Basic Information

Insect: Euglossa dilemma
Gene Symbol: -
Assembly: GCA_002201625.1
Location: NIJG01000241.1:74043-96156[-]

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 42 0.091 62 3.4 0.9 29 60 42 73 37 77 0.74

2 42 0.26 1.8e+02 2.0 0.8 33 54 91 112 86 115 0.63

3 42 0.00079 0.54 10.1 2.8 28 60 190 222 182 225 0.88

4 42 0.082 56 3.6 5.2 29 63 326 360 324 362 0.92

5 42 1.9 1.3e+03 -0.8 1.4 32 52 399 419 381 444 0.60

6 42 0.0011 0.73 9.6 7.4 26 64 445 483 441 484 0.93

7 42 0.00024 0.16 11.7 9.0 32 64 482 514 480 515 0.93

8 42 0.001 0.71 9.7 0.8 28 62 506 540 505 542 0.93

9 42 0.0018 1.3 8.9 8.2 29 63 535 576 529 578 0.61

10 42 0.0018 1.2 8.9 10.7 21 60 590 629 585 634 0.94

11 42 1.2e-05 0.0079 15.9 1.6 28 59 646 677 641 680 0.92

12 42 0.00079 0.54 10.1 4.0 25 63 678 716 676 722 0.89

13 42 0.0073 5 7.0 0.3 42 64 723 745 718 746 0.90

14 42 3.7e-05 0.025 14.3 5.6 27 65 743 781 738 781 0.88

15 42 0.00089 0.61 9.9 9.5 23 62 753 792 750 794 0.80

16 42 0.049 33 4.3 1.9 25 59 776 810 775 811 0.64

17 42 0.19 1.3e+02 2.4 0.3 42 63 821 842 816 844 0.80

18 42 0.00069 0.47 10.2 6.7 24 64 831 871 828 872 0.88

19 42 9.1e-05 0.062 13.1 6.1 25 65 874 914 871 914 0.93

20 42 3e-05 0.021 14.6 10.1 26 59 910 943 908 945 0.93

21 42 0.0024 1.6 8.5 3.1 37 64 942 969 941 970 0.89

22 42 0.0018 1.2 8.9 1.4 25 52 979 1006 977 1011 0.90

23 42 3.3e-05 0.022 14.5 9.4 21 65 1010 1054 1007 1054 0.93

24 42 5.4e-05 0.037 13.8 0.7 25 62 1063 1100 1061 1102 0.93

25 42 0.001 0.71 9.7 6.4 22 62 1109 1156 1105 1159 0.72

26 42 0.11 74 3.2 1.2 29 64 1144 1179 1142 1180 0.89

27 42 0.0049 3.3 7.5 2.9 24 62 1181 1219 1174 1222 0.76

28 42 0.0068 4.6 7.1 5.2 31 63 1230 1262 1224 1266 0.83

29 42 0.00026 0.18 11.6 4.3 20 63 1268 1311 1263 1313 0.86

30 42 0.094 64 3.4 0.1 31 63 1314 1346 1311 1348 0.87

31 42 0.026 18 5.2 3.5 30 62 1344 1376 1343 1382 0.53

32 42 1.3e-05 0.0085 15.8 3.7 24 62 1415 1453 1399 1455 0.89

33 42 0.0047 3.2 7.6 6.3 26 64 1459 1497 1456 1498 0.89

34 42 0.74 5.1e+02 0.5 8.4 29 64 1518 1553 1496 1554 0.72

35 42 0.021 14 5.5 8.4 28 63 1538 1573 1534 1582 0.50

36 42 0.023 15 5.4 5.3 24 60 1583 1619 1580 1624 0.79

37 42 0.3 2e+02 1.8 7.5 28 62 1618 1652 1615 1655 0.88

38 42 0.015 10 6.0 2.6 32 63 1657 1688 1654 1690 0.74

39 42 3.6e-05 0.024 14.4 8.7 22 57 1689 1724 1687 1725 0.95

40 42 0.00022 0.15 11.8 5.4 28 63 1716 1751 1715 1753 0.92

41 42 0.033 23 4.9 1.6 32 60 1755 1783 1751 1788 0.78

42 42 0.019 13 5.6 16.4 8 61 1786 1844 1781 1847 0.72

#	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	42	0.091	62	3.4	0.9	29	60	42	73	37	77	0.74
2	42	0.26	1.8e+02	2.0	0.8	33	54	91	112	86	115	0.63
3	42	0.00079	0.54	10.1	2.8	28	60	190	222	182	225	0.88
4	42	0.082	56	3.6	5.2	29	63	326	360	324	362	0.92
5	42	1.9	1.3e+03	-0.8	1.4	32	52	399	419	381	444	0.60
6	42	0.0011	0.73	9.6	7.4	26	64	445	483	441	484	0.93
7	42	0.00024	0.16	11.7	9.0	32	64	482	514	480	515	0.93
8	42	0.001	0.71	9.7	0.8	28	62	506	540	505	542	0.93
9	42	0.0018	1.3	8.9	8.2	29	63	535	576	529	578	0.61
10	42	0.0018	1.2	8.9	10.7	21	60	590	629	585	634	0.94
11	42	1.2e-05	0.0079	15.9	1.6	28	59	646	677	641	680	0.92
12	42	0.00079	0.54	10.1	4.0	25	63	678	716	676	722	0.89
13	42	0.0073	5	7.0	0.3	42	64	723	745	718	746	0.90
14	42	3.7e-05	0.025	14.3	5.6	27	65	743	781	738	781	0.88
15	42	0.00089	0.61	9.9	9.5	23	62	753	792	750	794	0.80
16	42	0.049	33	4.3	1.9	25	59	776	810	775	811	0.64
17	42	0.19	1.3e+02	2.4	0.3	42	63	821	842	816	844	0.80
18	42	0.00069	0.47	10.2	6.7	24	64	831	871	828	872	0.88
19	42	9.1e-05	0.062	13.1	6.1	25	65	874	914	871	914	0.93
20	42	3e-05	0.021	14.6	10.1	26	59	910	943	908	945	0.93
21	42	0.0024	1.6	8.5	3.1	37	64	942	969	941	970	0.89
22	42	0.0018	1.2	8.9	1.4	25	52	979	1006	977	1011	0.90
23	42	3.3e-05	0.022	14.5	9.4	21	65	1010	1054	1007	1054	0.93
24	42	5.4e-05	0.037	13.8	0.7	25	62	1063	1100	1061	1102	0.93
25	42	0.001	0.71	9.7	6.4	22	62	1109	1156	1105	1159	0.72
26	42	0.11	74	3.2	1.2	29	64	1144	1179	1142	1180	0.89
27	42	0.0049	3.3	7.5	2.9	24	62	1181	1219	1174	1222	0.76
28	42	0.0068	4.6	7.1	5.2	31	63	1230	1262	1224	1266	0.83
29	42	0.00026	0.18	11.6	4.3	20	63	1268	1311	1263	1313	0.86
30	42	0.094	64	3.4	0.1	31	63	1314	1346	1311	1348	0.87
31	42	0.026	18	5.2	3.5	30	62	1344	1376	1343	1382	0.53
32	42	1.3e-05	0.0085	15.8	3.7	24	62	1415	1453	1399	1455	0.89
33	42	0.0047	3.2	7.6	6.3	26	64	1459	1497	1456	1498	0.89
34	42	0.74	5.1e+02	0.5	8.4	29	64	1518	1553	1496	1554	0.72
35	42	0.021	14	5.5	8.4	28	63	1538	1573	1534	1582	0.50
36	42	0.023	15	5.4	5.3	24	60	1583	1619	1580	1624	0.79
37	42	0.3	2e+02	1.8	7.5	28	62	1618	1652	1615	1655	0.88
38	42	0.015	10	6.0	2.6	32	63	1657	1688	1654	1690	0.74
39	42	3.6e-05	0.024	14.4	8.7	22	57	1689	1724	1687	1725	0.95
40	42	0.00022	0.15	11.8	5.4	28	63	1716	1751	1715	1753	0.92
41	42	0.033	23	4.9	1.6	32	60	1755	1783	1751	1788	0.78
42	42	0.019	13	5.6	16.4	8	61	1786	1844	1781	1847	0.72

Sequence Information

Coding Sequence: TCGTCGTTGGAATCGATGAATCCGCCGAACGAGCCGTGCTGTTGCTGCAGTTACAATCCCTTCAGCGACAATTCCAAAGAATCGGAGATCTACGACCTCTCGTTTGCCCTGAGGAAGCTCTCGGTAATGAAGTGTCAGATGAAGAAGTGGCGAATGGAAAGACTTCAGCTCGAGAGTGAAAATAGGTCTCTGAAACAGGCCCTCCAGTCATACGGTGTAAATGCGGATGAGATATTGAAGCCCGATCCGCTGGTAGTGCACTCTCGCGAAGAAATCGAAAGGCTGCAAAATGCAAACGCGGCGCTCGAAGATAAAGTGAGGGATCTGGAGGAAACTCTCGTCGAACGAGATTGCTGCGACGATCCTGGAGCTACGATTCACTTCCTCAGAGAGAAAATGAGATATCTCAGGGAGCGCTTCGCGCTTGAAAAGAAAGAATTGCGGGACATGATATCGCATTTGAAGCTGAAGTTGGCGCAGGCCGAGGAGGACGTCAGCTGCCCGGCGATATATCGTCTAAGGGCGAAGCTGCGTGAACTCATGAAAGAGAGATCGATCGAAACCTTGGTGGAGCTCTCCGAGAGCTGCGGGGATCTTCGTTTGGAGAACGAACGCCTTCTATCAGAGGTGGCCGAGCTGCGTGACGCCTTGGCCAAGATGAAGGAACATGAGCTGGAATTCGATCCTATGATGAGAACCATCGACACGTCCACCGTGCCGGAATACGTTGACATCGACGAGTTGCTGGAGAAGCTGAAGAACTGCGAAGACACGGTGGCTGATCTGAGGAAACAGCTAGACGAGAAGGACACCTTGATAGACTCGCTGAACAAAGAACTGGAGACGATGGTTAGTCAGATGGGTCTGCAAGAGCAGATAGAGGCCATGGCTGAGGAACTTAAGAGGAAAGATGAGAAGATCACCGATCTACTGAACACTCTGCGACAATCAGAAATAGACCTGCTCGGTTTAAGCGGGCTGAAATCCGAGCTGGAGGACCTGAAGCCAGAACTGCAAACTCTGAAACTAGAAAAAACCGAGATGCTAGACGAATTATCTCGTCTACGAGAGGCACTGAAAAACAGGAACGACCAGATAATAGACATCTTAGAACAGAAGGAGAAGATCGAAAGAGAACACCAAGCCAAGGTCTCGGCGTTACAGTCTAGCCTCGATGAGGCATTGGCTGCTCAAGCTCAGCTCGCTAAACTGACGGATGAGCTGGCCCAATGTAACAGTCGGAACGCGGAGCTCGAGGAGTGTTGCAAAGATAGGGATGCTCTCGCGGAGAGGGTACGCAGTCTGGAGGACGATCTGGCTACCGCGAAGGGCACAATAGCAAATCTCGAGACAGAGTTGGACACCCTGAAGTCGGAGAAGGAAAAGTTGTTAGCGGAGCTGGACAAGGCTAAGAAACAGATCGAGAAACTTCGCGAAGCGTTGCAGCAGGCGGAGAAGCTGGCCGAGGAGAACGAAAAGTTAAGGGCTCAGTTAGAAGAGCTGAGGAGCGAGAACGAAGGTCTGAAGAAGCAGATAGCCGAGCTGGACGATTTGAATAATCGGCTGAAGGACGAGTATGACAGCATGAAGCAAGCGTTGGGCAATTTGGAAGCGGAGGTGAACAGGCTGGAGGACGAACTGAGCAGGGTGGTGCAAGAACGCGACGCGTTGCAGAATGAGAATAAGGACATGAAAGAGCGACTCGAGCAGTTGATAGCCGAGAACGAGGCCCTGATGGCCAGGCTGGACGAGGTCGCTGAACAACTTGATAAACTGAAGTTGGAGAAGGAAGAGCTACAGAGGAGTCTCGACGAGATGAGGAAGGAGAACGATTCGCTGAAACGAGAAGCGAAGGCGTTAAGGGACAACCTTGAGGAGCTGAAAGCTGCAGGCGACGCGCTGAGAGCGGCAGATGGGGACATGAAACTCGTATTAGACAAATTGGAACGGGACATGAAGGATCTGACGGCGGAAAGGGATCGTCTGGCGAGCGAGAATGCGGATCTGAAAAACGAGAACGCCAATCTGAAGATCAAGATGTTGGAGTTGCAACAGAGGTTGGACGATATCACGAAAGAGTTGGATAACTTGAAGCTCGCAAACTCCGATCTGCTGGCTGAGATAGATCGCCTGAAAAACGAATTGGAAGTCGCGCGGAACAACATCGAACAATTGAAATCCGAGGTAGCTTCGTTGAAAGAGGCTCTCGACAAGTGCGTGGGCGAGATGGAGAAACTGAGAATGGAGAATCAACAGCTCAAAACGGAGAACGAGTCTCTGCAATCTGAAAGGGATCGCCTGACGAACGAAAACGCCGGTCTGAAGGCGAAAAACTCGGAATTGCAAGAAAAATTGACGAACGTCGAGAAAGAACTGGCTAAGATAAAGGCAGAGAATGCTGGTCTGCTCGGTGAAATAGATCGTTTGGAGCAGTAATTGAAGGAAGCCTGGGAGGATATCGATCAATTGAAATCCGAGATGGATTCGCTGAAAGAAGAGCTCGACAAGAGCACAGCCGAGATAGAAAGGCTGAGTGCCGAGAACAACGACCTTAAATCGCAATTGCAATCGTTGAACAACGAATTGAATAGGCTGAAGAGTCTACTAACTGAAGCTGAGGATAAGATTCGATCTCTGGAGCCGCAGATCACTAGTTTACAGGCAGAGAACGATAAATTGCGAACAGCCAAGGCCGAGCTAGAGGCTGAGAAGGAGAAGTTGGAAGCTGAGAACAAAAAGCTGGAGGCTGAGATGGAGAAACTAGAGGCTGAGAAGGAGAAACTAGAGACTGAGATTAAGAAGCTGAAAGAAGAGCTGGGCGAGTGTAAGGGAGAGAATGACCAGTTAAAGGAGGAGATTGGTAAATTGAAGGAACAGTTGCAATCGTTGAACGACGAATTGAATAGGCTGAAGGGTCAGCTAACTGAAGCTGAGGACAAGATTCGATCTCTGGAGCCGCAGATCACTAGTTTGCAGGCAGAGAATGATAAATTGCAAGCGGCCAAAGCTGAGCTGGAGGCTGTGAAGGAGAAACAAGAGGCTGAAATCGAGAAGCTAAAAAAAGAGCTGGCCGAGTGTAAGGGAGAGAATGACAGGTTAAAGGAAGAGATTGGTAAATTAAAGGAGCAATTGCAATCGTTGAACGACGAATTGAACGAACTGAAGGGTCAGCTGGCCGAAGCTGAGGAGAAGATTCGATCTCTGGAGCCGCTGGTCTCTAGTTTGCAAGCAGAGAACGATAAATTGCGGAGCGATTTGGCCGCATTGGAGAACGAGGCGAGCGGGTTGAGGGCGAAAGTGGCTAGAGAAATGGACAGCAATGAAAGGATGAGGAACGATATGAAAATACTGGAGGATCAGGTGCAAGACTTGAGTAAGAAACTGGACAACGCCAGGGCCGAGAACGAAGCGTTGAAGCAGGAAAATCTGGCTCTCAAGGCGAAATTGGCAGATGTCGAAAGATATTTGTCGGAATTAAAACTGGAGTGCACGGATTTGAAAACGGAAATCGCGGATTTGAAAAAATTAATAGAGGAATTGAGGGCGAAAATCGCTCAGCTGGAGGCAGATGTAGATCATTGGAAAATGGAGAATTGTAAGCTTCAGCTGGAGATCGATAAGTTGAGTGCTGATCTTGAGAAAGCATTGAAAGAACTAAGCGAGATACAGGCTCTGAAAAAAGCACAAGAGGCAGAGCTGAACCGTCTACAGACAGAGAAAGCTGATCTCGATAAAAAGCTGGCGGATCTAACCTCCGAGATCGAGCAGCTGAAGAAAGCTCTAGAGGCAGAAAAATCAGCCAAAGACAAAGGAGCCTCGGAAATCGCTGCTCTGAAAGACGAGCTGGAAGCATTGAAGAAGGAACTAGAAAAATTGCGAGCGGAGAACAACAAATTCAAAAACGAGATCGACGACCTAGAGAAACTTCTCTCAGCCACGAAGAGGGAACTGAACGATGCTAAAGACGAGATCGCCGCTCTAAGAGACGCGAACGGCGTGTTGCGAACCGAATTGGACGGTCTGAAGAACTTAAAGGCCGAGCACGACAAGCTGAAAGCCGAGCTGGAAGCTGTGAAAGCGGAGAACGCGAATCTTCGCGAGGCCACGAAGAACCTGGAGGACCAATACGGCAAACTGAGAGGAGAAGGCGATGGCCAAAAGGTAGAGATCGACACGCTGAGATCAAACCTGGATGCAGAGAAGGCAGCTGTTGCCAGGCTAAAGTCAGACCTCGAAACCTGCAAGGCTGAAAACGACAAGTTGCAAGCGCAGTTGAACGAGTTGAAGAAGGATCTAGACAAATTAAGAACAGAGAACGATGCCATGAAGAAAGAGATCGATGGTTTAAAGAAGGCTCTCGCAGACGCAGAGACAAGGGTGAAGTCTCTCGAAGGCGAACTTTCGAATCTGCTAGCAGAGAAACAGGAACTGGTCAACGAATTGAATCGTCTTCGGGACGAGGTGAACAACCTCGAGAACGATCTGCAAAAGCAGACGGCCGCCAAAGACATGGCTACCAAAGAGTTAAACGATCTCAAGGATGAGCTGGCAAACCTGAGAGCAATGCTAAACAAGAGTCGCGATGAAAATGATACTCTGAAGAACAAGAACGAGAAGCTGACCAAGGATTTAGAGGAGTTGAACAAGCTGATGGAAGCTCTCAGAAACGAAAACGCGAAGCTTCAAAACGAGATCGCTGACGCGACCAGCAAGAACGCAGAACTGACAGCGGAGCTGACCAAAGTGAAGGATAAATTAAAAGACGCCGAAAATAATTTGAAAAATCTGACCAAGGAGAATGAGGATTTGAAGAACAAGATTGCTGATCTCGAGAATATAATAAAACAGCTCGAAGGTTTGAAGAAACAGTTGGAAAATGCTAAGAAGGAGCTGGATAAGCTGTTACCAGAGCTGGACAGGTTGAAGTCGGAGAACGCGAAACTGAAAGAAGACTTGGTCAAGGCTACGAATGAATCGTCGAAGTTAAGGGACGAGCTGGATAAATTGAAGAAGGATCACGAGGCTTTGCAATCGGAATTAGGTGGTCTGAAGGAGGAGATGGAGAGACAGAAGGAGCGCGAAGCAGCGATGGAAAAGGAACTGGTCAGGTTGAAGAAGGAGAACGACCAGCTGAAGAATGGCAATTCGAAATTGAAAAAAGAGTTAGAGGACTGCCAAGCTGAGAACCAAAGGTTGCGAGGTGAACTCGAGGATCTCAAGGCGAAGAATGCAAAGTTGCATAATGATCTAAGCAAGGCGAAGAATGATGCCGATAAATTGAAGGCTGATCTGGATAAATTGAAGAGCGAATATGCAGATCTAAGAAAAGAATTGGCTAATGCAAGGGACGAGAAGAACAAACAGAAGGAACGCGACTCCGCGGATTTGGCGAAGATGAAGAAGGAGAACAACGAGCTGAAGAACGGGAACGCAAAGCTGAAAAGTCAGTTATACGATTGTCAGAAGGAGAACGATAGACTGCGCAAGGAATTGGAGAATTTAAAGAGAGAAAATGCAAAACTGAAGAAGGCTGCAGAGAGAAAGGTGGAGCCAAAGGCGACGGAAATGGACAAAGATATTGTGGATGATTGCGGCGACTTCATTAAGGCGAACGAATTACTGGGGGAAAAATTTGAAAGGCAGAACGAAGGCTTAAATCGTCTTCGAGATTATATTAAATACTTGCAAGGAGAAATCCAAGAACCCAAGATGGCGGACAAGTTAGACGAAGAACCGAAAGCTGATTCGGAAGCAAAGAAAGAAATCGTAGATATATTGAAGAAATCTCACGGTTTGTCTAAAAATATTTATGAAACGTTTTTCTGTTTGAAATTATTTTAAGCACTGAAACGAAATGTCTCTGAAGGAGTCTTCGATCCTGATTCTTGGCTAAATCTGGCAGACCTTCATGACAAGATCTGCCTATTGACATCGGACATGGTGCACCCTGACACTAAACCGAAGATCTGCGACCAAGCACGCGGAGTACCGTGTCCCGGAGCATCGAGGCCGGATCCGAATATTTTGAACAAGCGTATAGCCGCTTTGCAGAAACAGATAGCCGAGAAGCAAATGGAGGCAGGCTTGAAGCTCCGGGATCTGAAGAGAGCTCTTCGGAACGAACAGGCTAACCTAATTCGAATGTCCGATCAGATGAATCGAGAGAGAAAACGCAATTTGAACCTCCAGCTCAACATGGAT
Protein Sequence: SSLESMNPPNEPCCCCSYNPFSDNSKESEIYDLSFALRKLSVMKCQMKKWRMERLQLESENRSLKQALQSYGVNADEILKPDPLVVHSREEIERLQNANAALEDKVRDLEETLVERDCCDDPGATIHFLREKMRYLRERFALEKKELRDMISHLKLKLAQAEEDVSCPAIYRLRAKLRELMKERSIETLVELSESCGDLRLENERLLSEVAELRDALAKMKEHELEFDPMMRTIDTSTVPEYVDIDELLEKLKNCEDTVADLRKQLDEKDTLIDSLNKELETMVSQMGLQEQIEAMAEELKRKDEKITDLLNTLRQSEIDLLGLSGLKSELEDLKPELQTLKLEKTEMLDELSRLREALKNRNDQIIDILEQKEKIEREHQAKVSALQSSLDEALAAQAQLAKLTDELAQCNSRNAELEECCKDRDALAERVRSLEDDLATAKGTIANLETELDTLKSEKEKLLAELDKAKKQIEKLREALQQAEKLAEENEKLRAQLEELRSENEGLKKQIAELDDLNNRLKDEYDSMKQALGNLEAEVNRLEDELSRVVQERDALQNENKDMKERLEQLIAENEALMARLDEVAEQLDKLKLEKEELQRSLDEMRKENDSLKREAKALRDNLEELKAAGDALRAADGDMKLVLDKLERDMKDLTAERDRLASENADLKNENANLKIKMLELQQRLDDITKELDNLKLANSDLLAEIDRLKNELEVARNNIEQLKSEVASLKEALDKCVGEMEKLRMENQQLKTENESLQSERDRLTNENAGLKAKNSELQEKLTNVEKELAKIKAENAGLLGEIDRLEQ*LKEAWEDIDQLKSEMDSLKEELDKSTAEIERLSAENNDLKSQLQSLNNELNRLKSLLTEAEDKIRSLEPQITSLQAENDKLRTAKAELEAEKEKLEAENKKLEAEMEKLEAEKEKLETEIKKLKEELGECKGENDQLKEEIGKLKEQLQSLNDELNRLKGQLTEAEDKIRSLEPQITSLQAENDKLQAAKAELEAVKEKQEAEIEKLKKELAECKGENDRLKEEIGKLKEQLQSLNDELNELKGQLAEAEEKIRSLEPLVSSLQAENDKLRSDLAALENEASGLRAKVAREMDSNERMRNDMKILEDQVQDLSKKLDNARAENEALKQENLALKAKLADVERYLSELKLECTDLKTEIADLKKLIEELRAKIAQLEADVDHWKMENCKLQLEIDKLSADLEKALKELSEIQALKKAQEAELNRLQTEKADLDKKLADLTSEIEQLKKALEAEKSAKDKGASEIAALKDELEALKKELEKLRAENNKFKNEIDDLEKLLSATKRELNDAKDEIAALRDANGVLRTELDGLKNLKAEHDKLKAELEAVKAENANLREATKNLEDQYGKLRGEGDGQKVEIDTLRSNLDAEKAAVARLKSDLETCKAENDKLQAQLNELKKDLDKLRTENDAMKKEIDGLKKALADAETRVKSLEGELSNLLAEKQELVNELNRLRDEVNNLENDLQKQTAAKDMATKELNDLKDELANLRAMLNKSRDENDTLKNKNEKLTKDLEELNKLMEALRNENAKLQNEIADATSKNAELTAELTKVKDKLKDAENNLKNLTKENEDLKNKIADLENIIKQLEGLKKQLENAKKELDKLLPELDRLKSENAKLKEDLVKATNESSKLRDELDKLKKDHEALQSELGGLKEEMERQKEREAAMEKELVRLKKENDQLKNGNSKLKKELEDCQAENQRLRGELEDLKAKNAKLHNDLSKAKNDADKLKADLDKLKSEYADLRKELANARDEKNKQKERDSADLAKMKKENNELKNGNAKLKSQLYDCQKENDRLRKELENLKRENAKLKKAAERKVEPKATEMDKDIVDDCGDFIKANELLGEKFERQNEGLNRLRDYIKYLQGEIQEPKMADKLDEEPKADSEAKKEIVDILKKSHGLSKNIYETFFCLKLF*ALKRNVSEGVFDPDSWLNLADLHDKICLLTSDMVHPDTKPKICDQARGVPCPGASRPDPNILNKRIAALQKQIAEKQMEAGLKLRDLKRALRNEQANLIRMSDQMNRERKRNLNLQLNMD

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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