Basic Information

Insect: Hedychridium roseum
Gene Symbol: -
Assembly: GCA_963989215.1
Location: OZ022307.1:10245521-10253579[-]

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 0.048 30 4.8 0.8 30 60 60 90 54 94 0.79

2 42 0.18 1.1e+02 2.9 1.1 37 63 105 131 102 133 0.84

3 42 6.8 4.3e+03 -2.1 0.1 39 59 159 179 154 181 0.83

4 42 0.0051 3.2 7.9 0.3 30 57 222 249 217 252 0.88

5 42 5.7 3.6e+03 -1.9 1.6 27 64 296 333 294 334 0.67

6 42 0.1 63 3.7 3.3 26 55 396 425 392 437 0.70

7 42 0.042 26 5.0 1.0 22 61 459 498 449 502 0.60

8 42 0.047 29 4.8 4.4 25 65 500 540 484 540 0.92

9 42 0.009 5.7 7.1 0.9 27 54 530 557 526 567 0.66

10 42 0.0061 3.9 7.6 3.9 22 59 588 625 581 628 0.84

11 42 0.06 38 4.5 0.7 34 64 621 651 617 657 0.87

12 42 0.0013 0.81 9.8 1.8 21 62 671 712 666 715 0.84

13 42 0.39 2.5e+02 1.9 4.1 18 58 703 743 702 755 0.86

14 42 0.049 31 4.8 5.2 22 64 749 791 747 792 0.91

15 42 0.0031 2 8.6 7.5 15 63 816 864 810 866 0.84

16 42 0.0034 2.1 8.5 2.6 29 61 869 901 865 912 0.56

17 42 0.00069 0.43 10.7 6.1 26 61 947 982 935 993 0.60

18 42 3.7 2.3e+03 -1.3 10.6 21 58 988 1025 982 1028 0.79

19 42 0.12 77 3.5 6.6 21 64 1040 1083 1021 1084 0.76

20 42 0.026 16 5.6 8.7 24 58 1071 1105 1068 1109 0.91

21 42 6.4e-05 0.04 14.0 1.0 22 63 1125 1166 1124 1174 0.86

22 42 0.11 68 3.6 5.6 26 61 1178 1213 1175 1216 0.75

23 42 0.00079 0.49 10.5 1.0 32 63 1226 1257 1218 1259 0.83

24 42 3.2e-05 0.02 14.9 1.4 30 62 1280 1312 1272 1315 0.53

25 42 2.5e-05 0.016 15.3 2.2 22 59 1307 1344 1306 1346 0.80

26 42 0.0048 3 8.0 3.5 24 64 1365 1405 1363 1406 0.90

27 42 0.004 2.5 8.2 4.8 25 64 1380 1419 1379 1420 0.94

28 42 9.7e-06 0.0061 16.6 6.2 25 63 1422 1460 1421 1461 0.94

29 42 0.028 18 5.5 6.3 24 63 1484 1523 1470 1526 0.79

30 42 0.0012 0.77 9.9 0.7 22 55 1545 1578 1544 1580 0.92

31 42 0.018 11 6.2 3.2 33 61 1584 1612 1582 1616 0.88

32 42 0.43 2.7e+02 1.7 0.5 30 52 1609 1631 1607 1672 0.76

33 42 0.85 5.3e+02 0.8 0.2 28 53 1656 1681 1641 1688 0.69

34 42 0.0024 1.5 9.0 4.4 30 62 1686 1718 1679 1721 0.86

35 42 0.0014 0.88 9.7 4.0 14 63 1751 1800 1750 1802 0.93

36 42 0.002 1.2 9.2 3.1 40 62 1812 1834 1800 1851 0.61

37 42 0.05 31 4.7 0.3 29 59 1889 1919 1878 1924 0.83

38 42 0.0065 4.1 7.6 2.7 24 60 1905 1948 1895 1953 0.78

39 42 0.45 2.8e+02 1.7 2.6 34 61 1999 2026 1953 2036 0.80

40 42 0.00014 0.088 12.9 8.6 21 64 2084 2127 2083 2128 0.93

41 42 0.17 1e+02 3.0 0.3 43 63 2313 2333 2302 2335 0.76

42 42 6.3 3.9e+03 -2.0 1.6 30 56 2420 2447 2411 2456 0.52

#	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	0.048	30	4.8	0.8	30	60	60	90	54	94	0.79
2	42	0.18	1.1e+02	2.9	1.1	37	63	105	131	102	133	0.84
3	42	6.8	4.3e+03	-2.1	0.1	39	59	159	179	154	181	0.83
4	42	0.0051	3.2	7.9	0.3	30	57	222	249	217	252	0.88
5	42	5.7	3.6e+03	-1.9	1.6	27	64	296	333	294	334	0.67
6	42	0.1	63	3.7	3.3	26	55	396	425	392	437	0.70
7	42	0.042	26	5.0	1.0	22	61	459	498	449	502	0.60
8	42	0.047	29	4.8	4.4	25	65	500	540	484	540	0.92
9	42	0.009	5.7	7.1	0.9	27	54	530	557	526	567	0.66
10	42	0.0061	3.9	7.6	3.9	22	59	588	625	581	628	0.84
11	42	0.06	38	4.5	0.7	34	64	621	651	617	657	0.87
12	42	0.0013	0.81	9.8	1.8	21	62	671	712	666	715	0.84
13	42	0.39	2.5e+02	1.9	4.1	18	58	703	743	702	755	0.86
14	42	0.049	31	4.8	5.2	22	64	749	791	747	792	0.91
15	42	0.0031	2	8.6	7.5	15	63	816	864	810	866	0.84
16	42	0.0034	2.1	8.5	2.6	29	61	869	901	865	912	0.56
17	42	0.00069	0.43	10.7	6.1	26	61	947	982	935	993	0.60
18	42	3.7	2.3e+03	-1.3	10.6	21	58	988	1025	982	1028	0.79
19	42	0.12	77	3.5	6.6	21	64	1040	1083	1021	1084	0.76
20	42	0.026	16	5.6	8.7	24	58	1071	1105	1068	1109	0.91
21	42	6.4e-05	0.04	14.0	1.0	22	63	1125	1166	1124	1174	0.86
22	42	0.11	68	3.6	5.6	26	61	1178	1213	1175	1216	0.75
23	42	0.00079	0.49	10.5	1.0	32	63	1226	1257	1218	1259	0.83
24	42	3.2e-05	0.02	14.9	1.4	30	62	1280	1312	1272	1315	0.53
25	42	2.5e-05	0.016	15.3	2.2	22	59	1307	1344	1306	1346	0.80
26	42	0.0048	3	8.0	3.5	24	64	1365	1405	1363	1406	0.90
27	42	0.004	2.5	8.2	4.8	25	64	1380	1419	1379	1420	0.94
28	42	9.7e-06	0.0061	16.6	6.2	25	63	1422	1460	1421	1461	0.94
29	42	0.028	18	5.5	6.3	24	63	1484	1523	1470	1526	0.79
30	42	0.0012	0.77	9.9	0.7	22	55	1545	1578	1544	1580	0.92
31	42	0.018	11	6.2	3.2	33	61	1584	1612	1582	1616	0.88
32	42	0.43	2.7e+02	1.7	0.5	30	52	1609	1631	1607	1672	0.76
33	42	0.85	5.3e+02	0.8	0.2	28	53	1656	1681	1641	1688	0.69
34	42	0.0024	1.5	9.0	4.4	30	62	1686	1718	1679	1721	0.86
35	42	0.0014	0.88	9.7	4.0	14	63	1751	1800	1750	1802	0.93
36	42	0.002	1.2	9.2	3.1	40	62	1812	1834	1800	1851	0.61
37	42	0.05	31	4.7	0.3	29	59	1889	1919	1878	1924	0.83
38	42	0.0065	4.1	7.6	2.7	24	60	1905	1948	1895	1953	0.78
39	42	0.45	2.8e+02	1.7	2.6	34	61	1999	2026	1953	2036	0.80
40	42	0.00014	0.088	12.9	8.6	21	64	2084	2127	2083	2128	0.93
41	42	0.17	1e+02	3.0	0.3	43	63	2313	2333	2302	2335	0.76
42	42	6.3	3.9e+03	-2.0	1.6	30	56	2420	2447	2411	2456	0.52

Sequence Information

Coding Sequence: ATGACTGAAATATGCACCGGGAACGCCTGTCTTTGCGGTTGTCACGCCCCGATTTCATCGAGATCGGCTGATCCTCCGCACGAGCCCAACTGTTGCTGTTCCTACAATCCTTTTGCCGATGACTGCGAGGAATCTGAGCTTTGCGACCTTTCCTTCGCTCTGCGAAAGCTCACGGTCATGAAGTGTCAGATGAAAAAGTGGCGTATGGAGCGACTTCAGCTCGAGAGCGAAAACAGATCCCTGAAAAGAGCTTTACAATCGCTCGGTGTGAACGCCGACGATGCTCTGAAGCCTGATCCTTTAGTTCTCCATTATCGAGCCGAAAACGAGAAGCTCCGGGTGGCAAACGACCAATTGGAGGACAAGATGCGCGACTTGGAAGAGACTCTTGCTGAGCGCGAATGCTGCGAGGATCCCTGCGGGGAAGTGCGTTACACGAGGGTGAGGATTAGAGAGCTGCGGGATCGTTTCATAGCCGAGAAAAGACACTTGAGGGATATGGTATCTCAGCTGAGACTGAAGCTCGCGGAGACGGAGGACGATTCCTCCTGCGCTGCTTTGAATCGTCTAAGGGCTAAACTGCGTGAATTGCTGAGGGGCGGAGAACAAGCCGATAAGCAAGTCTCGAAGGTCGTCGAGAAGTCCATCGATACTCTCGTCGATCTGTCGAGAAGCTGCGATGATCTGCGCATTGAGAACGAACGCCTGAAAGACCAAGTGGCTGCCCTTCAACGCGCTTTAGAGGCGAAGAAAGTCCCCAGCGATGTCGACGTAGTAGTTGTCGACAGAATGGAGCCAGTTCTCGTAGATACAGACCGAATTGACGCTGTTCCAGTAGATACAGATGGAATTGATGCCGGTCGGATAGATGACAATGGAGCTAAGGTTGCTGCTCTACTCGCGAAACTCGACGACTGCGAGACAATGGTTGCTGATCTAAAGAATCAGTTGGCCGAGAAAAATGCTCTTTTGGAGAACCTCAAGGCCGAAATGTCTGAGCACACTGGTTCCATTGCAGAAATGGCAGCCGATCTCGATCGAATGACCGCTAATCATAGAACTTCGATGGACGAATTGGCTGCCTTAAAGGAAGAACTTAAGAAACGGGACGATAAAATCAAAGAGCTGTCGCGAGACTTGCGAAAATCGCAGAGCGATTTGTCGGACGTAGGAGACCTGTGGGCTGAGATAGAAGTCCTGAAAGCTCAGTTGAACGAGCTGCAGAGCGAAAGGAATAAACTTTTGGACGAATTGGAGAGAGTACGGGCCGTAGTATCTGAGAGGAATGATCAGCTCATCCAGGTCCTGGAGCAGAAGGACAAAATGGAGGCCGACTGTGGCTCAAAGCTGGCGGCTATGCAGGCGAAGATAGATGCAATGACGGCGCAAGAGGCAGCCTTGAAAAAGGATATCGAAAATCTCAAGGGAAACAACGCAGAGCTTGAAGGTCGAATAGATCAATTAAATGGCCGGTTAAAAGATCTCGAGGAGAAATGTGCTGAGGCTGAGGAGAtgtcgaaaaaaatgaaggacaTGGAAAACGAGATGGACGGCTTGAAAAAAGAGCTTGCGTCCGCGAGAAGCGATGCCGAGAAATTAGAAGCTGAGGTCACGGCGTTGAAAGCTGATAGGGAAAGATTGTCGAAAGAAGTGGACGTGGCAACAGCCGATGCGGAGAGCTTGGAAATTCAACTGACTGCTGAGAGGGCAGCCAGTGTGGATTTAGGGAAAGATTTTGAAAAGTATCGGGAGGATGCCGAAAAGTCGAAAGATCTGAGTGCCGCTTTAGCCGAGGAGTCGAATAAACTGAAATCTGAGAACGAAGGTCTTAAAGCTGAGATCGAACGGTTGAATGGCGCACTGAAGAATCTCACGGAGGAGAACGATATTTTGAAAGCCGAGAACCACAATATAAACGCAGAAAATGTAGCCCTGAAGGGTGAACTGGATGCACTTAACAAGAGGCTTGAGATATTACTTGGCGAGCTTGAAGATACGAAGAATGATCGAGATAAGTTCGCTAAGGAAGTTGGAGACTTGAAGGAGAAATTGCAGGATCTGAAGTCGGAACATGATGCGTTGAGAAGTGAGTCGGAGGATCTGAAGAAGGCACATGACAAATGCAAAGCAGATATGTCGAATCTGGAGAGAGAGCTTGAGATTAAAAGTGCTGAACTCGACGCTCTTAAAGGCGACAACACTGCTCTAAAAACCCAATTGCAAGAAGCTTTAGCAGAGTCTGAAAGGTCGAAGGACAAGCTCCGCGACCTTACTGATCAACTCGAGGAGATGAAAAGTCTAAATGACCAGTTGAACGAAGAGTTCGGCGCAGCTAAACtcgagaatgaaaaattgaaagacGAACTGGTTAAACTTAAAGCTGATTCGGACAAAACCAACGAAGTATTGCAGGACAATCTTCAAGACTTAATGAAACAATTGGGCGCAGCACAAGGCGATAAGAATAAATTGAACGAAGAACTGCAAAAGTGTGCAGATAAATTACAAGACAGTTTGGCTGAGAACGACAAGTTGAAGGCGGCGAATGATGAGCTACAGAACGAAATGACGAAACTGAAGAGTAGTTTGGAAAACGACATTGAAAACCTTAAGAATGAGATAGCCCAATTGAAGGATCAATTGGATACGCTGCGAGCTGAAAATGAGGGACTGAAGAAAGACCTTGCGAATGCTGTATCCGAAAATGACAGGCTCAAGCAGATGGGCAAGGAAGCTGAAGATAAATTTGGAGATTTAACGAAAATTGCGGAACAAGAGAAGGCTCATATTCAGGGTGAATTGACTCAGGCCAAAGCGGAAGCCGAAACATTGGCTAGTAAGATCAACGAATTAAATGATCAGATCGATGAtcttaagaaagaaaaagaagaactcCGAGCAAGCGTCGACGGTTTAAAAACTGAAAATGAAAAGCTTAGTGCAGAGTTAAATTCTTGCAAAGATGAAACCGAAAGATTGAACGTTGAACTTCAGAAGACAAAGGAAGAGCTTGCAGCATCGAATGATGCCTTACAACAGCTGAAGAAACAACTGGAGGAAGCGGAAAATGAGATCAAACGATTGGAAACGTTTGTGGCTAGTTTAGAAGATGATAAAACCAAACTTCGAGATGACATAAAAACTCTTAGTAACGAATTAAAAGCACAGAGGATAGCAAAGGAGGACCTTCAATCCGAATTAGCGGCCCTAAAGGAAGAATTGAAGAATCTGCTTTCAAAGTTAAACGCTTTGAAAGTCGAAAATGAAGCTTTAAAACTGGAGAAAGAAGATCTAGAGAAGGAAAATGCCAATATGGATGACGATATGCTAaatataaggaaaataaacgacGAAATGAAGACCGAGATGAACAAATTGCAGGAAATTATTGATGGTCTACAATCAAAGATTTCCGATTTAGAAAAGGACAATGATTATTGGAAGACAGAAAACTGCAAATTGCAGTTGGAGATTGACAAATTGAAGGCAAATTTAGATGAGTGCAAGAAGCATTTGAACGACAGTGAGGCTGAAAAGAAAGAGTTGCAAGAGAAGCTGTTAGgattggaaaaagaaaaagccaCGCTTGAAGAGGAAGTCGCAGCGGCAGGGGCAAAGACGAACgaattaagtaaattattatcTGTCGACAAAGATGCAAAGGAGAAAGCTCTCGACGAACTGGGGAATGTGAAAGACGAGAATTCTCGCTTAAAAGATGAAATCTCCGCGTTGAAGGATGAATTGTCAAAGTTGCGGGATGAACTAGATAAGTTTAAGTCTGAATTAGACAACTCCTCAAAGCAAATAACGGCTTGCAAGGCTGAACTTGAAGACATGAAAGCTCAGATTGTCGCTCTCGAGGGGGAGAAGTCTGCGTTGAAAACTGAAGTTGAGAGACTAACTACTGAAAATACTAAATTGAAATCAGAAATTGATGATCTACAAGCACAGGTTGGTGCTCTGCAGAACGAGAACAATCGGCTTGCCAATGAAAAAGATCAGTTAATAGCGGAAAAGGATAGGATGAAAGGTGACGGCGACGGTTTGCGAGTTCAAATGGATAAAATGCAATCTGACCTGCTGGCAAAAGATGAGACAGTCGGTCGTCTCAAGGCTGACTTGGCCTCCTGTCAGGAACAGAACGAGAAGTTGACCGGGGACTTGAATAAATGCCAGGAGGAACTGGCGAAGGTGAGAGCCGAAAACGAAAGGCTGAGAAACCAAGTTGATGCGATACAACAGAGTTTGACAGATGTCCAAGAGCAGTCGAAGAATCTGGAAGGTCGAGTGTCCGCGCTGGAAGCTGAGAAGGCTAAACTGTTGGAAGAATTGAAAGATCTCAGATCGAAAGTTGACCAACTTGACAAAGAACTAACGGCGGAGAAGGCGAGTAAAGATGACGCACTTAAGGAAAGATCGGCAGCCAAAAGCGATCTCGCAACTCTGAAAGATGAATTAGCGGCTCTTAAGGCCGAATTAGCGCAGGGCCGCGAAGACAATAAAAAGTTGGCTGCTGAGAATGCTAGGCTGAAGAAGGAAGCTGACAACCTGAACGATCGGTTGGCGAATCTGCAAAATGAGATTGGAGGATCGAAGGATGAGATGGCTAAGAAGGACTCTGAATTGGCAAAGCTCAGACCAGAAATATCGGCACTGCGCGATAGCCTCGATAAACTTCAAGGTCAAAACGATGCTTTGAAGGACGAGAACGCAAAGCTCAAGGAGGACTTGACAGACGGAATGTCGAGAATTAAAGCGTTGGAAGATGAGAAGATTGCGTTGCAATCTGAAAAGGAGAACCTCGAGGCACAACTCAGGAAACTGTCAGTTCGGGCAAAAGACCTAGAAGATCAAGTAGCTGGTCTAAAGTCTACGATTGACAAGTTGAACGGTGACCTTGATGTTGAGAAGTCTGCCAAGGACGCAGCTTTGCAGGAATTGAATGCCCTGAAGAATACACTGGCCAACTTGAGAAACGATTTGGACAAATGCAGGGGTGATAACGATAAATTGAACGCTGAAATCGACGTTCTGAAGAAACGATTTTCTGCCTCGGAAAAGGAAGCTGGAGCGAAGGAAGCTGAGAATAACGATCTCAAAATGGAATTGGATCGGTTGAGGCGCGAACTCGAACAATTAAAATCTGACAATGCTTCCTTGAGGAACGACTTGGCCAACACAAGTGCGGACAAGGACAAGCATATTGCCGATTTAAAATCTACGGCCGATAAACTGAACACTGACTTGGTAGCTGCGAGAACCGCGAAGGATGCAGCTCTGCAAGAGTTGAACGCCCTGAAGGACACTTTGGCCAAACTTAGGAGCGAATTGGACAAGTGTAGATCGGACAACGCAAACTTAAAGAACGAGATAGATACCTTGAGGAGTCAATTATCTTCGATAGAAAAAGACGCGGGAAGTAAGAATGTTGAGAATGCTAATCTCAAAGCGGAATTGGATAGATTGCAACGTGAATTGGATCAATTAAAATCCGAAAATGCCGTACTAAAGAGTGACTTATCTAACGCTAAATCCAACAACGACAAACTCTCATCTGACCTAAAGTCTGCAATGGACAAGTTGAACAACGATCTCCTTGCTGAGAAAGCTGCGAAGAATGCCGCTTTTGAGGAGTTGAACGCTTTAAAGAACATGCTCGCTAATTTGAGGGATGAATTGGACAAATGCAGAGCAGACAATGATAACTTGAAGAAGCAGATAGATGACCTGAAAAGTAGACTATCTTCGTTAGAAAAAGATGCTGGTAGTAAGGTTACTGAGAATGGGGATCTTAAGGCTGAGTTGGACCGATTGAGACGAGATTTAGAGCAGCTCAAGTCTGATGATGCCGACCTAAAGAAAGACTTGGAGAACGCTAAAGTGGATAACGCGAAGCTTCATCGTGATCTTGAGGCAGCAACTGCACGGGAGAAACAATGTTTGGACGAGCTCGACAAACTGAAATCGGAGCTGGGAATGTTAATTGGTGACCTTGAGAAGACGAAAACCGAGAATACTGCCCTCAAGGCTGACGTGGAAAAGGCAAAGGCTGAGAATGATGGATTAAGGAGAGATCTCGATGGAGCGAAGGGCGAGTTAGAAAAATTCCGCGAGGCTGCAAAAACGCCAGTGGATAAAAGGGATGACGTTCTTCAGACTGTTCCAAAACCTCAAGCTGATGTGCAAACGGTTGCACCACCTGTAGCAGAAGAACATACAACGCTTGACACTAGAACGGGTGAACAAGACCGATTCAAGGCcgacaatgaaaatttgaaagcaCAGAACAAGAAACTCGTGGAGGACAATGAGCGGTTGAGGAGGGAGCTTGACGCCTGTcgggaagaaaatgaaaggcTCAAAGAAGCACTGGAGAGTTTGAGGAAGGATTTACCTGGGCCAAAAGCTCAAGAAGAGAGCAAAAGACCTGCAGAAAAAGCAGCGCaagaagaggagaggggaCCTGTTGATGCAGAAATTCAAGAACAGCGTGAGCGAGGAGTAGACGCAGAGGTTCAAAGAGAGAGCACAAGACCATTAGACGCAGAAACGCAAGGGGAGAGCAGAAGAGTTGCGGATGTCGAGGCAACGGCTCGTTTAGCACCAGCTGGGGAACCTCTACGACCCAGAATAGAGGTGTCTGAATTTGCGACAGTCGCGGAGCCTGATGAATGCGGTGATTTCATCAAAGCCAATGAGCTGCTCAGGAAGAGGATTAACAGTCAGGACGAAGGCATACGTCGGATTCGAGATTATATAGCTTATCTAGAAGGCAATCTCCAAGAAGAACCACCTATGCTACGTAAACCGGAAACTGATCTGGATATAACAGAACAAGATTGGAAAATACCGGAGGTTGTGGACATGCTGCGAAATTCCGAGAAGTTGACGGAAAATATTCGTCGGGCAGAAGTTGAGATTCGAGGGATTGGTAGATTATTGAAACGGCTAGAGGAATGTCGACGGGAGAATGAAAGGCTAAGGGGACAATTGACGGAATTTGGTGTGAAAGTTCCTGCTGGAGAGTTTCGCGAGGTCAAAGGTCCTGGTCACGAAGATTTCCATGCTGATTCTTGGCTCAGGTCGTTAACACTGACGCAACTGGCCGAGCTTCATGACAAGATCTGCCTGCTGACGTCGGAGATGGTGCAACAGGACAGCACTCCGGTGGTTTGCGATCGAGCCTTTGCCGGTTACGACGCACCGAGTCCGCTGCAGGCGGACTACGACATTCTCAACAAGAGGATCGCTGCTTTGCAGAAGCAGATAGCCGAGAAGCAGATGGAAGCGGCCCGGAGACTCCAAGAACTGAGGCAGGCCTTGCGCCTCGAGCAAGCTAATCTCATTCGAATATCAGACGAGATGAATTTGCAGAGAAAACGCAATCTGGCACTTCGGATCACGATGGAAGGTTCACCGTAA
Protein Sequence: MTEICTGNACLCGCHAPISSRSADPPHEPNCCCSYNPFADDCEESELCDLSFALRKLTVMKCQMKKWRMERLQLESENRSLKRALQSLGVNADDALKPDPLVLHYRAENEKLRVANDQLEDKMRDLEETLAERECCEDPCGEVRYTRVRIRELRDRFIAEKRHLRDMVSQLRLKLAETEDDSSCAALNRLRAKLRELLRGGEQADKQVSKVVEKSIDTLVDLSRSCDDLRIENERLKDQVAALQRALEAKKVPSDVDVVVVDRMEPVLVDTDRIDAVPVDTDGIDAGRIDDNGAKVAALLAKLDDCETMVADLKNQLAEKNALLENLKAEMSEHTGSIAEMAADLDRMTANHRTSMDELAALKEELKKRDDKIKELSRDLRKSQSDLSDVGDLWAEIEVLKAQLNELQSERNKLLDELERVRAVVSERNDQLIQVLEQKDKMEADCGSKLAAMQAKIDAMTAQEAALKKDIENLKGNNAELEGRIDQLNGRLKDLEEKCAEAEEMSKKMKDMENEMDGLKKELASARSDAEKLEAEVTALKADRERLSKEVDVATADAESLEIQLTAERAASVDLGKDFEKYREDAEKSKDLSAALAEESNKLKSENEGLKAEIERLNGALKNLTEENDILKAENHNINAENVALKGELDALNKRLEILLGELEDTKNDRDKFAKEVGDLKEKLQDLKSEHDALRSESEDLKKAHDKCKADMSNLERELEIKSAELDALKGDNTALKTQLQEALAESERSKDKLRDLTDQLEEMKSLNDQLNEEFGAAKLENEKLKDELVKLKADSDKTNEVLQDNLQDLMKQLGAAQGDKNKLNEELQKCADKLQDSLAENDKLKAANDELQNEMTKLKSSLENDIENLKNEIAQLKDQLDTLRAENEGLKKDLANAVSENDRLKQMGKEAEDKFGDLTKIAEQEKAHIQGELTQAKAEAETLASKINELNDQIDDLKKEKEELRASVDGLKTENEKLSAELNSCKDETERLNVELQKTKEELAASNDALQQLKKQLEEAENEIKRLETFVASLEDDKTKLRDDIKTLSNELKAQRIAKEDLQSELAALKEELKNLLSKLNALKVENEALKLEKEDLEKENANMDDDMLNIRKINDEMKTEMNKLQEIIDGLQSKISDLEKDNDYWKTENCKLQLEIDKLKANLDECKKHLNDSEAEKKELQEKLLGLEKEKATLEEEVAAAGAKTNELSKLLSVDKDAKEKALDELGNVKDENSRLKDEISALKDELSKLRDELDKFKSELDNSSKQITACKAELEDMKAQIVALEGEKSALKTEVERLTTENTKLKSEIDDLQAQVGALQNENNRLANEKDQLIAEKDRMKGDGDGLRVQMDKMQSDLLAKDETVGRLKADLASCQEQNEKLTGDLNKCQEELAKVRAENERLRNQVDAIQQSLTDVQEQSKNLEGRVSALEAEKAKLLEELKDLRSKVDQLDKELTAEKASKDDALKERSAAKSDLATLKDELAALKAELAQGREDNKKLAAENARLKKEADNLNDRLANLQNEIGGSKDEMAKKDSELAKLRPEISALRDSLDKLQGQNDALKDENAKLKEDLTDGMSRIKALEDEKIALQSEKENLEAQLRKLSVRAKDLEDQVAGLKSTIDKLNGDLDVEKSAKDAALQELNALKNTLANLRNDLDKCRGDNDKLNAEIDVLKKRFSASEKEAGAKEAENNDLKMELDRLRRELEQLKSDNASLRNDLANTSADKDKHIADLKSTADKLNTDLVAARTAKDAALQELNALKDTLAKLRSELDKCRSDNANLKNEIDTLRSQLSSIEKDAGSKNVENANLKAELDRLQRELDQLKSENAVLKSDLSNAKSNNDKLSSDLKSAMDKLNNDLLAEKAAKNAAFEELNALKNMLANLRDELDKCRADNDNLKKQIDDLKSRLSSLEKDAGSKVTENGDLKAELDRLRRDLEQLKSDDADLKKDLENAKVDNAKLHRDLEAATAREKQCLDELDKLKSELGMLIGDLEKTKTENTALKADVEKAKAENDGLRRDLDGAKGELEKFREAAKTPVDKRDDVLQTVPKPQADVQTVAPPVAEEHTTLDTRTGEQDRFKADNENLKAQNKKLVEDNERLRRELDACREENERLKEALESLRKDLPGPKAQEESKRPAEKAAQEEERGPVDAEIQEQRERGVDAEVQRESTRPLDAETQGESRRVADVEATARLAPAGEPLRPRIEVSEFATVAEPDECGDFIKANELLRKRINSQDEGIRRIRDYIAYLEGNLQEEPPMLRKPETDLDITEQDWKIPEVVDMLRNSEKLTENIRRAEVEIRGIGRLLKRLEECRRENERLRGQLTEFGVKVPAGEFREVKGPGHEDFHADSWLRSLTLTQLAELHDKICLLTSEMVQQDSTPVVCDRAFAGYDAPSPLQADYDILNKRIAALQKQIAEKQMEAARRLQELRQALRLEQANLIRISDEMNLQRKRNLALRITMEGSP

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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