Basic Information

Insect: Synergus gifuensis
Gene Symbol: -
Assembly: GCA_904066015.1
Location: CAJFCO010000168.1:216065-223277[-]

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 46 0.52 5.9e+02 1.4 0.3 31 58 60 87 54 92 0.67

2 46 0.88 9.9e+02 0.6 0.3 38 59 105 126 101 132 0.66

3 46 1.5 1.6e+03 -0.1 0.2 37 58 156 177 146 181 0.82

4 46 7.9e-05 0.089 13.6 3.4 25 57 216 248 212 255 0.92

5 46 2.5 2.8e+03 -0.8 0.8 29 63 323 357 317 359 0.84

6 46 2.2 2.5e+03 -0.7 11.7 25 61 411 447 403 475 0.73

7 46 0.00066 0.74 10.6 4.5 26 63 478 515 475 517 0.92

8 46 0.0029 3.3 8.6 8.1 27 65 521 559 515 559 0.93

9 46 0.086 97 3.9 2.0 30 64 566 600 560 601 0.76

10 46 0.11 1.2e+02 3.6 6.4 32 64 582 614 574 622 0.64

11 46 0.046 52 4.7 5.0 22 64 600 642 599 643 0.87

12 46 0.011 12 6.8 6.5 26 64 632 670 629 671 0.90

13 46 0.2 2.2e+02 2.7 6.5 33 65 723 755 706 755 0.86

14 46 0.85 9.6e+02 0.7 7.6 33 64 751 782 750 783 0.82

15 46 9.3e-08 0.0001 23.0 5.0 24 65 784 825 781 825 0.95

16 46 0.0022 2.5 8.9 2.5 26 60 821 855 819 860 0.64

17 46 0.099 1.1e+02 3.7 0.8 35 64 858 887 855 888 0.69

18 46 8.9e-05 0.1 13.4 4.4 22 65 866 909 864 909 0.94

19 46 3.2e-06 0.0036 18.0 9.6 24 65 889 930 885 937 0.96

20 46 0.0016 1.8 9.4 8.8 25 63 904 942 901 951 0.55

21 46 0.19 2.1e+02 2.8 6.1 29 62 943 976 928 979 0.82

22 46 0.045 51 4.8 7.5 21 65 970 1014 970 1014 0.94

23 46 0.075 84 4.1 9.6 22 59 992 1029 985 1032 0.90

24 46 0.00059 0.66 10.8 6.7 22 60 1013 1051 1012 1054 0.94

25 46 0.063 72 4.3 0.2 38 63 1085 1110 1060 1119 0.58

26 46 0.038 43 5.0 0.2 26 59 1087 1124 1078 1130 0.61

27 46 5.3e-05 0.06 14.1 6.4 32 65 1128 1161 1117 1161 0.90

28 46 0.23 2.6e+02 2.5 7.2 35 62 1159 1186 1156 1205 0.56

29 46 0.24 2.7e+02 2.4 1.7 33 62 1199 1228 1190 1232 0.68

30 46 0.2 2.2e+02 2.7 4.8 25 60 1233 1268 1231 1273 0.87

31 46 0.028 31 5.4 5.8 28 60 1278 1310 1264 1314 0.55

32 46 0.023 26 5.7 0.5 22 61 1321 1360 1316 1364 0.71

33 46 4e-07 0.00046 20.9 1.1 24 65 1365 1406 1362 1406 0.92

34 46 0.0005 0.56 11.0 0.3 29 63 1391 1425 1390 1427 0.94

35 46 0.0039 4.4 8.2 1.5 27 61 1431 1465 1425 1468 0.51

36 46 4.6e-06 0.0051 17.6 3.9 25 63 1471 1509 1470 1510 0.95

37 46 0.093 1.1e+02 3.8 0.8 36 63 1517 1544 1512 1546 0.86

38 46 3.5e-05 0.039 14.7 3.1 31 65 1554 1588 1544 1588 0.90

39 46 0.044 49 4.8 2.6 26 53 1609 1636 1606 1639 0.80

40 46 0.0035 4 8.3 6.0 26 62 1637 1673 1635 1675 0.93

41 46 0.00033 0.37 11.6 4.4 12 63 1679 1730 1677 1732 0.90

42 46 2.1e-05 0.024 15.4 2.8 34 64 1736 1766 1733 1767 0.93

43 46 0.053 59 4.6 1.2 22 59 1780 1817 1771 1823 0.85

44 46 0.011 13 6.7 2.3 31 59 1852 1880 1821 1884 0.84

45 46 7.9 8.9e+03 -2.4 0.0 32 59 1919 1946 1918 1947 0.78

46 46 2.6 2.9e+03 -0.9 0.8 30 55 2088 2106 2082 2127 0.61

#	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	46	0.52	5.9e+02	1.4	0.3	31	58	60	87	54	92	0.67
2	46	0.88	9.9e+02	0.6	0.3	38	59	105	126	101	132	0.66
3	46	1.5	1.6e+03	-0.1	0.2	37	58	156	177	146	181	0.82
4	46	7.9e-05	0.089	13.6	3.4	25	57	216	248	212	255	0.92
5	46	2.5	2.8e+03	-0.8	0.8	29	63	323	357	317	359	0.84
6	46	2.2	2.5e+03	-0.7	11.7	25	61	411	447	403	475	0.73
7	46	0.00066	0.74	10.6	4.5	26	63	478	515	475	517	0.92
8	46	0.0029	3.3	8.6	8.1	27	65	521	559	515	559	0.93
9	46	0.086	97	3.9	2.0	30	64	566	600	560	601	0.76
10	46	0.11	1.2e+02	3.6	6.4	32	64	582	614	574	622	0.64
11	46	0.046	52	4.7	5.0	22	64	600	642	599	643	0.87
12	46	0.011	12	6.8	6.5	26	64	632	670	629	671	0.90
13	46	0.2	2.2e+02	2.7	6.5	33	65	723	755	706	755	0.86
14	46	0.85	9.6e+02	0.7	7.6	33	64	751	782	750	783	0.82
15	46	9.3e-08	0.0001	23.0	5.0	24	65	784	825	781	825	0.95
16	46	0.0022	2.5	8.9	2.5	26	60	821	855	819	860	0.64
17	46	0.099	1.1e+02	3.7	0.8	35	64	858	887	855	888	0.69
18	46	8.9e-05	0.1	13.4	4.4	22	65	866	909	864	909	0.94
19	46	3.2e-06	0.0036	18.0	9.6	24	65	889	930	885	937	0.96
20	46	0.0016	1.8	9.4	8.8	25	63	904	942	901	951	0.55
21	46	0.19	2.1e+02	2.8	6.1	29	62	943	976	928	979	0.82
22	46	0.045	51	4.8	7.5	21	65	970	1014	970	1014	0.94
23	46	0.075	84	4.1	9.6	22	59	992	1029	985	1032	0.90
24	46	0.00059	0.66	10.8	6.7	22	60	1013	1051	1012	1054	0.94
25	46	0.063	72	4.3	0.2	38	63	1085	1110	1060	1119	0.58
26	46	0.038	43	5.0	0.2	26	59	1087	1124	1078	1130	0.61
27	46	5.3e-05	0.06	14.1	6.4	32	65	1128	1161	1117	1161	0.90
28	46	0.23	2.6e+02	2.5	7.2	35	62	1159	1186	1156	1205	0.56
29	46	0.24	2.7e+02	2.4	1.7	33	62	1199	1228	1190	1232	0.68
30	46	0.2	2.2e+02	2.7	4.8	25	60	1233	1268	1231	1273	0.87
31	46	0.028	31	5.4	5.8	28	60	1278	1310	1264	1314	0.55
32	46	0.023	26	5.7	0.5	22	61	1321	1360	1316	1364	0.71
33	46	4e-07	0.00046	20.9	1.1	24	65	1365	1406	1362	1406	0.92
34	46	0.0005	0.56	11.0	0.3	29	63	1391	1425	1390	1427	0.94
35	46	0.0039	4.4	8.2	1.5	27	61	1431	1465	1425	1468	0.51
36	46	4.6e-06	0.0051	17.6	3.9	25	63	1471	1509	1470	1510	0.95
37	46	0.093	1.1e+02	3.8	0.8	36	63	1517	1544	1512	1546	0.86
38	46	3.5e-05	0.039	14.7	3.1	31	65	1554	1588	1544	1588	0.90
39	46	0.044	49	4.8	2.6	26	53	1609	1636	1606	1639	0.80
40	46	0.0035	4	8.3	6.0	26	62	1637	1673	1635	1675	0.93
41	46	0.00033	0.37	11.6	4.4	12	63	1679	1730	1677	1732	0.90
42	46	2.1e-05	0.024	15.4	2.8	34	64	1736	1766	1733	1767	0.93
43	46	0.053	59	4.6	1.2	22	59	1780	1817	1771	1823	0.85
44	46	0.011	13	6.7	2.3	31	59	1852	1880	1821	1884	0.84
45	46	7.9	8.9e+03	-2.4	0.0	32	59	1919	1946	1918	1947	0.78
46	46	2.6	2.9e+03	-0.9	0.8	30	55	2088	2106	2082	2127	0.61

Sequence Information

Coding Sequence: ATGAATGTTTATCATGATCAATTTTGTCATTGTGGCTGCGAAGCTCCGGGTAATTTTAAACCAGAGGAACCACCACATGAACCATGTTGCTGTTGTGATTATAATCCATTCAGTGATAATTCTAAGGATGCAGAAATCTACGATCTTCCTTTTGCTCTGCGAAAGCTTACAGTAATGAAGTGCCAAATGAAAAAGTGGCGAATGGAACGACTCCAATTGGAGAGTGAAACTCGATCTTTGAAGCAAGCTCTTCAACAATATGGCATTAATATCGACGAGGCTTTGAAACCTGATCCTCTAGTTATTCACTATCGAGAGGAAAATTTAAGACTTCAAAATCTTAATGAGGAGTTGGAGGATAAAGTCGTAGACCTCACAGGGACTTTGGATGAACGAGAATACTCTGAAGATCCTTGCGATTCAGTAAAATATATTAGAGAGAAAATGAAGGACCTTCGAATACGTTTTGCTGATGAAAAGAAACAATTAAGAGACAAAATAGCAGCCTTGAATTTGAAGCTTGCAGAAATGGATGACGATACTTCATGTTCAGCCTTAAATCGACTCAGAGCAAAACTTCGTGAATTGATGAAAGGTGGACAGAAGGCTGACCAGCAAGTTTCGATGGTTGTGGAAAAATCTATAGAAACAATGGTGGAGCTTTCGAAAAGCTGCGAAGATTTAAAATCCGAGAATGAAAGACTTTTAGCTCAATTAGAAGCTCTTCGAAAAAAAATGGAACAAAGAGAACCTTCAAGAATAACATTAAAAGAAGATCCTATGATACCTCATGACATGGGACTTGAACCATCAGAAATAACGGAAGGACAAGATGTTTCTGAGTTATATGATAAAATTAAAAAATGCGAGGCTCTTGTGGCTGATTTAAGAAGACAACTTGCTGAGAAGGATCAAATGATTAACGATCTAGAGAAAAATCTTTTTACTCAAAAGAGAGTTTCTGGACAATTGGAGGAAGATTTGGATAAAATGACTGTTAGCCATAAAGCATTGATGAAAGAAGCTGTTGCTATGAAGGAAGAATTGAAAAAGAGGGATGACAAGGTCACGGATCTTTTAGGGAATTTAAGAAGCGATCTAACTAAAATTCGGGGCCTTGTATCAGAGAGAAATGATCAAATTGTAAAAATTTTAGAGCAGAAAGATAAATTGTCTAGCGAATGTGATACAAAATTACTCGCTATGCAGACAAGGTTAGATGCCTTATTAGATCAAGAAGCTCTTTTAAAAAAACAAATCGAAGACTTAAAATCAGAAGTGAAAGAATTGGAAGATGAAATTACAGGGTTGCGAGCAAGAATATTGGAATTAGAACAAAAAGGCAATGAAAATGAAGATCTAATCGAGAAAATTCATGATCTGGAGGATCAGCTTGATAAATTAAATGCAGAACTTTCTTCAGCCCAAAATCGAGTAAAAGAACTTGAAGGTGAGGTAAGCGATTTGAAATCTGAGAAGGAGAAATTACTGAAGAATTTGGCTGATGCTGAGACTGAAATTGAAGAAATAAAGAAGGATTTACAGGCTGAAAGAATAGCTAAAGAAAGTCTTTCTAAAGATCTAGAAGTTTGCAAGGATGAACTTGAAAAATTGAAATTGGAAAATAGAACTTTGGAATCGGAAAATCAGAGTTTAAAGGATAATTTGAAAAAATTAGGAGATGAAATCAAGTTCTTAAAAGAAGAAAACGAAATATTCAAGGCAGAGAATAGTAATATTATTGCGGAGAATCAAAAGTTTCAAGAAGAGATAGAAAAACTGAAAGCAGAAAATGAAAAAGCGCAAGTCGAGATGGATAAATTGAAAAATGAAGTAAAGAATTTAGAAGCAGAGAAAAATGTTATTGAAAATGAGTTGAATGTCTTAAAAGGTGAAATAGAAAAGTTAAAAGTTGATCTAAAGAGCTTAGAAGACGAAAATGCAGTACTTAAAGAAGAACTAAATAACATTAAAGAAGAAAAAGATAAATTGGAAAAAGATTTGAAAGCTGTTCAAGCAGAAATCGAAAAATTGCGAAGTGATTTAGAGATGGAGAAAACCAAAAAGGAAGATGCTTTGAAAGAACTCGAGGACTATAAGAAGCAGTTAAGTTTAATAAAAGATGAGTTGGAAAATTTAAAAGTTCAATTGGAAAAATCATCAGTTGAATTAGCAACTCTTGCGGATCAGAATAAAAAATTAAAAGATGAGCTGGAAAATGTAAAGCGGGATTTAGAAAAATCAGTTGCTGAATTAACAGCTCTTAAGGAGCAAAATGAGAAATTGGAAGCAGCTTTACAAAAAATGAGAGAAGATTTGGAAAATTTGACAAATGAAAATAAGGAACTTAAGGCAAAAATTGATCATCTTAATTCTGAGATTGAGAAATTTAAAGCCGAAAATGATAAATTATTAAATGAAATTAGTAAATTAAAGGAAGAAGTTGACCAGTTAAAAAATGAAAATAAAAAGCTTCAGGATGAATACCAACATTTGAAAGATGAAAATGTAATATTGAAAGATGAGAATGCACAGTTGAAAGACAGTTTAGATAAATCTGTAATGGAATTGTCAGCCCTTAAGGAGCAAAATGAAAAGATGAAGGCTTTTGTTGAAAATATGAAAGACGAAATTGAAAGTTTAAGAAAAGATAATGAGGAACTTAAGGCAAAAATGAATGACCTTAATTCCGAAGTAGAAAAACTGAAAGTCGAGAATAATAAATTATCGAAAGAAAATGATGATTTGAAATCCGAAGTTGATCAGCTAAAAGATGAGAATAATAAACTGAAAGATGAAAATACAAATCTAAAAGACAACTTAAAAAAATCAGAGGCTGATTTGGAAAAATTGAAGACTGATTTTGATAAATTGAAAATAGAAAATGAAGAATTAAAGAAAGATCTAGATAAAGTGAAAGCTGAGGCTGAAAATATGAATAATGAATTGAAGAATTTGTCAGCAGAATTGGATAAGGTCAGAAAAGAAAAAGATAACTTGGAAGAAAAGTTAGCAAACCTTGAAAGTGATTTAGAAAAATTAAAAGCGGAGAATATTAATTTGAATACAGAATTGAAAAAAGCTAAAGAAGATAATGAGGCGTTAAGAAATGAAACGGATTCTTTAAGGAACGAAAATGCGAAACTGAAAGCAGCAGGAGATAGTGAAAAGGAAGAAAAGAATAAGGCAAATGAAAAAATTAGATCACTGAAAGATCATAATGAAAAGATATCTCGTGATCTAGATAATGCTAGATCAGAAATTAATTCTTTAAAGGGGGAAGTTGATCATTTAAAATCTGAAATCGAGTCCATAAAAGGAAAACTACAATCAAAAGAAGATGAATTAAATGCTCTGAAAAATGAGTTAAAAGATTTTCTCTCGAAGTTTGACGAACTCAAGGATGAAAATAATCGTCTTAAGACAGAAAGGGAGAGTCTTAGAAAACAATTAAACGATTTGAAGAACGAATTGTCAAGATTAGAGGCAGAAAATTTAGATCTGAAAGAAGAACTCGCTAAATTAAAATCAGAATTAGTTAAGATTGTAGCTGAAAATGATAATTTGAAAAAAGAACTTGCTGAAGTGTTGAAGGATTATGATCAATGTCAGACAGATGGTTGCAAGTTAAAGAATGAAATTGATAAGTTAAAGGCAGCTATTGAGAATTTGAAGAAAGAATTAGGCAATTCCGAAGCAAAGATAAAGGAACTTGAAGGTCGTCTTTTAAGTAAGGAGAACGAGAAAAATAGTTTGGAACGAGAAATCGAAGGATTGAAGAAAAATTTGACAGCTGAAAAAGCTGAGAAAGAGGCAGTTTTGAAAAAACTGGAAGATCTCAATGAAGAACTTAAGGTTTTGAAAGCAGAATTGGCTAGGTTGAGATCTGAAAATGATCAGCATAGGGGAGAAATAGATGATTTGAAAAAACAATTAGTATTGACTAAAGATGAATTGAATAAAGCTAAGAGTGAAATTGCAGCTTTGAAAGATGACAACAATAAATTGAAGGGCCAGGGTGATACTTTAGCTAATGAAAGTGAAAAACTGAGAGGAGAGTTGGGTAAGTGGAAAGCTGAAGCTGAAGCTCAACGAAATGAAAATTCTAAATTGAAAAATAAGGTTGATAAACTGGGGGCAGAAAATACTAGACTTAAAAATGAAATTGAAGGTTTAAATAATGAAGTTAGTGGTCTTAAAAACATAAATAGTAAACTGCAAAATGAATTAGGAGCTGCAAAAAGTGAGGTTGATAAGTTGAAATCCGAATTGTCTGCTTCTAGAGCTGAAAATGAGAAATTGAAAGGTGAAATGAATAGTTTGAAAAGTGAAGTTGGCAGATTAAATGAAGAAATGAATAAGATAAAGGCGGAAATTGAGAGATTGAAAAAATCTTTGGCTGATGGTGAAGCTAAAATTAAAAATTTAGAAGGTCAAGTTGCATCTTTAGAATCAGAAAAAGGAAAACTTGTGAAAGAATTAAATAGTTTGAGGGACGAACAGGACAAATTGAAAAAGGAATTAACAGTTGAGAAAAATGCTAAGGAGGCTGCACTTAAAGAAGTAGAAGGTCTTAAATCGGAATTATCGATGATGAGGGCTGAATTAGAAAAATATAGAACAGAAAATGAGAAGTCAAAATCTGATTTGGAGGCATCAAAGAAGAAAGTTGCTGAATTAACGAACGAAAATGGAATTTTAAAAGCAGAGATCGAAAAATTAAGAAATGAATTGAATGTTTTGAAGAGTGAAAATACGAAGCTTAAAGATGAGTTGAATAAAGTGAAAAATAATCTAGAGAATGTGACAGCAGAGTATAATGCTTATAAAGCAGAAAAGGAAAAGGAAATTAATAATCTCAAAACAGAGAATGATCGGTTAAAAAAAGAACTTGCAGATGTACAAGCGAAAGCGAAAAATTTGGAAGATCAGCTGAAGAGTCTTCAGGATGCTAAAGCTAAATTAGAAGCTGATGCTGCAGATTTAAAATCACAGTTGGAAAAGTTGAGACAAGATCTTGTGGTTGAAAAAGGAAATAAAGAAGCTGCTCGAAAAGAACTCGAAGCTTTGAAAAATACTTTAGGTGACTTGAGAAACGAGATGGGAAAAATTAAGGAAGAAAATGAGAAGTTGATAGTGGAGAATGCAAGTTTGAAAAAGCAGATTGATAAGTTGAGAAGTGATGTAGAAAAATCGAAAGGGGATTTGGATAAACTTGAAGCTGAGAATGAGAGACTGAGAGGTGAGATTAATAAGTTGAAAGAAGATTTAGAGAAGTTGAGAGCAGAATTAGAGAAAATAAAAGCAGAGAAAGATAAGATGAAGGATGAACTTGAAAAATCGAAAGCAGATGCAGCAAAATTACGAGATGATCTACAGAAAGCGAAGGCAGATGTTGATAGATTAATTTCTGAAAATAAAAAGCTGAAGAATGATTTGGATGAGGCAAAGGCAGGATCTGATATGTTGAAAGCGAGGGTTAATAAGGGAAGTGTTGAATCTAATAAGTGGAAGGAAGAATTGGAAAAGTTGAAACATGAACTTGCAAAAGCAAAAGATGAAGCTAATCAATGTAAAGCTGAGGTAGGTAGGTTGAAATCTGAAATTGAAAGATTGATGGCAGAAATGGATAAAATGAAAATTCAGGATCGAAAATCAAAAGTTAGCATTGATCGTCCCAAAGTTGAAACACCTAAAGTTGATTCGAGAAGGATATCAGATCGTCCTGAAAAATATGATTCAAAAGTTCCTGAAGACGAATGTGGGGACTTCATTAAGTCCAATGAGATTTTGAGGAAGAGGATACAGGAACAAAACAAGGCTATTGATCGTGTTAGAGAATTTATTGGTTTCGTGGAAGGTAAAAATCCATCAAAGCCTTCGATGGCTAAAGATTATAGTGCTGATGGCGACACTGGTGGTTGGATAGTACCAGCGGTAAATGAAGTTATGGAAAAGTCACAAAAACTATCAGAAAATATTTTCAAAGCCGAGAAAGAAATACAACATCTCGAGGCATTTCTTCAACGAAAGAGCGTTGGAGATTCGGAAGCGTTGGTTCCAGAAGGTTCCAGAGGAGATTTTAATGCCGATTCCTGGTTGGGATCATTGACCTTGACCCAATTGGCCGAACTACATGATAAGATTTGTCTGCTTACTGCTTCAATGGTTGATGCTGACAGCAATTCTATCGGTTCAGAAAGAGTACTTCCTGAGAATCAATTAGGAAACGAACAAAGTCCTCAAAGATTGAACAATCCTTTGGAAAGAGATTATGAAACTCTGAATAAAAGAATTGCAGCTTTGCAGAAGCAAATTTCTGAAAAAGAATTAGAGGCCGCGAGAAAGATGCATGAGATGAAGAATATTCTTCGTCAAGAACAAATGCAATTGATTAAGATTTCAGAAGAAATGACTAAGGAGAAGAAACGAAATTTAGCACTTCAGATGACAATTGACCAAGATCCTTGTTGGACGAAAAATTGCACTGCAGAATGTAGAGGAGATTTCGATAATATTAGAGAATATTAA
Protein Sequence: MNVYHDQFCHCGCEAPGNFKPEEPPHEPCCCCDYNPFSDNSKDAEIYDLPFALRKLTVMKCQMKKWRMERLQLESETRSLKQALQQYGINIDEALKPDPLVIHYREENLRLQNLNEELEDKVVDLTGTLDEREYSEDPCDSVKYIREKMKDLRIRFADEKKQLRDKIAALNLKLAEMDDDTSCSALNRLRAKLRELMKGGQKADQQVSMVVEKSIETMVELSKSCEDLKSENERLLAQLEALRKKMEQREPSRITLKEDPMIPHDMGLEPSEITEGQDVSELYDKIKKCEALVADLRRQLAEKDQMINDLEKNLFTQKRVSGQLEEDLDKMTVSHKALMKEAVAMKEELKKRDDKVTDLLGNLRSDLTKIRGLVSERNDQIVKILEQKDKLSSECDTKLLAMQTRLDALLDQEALLKKQIEDLKSEVKELEDEITGLRARILELEQKGNENEDLIEKIHDLEDQLDKLNAELSSAQNRVKELEGEVSDLKSEKEKLLKNLADAETEIEEIKKDLQAERIAKESLSKDLEVCKDELEKLKLENRTLESENQSLKDNLKKLGDEIKFLKEENEIFKAENSNIIAENQKFQEEIEKLKAENEKAQVEMDKLKNEVKNLEAEKNVIENELNVLKGEIEKLKVDLKSLEDENAVLKEELNNIKEEKDKLEKDLKAVQAEIEKLRSDLEMEKTKKEDALKELEDYKKQLSLIKDELENLKVQLEKSSVELATLADQNKKLKDELENVKRDLEKSVAELTALKEQNEKLEAALQKMREDLENLTNENKELKAKIDHLNSEIEKFKAENDKLLNEISKLKEEVDQLKNENKKLQDEYQHLKDENVILKDENAQLKDSLDKSVMELSALKEQNEKMKAFVENMKDEIESLRKDNEELKAKMNDLNSEVEKLKVENNKLSKENDDLKSEVDQLKDENNKLKDENTNLKDNLKKSEADLEKLKTDFDKLKIENEELKKDLDKVKAEAENMNNELKNLSAELDKVRKEKDNLEEKLANLESDLEKLKAENINLNTELKKAKEDNEALRNETDSLRNENAKLKAAGDSEKEEKNKANEKIRSLKDHNEKISRDLDNARSEINSLKGEVDHLKSEIESIKGKLQSKEDELNALKNELKDFLSKFDELKDENNRLKTERESLRKQLNDLKNELSRLEAENLDLKEELAKLKSELVKIVAENDNLKKELAEVLKDYDQCQTDGCKLKNEIDKLKAAIENLKKELGNSEAKIKELEGRLLSKENEKNSLEREIEGLKKNLTAEKAEKEAVLKKLEDLNEELKVLKAELARLRSENDQHRGEIDDLKKQLVLTKDELNKAKSEIAALKDDNNKLKGQGDTLANESEKLRGELGKWKAEAEAQRNENSKLKNKVDKLGAENTRLKNEIEGLNNEVSGLKNINSKLQNELGAAKSEVDKLKSELSASRAENEKLKGEMNSLKSEVGRLNEEMNKIKAEIERLKKSLADGEAKIKNLEGQVASLESEKGKLVKELNSLRDEQDKLKKELTVEKNAKEAALKEVEGLKSELSMMRAELEKYRTENEKSKSDLEASKKKVAELTNENGILKAEIEKLRNELNVLKSENTKLKDELNKVKNNLENVTAEYNAYKAEKEKEINNLKTENDRLKKELADVQAKAKNLEDQLKSLQDAKAKLEADAADLKSQLEKLRQDLVVEKGNKEAARKELEALKNTLGDLRNEMGKIKEENEKLIVENASLKKQIDKLRSDVEKSKGDLDKLEAENERLRGEINKLKEDLEKLRAELEKIKAEKDKMKDELEKSKADAAKLRDDLQKAKADVDRLISENKKLKNDLDEAKAGSDMLKARVNKGSVESNKWKEELEKLKHELAKAKDEANQCKAEVGRLKSEIERLMAEMDKMKIQDRKSKVSIDRPKVETPKVDSRRISDRPEKYDSKVPEDECGDFIKSNEILRKRIQEQNKAIDRVREFIGFVEGKNPSKPSMAKDYSADGDTGGWIVPAVNEVMEKSQKLSENIFKAEKEIQHLEAFLQRKSVGDSEALVPEGSRGDFNADSWLGSLTLTQLAELHDKICLLTASMVDADSNSIGSERVLPENQLGNEQSPQRLNNPLERDYETLNKRIAALQKQISEKELEAARKMHEMKNILRQEQMQLIKISEEMTKEKKRNLALQMTIDQDPCWTKNCTAECRGDFDNIREY

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_01390819;
90% Identity: iTF_01394028;
80% Identity: -