Basic Information

Insect: Cryptus viduatorius
Gene Symbol: -
Assembly: GCA_964006125.1
Location: OZ023228.1:8667362-8674087[+]

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 3.4 3e+03 -1.4 0.3 31 58 62 89 57 95 0.68

2 38 0.76 6.7e+02 0.7 0.1 40 63 109 132 103 134 0.80

3 38 1.8 1.6e+03 -0.4 0.1 38 57 159 178 149 183 0.82

4 38 0.00056 0.49 10.8 0.0 30 59 223 252 215 254 0.89

5 38 3.8 3.3e+03 -1.5 0.0 30 60 357 387 353 391 0.59

6 38 0.014 12 6.3 2.2 13 62 413 463 410 466 0.68

7 38 9.9e-05 0.087 13.2 6.0 21 63 474 516 470 518 0.92

8 38 0.0084 7.4 7.0 0.5 30 57 504 531 503 537 0.83

9 38 0.027 24 5.4 4.0 24 63 533 572 530 574 0.94

10 38 0.0059 5.2 7.5 5.2 30 65 567 602 563 602 0.94

11 38 0.64 5.6e+02 1.0 7.5 29 63 594 628 593 634 0.69

12 38 0.0025 2.2 8.7 5.5 26 64 633 671 630 672 0.91

13 38 0.062 54 4.2 7.4 30 65 679 714 673 728 0.76

14 38 0.0029 2.6 8.5 6.6 21 60 726 765 725 770 0.78

15 38 0.0052 4.5 7.7 0.7 29 61 762 794 756 797 0.83

16 38 0.0068 6 7.3 0.5 22 64 769 811 768 812 0.84

17 38 0.0017 1.5 9.2 2.1 30 57 833 860 826 868 0.87

18 38 0.028 25 5.3 0.2 25 59 870 904 866 908 0.69

19 38 0.052 46 4.5 0.1 27 59 886 918 880 920 0.78

20 38 0.19 1.6e+02 2.7 0.3 26 62 927 963 924 966 0.76

21 38 0.00032 0.28 11.6 5.2 24 63 960 999 950 1000 0.89

22 38 0.27 2.4e+02 2.1 15.5 21 65 1013 1057 1002 1064 0.88

23 38 5.9e-05 0.051 13.9 1.3 26 60 1067 1101 1064 1106 0.90

24 38 0.0013 1.1 9.6 3.8 22 62 1126 1166 1122 1168 0.89

25 38 0.0035 3.1 8.2 8.5 24 60 1177 1220 1170 1225 0.70

26 38 0.041 36 4.8 0.6 27 64 1271 1308 1265 1309 0.82

27 38 0.041 36 4.8 5.2 21 63 1318 1363 1310 1371 0.65

28 38 0.00023 0.21 12.0 4.7 25 63 1367 1405 1365 1407 0.92

29 38 0.0068 6 7.3 2.5 35 61 1412 1438 1407 1442 0.79

30 38 0.00014 0.13 12.7 2.5 27 64 1446 1483 1442 1484 0.89

31 38 0.00017 0.15 12.4 0.2 27 62 1523 1558 1520 1560 0.91

32 38 0.27 2.4e+02 2.2 2.5 36 61 1567 1592 1561 1600 0.67

33 38 0.002 1.7 9.0 3.3 22 63 1602 1643 1601 1645 0.86

34 38 2.4 2.1e+03 -0.9 4.5 22 55 1672 1705 1660 1715 0.72

35 38 0.00036 0.31 11.4 3.9 27 64 1719 1756 1713 1757 0.90

36 38 0.00026 0.23 11.8 2.3 21 60 1727 1766 1726 1770 0.92

37 38 1.4 1.2e+03 -0.1 0.2 27 51 1886 1910 1883 1923 0.76

38 38 3.7 3.2e+03 -1.5 1.2 26 40 1994 2008 1965 2038 0.59

#	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	3.4	3e+03	-1.4	0.3	31	58	62	89	57	95	0.68
2	38	0.76	6.7e+02	0.7	0.1	40	63	109	132	103	134	0.80
3	38	1.8	1.6e+03	-0.4	0.1	38	57	159	178	149	183	0.82
4	38	0.00056	0.49	10.8	0.0	30	59	223	252	215	254	0.89
5	38	3.8	3.3e+03	-1.5	0.0	30	60	357	387	353	391	0.59
6	38	0.014	12	6.3	2.2	13	62	413	463	410	466	0.68
7	38	9.9e-05	0.087	13.2	6.0	21	63	474	516	470	518	0.92
8	38	0.0084	7.4	7.0	0.5	30	57	504	531	503	537	0.83
9	38	0.027	24	5.4	4.0	24	63	533	572	530	574	0.94
10	38	0.0059	5.2	7.5	5.2	30	65	567	602	563	602	0.94
11	38	0.64	5.6e+02	1.0	7.5	29	63	594	628	593	634	0.69
12	38	0.0025	2.2	8.7	5.5	26	64	633	671	630	672	0.91
13	38	0.062	54	4.2	7.4	30	65	679	714	673	728	0.76
14	38	0.0029	2.6	8.5	6.6	21	60	726	765	725	770	0.78
15	38	0.0052	4.5	7.7	0.7	29	61	762	794	756	797	0.83
16	38	0.0068	6	7.3	0.5	22	64	769	811	768	812	0.84
17	38	0.0017	1.5	9.2	2.1	30	57	833	860	826	868	0.87
18	38	0.028	25	5.3	0.2	25	59	870	904	866	908	0.69
19	38	0.052	46	4.5	0.1	27	59	886	918	880	920	0.78
20	38	0.19	1.6e+02	2.7	0.3	26	62	927	963	924	966	0.76
21	38	0.00032	0.28	11.6	5.2	24	63	960	999	950	1000	0.89
22	38	0.27	2.4e+02	2.1	15.5	21	65	1013	1057	1002	1064	0.88
23	38	5.9e-05	0.051	13.9	1.3	26	60	1067	1101	1064	1106	0.90
24	38	0.0013	1.1	9.6	3.8	22	62	1126	1166	1122	1168	0.89
25	38	0.0035	3.1	8.2	8.5	24	60	1177	1220	1170	1225	0.70
26	38	0.041	36	4.8	0.6	27	64	1271	1308	1265	1309	0.82
27	38	0.041	36	4.8	5.2	21	63	1318	1363	1310	1371	0.65
28	38	0.00023	0.21	12.0	4.7	25	63	1367	1405	1365	1407	0.92
29	38	0.0068	6	7.3	2.5	35	61	1412	1438	1407	1442	0.79
30	38	0.00014	0.13	12.7	2.5	27	64	1446	1483	1442	1484	0.89
31	38	0.00017	0.15	12.4	0.2	27	62	1523	1558	1520	1560	0.91
32	38	0.27	2.4e+02	2.2	2.5	36	61	1567	1592	1561	1600	0.67
33	38	0.002	1.7	9.0	3.3	22	63	1602	1643	1601	1645	0.86
34	38	2.4	2.1e+03	-0.9	4.5	22	55	1672	1705	1660	1715	0.72
35	38	0.00036	0.31	11.4	3.9	27	64	1719	1756	1713	1757	0.90
36	38	0.00026	0.23	11.8	2.3	21	60	1727	1766	1726	1770	0.92
37	38	1.4	1.2e+03	-0.1	0.2	27	51	1886	1910	1883	1923	0.76
38	38	3.7	3.2e+03	-1.5	1.2	26	40	1994	2008	1965	2038	0.59

Sequence Information

Coding Sequence: ATGGCTCGCGATCATTGTCCGGGATCCTGTTGTCTTTGCGGTTGCGATTCTCCAGTGACAACGCCTGTTACGGAACCTCCTCACGAGCCATGCTGCTGCTGTAATTACAATCCCTTCAGCGACGATGCCAAGGAATCGGAAATTCGAGACTTGTCGTTCGCGTTGCGAAAGCTGACGGTGATGAAGTGCCAGATGAAGAAATGGCGCATGGAAAGACTACAATTGGAGAGCGAATGCAGATCTATGAAGGAAACCCTTCAATCGTTTGGTGTAAACGCCGAAGACGGTCTGAAGACAGACCCTCTGATCGTTCATTATCGAGGCGAAAGCATGCGATTACAAAATGCAAATGATTtgctcgacgaaaaaattcgcgatctcGAAGAGACACTGGCTGAGCGCGATCTTTACGAGGATCCATGCGAAGGAGTTCAGATTATGAGGACAAAGATGGCGAAAATGCGCGATCAAtttttcgcagaaaaaaaaacGTTAAAAAGCACTATAACTCAGTTGCGAATAGAATTGGCTGAAGCAGAGGACGATACATCATGTGCGGCGTTGAATCGTTTGAGAGCGAAGATACGAGAGTTGACGAGAGGAGGTCAGAAAGCTGATCAAAAAGTGTCTAATGTTGTGGAGAAATCGATCGAGACGCTCGttgatttatcaaaaaattgcgACGATCTTCGCTTAGAGAACGAAAGATTACTTACGGAAATCGCTGGTCTGCGGCGTGCTCTTGATGACATGGGCGTTGATGACGATATGCTGAAATCATACAAGGAATCTGATGAAAAGTTGAATTATGACGATTTGGTGGCTGATCTGAAGCGCCGATTGGCCGAGAGAGACGCTACGATAGAGGATTTGCATAATCAACTGGAGTCCGGTGCTCACGCTGCTGCAAGGTTATCCGAGAGTCTCGACAGAATGACAGTCAGTTACAAGGCTCTGATGGCCGAAGTAGCTGACTCTAAGGCTGAGTTGATGAAACGAGACAAAAAAGTTGAGGAGCTTTTGGAGAATGTGGGCAGAGCGTCGCTCGACTTATTGGGGATGAATGATTTGAGAAACGAAATTGATACGATGAAACCTGAGCTGTACGATCTTCGTATCGAAAGGGATCAGCTTTTGGACGAATTGCACAAAATTCGAAACGTTGTGTCCGATCGTAACGATCAGATAATCGAAGTTTTGGAACAGCGAGACAAAGCGATCGGTgattacaaagaaaaaatcgctGCTATGCAAGCGAGAATCGATGCGCTGCTTGCGCAAGAAGCTATCACGAGTAAAGAgctcgaagaatcgaaaatacAGACAGCGCAACTCGAGGACGAAATTGCTCGGCTAAAAGAGCGTATAGATGAACTCGAAAGAAGTTGCGACGATTCGGCAATGCTGAACGAAGCGTTGAAGAGACTGAGAGAAGAGAACGAGGCGCTCATAGCAGAGAAGGCAAATCTGACTGCGGATAACGAAAAGCTGAAGGATGAGAATGCGAAGCTCTACGCGGAGATTGATAAGCTGCACGAGGAAAACGACAGACTCGATGCAACTGTTGAGAGCTTGAAAAAAGATTTGGTTGAAGCGAAAGAGGCAAATGACATGCTGGGTAAACAGCTGAACAGGATGAGAGAAgaggatgaaaaattgaagaataatgaaaataatctgACGGGACGCTTGGGTACTCTCAGTGAACAATTAGAATCGATGAGCGCTGAAAATTCGAGACTCAAAGATGAGTTGAATGAAGCTAATAGCGAAATTGAGAGATTGAAAAATGAACTAGAAAAGTTAACGGATCAGTTACGtaacttggaaaaaaataataaatttcttaaTGAGGAACTCGAAAAAGTGACTAATGAATTGTCGGCtatcacgatgaaaaatgatgcaCTGCAAGAAGAGTTGGAAAAATTGAACAGAGAAAACTATGAGCTCAAAAATGACGCggagaaattacgaaaagattTTGAAAGTCTCAGTGAAGACCttgaaaaatgccgaaaaGGGAATGCAGATTTGGAACAACAATTGGAACGCTTAACTGCAGACAATATGTCTGTATTGGAAGATCTTAAGAAAGCCAAAGAAGAAAACGATGCATTGAAGAGCGAGTTGATCGAACTACAGAAAGACTTGGAGAATCTGAACGTTGAAGTCAATAAACttcgtcaaaaaaattccgaactcGAAGCCGAAGTTGAGGTATtgaaattagaaaataatGAGTTGGAACGTTTTGCGGGCGAACTTAAAGCCGACTTAGAAAGCGCTCAGGGCGAATTAGCCAAACTTCGGAATGAAAATAGTGCACTGAGGGCAGATGTTGTGAAACTCGAAGAAACTAACGCAACTTTGAGGGGCGATCTCGACCACGCGAATTTAGTTAACGATCAATTGAGAGACCAAGTAAATACTCTGACTGGCGATCTCGATATGGCAGTGAAAAGGATTGCTGAATTAGATGCCGAAAATGGTGTTATGAGAAACGAAGTTGAAGCGTTAAAAGCGGCGAATGAGAAGCTTCGATCTGAAAGTGCAAAGTTGAGTGCAGAACTCGAAAGCGCTATGGGAGATTTAGAGAAGATTAAAGATGAGAATTTCGCTTTGAAAAATGAGATGGACAGAATTTTGAACGATAATGCGAGTCTGAAAGATAAAGTTGATAAGCTGATCgaagaaaacgataaattaacgAGCGACGGGAATGCgtggaaaatcgaaaacgaaagGCTGAAAGCCGCTGGTGATGGGCAGCGAGTGAATGAAATGCGCTTACAGGGGGAACTCGATGACTTGAGCCACGAGAGGGATGGAATGAAATCGGAGCTGGAAAAATCACGATCCAAGCTTGACGAAGCAAAGAACACGATTGATGCTCTCGAATCCCAGCTTGGAGAATTACAAGCCGAAAAATCGCAGCTTCAAAAAGATTTGGACGCTCTCACTGCCGCGAGTGAAGACCTTCGAAACCAAttgcattcggaaaaacttgCGAAAGAAGAAGCACAGAGAGAGTTGCAAGCCTTGAAGAATGAATTGAAAGAGTTGCTGAAGAAATTAGATGAATTGATGCAGGAGAAGGACAATCTAAGCGCCGAGAAAGAGGCCCTGAAGAGACAACTTCTCGAAATGAAGGAGGAAGTCACGAAGCTTGCCGCGGAGAACTTTGACCTCGCGAATGAAATGAAACGTTTAAACTCTGATCTAGAAAAGCTCAAGAAGGAGAACGAAGCACTTGTTGGCGAAGTTGGTCAATTGCAGGAAGACGTTGATCATTGGAAAATGGAGAATTGTAAAATGAAGATGGAAGTAGAAAAGCTTAAGGGCGATGTAGACAAGCTAAAAAAAGATTGTGACATGGGTCGAGAAAGAATAAAGGAGCTGGAGGATCAATTGATTCGCTTGGAAGATGAGAAAAATAGATCGTTGCAAGATGTCGAGCATCTGAAGGGCGAAGTGacgaaattaaacgaaaatctcgattCCGAGAAAGATGCAAAAGAAAATgctcttaaaaaaatgttagctATGGAGGAGGAGCTTGAAGCTTTAAAAGCTGAATTGGCCAAGTATAGAAACGATAACGAGCGGCTCGCGAGAGAAGCCGACGATTTGAAACAACAGCTATCGCTTCTCAAGGACGAGGCGAAGAAAGCGCACGACGAAATATCCGCTCTTCGAGAGCTTAATGATAATTTGAAATCTGATCTCGATCGTTCAAAAGCTGAATCTACCGGCGCCAAAGGAGATCTCGATGCTTTGCGCGGCACGGTCGATTCTCTGAAATCGGATAATGCAAATCTTAAAGACGATCTCGAAAAGTTCAAGATGTCGAATAGCAGACTAACAGATGAGCTCGAGGCTTGCAAGTatgataatgataaattaaaagcggAACTGACCGAGTCGAAGGCCGATGCCGTAAGATTGAGGGACAATCTGGCGCAGTGTCAGTCGGCACTCGAAGCTGCAAAAGCCGATTTGACTAAAGCGAATAGCGAATTGCAAAGATTGACGAATGACAACGACAAGCTCAACCGCGAATTAGCAGATATGCGAAAAGCTCTGAAAGATTCGGAAGATAAAATTAAAGCTTTACAGTCTCAGTTGGCAGAGTTGCAGCAAGAAAAATCACATCTCGTTAAAGATCTCGATAGTTTGAGAGACGAAGCGGATAAGCTTCGCAAGGAACTTTCAGCTGAGAATCTCGCGAAGGAAAATCTTCAAAAGGAAGCTGCTGCATTGAAAACAGAATTGGCAAGTTTGAAATCCCAGCTTGACAAGACACGGGCTGATAatgaaagtacgaaaaaagaattagAGGCATTGAAGAAACACTTTGAAGATTTGCAATCAGCGAACGCGAGTTTAAATACCGAGAACGATAAGATGAGGAGAGAGCTTAATTCCTTGAAACCAGAACTCGATAAATTGAAGATTGAACTCGAGAGGGTGAACGGTGAACTAACGAAGAAAGAGGGCGAAACTGAATCGATGAGAGTCGCGAATGAGAAACTCAACAAATCACTCGCCGATACCGAGAATAATGTCAAAGCTCTCGAAAGTCAGCTTGCTGCGTTGGGAACGGAGAAAGACAAGCTCGCGAAAGAAGTTGCTGACTTGATAGGAGAGATCGGTAAACTCGGCAAGAATTTAGCTAATGAAAAGGCCGCTAGAGAAGCTGTCGCGAGAGAGCTTGAAACGCTGAAGGATACTCTTGCCGAACTAAGAAACGAGTTGGACAAGTGTAGAGCAGAATCGGAAATTATGAGGAAGGAACTCGGTCGGGCTAAggatgaaatatcgaatttgcGCGACGAATTGAATAAATTGGCAGCGGAAAATAGCCGCCTACAGGATGAACTACAGAAATCCAAAGCAGATGGAATCGAATTGCGTTCTAATTTAGCAAAGTTGGAAGCGGCGAACAGTAAATTGTTGGCTGATCTCGAGGTTGCGAAAATGGAAGCGCAGAGATCGAATAATGACTTGGAAAAGATGAGAGccgaaaatgataaattgaaGGACGATTTGAAACAAGCGAACAACGATAATAACGCCCTGAGAAGTGATGCCGAGAAACGGCGACTTGAACTCGCAGATAAGCAAAGACTGAGTAAGAACTTGGATGCCGAAGCGAGTGCTCTAAAGAACGAGATAGATCGTTTGAAAGCGGAAAATGTAAAGTTAAAGAGCGAGATTGAAGAATGTCACGCGGAAAAAGCCAATTTGCTGGATAAGAACAACGAGCTTCGAGCTGATATCGATCGGTTGAAAAAGGACTCAAAAGATAccgacgagaagaagaaattgGAAGATGCAAGAACTTCTGCCTTAAAGTCAGCGGAAGGTCCGGCGTCTGGTATCGACGAAATGCCGGAAATTCATCCGGACGAGTGTGGCGACTACGTGAGATCGAACAAGTTGCTAGATGGTAGACTGGTCAAGCAAAACGAAgGTGTGGCGCGTGTTCGTGAATACATTGGTCATATCGATGGCAGAATTCCAACGAAACCTGCGATGGCTGGAAAACCTGAAGAGGCTCTGGACGTCGGCGTTTTTCTCTCACCTATCGTTGTTCAGACGCTGCTAAAGTCTGAGGAACTCTCGAATAATATCCTCGGCGCTGAGTTGGAGATACAGAAGATTGGGGATAAACTGAACGATTTCAGCAAAGAGAACGATAGGTTGAGAAAGTTACTCGAGGATCTTGGCGTCGATGATCACGAGATGAAGGACTTTCGGGAGGAAATGGGCGATGCCTTCGACGCCGAATCTTGGCTGAGATCATTGACGCTTACGCAATTGGCTGAGCTCCACGATCGAATTTGCTTACTAACCTCGGGAATGGTGCAGCAAGACAGCAGCGGTGTGACTTGTGCGATGAGAAAAACCGATCGTTCGAACGCATCGACGGGCGAACAGGATCCGCTAAAGGAGAACTATGAAATACTTAATAAACGAATAGCCGCGTTGCAAAAACAAATTGCTGACAAACAGGCGGAAGCAACGAGAAAGGTATACGAAATGAGGCAATCGCTTCGTAAAGAGCAATTACAGCTCATCAGGATATCGGACGAGAtgaatcgcgaaagaaaacgaaatttggcACTGCACCTCACCATCGACGGTTCGCCATGTTGGATCAACAAATGCACTGCCGATTGCAGCGGTGATTTTGATCATTTGACGGACTTTGATACTACCGAATACATTCCAaacgaaattggaaaaaagcGTTAA
Protein Sequence: MARDHCPGSCCLCGCDSPVTTPVTEPPHEPCCCCNYNPFSDDAKESEIRDLSFALRKLTVMKCQMKKWRMERLQLESECRSMKETLQSFGVNAEDGLKTDPLIVHYRGESMRLQNANDLLDEKIRDLEETLAERDLYEDPCEGVQIMRTKMAKMRDQFFAEKKTLKSTITQLRIELAEAEDDTSCAALNRLRAKIRELTRGGQKADQKVSNVVEKSIETLVDLSKNCDDLRLENERLLTEIAGLRRALDDMGVDDDMLKSYKESDEKLNYDDLVADLKRRLAERDATIEDLHNQLESGAHAAARLSESLDRMTVSYKALMAEVADSKAELMKRDKKVEELLENVGRASLDLLGMNDLRNEIDTMKPELYDLRIERDQLLDELHKIRNVVSDRNDQIIEVLEQRDKAIGDYKEKIAAMQARIDALLAQEAITSKELEESKIQTAQLEDEIARLKERIDELERSCDDSAMLNEALKRLREENEALIAEKANLTADNEKLKDENAKLYAEIDKLHEENDRLDATVESLKKDLVEAKEANDMLGKQLNRMREEDEKLKNNENNLTGRLGTLSEQLESMSAENSRLKDELNEANSEIERLKNELEKLTDQLRNLEKNNKFLNEELEKVTNELSAITMKNDALQEELEKLNRENYELKNDAEKLRKDFESLSEDLEKCRKGNADLEQQLERLTADNMSVLEDLKKAKEENDALKSELIELQKDLENLNVEVNKLRQKNSELEAEVEVLKLENNELERFAGELKADLESAQGELAKLRNENSALRADVVKLEETNATLRGDLDHANLVNDQLRDQVNTLTGDLDMAVKRIAELDAENGVMRNEVEALKAANEKLRSESAKLSAELESAMGDLEKIKDENFALKNEMDRILNDNASLKDKVDKLIEENDKLTSDGNAWKIENERLKAAGDGQRVNEMRLQGELDDLSHERDGMKSELEKSRSKLDEAKNTIDALESQLGELQAEKSQLQKDLDALTAASEDLRNQLHSEKLAKEEAQRELQALKNELKELLKKLDELMQEKDNLSAEKEALKRQLLEMKEEVTKLAAENFDLANEMKRLNSDLEKLKKENEALVGEVGQLQEDVDHWKMENCKMKMEVEKLKGDVDKLKKDCDMGRERIKELEDQLIRLEDEKNRSLQDVEHLKGEVTKLNENLDSEKDAKENALKKMLAMEEELEALKAELAKYRNDNERLAREADDLKQQLSLLKDEAKKAHDEISALRELNDNLKSDLDRSKAESTGAKGDLDALRGTVDSLKSDNANLKDDLEKFKMSNSRLTDELEACKYDNDKLKAELTESKADAVRLRDNLAQCQSALEAAKADLTKANSELQRLTNDNDKLNRELADMRKALKDSEDKIKALQSQLAELQQEKSHLVKDLDSLRDEADKLRKELSAENLAKENLQKEAAALKTELASLKSQLDKTRADNESTKKELEALKKHFEDLQSANASLNTENDKMRRELNSLKPELDKLKIELERVNGELTKKEGETESMRVANEKLNKSLADTENNVKALESQLAALGTEKDKLAKEVADLIGEIGKLGKNLANEKAAREAVARELETLKDTLAELRNELDKCRAESEIMRKELGRAKDEISNLRDELNKLAAENSRLQDELQKSKADGIELRSNLAKLEAANSKLLADLEVAKMEAQRSNNDLEKMRAENDKLKDDLKQANNDNNALRSDAEKRRLELADKQRLSKNLDAEASALKNEIDRLKAENVKLKSEIEECHAEKANLLDKNNELRADIDRLKKDSKDTDEKKKLEDARTSALKSAEGPASGIDEMPEIHPDECGDYVRSNKLLDGRLVKQNEGVARVREYIGHIDGRIPTKPAMAGKPEEALDVGVFLSPIVVQTLLKSEELSNNILGAELEIQKIGDKLNDFSKENDRLRKLLEDLGVDDHEMKDFREEMGDAFDAESWLRSLTLTQLAELHDRICLLTSGMVQQDSSGVTCAMRKTDRSNASTGEQDPLKENYEILNKRIAALQKQIADKQAEATRKVYEMRQSLRKEQLQLIRISDEMNRERKRNLALHLTIDGSPCWINKCTADCSGDFDHLTDFDTTEYIPNEIGKKR

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00840809;
90% Identity: -
80% Identity: -