Basic Information

Insect: Amphibolips quercusostensackenii
Gene Symbol: -
Assembly: GCA_032357855.1
Location: JAUELO010000347.1:1587954-1604391[+]

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 38 0.29 1.9e+03 1.3 0.6 31 58 60 87 54 93 0.69

2 38 0.3 2e+03 1.2 0.4 37 64 104 131 101 132 0.80

3 38 2.7 1.8e+04 -1.8 0.2 29 55 155 174 146 180 0.48

4 38 0.0012 7.7 9.0 3.3 25 56 216 247 212 256 0.89

5 38 0.11 6.9e+02 2.7 2.4 35 60 311 336 295 341 0.79

6 38 0.12 8e+02 2.5 6.3 23 59 421 457 419 479 0.77

7 38 0.014 92 5.5 5.3 28 59 485 516 481 521 0.82

8 38 0.013 85 5.6 5.6 27 64 526 563 523 564 0.73

9 38 0.0083 54 6.3 1.8 29 49 563 583 562 586 0.90

10 38 0.00085 5.5 9.4 4.6 21 65 590 634 587 634 0.96

11 38 1.4 9.4e+03 -0.9 8.0 25 64 629 668 628 671 0.82

12 38 2.3e-06 0.015 17.7 0.8 24 64 684 724 682 725 0.94

13 38 0.022 1.4e+02 4.9 4.2 29 57 741 769 738 776 0.90

14 38 2.3e-06 0.015 17.7 4.0 24 65 778 819 777 819 0.95

15 38 0.00062 4 9.9 5.0 28 62 803 837 802 840 0.86

16 38 0.0049 32 7.0 3.5 33 63 843 873 838 875 0.88

17 38 0.011 69 5.9 7.3 22 60 888 926 886 932 0.84

18 38 5.4 3.5e+04 -2.8 9.5 21 37 957 973 922 1001 0.52

19 38 0.18 1.2e+03 2.0 2.7 24 63 981 1020 978 1022 0.81

20 38 1.7e-05 0.11 14.8 1.5 33 62 1025 1054 1022 1057 0.91

21 38 0.34 2.2e+03 1.1 2.0 37 62 1057 1082 1053 1094 0.72

22 38 0.039 2.5e+02 4.1 1.2 36 64 1105 1133 1085 1134 0.81

23 38 0.13 8.5e+02 2.4 1.8 25 57 1129 1161 1126 1168 0.77

24 38 0.018 1.1e+02 5.2 10.1 24 62 1170 1208 1163 1210 0.84

25 38 0.0055 36 6.8 2.1 21 63 1216 1258 1216 1260 0.90

26 38 0.42 2.7e+03 0.8 0.7 33 59 1256 1282 1254 1283 0.73

27 38 1.4e-06 0.0089 18.4 1.9 22 62 1280 1320 1278 1323 0.93

28 38 0.032 2.1e+02 4.4 0.7 33 65 1326 1358 1323 1358 0.84

29 38 5.2e-07 0.0034 19.7 5.6 25 63 1367 1405 1366 1405 0.95

30 38 0.00016 1.1 11.7 2.7 32 64 1447 1479 1429 1480 0.87

31 38 0.00078 5 9.5 9.1 9 62 1507 1565 1501 1566 0.80

32 38 0.00014 0.88 12.0 9.8 12 64 1571 1623 1569 1624 0.93

33 38 0.00032 2.1 10.8 4.3 21 64 1615 1658 1615 1659 0.92

34 38 0.0018 12 8.4 3.8 26 62 1634 1670 1628 1673 0.58

35 38 0.84 5.4e+03 -0.2 0.6 33 56 1676 1706 1663 1710 0.55

36 38 0.92 6e+03 -0.3 0.8 39 63 1731 1755 1721 1762 0.50

37 38 5.4 3.5e+04 -2.8 0.5 24 58 1775 1809 1774 1811 0.75

38 38 2.2 1.4e+04 -1.5 0.9 32 57 1947 1972 1940 1979 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	38	0.29	1.9e+03	1.3	0.6	31	58	60	87	54	93	0.69
2	38	0.3	2e+03	1.2	0.4	37	64	104	131	101	132	0.80
3	38	2.7	1.8e+04	-1.8	0.2	29	55	155	174	146	180	0.48
4	38	0.0012	7.7	9.0	3.3	25	56	216	247	212	256	0.89
5	38	0.11	6.9e+02	2.7	2.4	35	60	311	336	295	341	0.79
6	38	0.12	8e+02	2.5	6.3	23	59	421	457	419	479	0.77
7	38	0.014	92	5.5	5.3	28	59	485	516	481	521	0.82
8	38	0.013	85	5.6	5.6	27	64	526	563	523	564	0.73
9	38	0.0083	54	6.3	1.8	29	49	563	583	562	586	0.90
10	38	0.00085	5.5	9.4	4.6	21	65	590	634	587	634	0.96
11	38	1.4	9.4e+03	-0.9	8.0	25	64	629	668	628	671	0.82
12	38	2.3e-06	0.015	17.7	0.8	24	64	684	724	682	725	0.94
13	38	0.022	1.4e+02	4.9	4.2	29	57	741	769	738	776	0.90
14	38	2.3e-06	0.015	17.7	4.0	24	65	778	819	777	819	0.95
15	38	0.00062	4	9.9	5.0	28	62	803	837	802	840	0.86
16	38	0.0049	32	7.0	3.5	33	63	843	873	838	875	0.88
17	38	0.011	69	5.9	7.3	22	60	888	926	886	932	0.84
18	38	5.4	3.5e+04	-2.8	9.5	21	37	957	973	922	1001	0.52
19	38	0.18	1.2e+03	2.0	2.7	24	63	981	1020	978	1022	0.81
20	38	1.7e-05	0.11	14.8	1.5	33	62	1025	1054	1022	1057	0.91
21	38	0.34	2.2e+03	1.1	2.0	37	62	1057	1082	1053	1094	0.72
22	38	0.039	2.5e+02	4.1	1.2	36	64	1105	1133	1085	1134	0.81
23	38	0.13	8.5e+02	2.4	1.8	25	57	1129	1161	1126	1168	0.77
24	38	0.018	1.1e+02	5.2	10.1	24	62	1170	1208	1163	1210	0.84
25	38	0.0055	36	6.8	2.1	21	63	1216	1258	1216	1260	0.90
26	38	0.42	2.7e+03	0.8	0.7	33	59	1256	1282	1254	1283	0.73
27	38	1.4e-06	0.0089	18.4	1.9	22	62	1280	1320	1278	1323	0.93
28	38	0.032	2.1e+02	4.4	0.7	33	65	1326	1358	1323	1358	0.84
29	38	5.2e-07	0.0034	19.7	5.6	25	63	1367	1405	1366	1405	0.95
30	38	0.00016	1.1	11.7	2.7	32	64	1447	1479	1429	1480	0.87
31	38	0.00078	5	9.5	9.1	9	62	1507	1565	1501	1566	0.80
32	38	0.00014	0.88	12.0	9.8	12	64	1571	1623	1569	1624	0.93
33	38	0.00032	2.1	10.8	4.3	21	64	1615	1658	1615	1659	0.92
34	38	0.0018	12	8.4	3.8	26	62	1634	1670	1628	1673	0.58
35	38	0.84	5.4e+03	-0.2	0.6	33	56	1676	1706	1663	1710	0.55
36	38	0.92	6e+03	-0.3	0.8	39	63	1731	1755	1721	1762	0.50
37	38	5.4	3.5e+04	-2.8	0.5	24	58	1775	1809	1774	1811	0.75
38	38	2.2	1.4e+04	-1.5	0.9	32	57	1947	1972	1940	1979	0.76

Sequence Information

Coding Sequence: ATGGATGATTCCCatgataaattttgttattgtggATGCGACACTCCGGGAACATATAAACCAGAGGAGCCACCAAGCGAACCATGTTGTTGCTGTAATTATAATCCATTCAGTGATAATTCTGAGGATGCAGAAATTTATGATCTGCCTTTTGCCCTGCGCAAACTAACAGTAATGAAATGCCAAATGAAAAAGTGGCGGATGGAACGACTTCAATTGGAAAGTGAAACTCGATCTTTAAAGCAAGCCCTTCAACAATATGgTATTAATGTTGACGAGGCTTTAAAACCTGATCCTCTAATTGTCCACTATCGAGAGGAAAATTTAAGACTCCAAAATCTTACTGATGAATTGAAGGATAAAGTGAAAGACCTCGGAGATACTTTGAAAGAACGTGATTACTCTGAAGATCCTTGCGAATCAGTAAAATTCATTCGAGAGAAAATGAAGGATCTTCGAAAACATTTCGTTGATGaaaagaaacaattaagAGACAAAATAGCAGCCTTGAATCTGAGGATTGCGGAAATGGATGACGACTCTTCGTGCTCAGCTCTGAATCGCCTTAGAGCAAAACTTCGTGAATTGATGAAAGGTGGACAGAGGGCTGACCAGCAAGTTTCAATGGTAGTAGAAAAATCTATAGAAACTATGGTAGAGCTTTCAAAATGCTGCGAAGATTTGAAATCCGAAAACGAAAATCTTTTGGATCAATTAGAAGCTCTTCGAAAAAAATTGGCACCAGACGTTTCTGAACTacatgataaaatcaaaaaatgtgagGCTCTTATTGctgatttagaaagaaaaaatgttgagaagGATCAAATTATTAACAATCTGGAGAAAAAGCTTTTTGATGAGAAAAGAGTTTCTGTACATCTTGAGGAAGATTTGGACAAAATGACTGTTAGCCAAAAAGCATTGATGAAAGAACTTGCTGCTATGAAGGAAGAATTGAAAAAGAGGGATGAAAAGCTCACCGaacttttaggaaatttaaaaaattcatctataaatCTTCTGGGAATGGAAAAACTGACAGGTGAAATTGAAATACTCAAACCTCAGCTCAACAATACTCAAATAGAAAGGAATAAACTGTTAGAAGATCTGGGGAAAATTCGAGGCCTCGTATCGGAAagaaatgatcaaattttaaaaattttggaacaaaaagaaaaaatgtcggGTGACTGTAATGAAAAACTACTTGCTATGCAGACGAGGGTAGATACATTATTGGTAcaagaaaccttaaaaaaaaaagaaatcgaagACCTAAAATCAAAAACCCAAGAATTAGAAGATGAAATTGCAGGTCTACGAGCACAAATATTAGAACTGGAACAAAAAAGCAAGGAAAATAAAGATCTTATCAAGAAGATTCAAGATTTCGAGGATCAGCTTGCTATGTTAAATGTTGAACTGTCTTCAGCTCAAAATCATGCAAAAGAACTTGAAAGTGAGGTAAGTGATTTAAAGTCTCAGAAGGAAAAATTACGCGAGAATTTGACTGATTCTGAGGCAGAagttgaaaaacaaaagaaaggtTTGGAAGTTGAAATAGCTGCCAAAGAAAGTCTTACTAAAGATCTTGAAGCATCAAAGACAGATCTTCAAAAACTGGAACAAGAGAATAGAAATTTGGAATCAGAAAATGAGAGTTTGAAAGATCATTTTAGGAAATTAGAAGAGGAAGTCaagtttttgaaagaagaaaatgaaatgtTAAACGCAGAGAATAGTAATATTATTGCAGTGAATCAAAAGCTTAAAGAAGATATTGATCAGATGAAAgtagaaaatacaaaattgcaagcaggaattcagaaattaaaaaatgaatctaaaaatttagaaactgaaTTGACAGCTGTTAGGGACCAATATCAGAAATTAAAAGATGACTTGGAAAATCTGAAACAAGAATTAGAAAAATCATTGACTGAACTAACAAGGTTTAAAGAAGAGAACGAGAAGTTGAAAGCTGTTCTTGAAAAGATAAGGGATGATATGAAAAAGTCGATGAAAGATAACGAGGAACTCAAAACAAAAACTGATCATCTTATTTCTGAAGCTCAGAAGCTTGAAGTTGagaatgataaattaataaatgagaattataatttaaaggaagGAGTGGATCAATTAAGGGCTAAATACAAAAAGTTCGAAGACGAATGccagaatttgaaaaatgaaaatggaaatcTAGCTAAATTAGAACTGGAAGTATCAGCTGTTAAGGAGCAAAATGAAAAGTTGAAGGctatagttgaaaaaatgaatgaagaACTTGAGAACTCCGGAAAAGATAATGAGGAGTTCAAAGCAAAAATTGATGGTCTTAATTCCGAAATTGATAAACTGAAAGCCGAGAATGATAAACTTTcgaaagaaaatgataatttaaaatccaaTGTTAGTCAGCTGCAAGAAGAGAATAAGAAATTGAAAGATGAAAATACAAAACTAAAAGATAACATAGAAAAATCGAACGCCGCTTTAGAAAAATCGAAcgctgatttgaaaaaattgaagtctGATTTTGATAAACTGAAGTCAGAAAATGAAGAATTAAAGCAAGATCTAGAAAAAGTGAAAGATCAGGTCGAAAACTCGAAAAATGATTTGAAGGATTTGTCAGAAGAATTGGACaaggtcaaaaaagaaaaagacaacttGCAAGAAAATGTGAGAAATCTTGAAAGtgatttagaaaaactaaaagctGAGAATACTTATTTGAATTCAGAGTTGAAAAAAGCAAGAGAAGATaatgaagtaataaaaaatgaaatggattCTTTAAGAAACCAAAATTGCAAGCTTGAAGCAGAAGGAGATAGTCAAAAGGAGGAAAAGAATAAAGCAAATGAAGAGATCAGATCActtaaagatgaaaataaaaatttgtctagtGACTTAGATAATGCTAAATCAGAAATTAGTTCTTTAAGAGTGGAATTCGATAAATTAAAATCTGATTTGGAGTCATTAGAAAGCAAAAAGAAAGCAGCTGAAGAtgaattgaatcttttaaaaaatgagttgaaAGATTTTCTCACAAAGTTTGATGAACTTAAGGATGAGAATAATCGGCTCCAGTCAGAAAGGGAAAGTCTTCGAAAGCATCTAAATGACATGAAGAACGATTTATCGATATTAGAAAcagaaaattatgatttgaaaaaagaactcgttaaattaaaattagaattatctaAGATTAtagctgaaaataataatttgaagacacaACTTGCTGAAATGGTAAAGGATTATGATCAATGTCAGGCAAGTAGTTGCATACTGAAAAGTGAAATTGATAAGTTGAAGGTAACAGTAGAGAATCTGAAGAAAGAATTAGGCAAGTTTGAAGCTAAGGTAAAAGAACTTGAAGGTCAAGTTTTGTGTAGAGAGGGCGAGAAAAGTAGTCTAGAAGAAGAAATTGaaggtttgaagagaatattaaaagCTGAAAAAGTTGAGAAGGAAGCAGCtttgaaaaaagtggaagaaCTCAATGAAGAACTGAAGCTTTTGAAAGCTGAATTAGAAAAGTTGAGATCTGCAAATGATCAGCTCAGGGCAGAAGCAGATGATTTGAAGAAACAATTAGTATTGAGTAAAGATGAATTGAATAAAGCTAAGAGTGAAATTTCAGCTTTAAAAGATGATAATAAGGAATTGAAGGGCCAGGGTGATACTTTAGCTAATGAAAGTGAAAAGCTGAGCAGGGAGTTGAACAAGTGGAAAGCTGAAGCTGAAGCTCAAcgaaacgaaaataataaattaaaaggtGAAGCTGATAGGTTGATGTCAGAGAGTActaaactcaaaaatgacattgatagtttgaaaaatgaagtgAGTAGACTTAAGAACGAAAACAGTGAACTTAAAAATGAGTTAGGAGCTGCAGAAAGTGAGTTTGATAAGTTGAAATCCGAATTAGGTGCTTCGAGAGCTGAAAATGAGAAATTGAAAGGGGAAACAAAAGGTTTGAAGACTGAAGTTGGTAGATCAAATGAAGAAGTTAGTAAGATGAAAGCCGAGGTGGAGAAATTGAGAAAATCCTTGGCTGATGGAGaggctaaaattaaaaatttagaaggtcGAGTTGCGTCTTTAGAATCTGAAAAAGCAAAACTTGTGAAAGAATTGAATAGTTTAAGGGacgaacttgaaaaattaaaaaagcaattaacATTTGATAAAAGTGCTCTTAAAGAAGCAGATGGTCTTAAAATGGAATTATCAGTGATGAGGGGTGAATTAGAAAAATCTAGAGCAGATAATCAAAAGTGCAAATCTGATTTGGAAGCATCGATGAAGAAAGTTGCTGAATTGACGAATGAGAACGGAGTTTTGGAAGcagaaatcgaaaaattaagaAACGAATTAAGTGTTTTAAAGAGCGAGAAATCAAAGCTTAAAGatgatttggataaattaaaaaataatgtagaaaggATAACGGCTAATTTTAATGCTTATAAATCAGATAAGGAGAAGGAATTGAATAATCTCAAAGCAGAGAATGATCGTTCAAAGAAAGATCTTGCAGATGTGCAAGTGAAGGTGAAAAATTTGGAAGATCAGCTAAAGAGTCTTCAGGACggtaaagaaaaattagaagcaGAAGCTGCAGATTTAAAATCACAGTTGGAAAAGTTTAAGCAAGACCTACTGATTGAAAAAGGGAATAAAGAAGCTGCTAAGAAAGAACTCGAGGCTTTGAAAAATACTTTAGCTAATTTGAGAAACGAAATAGgaaaattgaagaatgaaaatGAGAAGTTAATACtagaaaatgcaaatttgaagAAGCAGATTGATAAACTGAAAAGCGATGCTGAAAAATTGAAACGGGATTCGGATCATCGTGGAGCTGAGAATCAAAAGTTGAAAGctgaaattaataaattgcaAGCAGGTTTGGAAACGTTAAAAGCAGAGTTAGAAAAGATGAAAGCAGAGAAGGACAGGATAAAAGATACACTCGAAAAATCAGAAGCAGATGTAGTGAAATTGCGTGATGATTTACAGAAGGCAAAGGGACATGCTGATAAATtgatatctgaaaataaaaagttaaagaataatttagcTGAAGCAAATGCAGGACATGATATGTTAAACGCAGGAGTTAGTATGGGAAATACTGAATCTAATAAGTGGAAGGAAGAATTGGAAGAGTTGAAAGTCAAACTCGCTAAAGCAAAAAATGAAGCTGATAGATGTAAAGTAGAAGTAGATAAGTTGAAAGCTGAAATACCTAAAGGTCAAACTAGAAGGATATCAGatcatcctaaaaaagaagaatcaaaAATGTCTGAAGACGAATGTGGTGATTTCATCAAGTCCAACGAGATTTTACGGAAGAGGATGCAGGAACAAAACGAAGctATTGATCGTGTAAGAGAATTCATTGGTTTCGTGGAGGGTAAAAATCCATCAAAACCTTTGATGGCTAAGGATTATAATGCAGATAGTGATTCTGGAAGTTGGATAGTACCAGCAGTAaatgaagttatgaaaaaatcacGAAACCtgtcagaaaatattttcaaagctgAAAAAGAAATTCAGAATCTCGAGGCTTTTCTTCATCAAAAGAGTGTTGGAGATTCGGAATCTGTGCTTCCAGAAGGTCCTAAAGGAGATTTTGATGCTGATTCCTGGTTAGGAtcgTTAACGTTAACACAATTGGCCGAGCTTCACGATAAGATTTGCCTGCTTACTTCTTCAATGGTTGAAACTGATCATATTTCTATGGGTTCAGAAAGAACATTTCCTGAAAATCAAATAGAGAACCAACAATTTACTCAAATATCAACGAATTCTTTGGAAGTAAATTATGAAACCTTGAATAGAAGGATTGCAGCTTTGCAGAAGCAGATTTCTCAGAAAGAATTGGAAGCTTCGAGAAAGATGTATGAGATGAAGAATATCCTTCGTCAAGAGCAAATGCAGTTGATTAGAATATCTGAAGAAATGACTCGagagaaaaaacgaaatttagcACTTCAGATGACCATTGATCAAGATTCTTGCTGGACAAATAATTGTACAGCTGAATGCAGAGGagattttgatatttaa
Protein Sequence: MDDSHDKFCYCGCDTPGTYKPEEPPSEPCCCCNYNPFSDNSEDAEIYDLPFALRKLTVMKCQMKKWRMERLQLESETRSLKQALQQYGINVDEALKPDPLIVHYREENLRLQNLTDELKDKVKDLGDTLKERDYSEDPCESVKFIREKMKDLRKHFVDEKKQLRDKIAALNLRIAEMDDDSSCSALNRLRAKLRELMKGGQRADQQVSMVVEKSIETMVELSKCCEDLKSENENLLDQLEALRKKLAPDVSELHDKIKKCEALIADLERKNVEKDQIINNLEKKLFDEKRVSVHLEEDLDKMTVSQKALMKELAAMKEELKKRDEKLTELLGNLKNSSINLLGMEKLTGEIEILKPQLNNTQIERNKLLEDLGKIRGLVSERNDQILKILEQKEKMSGDCNEKLLAMQTRVDTLLVQETLKKKEIEDLKSKTQELEDEIAGLRAQILELEQKSKENKDLIKKIQDFEDQLAMLNVELSSAQNHAKELESEVSDLKSQKEKLRENLTDSEAEVEKQKKGLEVEIAAKESLTKDLEASKTDLQKLEQENRNLESENESLKDHFRKLEEEVKFLKEENEMLNAENSNIIAVNQKLKEDIDQMKVENTKLQAGIQKLKNESKNLETELTAVRDQYQKLKDDLENLKQELEKSLTELTRFKEENEKLKAVLEKIRDDMKKSMKDNEELKTKTDHLISEAQKLEVENDKLINENYNLKEGVDQLRAKYKKFEDECQNLKNENGNLAKLELEVSAVKEQNEKLKAIVEKMNEELENSGKDNEEFKAKIDGLNSEIDKLKAENDKLSKENDNLKSNVSQLQEENKKLKDENTKLKDNIEKSNAALEKSNADLKKLKSDFDKLKSENEELKQDLEKVKDQVENSKNDLKDLSEELDKVKKEKDNLQENVRNLESDLEKLKAENTYLNSELKKAREDNEVIKNEMDSLRNQNCKLEAEGDSQKEEKNKANEEIRSLKDENKNLSSDLDNAKSEISSLRVEFDKLKSDLESLESKKKAAEDELNLLKNELKDFLTKFDELKDENNRLQSERESLRKHLNDMKNDLSILETENYDLKKELVKLKLELSKIIAENNNLKTQLAEMVKDYDQCQASSCILKSEIDKLKVTVENLKKELGKFEAKVKELEGQVLCREGEKSSLEEEIEGLKRILKAEKVEKEAALKKVEELNEELKLLKAELEKLRSANDQLRAEADDLKKQLVLSKDELNKAKSEISALKDDNKELKGQGDTLANESEKLSRELNKWKAEAEAQRNENNKLKGEADRLMSESTKLKNDIDSLKNEVSRLKNENSELKNELGAAESEFDKLKSELGASRAENEKLKGETKGLKTEVGRSNEEVSKMKAEVEKLRKSLADGEAKIKNLEGRVASLESEKAKLVKELNSLRDELEKLKKQLTFDKSALKEADGLKMELSVMRGELEKSRADNQKCKSDLEASMKKVAELTNENGVLEAEIEKLRNELSVLKSEKSKLKDDLDKLKNNVERITANFNAYKSDKEKELNNLKAENDRSKKDLADVQVKVKNLEDQLKSLQDGKEKLEAEAADLKSQLEKFKQDLLIEKGNKEAAKKELEALKNTLANLRNEIGKLKNENEKLILENANLKKQIDKLKSDAEKLKRDSDHRGAENQKLKAEINKLQAGLETLKAELEKMKAEKDRIKDTLEKSEADVVKLRDDLQKAKGHADKLISENKKLKNNLAEANAGHDMLNAGVSMGNTESNKWKEELEELKVKLAKAKNEADRCKVEVDKLKAEIPKGQTRRISDHPKKEESKMSEDECGDFIKSNEILRKRMQEQNEAIDRVREFIGFVEGKNPSKPLMAKDYNADSDSGSWIVPAVNEVMKKSRNLSENIFKAEKEIQNLEAFLHQKSVGDSESVLPEGPKGDFDADSWLGSLTLTQLAELHDKICLLTSSMVETDHISMGSERTFPENQIENQQFTQISTNSLEVNYETLNRRIAALQKQISQKELEASRKMYEMKNILRQEQMQLIRISEEMTREKKRNLALQMTIDQDSCWTNNCTAECRGDFDI

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00089292;
90% Identity: -
80% Identity: -