Basic Information

Insect: Xiphydria camelus
Gene Symbol: -
Assembly: GCA_963678675.1
Location: OY783199.1:21264845-21275268[+]

Transcription Factor Domain

TF Family: TSC22
Domain: TSC22 domain
PFAM: PF01166
TF Group: Basic Domians group
Description: These proteins are highly similar in a region of about 50 residues that include a conserved leucine-zipper domain most probably involved in homo- or hetero-dimerisation. Drosophila protein bunched [1] (gene bun) (also known as shortsighted), a probable transcription factor required for peripheral nervous system morphogenesis, eye development and oogenesis.
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 0.32 4.1e+03 -1.5 0.0 27 44 66 83 55 90 0.75

2 45 2 2.5e+04 -4.6 2.4 25 43 109 127 103 130 0.64

3 45 0.45 5.7e+03 -1.9 0.1 15 23 237 245 215 256 0.51

4 45 1.2 1.6e+04 -3.3 0.1 14 36 457 479 452 489 0.68

5 45 0.00072 9.1 7.0 1.0 14 34 531 551 528 558 0.67

6 45 0.029 3.8e+02 1.8 0.1 23 45 564 586 561 599 0.80

7 45 0.97 1.2e+04 -3.0 0.0 18 47 601 630 594 634 0.69

8 45 0.72 9.2e+03 -2.6 0.0 24 43 642 661 639 666 0.79

9 45 3.5e-05 0.45 11.2 0.9 17 43 670 696 664 708 0.89

10 45 0.3 3.8e+03 -1.4 0.1 19 43 714 731 702 738 0.57

11 45 6.1e-06 0.078 13.6 2.2 14 44 737 767 735 778 0.89

12 45 0.0011 14 6.4 0.2 19 43 777 801 770 813 0.60

13 45 0.03 3.8e+02 1.8 0.9 15 44 822 851 815 862 0.82

14 45 3.5e-05 0.45 11.2 0.0 14 43 863 892 860 895 0.91

15 45 0.0012 15 6.3 1.6 15 43 899 927 896 942 0.88

16 45 0.02 2.5e+02 2.4 0.3 16 44 942 970 928 977 0.74

17 45 0.0045 58 4.4 0.3 15 40 962 987 956 990 0.80

18 45 0.00015 2 9.2 0.5 16 44 991 1019 987 1034 0.89

19 45 0.099 1.3e+03 0.2 0.0 19 43 1057 1081 1056 1086 0.84

20 45 0.00016 2.1 9.1 1.3 11 43 1091 1123 1082 1127 0.87

21 45 0.00096 12 6.6 0.1 12 42 1127 1157 1126 1170 0.86

22 45 0.089 1.1e+03 0.3 0.1 17 43 1160 1186 1159 1190 0.89

23 45 0.025 3.1e+02 2.1 1.3 15 42 1193 1220 1177 1224 0.69

24 45 0.025 3.2e+02 2.1 1.9 15 43 1221 1249 1205 1263 0.72

25 45 0.0037 47 4.7 0.8 13 41 1275 1303 1267 1310 0.63

26 45 0.0002 2.5 8.8 2.4 14 43 1332 1361 1329 1363 0.88

27 45 3.8e-05 0.49 11.1 0.5 15 44 1361 1390 1359 1396 0.91

28 45 0.00026 3.4 8.4 0.3 13 44 1401 1432 1400 1443 0.90

29 45 0.31 3.9e+03 -1.4 0.0 13 34 1443 1464 1441 1466 0.87

30 45 0.0027 35 5.1 1.8 18 43 1501 1526 1497 1538 0.63

31 45 0.0023 30 5.4 0.1 11 42 1536 1567 1533 1574 0.88

32 45 0.024 3.1e+02 2.1 0.2 13 38 1594 1619 1578 1627 0.47

33 45 0.014 1.7e+02 2.9 0.2 11 37 1627 1653 1622 1668 0.76

34 45 0.32 4.1e+03 -1.5 0.0 16 43 1688 1715 1684 1718 0.74

35 45 0.06 7.7e+02 0.8 0.0 18 44 1739 1765 1734 1767 0.88

36 45 0.00021 2.6 8.7 0.3 14 42 1763 1791 1755 1798 0.86

37 45 0.28 3.6e+03 -1.3 0.0 24 42 1794 1812 1788 1814 0.73

38 45 0.0018 23 5.7 0.1 12 50 1817 1855 1816 1863 0.87

39 45 0.16 2e+03 -0.5 0.0 16 42 1856 1882 1853 1888 0.59

40 45 0.17 2.2e+03 -0.6 0.0 15 42 1904 1931 1903 1934 0.89

41 45 0.0082 1e+02 3.6 2.6 15 45 1932 1962 1929 1974 0.83

42 45 0.011 1.4e+02 3.3 1.3 13 54 1965 2004 1962 2007 0.85

43 45 0.05 6.4e+02 1.1 0.1 25 44 2012 2031 2004 2048 0.65

44 45 0.32 4.1e+03 -1.5 2.0 19 50 2044 2073 2038 2090 0.62

45 45 0.097 1.2e+03 0.2 0.3 13 37 2463 2487 2461 2502 0.87

#	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	0.32	4.1e+03	-1.5	0.0	27	44	66	83	55	90	0.75
2	45	2	2.5e+04	-4.6	2.4	25	43	109	127	103	130	0.64
3	45	0.45	5.7e+03	-1.9	0.1	15	23	237	245	215	256	0.51
4	45	1.2	1.6e+04	-3.3	0.1	14	36	457	479	452	489	0.68
5	45	0.00072	9.1	7.0	1.0	14	34	531	551	528	558	0.67
6	45	0.029	3.8e+02	1.8	0.1	23	45	564	586	561	599	0.80
7	45	0.97	1.2e+04	-3.0	0.0	18	47	601	630	594	634	0.69
8	45	0.72	9.2e+03	-2.6	0.0	24	43	642	661	639	666	0.79
9	45	3.5e-05	0.45	11.2	0.9	17	43	670	696	664	708	0.89
10	45	0.3	3.8e+03	-1.4	0.1	19	43	714	731	702	738	0.57
11	45	6.1e-06	0.078	13.6	2.2	14	44	737	767	735	778	0.89
12	45	0.0011	14	6.4	0.2	19	43	777	801	770	813	0.60
13	45	0.03	3.8e+02	1.8	0.9	15	44	822	851	815	862	0.82
14	45	3.5e-05	0.45	11.2	0.0	14	43	863	892	860	895	0.91
15	45	0.0012	15	6.3	1.6	15	43	899	927	896	942	0.88
16	45	0.02	2.5e+02	2.4	0.3	16	44	942	970	928	977	0.74
17	45	0.0045	58	4.4	0.3	15	40	962	987	956	990	0.80
18	45	0.00015	2	9.2	0.5	16	44	991	1019	987	1034	0.89
19	45	0.099	1.3e+03	0.2	0.0	19	43	1057	1081	1056	1086	0.84
20	45	0.00016	2.1	9.1	1.3	11	43	1091	1123	1082	1127	0.87
21	45	0.00096	12	6.6	0.1	12	42	1127	1157	1126	1170	0.86
22	45	0.089	1.1e+03	0.3	0.1	17	43	1160	1186	1159	1190	0.89
23	45	0.025	3.1e+02	2.1	1.3	15	42	1193	1220	1177	1224	0.69
24	45	0.025	3.2e+02	2.1	1.9	15	43	1221	1249	1205	1263	0.72
25	45	0.0037	47	4.7	0.8	13	41	1275	1303	1267	1310	0.63
26	45	0.0002	2.5	8.8	2.4	14	43	1332	1361	1329	1363	0.88
27	45	3.8e-05	0.49	11.1	0.5	15	44	1361	1390	1359	1396	0.91
28	45	0.00026	3.4	8.4	0.3	13	44	1401	1432	1400	1443	0.90
29	45	0.31	3.9e+03	-1.4	0.0	13	34	1443	1464	1441	1466	0.87
30	45	0.0027	35	5.1	1.8	18	43	1501	1526	1497	1538	0.63
31	45	0.0023	30	5.4	0.1	11	42	1536	1567	1533	1574	0.88
32	45	0.024	3.1e+02	2.1	0.2	13	38	1594	1619	1578	1627	0.47
33	45	0.014	1.7e+02	2.9	0.2	11	37	1627	1653	1622	1668	0.76
34	45	0.32	4.1e+03	-1.5	0.0	16	43	1688	1715	1684	1718	0.74
35	45	0.06	7.7e+02	0.8	0.0	18	44	1739	1765	1734	1767	0.88
36	45	0.00021	2.6	8.7	0.3	14	42	1763	1791	1755	1798	0.86
37	45	0.28	3.6e+03	-1.3	0.0	24	42	1794	1812	1788	1814	0.73
38	45	0.0018	23	5.7	0.1	12	50	1817	1855	1816	1863	0.87
39	45	0.16	2e+03	-0.5	0.0	16	42	1856	1882	1853	1888	0.59
40	45	0.17	2.2e+03	-0.6	0.0	15	42	1904	1931	1903	1934	0.89
41	45	0.0082	1e+02	3.6	2.6	15	45	1932	1962	1929	1974	0.83
42	45	0.011	1.4e+02	3.3	1.3	13	54	1965	2004	1962	2007	0.85
43	45	0.05	6.4e+02	1.1	0.1	25	44	2012	2031	2004	2048	0.65
44	45	0.32	4.1e+03	-1.5	2.0	19	50	2044	2073	2038	2090	0.62
45	45	0.097	1.2e+03	0.2	0.3	13	37	2463	2487	2461	2502	0.87

Sequence Information

Coding Sequence: ATGGCTAACGAAGCTGCGGGATGTTTTTGCGGTTGTGCCGCACCGCCGTCTCTGAAACCCGCAGAGCCTCCGCACGAACCGTGCTGCTGCTGCAACTACAATCCATTTAGCGACGAGTCGAACGACTCCGAGATATACGATCTGTCATTCGCCCTGCGAAAGTTGACCGTCATGAAGTGTCAGATGAAGAAGTGGCGCATGGAACGTCTTCAACTGGAGAGCGAAACCAGGACGCTGAAGCAGGCTCTACAGGCGCACGGAGTAGCCATAGACGAGGCCCTGAAACCGGATCCACTGATCGTTCACTATCGCGAGGAGAACCTGAAATTGCAGAATGCGAAGGACGAGCTGGAGGACGAATTGAGGAACCTACGAGAGACCCTCGAGGAGCGAGATTGCTGCGACGATCCGGACGAGGCGGTGGCGTACATCAGGCGGAAGATGAAGGGACTGAGAGAGTGTTACGCTGCCGAGAAGAAACAGTTGAAGGACGTCATAGCGCGCTTGAAACTGAAGTTGGCCGAGGCGGAAGACGACACTTCGTGCGCGGCACTGAATCGTTTGAGGGCGAAGCTGCGCGCGATGACGAAGGGTGGTCAAGTGGCGGACCAACAGGTGGCAAGGGTGGTGGAGAAGTCTATCGATACGCTGGGAAAGCTATCCGATAACTGCGAGGGTCTGCGGGCTGAGAATCAACGATTATTGGCGGAAATCGAGAGGTTGAAGCAGTTACTGAAGTCGCTGGGAGAGAAGGTGTCCGATGTCCAGATAGTCGAACCGGAGAGGCCCATCGCGACGGTGCAACCGGTCACGGGCGTAGTAGCGTCCGAAATGAGAAGCGCGCCAATGGCAGCGGTCGGCCCGTTTTTGTCGGAACCGGAAGAAATGGAATTCTTCACCGAGGCGCCGCCAGTCGATGGGATGGTTAAAGAGGTGCCACCGGCGCGAAGGGAGTCCATCGACGGGATGGTTAAAGAGGCGCCACCGGCGCGAAGGGAGTCCATCGACAAGGCGGTAGAAACGGTATTCCTCGAAGCGAAGCCGTTGGAGAAGCCCGTCGAGCAGATGGACTCTTCGGGTTTAATAAACAGAATTAGAGACCTGGAAGCTCTGGTGGCGGAGCTGAAGAGGCAGCTCGCGGAGAAAGACGCCGCGATTAATGAGCTGCAGAAGAAGCTGTTCGAACAGGAGGGCACCTCTGCGGAACTTGCTGTAGACCTCGATAAGATGACGGTCAGCTACAAAGCGTTGCTGGCGGAAGTAAAAGCCATGAAGGACGAGCTGAAAAAGAGAGACGACAAGGTGACAGAGCTGCTAGCTGATTTGCGAAAATCGTCGCTAGATCTTCTCGGCATGAGTCGCTTGCAAAGTGAAGTGGAGATGATGAAGCCGCAGCTGTACAATATTCAGTTGGAACGAGATCAATTGTTACTGGAACTCGGCAAAGTGCGTGGAGTAGTGTCCGATAGGAACGATCAAATCATAAAGATTCTGGAACAGAGAGACAGGACAATCGATGATTGTGCGTCGAAATTGGCTGCCATGCAAGCGAGAATAGACGCGTTAATGGGCCAGGAGGGACCGTTGAAGAAGGAGATCGAGCGTTTGAAGGCGGAAATAGAGGAGCTGCAGAAGGAAATAGCCGCTCTCAAAGCGCGAATTGCCGAACACGAGAAATCGTCCGGCGATGTGGACGAATTGATGCGAAAGATGAAGGGTTTAGAAGACGAGTTGAGTAAACTGAAAGACGCGCTTGCGTCTGCTGAGGGCACCATAAAAAATCTGGAAGATGAAATTGTCGCACTAAAGGCCGTCAGGGAAAAGCTGACGGGGGAGCTTGCGGATGCAAAGGCAGAAGTAAACGCGTTGAAGGGAGAACTAGCTTCGGAAATAGCTGCCAAGGAAGCTGCTCTGAGGGATTTGAAAGAATGTAGAGCGAAGCTTGACGAGTTAAGAGTGGAAAACGGTGGTCTGAAAGACCGATTGAACGCTTTGTCGGCGGATAACGACAAACTGAAAGGCGAGATCGACGGATTGAGGGGTGAACTTGAAAAGCTTCAGCAGGAAAACGAAATACTAAAGGCGGAGAATTTTAACCTCGCGGCGGAGAATCAAAAGCTTAAAGGAGATCTTGACAAATTTAAAGGAGAGATTGACGGTTTGAAGGCGGAGAATGATAAACTGAAAATGGAGCTTGACAAGTTGAGCGATGAAAACAATAAGTTGAAGGATCAAGTTACGGAGCTGAAGGACGAATTGGATAAATTGAAAGGAGAAAACGAAGCACTGAAATCGGAAGTGGACAAGTTGAAAGCCGAAAACGATCGATTACACGGTGAATTGGATAATTTAAAGTCTGCGATTGATAAGCTCAACTCCGAGAACGCCACTCTTAAGGGAGAATTGGACAGATTGAAGGGAGAAAATGCTTCCTTGAAAGGAGAACTCGACAAGGCGAAGGCTGAAATTAATACTCTTAAGGAGCAACTCGATAAATCGAAAGCAGAACTGGATAAACTAATAGGCGAAAATGACGCTCTCAAAACTCAAGTCGAAAAGTTGAAAGCTGAAAATGGGAAATTGCAAGACGATTTGGATAGGTTAAAAGGTGAAGTGGCCAATTTGCAAGGAGCTTTGGATAAGTTAAAGACCGAAAATGCCACGTTGAAAGCAGATTTGGATAAATATAAGGCCGAGAATGACAATCTCAAGGATGAGCTTGCTAAAGTTAAAGGGGAGTTTGAAAAGTTAAAAGCGGAGAACGAAATTTTAAAGGGAGAGCTCAAAATCGCCAAGGACGAGAACGAGAAATTGAAAGCCGACGTTGCTGCGTTGAAAGGCGACCTTGATAAGTTGAAGGGAGATTTATATCATCTGAAAGCAGAAAATGATAGTcttaaaatggaggtagataaATTAAAATCTGAGGTCGACAAGTTGAAAGCTGAGAATGGAAAATTGCATGGCGATCTAGATAAGTTAAAAGATGAGCTAGCCAATTTGCAAGGGGCTCTGGAAAAACTGAAAGCCGAGAACGATGACCTCAAGGGTGAACTTACTAGAGTCAAAGGAGAGTTTGAGAAACTAACCGCGGAGAATGATGCTTTAAAGGGAGAGCTCAAAAGGGCTAAGGACGAGAATGAGAAATGGAAAGCTGACGCTCTTGCGCTGAAAGGTGATCTTGATAAACTGAAGGGAGATTTAGACCGTCTGAGGGCGGAAAATGATAATCTCAAAACTGATTTGGATAAAGTGAAAGGCCAATTGGATGCTATGAAGAACGAAATTGATAAACTCAAGCAGGCGAATACTGCTTTGCGAGAAGAGGCGGATAAATTGAAAGCCGAAAACGTTGCGTTGAAAGCTGACTTGGAAAAAACTAGAGGAGAGAATGATGCATTGAAGGGAGAGCTAGGTACCTTGAAGAATCAATTTGATCAGTTAAAGACAGAGAACGCGGATCTTAAAGCAGGTGGCGATGGTCTCAAGGAAACTGAAGCTATGTTAAAAACCGAATTAGATGGGTTTAAACGAGAAAATGAAAAGTTGAGGAGCGATTTGGACAAGCTCAAGGCTGAAGCTGATGCGTTCAAAGAAGAAGCTAATAAGTTAAAGGCGGAACTTGATGGATTAAAGACGGAAAACGATAAACTAAAATCTGACGTAGCTCGATTGAAAGGCGAGAATGAAAAATTGCTGTCAGATTTGGAAGCTTACAAGGCGGAAAATGATAAGCTCAAGGCGGAATTAGATAAAGCGAAGAGTGAGCTGGATATGCTCAAAGATGAAGCTAATAAGTTAAAGGCCGAAGTTGATAGGTTGAAAAATGAGCTGGACGAGTGTCGAAATAGAATTAAGTCTCTTGAGTCGCAAGTTATGAACTTGCAAGCTGACAAAGCACAATTGCAGAAAGACGTGGATCGGTTAAATGGTGAAGTCAGTAAACTTGGAGCGGAGGTGGCTACGGAGAGAGCTGCTAAGGAAGCGGCTCAGAAGGAACTGACCGCCTTAAAAGCAGAATTGCACAATTTGCTCAACGAAATTGACAAGCTAAAGCAAGAGAACGACAAGCTGAAAGCAGAGTTGGACGCTTTGAAGAAGCAACTAGTCGACTTACAAGCGCAGTTAGAGAAAGCTAAAGCCGAAAACGTCGCCCTGAAGGGTGAAATGGAGAAGCTGAAGAGCGAACTGGACGAGTCAAGGGGGGAGGTCGAAAGATTAAAAGCAGATAATAAGAAGCTAGAGGAGGACATCGACTACTGGAAAATGGAGTGTTGTAAACTGAAGGCGGAGATTGATAAGCTGAAAGCGGATAACGAGAAGACGAAGAAGGAGTTGGACGCTTGTCGGGCTAAGATGAAGGAACTGGAAGCTCAACTGGCAACAATGGAAGCTAAGCTTCAAGGGGAGATCGATCGATTGAACGGCGAGATCGATAAGCTGAATAAAGCTATTGCTGCGGAAAAGGCGGCCAAGGAAGCGGCGTTAAAAGAAGCGGCCGCGCTTAAAGAGGAACTCGAAGCATTGAAAGCCGAGTTATCGAAGCTGAGAGGAGAAAATGACAGGCTTCGCAATGATACAGAAGATTTGAAGAAACAGCTGGCAGCCTTGAAAGCAGAAGTAGACAAGCTTCGGGGTGAAGCGTTGGCATTAAAAGCCGACAACGACAAGTTGAAAGCAGAAGCGGATAAATTTAAAACCGAGAATGACAAGTTACACGGTGAACTTGATAGGCTGAGAGGAGAGGTGGATGCCTTGAGGGCGGAGAACGGTAAGATAAGGGGAGAACTCGGTGGTCTAAAAACGGAAAATGAGAAAATGAAGGGAGAAGTCAACGTTCTGAAGGCAGAAAACGACAAGTTGAAGTCGGAGCTAGCGGCGGCTAAGGCAGAGGTTGATAAGCTCAAGGCAGAGCTAGCCGCTTGTCAATCCGAGAATGCCAAATTGAAGGGAGAGCTTGAGCGCTCGAAggatgaaattggaaaactcACTGGTGAGGTCCAGAGACTGAAGGGTGACCTGGAGAAGCTGAAGAAGGATTTGGCCAATAGCCAAGCGAAAGTGAAAACACTAGAAGGTCAGGTAGCTGCTCTAGAGGCGGAGAAAGCGAAGCTCGTGAACGAATTGAGCGGCTTGAGGTCCGAAGTCGAAAGGCTTGGCAAGGATTTGGCTTCAGAGCGGGCCACCAAAGATGCTGCGCTCAAAGAGACAGCGGCTTTGAAGGCCGAGCTGGCATCGTTGAGAAGCGAATTAGATCAATGCAGGGCCGATAATGAGAAACTTAAAGCGGAGGTGGCCGCACTGAAAAAGCAGGTGTCGAGCTTGCAGGATGAACTGGAGAAGCTGAAAGGCGAGAGCGCTACACTCAAAGGGGATAACGAAAAGCTGAAGGGAGAATTGGACAAATTGAAAGCGGAGAACGCGAAGCTGAAGGGAGACCTGGATAAAGTGAAGGGCGAGCTCGATGCTTTGAAAGCTGACAATGATAGACTCAAGGGTGAAGTCAATTCGTTGAAGGGTGAAAACGACAAACTGAGGAGGGACTTGTCGGATGCGCAGGCGAAGGTGGCGGCTCTGCAGGATCAGGTTTCTGCGCTGCGAGCGGAGAAAGATAAGCTCGACAAAGAAATCGCAGCCTTGAAGGGTCAAATAGACAAGCTTGGCAAAGACTTGGCCGCGGAAAAATCGGCCAAAGATTCGGCCTTGAAGGAGTTGAATGCCCTGAAGGAAACGTTGTCGGGACTGAGGACCGACTTGGACAAATGCAGGGCTGAAAGTGATAAGTTAAAGGGAGAATTAGATGCCTTGAAGAAGCAGCTGGCGAGTGTGAAAGGCGAactggagaagctcaagggtgAAAACGAAGCCTTAAAGGGAGAACTAAAGGGGCTGAAAGAGGAGCTGGAGAAGATGAGGGCAGAAAGGGCAAAGCTGAAAGGGGAGCTCGATGACTGCAAAGCGGAGAACGCGAAGTTGAAGGGGGAGATTGATAAGCTGAATAAGTTGAATAAAGATTTGCAAGGCAAACTGGACGACGCGAAGAAAACGATAGAAGGGTTGAAAGCGGAAAATGCAGCCTTGAAGAAGGAGCTAGATTCCATGAAAGGGGACCAGGACAAACTTCGCTCGCTGCAGGATGAGATTGATAGGCTGAAGAAGGAATTGGAAAAGTCGAAAGCGGAGCTGGACAAGCTTCGCGGGCTTCAAGAGGAACTAGAAAGGCTGAAGAAAGCTTTGGAGAAATCGAATGCAGAGCTGGATAAGCTTCGTGGGCTTCAAGAGGAACTGGAAAAGGTGAAGAAGGCCTTGGAGAAATCGAATGCAGAGCTGGACAAGCTTCGCGGGCTTCAAGGGGAATCGGAAAGGCCGAAGAAGGCCTTGGAGAAATCGAATGCAGAGCTGGACAAGCTCCGCGGGCTTCAAGATGAACTGGAAAGGCTGAAGAAGGCTTTGGCTGAATCAAAAGCTGAGAAAGACGACCTGCTGAAGCGACTAGGCGAGAAACCTTCCTCTGCGCCGCCGAAGGAAACGGCTCCGGCGTCTCCGAGGGAGGTTGTCGTTCCCGAAAGCAGGAAAACCGCTGCTCCATCTTTCCGGAAAGAGGAGCAAATAATTACGAGGAGAGAACCGTCAATTGTCGTGGATAAAAAAGTTCCTTCCGAGGTTAGAGCCAAGCCAACGATGACACCGGTCAAAGCGACGACGACACCGGCCAAAGCGACGATGACACCGGTCAAAGCGACGATCACACCGGTGAAAGCGACGACGACACCGCGCATTTCCGGACCCGTCGCGGACAACTGCGGAGACTTTATCGATGCTAACGAGCAGCTTCAGAGGAACATGGTTAATCAAAATAAAGCCGTGAAGCGTATCCGAGATTACATCGCTTACCTCGCGAGCAAAACGGCACGACCTATCATGGCAACGAGACTGGATCATGAAGCGCCCGTTGAGCCGCTCGGGGAGCGTGTCAGGGCGGTTTTGATGGATTCGCTAAATCTGTCGGAGAATATTTACAATGCCGAGGTGGAGATACAAGAGATAGGCGATCTGTTGAACGAGCTACTTAGTACACCGAAGAGGGTGTCGAGAGAACAAGTGGAAGATCCTCGGAAACAATTAATCACACTCAGCGAAGGGGTTCCCAAAATCTCAGACGTCGTCGAGGACAGCGGGGAGGCTTTCGACGCCGAGTCCTGGCTGAGGTCGCTCACCCTGACCGAGCTGGCCGAGCTGCACGACCGGATCTGCAATCTGACGTCCTGCATGGTGCAGCAGGACATCAACCCCCTGGACTACACGGACGACTCGAGCGACGTGACGACGACCTGCAAGCCCTGCCTGGGCTGCTGGGAGAGACCCGCGCCGGAAGCGGAAGCGCGGAACGACGACTACGAAACTCTGAACGGGAGGATAGCGGCGCTGCAGAAGCAAATCGACGAGAAGCAGACGGAAGCCGTGCGTAAGGTCTGCGAGATGCGGCGCCTTCTTCGCCAAGAGCAGGCTCGCCTGGTGGCGCTCTCCGACGAGATGAACGTCGAGAGGAAGCGCAATCTCGAGCTCCATTTGACCATGGACGGCGATCCGTGCTGGACCAACGAGTGCACGGCCGAGTGCAGGGGCGATTTCGCTTTCAATGCCGCAATGAGTCATAGGGAGGATGAACACGACGTTGTCTGTTCGAATTATGTCAAGTACGGGACGTGTGGGCGTACGGAGAGGGATGCGCGGGACTACGACAGGAAGCGGTGA
Protein Sequence: MANEAAGCFCGCAAPPSLKPAEPPHEPCCCCNYNPFSDESNDSEIYDLSFALRKLTVMKCQMKKWRMERLQLESETRTLKQALQAHGVAIDEALKPDPLIVHYREENLKLQNAKDELEDELRNLRETLEERDCCDDPDEAVAYIRRKMKGLRECYAAEKKQLKDVIARLKLKLAEAEDDTSCAALNRLRAKLRAMTKGGQVADQQVARVVEKSIDTLGKLSDNCEGLRAENQRLLAEIERLKQLLKSLGEKVSDVQIVEPERPIATVQPVTGVVASEMRSAPMAAVGPFLSEPEEMEFFTEAPPVDGMVKEVPPARRESIDGMVKEAPPARRESIDKAVETVFLEAKPLEKPVEQMDSSGLINRIRDLEALVAELKRQLAEKDAAINELQKKLFEQEGTSAELAVDLDKMTVSYKALLAEVKAMKDELKKRDDKVTELLADLRKSSLDLLGMSRLQSEVEMMKPQLYNIQLERDQLLLELGKVRGVVSDRNDQIIKILEQRDRTIDDCASKLAAMQARIDALMGQEGPLKKEIERLKAEIEELQKEIAALKARIAEHEKSSGDVDELMRKMKGLEDELSKLKDALASAEGTIKNLEDEIVALKAVREKLTGELADAKAEVNALKGELASEIAAKEAALRDLKECRAKLDELRVENGGLKDRLNALSADNDKLKGEIDGLRGELEKLQQENEILKAENFNLAAENQKLKGDLDKFKGEIDGLKAENDKLKMELDKLSDENNKLKDQVTELKDELDKLKGENEALKSEVDKLKAENDRLHGELDNLKSAIDKLNSENATLKGELDRLKGENASLKGELDKAKAEINTLKEQLDKSKAELDKLIGENDALKTQVEKLKAENGKLQDDLDRLKGEVANLQGALDKLKTENATLKADLDKYKAENDNLKDELAKVKGEFEKLKAENEILKGELKIAKDENEKLKADVAALKGDLDKLKGDLYHLKAENDSLKMEVDKLKSEVDKLKAENGKLHGDLDKLKDELANLQGALEKLKAENDDLKGELTRVKGEFEKLTAENDALKGELKRAKDENEKWKADALALKGDLDKLKGDLDRLRAENDNLKTDLDKVKGQLDAMKNEIDKLKQANTALREEADKLKAENVALKADLEKTRGENDALKGELGTLKNQFDQLKTENADLKAGGDGLKETEAMLKTELDGFKRENEKLRSDLDKLKAEADAFKEEANKLKAELDGLKTENDKLKSDVARLKGENEKLLSDLEAYKAENDKLKAELDKAKSELDMLKDEANKLKAEVDRLKNELDECRNRIKSLESQVMNLQADKAQLQKDVDRLNGEVSKLGAEVATERAAKEAAQKELTALKAELHNLLNEIDKLKQENDKLKAELDALKKQLVDLQAQLEKAKAENVALKGEMEKLKSELDESRGEVERLKADNKKLEEDIDYWKMECCKLKAEIDKLKADNEKTKKELDACRAKMKELEAQLATMEAKLQGEIDRLNGEIDKLNKAIAAEKAAKEAALKEAAALKEELEALKAELSKLRGENDRLRNDTEDLKKQLAALKAEVDKLRGEALALKADNDKLKAEADKFKTENDKLHGELDRLRGEVDALRAENGKIRGELGGLKTENEKMKGEVNVLKAENDKLKSELAAAKAEVDKLKAELAACQSENAKLKGELERSKDEIGKLTGEVQRLKGDLEKLKKDLANSQAKVKTLEGQVAALEAEKAKLVNELSGLRSEVERLGKDLASERATKDAALKETAALKAELASLRSELDQCRADNEKLKAEVAALKKQVSSLQDELEKLKGESATLKGDNEKLKGELDKLKAENAKLKGDLDKVKGELDALKADNDRLKGEVNSLKGENDKLRRDLSDAQAKVAALQDQVSALRAEKDKLDKEIAALKGQIDKLGKDLAAEKSAKDSALKELNALKETLSGLRTDLDKCRAESDKLKGELDALKKQLASVKGELEKLKGENEALKGELKGLKEELEKMRAERAKLKGELDDCKAENAKLKGEIDKLNKLNKDLQGKLDDAKKTIEGLKAENAALKKELDSMKGDQDKLRSLQDEIDRLKKELEKSKAELDKLRGLQEELERLKKALEKSNAELDKLRGLQEELEKVKKALEKSNAELDKLRGLQGESERPKKALEKSNAELDKLRGLQDELERLKKALAESKAEKDDLLKRLGEKPSSAPPKETAPASPREVVVPESRKTAAPSFRKEEQIITRREPSIVVDKKVPSEVRAKPTMTPVKATTTPAKATMTPVKATITPVKATTTPRISGPVADNCGDFIDANEQLQRNMVNQNKAVKRIRDYIAYLASKTARPIMATRLDHEAPVEPLGERVRAVLMDSLNLSENIYNAEVEIQEIGDLLNELLSTPKRVSREQVEDPRKQLITLSEGVPKISDVVEDSGEAFDAESWLRSLTLTELAELHDRICNLTSCMVQQDINPLDYTDDSSDVTTTCKPCLGCWERPAPEAEARNDDYETLNGRIAALQKQIDEKQTEAVRKVCEMRRLLRQEQARLVALSDEMNVERKRNLELHLTMDGDPCWTNECTAECRGDFAFNAAMSHREDEHDVVCSNYVKYGTCGRTERDARDYDRKR

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_01537582;
90% Identity: iTF_01537582;
80% Identity: iTF_01537582;