGATAAAAAAGCTCGAGGACGAGCTCGAGGCAGAAAAAAGCGCTAAAGAAGCGGCGCTAAAAGAGCTCGCAGCCATAAAGTCAGAGCTCAAAGCTCTGTTGGCTGAAATGGACAAACTAAAGGCGGAGCTTGATAGACTGAAGGGAGAAATCGAAGAGCTCAATAAAAAGCTTGACGATGTGAAAAACGAGCGTGATCAGTTGAAATCAAAGTACAATGATCTGGTGGCAGAGAATGAAAAGCTCAAAGCTGAAGTTGAAAGGCTGAAGGTAGAGAACGACGGCCTGAAAGCTGACCTAGAAAAAATGAAAGCAGAGCTTGAAAAGCTCAAAACGGAGAACGAGAAGCTAAGAGGTGAGAATGAGAAGCTGAAGAAAGAGCTGAAAGACGCAGAGGAGAAGATAAAAGCTCTTGAAGATCAGGTAAAAGCTTGCGAAGAGGAGAAAGAAAGGCTACGAAAAGAGATCCAGGAGCTCAAAGACCGGATTAATCAGCTGGATAATGAGCTCGCTGCAGAGAGAGCCGCGAAAGACGCTGCTTTGAAGGAGTTGGCAGCCCTGAAGACAGAGCTAGCTGCGTTGAGAGCGGAGCTTGATAAAGTTAGAGCAGAAAATTCCAAGCTCAAAGAAGATCTAGACAAACTCAAAGCAGAGAATGAAGCACTTAAGAACGAGAATAGCAGATTGAAGGAAGAAGTTGAGAAGCTGAAAGCAGACAATTCGAAGCTACAAGAAGAGCTCGATGTTCTAAAAGTGCAGAACGCGAAACTCAAAGAATCTTTAGATAAGCTAAATGACGAAATTAGAGCTCTGCAAGCTCAGAATGAGAAACTGAAAGCAGAACTCGATCAGCTCAAAGCTGAGAATGAAAAACTGAAAAATGAACTGGCCGCTGCTAGGGACGAAGCTGCGAAGCTCAAAAATGATTTGGACAAGTTGAAATCCGAGCTCGAAGCCCTTGCGGCAGAGAATAATAGATTGAAAGGCGAAGTTGAGAGGCTTAAAGCGGAGAATGCCAAGTTACAAGAAGACCTTAACGCCCTGAAGTCCGAAAACGCGAAGCTCAAAGAATCCTTGGAAAAATTAAACGACGAAATGAAAGCGCTCCGAGCTCAGAATGAAAAACTAAAAGCAGAGCTTGATCAGCTCAAAGCTGAGAACGAGAAGCTCAAAAATGAATTGGCCGCTGCTAGGGAAGAAGTTGCGAAGCTCAAAAGCGATTTGGACAGGTTGAAAAACGAGCTCGAAGCTCTTGCAGCAGAGAATAATCGACTGAAGGGAGAAGTTGAGAAGCTCAAAGCGGAGAATGCGAAGCTGCAAGACGATCTCAATGCTCTGAAGAATGAAAATGCGAAGCTTAAAGAAACCCTTGATAAGCTCAACGATGAAATAAAAGCTCTGCGCGCTCAGAACGACAAGCTCAAAGGAGAACTAGACCAGCTCAAAAAAGAACTTGACCAGTTGAAAGCCGAGAATGAGAAGTTGAAGAATGATTTGGCGGCTGCTAGAGATGAAGTAGCGAAGCTCAAAAATGATTTAGAGAAATTGAAATCTGAGCTCGCAGCTCTTGCGGCAGAAAATAATAGATTGAAGGGAGAGGTTGAAAAGCTTAAAGCAGAAAACGCGAAGCTATTAGACGATCTAAACGCTTTGAGGTCGGAAAATGCGAAGCTCAAAGAAACCCTGGACAAATTGAACGACGAAATTAAAGCTCTGCGAGCTCAGAATGAGAAGCTAAAAGGAGAACTTGATCAGCTCAGAGCAGAGAATGAAAAGCTGAAAAATGACTTGGCAGCTGCGAGGGTAGAAATAGGGAAGCTCAAAAACGATTTAGACAAGTTGAAATCCGAGCTCGAAGCTCTCGCTGCAGAAAATAATAAAATGAAAGGAGAACTTGAGAGGCTCAAAGCAGAAAACGCACAGCTCAAAGAAGCTCTTGACAAACTAAATTCTGAGATCAAGGCACTCCGAGCAGAGAATGACAAGCTCAAAGGGGATCTTGACAAACTTAAAGGAGAACTTGAAAAGCTCAGAGGAGAATTTGACCAGCTCAAAAAAGAATGTGACGAGCTCAAAAAAGAACTTGACCAACTCAAAGCTGAGAACGAGAAGCTGAAGAATGACTTAGCGGCGGCTAGATCAGAAATAGCGAAGCTCAAAAGCGACCTCGACAAGTTGAAATCTGAGCTCGAAGCCCTCGCAGCAGAAAATAACAAATTAAAGGGCGAACTCGATAGGCTTAAAGCAGAAAATGCTAAGCTATTAGATGATCTGAATGCCATGAAAGCAGAAAACGCAAAGCTCAAAGAAGCCCTTGACAAACTCAACGAAGAGATGAAAGCTCTGAGAGATGAGAACAACAAGCTCAAGGGAGAACTCGATAAGCTCAAAGGAGAGCTTGACCAGCTCAAAAAAGATCTTGACCAGCTCAAAGCTGAAAATGAGAAGTTGAAGAATGACTTGGCAGCTGCTAAGGCGGAGGTAGAAAAGCTAAAAAATGATTTGGGGAGACTGCAAGCTGAGCTTGAAGCTCTCGCTGCGGAAAATAACAGAATGAAAGGAGAGCTTGAGAGGCTTAAAGCGGAGAACGCGAAGCTGCTAGACGACTTGAAAGCACTTAGGGACGAAAACACGAAGCTGAAAGAATCTCTCGATAAGCTCAATGACGAGATGAAAGATCTGCGAGCTCAGAATGAAAAGCTTAAAGGTGATCTTGACCAGTTGAAAAAGGAACTTGACCAGCTCAAAGCTGACAATGACAAGTTGAAGAAAGACTTGGCGGCTGCTAAGGCGGAAGTAGAAAAGCTCAAAAATGATTTGGGGAAATTGAAAGCTGAGCTTGAAGCCCTCGCTGCAGAGAATGACAGAATGAAAGCAGACCTCGAAAAGCTGAAAGCAGAAAATTCGAAGCTTTTAGGAGACCTAAAAGCTCTGAAGGAAGAGAACAGCCGGAGGAAATCTGAGATTACGCCGGAGTCGGTTAAGAAACTACCGAAGGAACGAAAAGATGGTCGGAGGGCATTCGGAGAAGATCGGCCACCTTCGATAACAAAAAGGGACCAAGGCTCGCAGGGCGCGGGCTGTGGGGATTACGAAAACGCTAACGAACAGCTGAGGAGGAACATGAGCATGCAGGACAGGGCCGTGCAGAGGATCCTGAACTTCATGAAGTACCTACTAGGAGAGAGAACCTCTCCTCCGGAGATGGCCGGGGAACTCACCCACACGATGTCGTCGGTGATGAGGAACAGATTCGCCAGAGACATCATGGATGTGCTGAAGGAGTCACAGTTCCTTTCGGAAAGCATATTCAACGCTGAAACCGAGGTTCAACGTCTCGCCAGACTGCTCGACGACATGAACAAAGATACAAGAGACATGGACGGTCTGGGTGACGCCTTCGACGCAGAGTCTTGGCTGAAGTCCCTGACGCTGACCGAACTGGCGGAACTCCACGACCGTATTTGCATGGTGACATCCTGCATGGTGCAGCAGGACATAAACCCGGACGACTACGTGGACACCGTGACCGAAACGGACGGCGTGTGCAGGCCCTGCGTCGACGGTGACGACGTGGCCGGTGACTACGAGGCCCTGAGCAGACGGATAGCCGCTCTGCAGTCGGAGATAAACAGGAAACAGAACGAGGCCGCCGCCAAGGTCGAGAGCATGAGGAGAGCCATGTTGAGGGAACAGGAGAACCTCATCAGATTGTCGGACGAGATGAACAACCAGAAGCGGAGGAACCTTTCCATGAAGATTTGTCAGGAGGAAGTATGCGACTGCGAAGAGGAGGATGACCTTGAAAGGTACTCGACGACCCTCGAGGCTCAAACTCCCCGCATGATTCCAAGCTACCATTTATCGATTGTTAGAGATGAAGAAGTCCCGTGTCCGGGACCAACCGACGAAAGAGTTTCGAGACCGAAAGGCCCCCAGCCAGCGTGTTCGATGCCGGTGAAGCACGCGGACGTCCCTTGCTGCCCGAGGCCCTGCTGTCCGTCCAAGATGACCTCCAAAAACAGGGACTGA
Protein Sequence: MAGRTCRCGCADPVEMSVPDPPHEGSCGCGYNPFVDDRSDETEIKDLSYAVRKLSLMKCQMKKWRMERLQLESEARSLKQVLQAHGLNDDIVRPDPLLTHFREENERLENEKSELAERVKFLGDELAERERSEYPMCEAVDRMRDRIRAMREEHQAEKRRLRGIISDLKIRLQEAESESSCAAINRLRAKLRELMKGGKEADHRVSVVVQRSIETLVELTDNVDELKAEIERLRAEIKRLKDLLKACEDRPVPEAGEKPPAEMDVSELLNRIKELEELIAQLRKQLIDKDALINSLQNETFELGSDNKRLSTDLDQFKVSYNALMQEVKAMKEELKKRDAKVSELLRDLRASAIDMLGLNRLQSEMEAIKPQMYNLEIERDQLLSELGKVRGVVSERNDQIIKILEERDKHVRELKKASSLMQATIEPMKEKESALKGEINGYKDRIAELERELAELRKKLAELEAQNSKIPGLEARIKELEDELEKLRAQLAAANARMTELEKEIAGLKAAKEELEKELGAAKNEIEKLRAELASEKAEKEAALKELSNCRAENEKLKAENERLKNELDEAKAETEKLRKNLDELKKELEALKAENDDLKNILAGAKSEIEKLRGELEKLKAENDELKKELEKLRAEVDMLKAENNNLKSELEKLKDKINELEAELEKLKSALAAANDEVEKLKNALTAANAEIEKLKNDLNQMKADLDNLKSENDRLKNELAAEKAENLKLKNELEGMKAELEKLKGENEKLKAEKDALEAELNKLKEENGKLKSELEKLKSENDALISENQNLKKSLSDAEAKIKALEAENADLLKSISELKDRIKKLEDELEAEKSAKEAALKELAAIKSELKALLAEMDKLKAELDRLKGEIEELNKKLDDVKNERDQLKSKYNDLVAENEKLKAEVERLKVENDGLKADLEKMKAELEKLKTENEKLRGENEKLKKELKDAEEKIKALEDQVKACEEEKERLRKEIQELKDRINQLDNELAAERAAKDAALKELAALKTELAALRAELDKVRAENSKLKEDLDKLKAENEALKNENSRLKEEVEKLKADNSKLQEELDVLKVQNAKLKESLDKLNDEIRALQAQNEKLKAELDQLKAENEKLKNELAAARDEAAKLKNDLDKLKSELEALAAENNRLKGEVERLKAENAKLQEDLNALKSENAKLKESLEKLNDEMKALRAQNEKLKAELDQLKAENEKLKNELAAAREEVAKLKSDLDRLKNELEALAAENNRLKGEVEKLKAENAKLQDDLNALKNENAKLKETLDKLNDEIKALRAQNDKLKGELDQLKKELDQLKAENEKLKNDLAAARDEVAKLKNDLEKLKSELAALAAENNRLKGEVEKLKAENAKLLDDLNALRSENAKLKETLDKLNDEIKALRAQNEKLKGELDQLRAENEKLKNDLAAARVEIGKLKNDLDKLKSELEALAAENNKMKGELERLKAENAQLKEALDKLNSEIKALRAENDKLKGDLDKLKGELEKLRGEFDQLKKECDELKKELDQLKAENEKLKNDLAAARSEIAKLKSDLDKLKSELEALAAENNKLKGELDRLKAENAKLLDDLNAMKAENAKLKEALDKLNEEMKALRDENNKLKGELDKLKGELDQLKKDLDQLKAENEKLKNDLAAAKAEVEKLKNDLGRLQAELEALAAENNRMKGELERLKAENAKLLDDLKALRDENTKLKESLDKLNDEMKDLRAQNEKLKGDLDQLKKELDQLKADNDKLKKDLAAAKAEVEKLKNDLGKLKAELEALAAENDRMKADLEKLKAENSKLLGDLKALKEENSRRKSEITPESVKKLPKERKDGRRAFGEDRPPSITKRDQGSQGAGCGDYENANEQLRRNMSMQDRAVQRILNFMKYLLGERTSPPEMAGELTHTMSSVMRNRFARDIMDVLKESQFLSESIFNAETEVQRLARLLDDMNKDTRDMDGLGDAFDAESWLKSLTLTELAELHDRICMVTSCMVQQDINPDDYVDTVTETDGVCRPCVDGDDVAGDYEALSRRIAALQSEINRKQNEAAAKVESMRRAMLREQENLIRLSDEMNNQKRRNLSMKICQEEVCDCEEEDDLERYSTTLEAQTPRMIPSYHLSIVRDEEVPCPGPTDERVSRPKGPQPACSMPVKHADVPCCPRPCCPSKMTSKNRD

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00718290;
90% Identity: iTF_00719142; iTF_00718290; iTF_00718265;
80% Identity: iTF_00719142;