Basic Information

Insect: Cylloceria caligata
Gene Symbol: -
Assembly: GCA_963942595.1
Location: OZ012703.1:8726225-8735543[+]

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 45 5.9 1.2e+04 -2.2 0.1 33 56 64 87 59 92 0.58

2 45 0.045 93 4.6 1.0 40 63 109 132 102 134 0.83

3 45 5.7 1.2e+04 -2.1 0.9 41 55 162 176 148 200 0.59

4 45 0.0015 3.1 9.3 0.3 30 58 223 251 214 254 0.77

5 45 1.8 3.8e+03 -0.6 0.1 27 58 386 417 385 423 0.83

6 45 0.0059 12 7.4 1.1 30 61 470 501 463 505 0.77

7 45 0.00085 1.8 10.1 7.2 23 62 501 540 498 543 0.91

8 45 0.00033 0.68 11.5 0.4 27 62 533 568 531 571 0.88

9 45 0.34 6.9e+02 1.8 0.1 24 60 565 601 562 606 0.86

10 45 0.032 65 5.1 2.6 28 64 611 647 597 648 0.82

11 45 0.088 1.8e+02 3.7 3.6 22 60 633 671 632 681 0.65

12 45 0.00076 1.6 10.3 4.0 25 63 678 716 676 718 0.89

13 45 0.068 1.4e+02 4.0 2.8 27 65 722 760 717 760 0.88

14 45 0.023 47 5.5 2.4 21 64 730 773 729 774 0.91

15 45 0.011 22 6.6 2.8 28 63 765 800 758 806 0.77

16 45 0.00015 0.3 12.6 1.1 31 63 810 842 802 844 0.88

17 45 0.009 18 6.9 0.2 38 65 845 872 840 872 0.88

18 45 0.0045 9.3 7.8 1.9 24 61 866 903 863 907 0.64

19 45 0.025 52 5.4 1.1 28 65 905 942 898 942 0.86

20 45 0.0095 19 6.8 2.4 24 60 915 951 912 966 0.59

21 45 0.026 52 5.4 0.8 24 57 985 1018 972 1026 0.72

22 45 0.0016 3.3 9.2 1.6 27 59 1051 1083 1048 1095 0.59

23 45 0.00062 1.3 10.6 0.9 24 63 1097 1136 1096 1137 0.90

24 45 0.1 2.1e+02 3.5 3.7 28 60 1164 1196 1142 1201 0.76

25 45 5e-06 0.01 17.3 0.5 28 60 1206 1238 1200 1240 0.87

26 45 0.0011 2.3 9.7 0.2 29 62 1228 1261 1225 1263 0.92

27 45 0.03 62 5.2 4.9 24 63 1265 1304 1262 1305 0.92

28 45 0.013 26 6.4 5.1 24 61 1314 1351 1306 1354 0.79

29 45 0.0072 15 7.2 0.5 29 62 1347 1380 1343 1382 0.81

30 45 0.0019 3.9 9.0 4.5 29 63 1396 1430 1391 1432 0.93

31 45 0.076 1.6e+02 3.9 10.4 22 64 1417 1459 1417 1460 0.93

32 45 0.24 4.8e+02 2.3 2.5 31 63 1461 1493 1457 1500 0.72

33 45 0.0015 3.2 9.3 1.9 25 63 1504 1542 1502 1544 0.93

34 45 0.24 5e+02 2.3 10.1 28 57 1563 1592 1543 1595 0.54

35 45 0.0032 6.6 8.3 8.1 24 65 1580 1621 1570 1621 0.84

36 45 1.1 2.2e+03 0.2 7.8 25 65 1616 1656 1614 1662 0.81

37 45 0.003 6.1 8.4 0.3 26 61 1666 1701 1663 1704 0.68

38 45 0.28 5.7e+02 2.1 4.9 33 62 1757 1786 1731 1788 0.71

39 45 0.14 2.9e+02 3.0 3.6 21 63 1787 1829 1783 1831 0.92

40 45 0.5 1e+03 1.3 4.7 24 63 1832 1871 1829 1873 0.86

41 45 0.2 4e+02 2.6 2.1 21 63 1871 1913 1867 1915 0.91

42 45 1.1 2.3e+03 0.1 0.2 23 52 1915 1944 1913 1949 0.87

43 45 2.1e-05 0.043 15.3 0.9 28 60 1962 1994 1959 1997 0.92

44 45 2.8 5.8e+03 -1.2 0.5 31 47 2124 2140 2099 2150 0.72

45 45 2 4.2e+03 -0.7 2.2 26 61 2228 2271 2224 2274 0.83

#	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	45	5.9	1.2e+04	-2.2	0.1	33	56	64	87	59	92	0.58
2	45	0.045	93	4.6	1.0	40	63	109	132	102	134	0.83
3	45	5.7	1.2e+04	-2.1	0.9	41	55	162	176	148	200	0.59
4	45	0.0015	3.1	9.3	0.3	30	58	223	251	214	254	0.77
5	45	1.8	3.8e+03	-0.6	0.1	27	58	386	417	385	423	0.83
6	45	0.0059	12	7.4	1.1	30	61	470	501	463	505	0.77
7	45	0.00085	1.8	10.1	7.2	23	62	501	540	498	543	0.91
8	45	0.00033	0.68	11.5	0.4	27	62	533	568	531	571	0.88
9	45	0.34	6.9e+02	1.8	0.1	24	60	565	601	562	606	0.86
10	45	0.032	65	5.1	2.6	28	64	611	647	597	648	0.82
11	45	0.088	1.8e+02	3.7	3.6	22	60	633	671	632	681	0.65
12	45	0.00076	1.6	10.3	4.0	25	63	678	716	676	718	0.89
13	45	0.068	1.4e+02	4.0	2.8	27	65	722	760	717	760	0.88
14	45	0.023	47	5.5	2.4	21	64	730	773	729	774	0.91
15	45	0.011	22	6.6	2.8	28	63	765	800	758	806	0.77
16	45	0.00015	0.3	12.6	1.1	31	63	810	842	802	844	0.88
17	45	0.009	18	6.9	0.2	38	65	845	872	840	872	0.88
18	45	0.0045	9.3	7.8	1.9	24	61	866	903	863	907	0.64
19	45	0.025	52	5.4	1.1	28	65	905	942	898	942	0.86
20	45	0.0095	19	6.8	2.4	24	60	915	951	912	966	0.59
21	45	0.026	52	5.4	0.8	24	57	985	1018	972	1026	0.72
22	45	0.0016	3.3	9.2	1.6	27	59	1051	1083	1048	1095	0.59
23	45	0.00062	1.3	10.6	0.9	24	63	1097	1136	1096	1137	0.90
24	45	0.1	2.1e+02	3.5	3.7	28	60	1164	1196	1142	1201	0.76
25	45	5e-06	0.01	17.3	0.5	28	60	1206	1238	1200	1240	0.87
26	45	0.0011	2.3	9.7	0.2	29	62	1228	1261	1225	1263	0.92
27	45	0.03	62	5.2	4.9	24	63	1265	1304	1262	1305	0.92
28	45	0.013	26	6.4	5.1	24	61	1314	1351	1306	1354	0.79
29	45	0.0072	15	7.2	0.5	29	62	1347	1380	1343	1382	0.81
30	45	0.0019	3.9	9.0	4.5	29	63	1396	1430	1391	1432	0.93
31	45	0.076	1.6e+02	3.9	10.4	22	64	1417	1459	1417	1460	0.93
32	45	0.24	4.8e+02	2.3	2.5	31	63	1461	1493	1457	1500	0.72
33	45	0.0015	3.2	9.3	1.9	25	63	1504	1542	1502	1544	0.93
34	45	0.24	5e+02	2.3	10.1	28	57	1563	1592	1543	1595	0.54
35	45	0.0032	6.6	8.3	8.1	24	65	1580	1621	1570	1621	0.84
36	45	1.1	2.2e+03	0.2	7.8	25	65	1616	1656	1614	1662	0.81
37	45	0.003	6.1	8.4	0.3	26	61	1666	1701	1663	1704	0.68
38	45	0.28	5.7e+02	2.1	4.9	33	62	1757	1786	1731	1788	0.71
39	45	0.14	2.9e+02	3.0	3.6	21	63	1787	1829	1783	1831	0.92
40	45	0.5	1e+03	1.3	4.7	24	63	1832	1871	1829	1873	0.86
41	45	0.2	4e+02	2.6	2.1	21	63	1871	1913	1867	1915	0.91
42	45	1.1	2.3e+03	0.1	0.2	23	52	1915	1944	1913	1949	0.87
43	45	2.1e-05	0.043	15.3	0.9	28	60	1962	1994	1959	1997	0.92
44	45	2.8	5.8e+03	-1.2	0.5	31	47	2124	2140	2099	2150	0.72
45	45	2	4.2e+03	-0.7	2.2	26	61	2228	2271	2224	2274	0.83

Sequence Information

Coding Sequence: ATGGCTTGTGATCATTGTCCCACATCATGTTGCCTTTGCGGTTGCGATGCTCCGATGGCTGAAAATTTCACAGAGCCACCGCACGAACCTTGTTGCTGCTGTAATTACAATCCATTTAGCGATCATTCCACGGAATCCGAGATCCATGATCTGTCATTTGCGTTACGAAAGCTTACAGTGATGAAGTGTCAGATGAAAAAGTGGCGCATGGAGCGTCTACAATTAGAGAGCGAATGCAGGTCGATGAAGGAAGCCCTTCAATCCTTCGGGATAAACACGGAAGAGGGTCTGAAAACGGATCCCCTGATTGTTCATTATCGGGGTGAAAATATGCAATTGCAAAATTCAAACGAGCTTCttcaagagaaaataaaagttcTTGAAGAAACGTTGGCCGAGCGTGATCTTTACGAGAATCCGTGCGAAGGAGTTCAGATTATAAGAGATAGGATGAGGATGCTGAGGGATCAATTTGTTAGCGAGAAAAAACAgttAAAGGATGCTATAACACAGTTGCAAATACAATTGGCAGAAGCGGAAGATGATACTTCGTGCGCTGCGTTGAATCGACTTAGAGCGAAACTGCGAGAGTTAATGAAAGGTGGTCAGAAAGCTGACCAGCAAGTTACTAAAGTTGTGCAAAAATCTATCGAAACTTTGGTGGATTTGTCGAAGGGCTGTGATGATTTAAAATTGGAGAATGAAAGATTGCTCAACGAAATACGTGCTTTACGGCAAGCTCTGAAGGACATGGGCGTAGACGATACGTTCATTCACGTGGAAGACGGCGACTTACCTTCTTCAGATATATTGCCGAAGGAAACGGGTGAAGACGATACGTCGATTCACCCAAAAGATCGTCAAGTACCGAAGATAATACCTCCTttggataaaataataaagacaGTGAAGGATGCCACTAAAAGGTATAAGGGTTCGACCGAGAGTGAAACGATAATAGTAGATTTGCAGCAGAAACTTCAGGATCGCGATGGCGAGGTTGCGAGATTGTCCGAAGATCTGGATAGAATCACCGTCAGTCACAAAGCTTTGATGGCAGAAGTAACTGACGctaaaaatgaattaattaaacgagaCAAAAAAGTGACGGAGCTATTACAGGATGTAGGTAGAGCGTCGCTGGATATGTTGGGGATGAACGAGTTGAAGAACGATATTGAGAAAATGAAGCCACAGCTGTACGATCTTCAAAtcgagagagataacctttTGGAGGAATTGCATAAGGTACATGGCGTTGTATCCGATCGGAATGACCAAATTATACGAGTTTTAGAAAAACGAGACAAGTCTGACGGTGATTACACTGCAAAAATCGATGCAATGCAAGCGAGGATAGACGCATTGCTCGGACAAGAAGCTATATCGAAAAAAGAGGTGGAAGATGCGAAGGCGCAAATTGCAAAACTGGAGGACGAAATTGCGAGACTAAAATCGCGGATTGATGAGCTTGAGAAAAATTGCGGTGACACCGAGGCCCTGAAAAATAAATTGGAGGAACTAAATCAGGCGTTGAAAAAGTTGAGTGAAGATAACGATGCTCTCAAAAATGAGAATGCAAATCTGACTGTGGCGAATGAAAAGTTGAAGGACGAGGTGGGTAAGCTcaagagcgagagcgagaggcTTTCCACGGAGATTGATAAGCTGCGGATAGAAAATGACAAACTCGGTGCCACTGTTGACGGTCTAAAAAAAGATTTGGCTGATGCGCAGGCGAAAAACGATGTGCTGGATAAACAACTCAGCGCTATAAAGGATGAGAATGGTAAACAGAAAGATAATGAAAATAATCTGAAGGGACATTTAGATAATCTGACGGGGCAATTGAAATCGTTGAGTGAGGATAACGCGAGTTTAAAAAGTGACTTGAATAAGGCAAAAGCTCAAGTCGAGGGCTTGGAAAAAGAACTTCATAATTTAAGAGCAGATTTTAATAACCTGGAAGAAAAGAATAGAGCCCTTAATGATGAGTTCAATAAAGCAGCGAAGGAATTGTCGGAAATGAGGGCGATGAACGACTTACTGAAAGGAGAGCTCGAAGACCTGGCGAAGGAGAATGAAAAACTCAAGAACGACATGGATAAACTACGAGAAGCtttcgaaaaaattcaaaaagaatTGGAGAATTGCAAGAAAGAAAACTCCGACTACGAGGAAGAGTTGAAACGCTTGAGGGCAGATAATTTGTCTTTAAATGCAAATCTTGACGATTCAAGGAAAGAAAATGATGCTTTGAAGGcggaattaatgaaattaaagaacgaCTTTAATAAACTGAACGTCGAGCTTGATGCTTTGCGCAACGAAAATTCCATATTACAATCCAAAGTGGACGCACTGAAATTAGAAAATAATGACTTGAAACGTGTTGCCAGTGAACTTAAAGACGAGTTAGGTAACGCTCAGGGGGAATTAGCAAAACTTCGGGACGAAAATAGTGGACTGAAGGCCGAAGTTCAGAAACTCGAAGCAACTAACGCGGGTTTGAAAGACGATCTCGATAAGGCTAATTCGGTTAATGACCAATTGAGAGCCGAAGTGAGTTCTCTAACGAGTGATCTTGAGGCGGCGAAACAAAAGTTCAATCAATTGGATGCAGAGAATGGCGCACTGAAGGCCGCTGTGGAAAAGTTAAAAACAGAAAACGCCGATTTGAGAGCTGATACAGCCAAGTTGAACGCAGATTTGGAAAATATAAGACAAACGTTGGATAAGATAAAGGACGAAAATTCTAAtcttaaaaatgaaattgacaAATTACTGATCGATAATTCGAGTCTAAAGGACAATCTCGATAAGTTAATAGAAGAAAATGGACAATTAAAGAAGGAAGGGGACGCATGGAAGACAGAAAACGAAAGACTCAAGGCAGCCGGGGATGGACAAATTAAAAATGAGAAGCGTTTGGAGGACGAGATCGACGATTTGAAGCACGAGAGAGATGGAATGAAGTCAGATTTGGACAAATCACGATCCGAAAACGAGGCTCTAAGGGGAGAGAGAGATCGTTTGAAGCAAGATCTCGATGATGCGTTAGCTAATAGCAAGAGCATCAAGGCCGCACTGGACGAATTGAAGCTCGAGAATGAGAGGGTTAAAGCCGACCTTGAATCTATCAGACTCGACAGAGACAAGCTTGCGGCGGAAGCTGCTAAACTGAAGACTGAAGCAGAAGCTCTCGCAGACAAAGTGAAAGCCTTAACGGAAGAAGTACAAAAGTTTATTGCTGATATCGAAAACTTGAAAAGCGAGCTCGGTGATGCGAAGAAGATTATTGAGAAACTCGAGTCCCAACTCTCTGAATTAAAAGCGGACAAAGCTCGCCTCGAAAAGGATATAAATGCACTCAACGCCGCGTATGCAGATCTCAAAGGTGCATTAAATGCGGAGAAAGATGCGAAAGAGGCTGCTCTGAAGGAGCTAATAGCCTTGAAGGACGAACTTAAAGGGTTGCTAGGTAAACTGGACAGCCTGCAATCCGAAAAAGACAACGCAATTGCTGAGAGAgacgaattaaagaaaaaacttGTTGAAATGCAGGAGCAACTTTCGAAACTGTCGGCGGACAACATTGATCTTGCAAAGAACTTAAAAAGTTTAACCTCCGAAGTAGAAGCGCTGAAGAGCGAAAACGAAGCGCTTCGTGGTGAAGTCGGTCAACTTCAAAGCGACGTGGATCACTGGAAAACGGAAAACTGCAAGCTGAAGATGGAAGTTGAGAAATTGAAAGATGATATTGACAAATTAAAAAAGGATTTGGATGCTGGTCGTGCGAAGATAAAAGAACTCGAGGGGCAATTAGCTACGCTTGAATTAGAGAAAAAAGATAAATTGCAGATGATTGATCGCCTGGAAAATGAAATATCGAAATTGAAAGAGAATCTTAATTCAGAGAAAACTGCTAAGGAAAATGCCCTTAAGCGGATCGCCGCATTGGAGGAAGAATTAGACGCCTTAAAAGCTGAACTATCCAAGTGTAGAAGCGAAAAGGAACGGCTTGGTAAGGAATTCGACGATCTTAAGCAACAGCAATCGGTTCTCAAAAGCCAAATGGACACATTAAAGGACGAAATATCTGCTTTGCGAGGGCAAAATGACAAATTGAAGTCTGATCTGGACCGCTCGATAGCTGACTCGGATGGGGCTAAAGGCGACTATAAGAAATTGCAAGATACTACTGAATCTTTAAAATCTGAGAATGCCGGCCTCAAAAGTGAGCTGGAAAAGGCGAAAAAGTCCAACGATGAACTGAAAGCCGAGCTTGAActtaacaaaactgaaaaagaaAAGTTAAAAGCTGAGCTTAATGAATTGAGGAATCAAGCTGCAAAACTCAAAAGCGATCTTGAGCAATGTCATGCGGAAGCTGAAAGTCTTAAGGCCGATTTGAGTAAAGCAAACAGCGAATTAGCAAGGTTAAAAAATGAACTTGACAAACTTAAATCGGATTTTGAAAATATGCGAAAATCTCATGAGGATTCAGAGGCTAAAATTAAATCTCTGGAGGGTCAGTCCGCCGCTTTTCAAAATGAAAAACTGAAGCTCGTCAAAGACCTTGAGGCCTTAAGAAACGAAGCAGATAAGCTTCGAAAAGATTTATCCGCTGAGAAAATAGCCAAAGAAAATCTTTTGAAAGAAGTTGCTGCAGTCAAGTCAGAGTTGGAAGCTTTAAAATCTGAGCTTGATAGACAAAGAGCCGATAACGAAGCATTGAAGAAAGAACTAAATTCCCTAAAGAAACAACTAGAAGATTTGAATTCGGCGAACGCGCGTTTAAGTGCCGAGATTGATAAGGCGAAGAACGAGTTAAATACATTGAAGCCAGAACTTGAGAAATTGAAGGCAGAACTAGCGAAGCTGAATACCGAACTAGCGAAACTGAATGCCGAACGAGCCGAGAATGAGAACGCAATTAAATCGTTGAGGACTGAAAATGAGAAGCTCAAGAAATTATTCGCGGACAGCGAGAATCGTGTCAAAGCATTGGAAAATGAGCTCGGTTCATTGAGAGCTGAGAAAGACAAGCTCGCAAACGAAATATCCGACTTGATAGGAGAGATCAGCAAACTCGGCAAGAATTTGGCGAATGAAAAGGCAGCCAGAGAAGCTTCATCGAAAGAGCTCGAGGCATTGAAGAATACGCTGGCTGGAATGAAAAGCGACTTGGACAAGTGCAGAGCGGAAATGGCAAATATGAAGAAGGAACTCGACGCCGCTATGGCAGAAATAGCAAAAGCGCGTGAGGATGCGAATAAATTGAAAGCAGAAAATAACCGCTTACAGGGTGAACTTGAAAAATCGAAAGCTGATACGGAGAAATTAAAGAGCGCGTTGGATAAGGCTAATGCGGAGATCGATAACCTCAAGGTCGATGCAGAGCGTTATAAGGCAGAGGCCTCAAAGTTAAAGAATGATTTGGACAAAGCAAAAATGGAGAACGATAAATTGAACAATGAATTGCGTCAAGAGAAAGAGCATTCCGCAAAATTAATGCAAGATCTGGACAAGTCGAAAGCAGAAAATAACCGATTACAAGGTGAACTTGAAAAATCGAAAGCTGATACGGAGAAATTAAAGAGCGCGTTGGATAAGGCTAATGCGGAGATCGATAACCTCAAGGTCGATGCAGAGCACTATAAGGCAGAGGCCTCAAAGTTAAAGAATGATTTGGACAAAGCAAACATGGAGAACGATAAATTGAATAATGAATTGCGGCAAAAGAAAGACCATTCCGCGAGCTTAATGCAAGATCTCGATAAGTCGAAAGCAGATAATAATAAACTGGGACGAAATGTTGAAAAGCTTGAGCTTGGAGTAGCAGAGGGACAAAGAGCAATTAGAATTTCTAATGTAGCAGCGAATGCCTTGCAGATTGAGATTGATCGTTTGAAGGCCGAAAATGCAAAGTTAAAGGCTGAGATTGATAAATGTCAGACGGAAAATAATACGTTAAGAAATAACAAGGATGGCAAGAACTTTGAAGCTAAAATCGATGAAAAGAGAAAACAATCAGGAGATACATTGGGTGTCGAAGCTGCGAAAGACGCGGACGTAGTAAAATCAACGAAAGCATCTGATGTTCATCCGGACGAGTGTGGCGACTATGTAAGGTCGAACGAATTGCTGGGTAAAAGTCTGGTCAAACAAAACGAAGGTGTGGCGCGTGTTCGAGAATACATTGGTCATATCGATGGCAGAGTTCCAACAAAACCTACGATGGCTCAAGGACCTAACGAGGATCCTAACATAAGTGATTTTCTCTCATCTATGGTTGTACAAACCCTACAACAATCGCAAGAACTGTCTAGGAACATTCTGAGCGTCGAGGTAGAGATACAGACGATTGGAGACCGACTCAACGATTGTAGAAAGGAGAACAATAGGTTGAGAAAATTACTCGAGGATCTCGGAGTCGACAATGAAGAGTTTGAAGAGTTCCACGAGCAAATCGGTGATGCGTTTGATGCCGAATCGTGGCTGAGATCGTTGACACTGTCACAATTGGCCGAACTTCACGACCGCATCTGTTTGCTAACGTCGAGTATGGTTCAGCAAGACAGCAGTGGAGTGACTTCTCCGAAGGAAGAGTCTGGTCGCTCGGTGATCGCGGAGGGAAACTACGACCCACTCAAGGAGAACTACGACATTCTGAATAAGCGCATAGCAGCCCTGCAGAGACAAATAGCTGACAAGCAGGCCGAAGCCGCGAGAAAGGTATACGATATGAGGCAATCCCTTCGTCAGGAACAGGCGCAGCTCATCAGGCTCTCGGATGAGATGAATCAAGAAAGAAAACGAAATTTGGCGCTTCATCTCACTATGGATGGTTCAGCCTGTTGGGTCAACAAGTGCAATGCCGAATGCAGTGGCGATTTCGGTGACTTGAATGCTCGGCTTAAAGTTTTCTTCGATgatatagaaatcgtaaaaatcgATCATAAATACTTCGATCCCGAGAAAACCGAAGCTTACATTGTTGAAGATGAGGAGACGAATGAAAATACAATCAGCAGCACGTTGGAACTCATCAAAAAACCTCCACCGACAGCTGAGGGTCATTTCATGTTAACGGGATTGTCGATGGGCGAGTACACCGTCCCTACTGGTGTTGATCTTAAGATGACGCTGTGCGAGATGTTGGATGAACCAATTATAATGGGTCCATTTTTTGCTGTACTTGGCTTTAACCGAGATTCTTGTCCACCGGAACCAGGTACATACTCTCAAGAAGGATACAAACTCCCATTGGAAAGTTTGCCGGATGAGTTTCCCGAGAACAAGTATTTAGTTAATTTCGAAATCAGCCTAAAGGGAAAACCGTTGGTGGCAGTCAACATCTATGCGGATGTTCAATCTGAATAA
Protein Sequence: MACDHCPTSCCLCGCDAPMAENFTEPPHEPCCCCNYNPFSDHSTESEIHDLSFALRKLTVMKCQMKKWRMERLQLESECRSMKEALQSFGINTEEGLKTDPLIVHYRGENMQLQNSNELLQEKIKVLEETLAERDLYENPCEGVQIIRDRMRMLRDQFVSEKKQLKDAITQLQIQLAEAEDDTSCAALNRLRAKLRELMKGGQKADQQVTKVVQKSIETLVDLSKGCDDLKLENERLLNEIRALRQALKDMGVDDTFIHVEDGDLPSSDILPKETGEDDTSIHPKDRQVPKIIPPLDKIIKTVKDATKRYKGSTESETIIVDLQQKLQDRDGEVARLSEDLDRITVSHKALMAEVTDAKNELIKRDKKVTELLQDVGRASLDMLGMNELKNDIEKMKPQLYDLQIERDNLLEELHKVHGVVSDRNDQIIRVLEKRDKSDGDYTAKIDAMQARIDALLGQEAISKKEVEDAKAQIAKLEDEIARLKSRIDELEKNCGDTEALKNKLEELNQALKKLSEDNDALKNENANLTVANEKLKDEVGKLKSESERLSTEIDKLRIENDKLGATVDGLKKDLADAQAKNDVLDKQLSAIKDENGKQKDNENNLKGHLDNLTGQLKSLSEDNASLKSDLNKAKAQVEGLEKELHNLRADFNNLEEKNRALNDEFNKAAKELSEMRAMNDLLKGELEDLAKENEKLKNDMDKLREAFEKIQKELENCKKENSDYEEELKRLRADNLSLNANLDDSRKENDALKAELMKLKNDFNKLNVELDALRNENSILQSKVDALKLENNDLKRVASELKDELGNAQGELAKLRDENSGLKAEVQKLEATNAGLKDDLDKANSVNDQLRAEVSSLTSDLEAAKQKFNQLDAENGALKAAVEKLKTENADLRADTAKLNADLENIRQTLDKIKDENSNLKNEIDKLLIDNSSLKDNLDKLIEENGQLKKEGDAWKTENERLKAAGDGQIKNEKRLEDEIDDLKHERDGMKSDLDKSRSENEALRGERDRLKQDLDDALANSKSIKAALDELKLENERVKADLESIRLDRDKLAAEAAKLKTEAEALADKVKALTEEVQKFIADIENLKSELGDAKKIIEKLESQLSELKADKARLEKDINALNAAYADLKGALNAEKDAKEAALKELIALKDELKGLLGKLDSLQSEKDNAIAERDELKKKLVEMQEQLSKLSADNIDLAKNLKSLTSEVEALKSENEALRGEVGQLQSDVDHWKTENCKLKMEVEKLKDDIDKLKKDLDAGRAKIKELEGQLATLELEKKDKLQMIDRLENEISKLKENLNSEKTAKENALKRIAALEEELDALKAELSKCRSEKERLGKEFDDLKQQQSVLKSQMDTLKDEISALRGQNDKLKSDLDRSIADSDGAKGDYKKLQDTTESLKSENAGLKSELEKAKKSNDELKAELELNKTEKEKLKAELNELRNQAAKLKSDLEQCHAEAESLKADLSKANSELARLKNELDKLKSDFENMRKSHEDSEAKIKSLEGQSAAFQNEKLKLVKDLEALRNEADKLRKDLSAEKIAKENLLKEVAAVKSELEALKSELDRQRADNEALKKELNSLKKQLEDLNSANARLSAEIDKAKNELNTLKPELEKLKAELAKLNTELAKLNAERAENENAIKSLRTENEKLKKLFADSENRVKALENELGSLRAEKDKLANEISDLIGEISKLGKNLANEKAAREASSKELEALKNTLAGMKSDLDKCRAEMANMKKELDAAMAEIAKAREDANKLKAENNRLQGELEKSKADTEKLKSALDKANAEIDNLKVDAERYKAEASKLKNDLDKAKMENDKLNNELRQEKEHSAKLMQDLDKSKAENNRLQGELEKSKADTEKLKSALDKANAEIDNLKVDAEHYKAEASKLKNDLDKANMENDKLNNELRQKKDHSASLMQDLDKSKADNNKLGRNVEKLELGVAEGQRAIRISNVAANALQIEIDRLKAENAKLKAEIDKCQTENNTLRNNKDGKNFEAKIDEKRKQSGDTLGVEAAKDADVVKSTKASDVHPDECGDYVRSNELLGKSLVKQNEGVARVREYIGHIDGRVPTKPTMAQGPNEDPNISDFLSSMVVQTLQQSQELSRNILSVEVEIQTIGDRLNDCRKENNRLRKLLEDLGVDNEEFEEFHEQIGDAFDAESWLRSLTLSQLAELHDRICLLTSSMVQQDSSGVTSPKEESGRSVIAEGNYDPLKENYDILNKRIAALQRQIADKQAEAARKVYDMRQSLRQEQAQLIRLSDEMNQERKRNLALHLTMDGSACWVNKCNAECSGDFGDLNARLKVFFDDIEIVKIDHKYFDPEKTEAYIVEDEETNENTISSTLELIKKPPPTAEGHFMLTGLSMGEYTVPTGVDLKMTLCEMLDEPIIMGPFFAVLGFNRDSCPPEPGTYSQEGYKLPLESLPDEFPENKYLVNFEISLKGKPLVAVNIYADVQSE

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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