Basic Information

Insect: Drosophila murphyi
Gene Symbol: -
Assembly: GCA_018904325.1
Location: JAEIFX010001028.1:1-11132[-]

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 57 0.73 4e+03 -2.1 2.0 14 44 308 338 305 364 0.74

2 57 0.85 4.6e+03 -2.3 0.6 13 36 510 533 509 535 0.91

3 57 0.85 4.6e+03 -2.3 0.6 13 36 679 702 678 704 0.91

4 57 0.85 4.6e+03 -2.3 0.6 13 36 848 871 847 873 0.91

5 57 0.85 4.6e+03 -2.3 0.6 13 36 995 1018 994 1020 0.91

6 57 0.85 4.6e+03 -2.3 0.6 13 36 1164 1187 1163 1189 0.91

7 57 0.85 4.6e+03 -2.3 0.6 13 36 1333 1356 1332 1358 0.91

8 57 0.85 4.6e+03 -2.3 0.6 13 36 1502 1525 1501 1527 0.91

9 57 0.85 4.6e+03 -2.3 0.6 13 36 1671 1694 1670 1696 0.91

10 57 0.81 4.4e+03 -2.2 0.6 13 36 1840 1863 1839 1866 0.91

11 57 0.18 9.7e+02 -0.1 0.1 13 36 1969 1992 1968 2012 0.87

12 57 4.1e-08 0.00022 21.2 0.7 11 45 2027 2061 2025 2064 0.92

13 57 0.59 3.2e+03 -1.8 1.0 26 51 2091 2116 2087 2122 0.74

14 57 0.0052 28 4.8 0.3 11 44 2181 2214 2178 2227 0.87

15 57 0.0055 30 4.7 0.3 11 44 2230 2263 2227 2276 0.87

16 57 0.0055 30 4.7 0.3 11 44 2279 2312 2276 2320 0.87

17 57 0.0058 32 4.7 0.3 11 44 2328 2361 2325 2369 0.87

18 57 0.9 4.9e+03 -2.3 0.0 26 44 2371 2389 2363 2397 0.83

19 57 0.00026 1.4 9.0 0.4 13 52 2393 2434 2388 2439 0.80

20 57 0.00016 0.88 9.6 0.4 18 52 2419 2455 2412 2460 0.80

21 57 8.6e-05 0.47 10.5 0.3 13 52 2435 2476 2431 2481 0.80

22 57 8.8e-05 0.48 10.5 0.4 13 52 2456 2497 2452 2502 0.80

23 57 0.00011 0.58 10.2 0.4 13 51 2477 2517 2473 2522 0.80

24 57 9.4e-05 0.51 10.4 0.3 13 51 2498 2538 2494 2544 0.80

25 57 0.00029 1.6 8.9 0.4 13 51 2519 2559 2515 2564 0.79

26 57 0.00014 0.74 9.9 0.3 18 51 2545 2580 2536 2586 0.79

27 57 0.00071 3.8 7.6 0.3 18 54 2587 2620 2578 2623 0.83

28 57 8.3e-05 0.45 10.6 0.3 13 52 2619 2660 2615 2665 0.80

29 57 9e-05 0.49 10.5 0.3 13 51 2661 2701 2657 2707 0.80

30 57 0.00017 0.9 9.6 0.4 18 54 2708 2741 2699 2744 0.84

31 57 0.019 1e+02 3.0 0.1 13 36 2740 2763 2736 2766 0.84

32 57 0.00037 2 8.5 0.1 19 55 2788 2821 2786 2823 0.92

33 57 8.8e-05 0.48 10.5 0.4 13 52 2826 2867 2822 2872 0.80

34 57 8.8e-05 0.48 10.5 0.4 13 52 2847 2888 2843 2893 0.80

35 57 8.8e-05 0.48 10.5 0.4 13 52 2868 2909 2862 2914 0.81

36 57 8.4e-05 0.46 10.6 0.3 13 52 2889 2930 2885 2935 0.80

37 57 0.00012 0.65 10.1 0.2 13 49 2910 2948 2906 2953 0.79

38 57 6.2e-05 0.34 11.0 0.4 13 55 2931 2970 2926 2972 0.87

39 57 9e-05 0.49 10.5 0.4 13 52 2975 3016 2971 3021 0.80

40 57 8.4e-05 0.46 10.6 0.3 13 52 3017 3058 3013 3063 0.80

41 57 8.4e-05 0.46 10.6 0.3 13 52 3038 3079 3034 3084 0.80

42 57 8.3e-05 0.45 10.6 0.3 13 52 3059 3100 3055 3105 0.80

43 57 8.6e-05 0.47 10.5 0.3 13 52 3080 3121 3076 3126 0.80

44 57 9e-05 0.49 10.5 0.4 13 52 3101 3142 3096 3147 0.80

45 57 8.4e-05 0.46 10.6 0.3 13 52 3122 3163 3118 3168 0.80

46 57 0.00011 0.6 10.2 0.3 14 51 3144 3183 3140 3188 0.79

47 57 8.6e-05 0.47 10.5 0.3 13 52 3164 3205 3160 3210 0.80

48 57 8.6e-05 0.47 10.5 0.3 13 52 3185 3226 3181 3231 0.80

49 57 0.0001 0.55 10.3 0.3 13 51 3206 3246 3202 3251 0.80

50 57 0.0001 0.55 10.3 0.4 13 51 3227 3267 3223 3272 0.80

51 57 9.3e-05 0.51 10.4 0.3 13 51 3248 3288 3244 3294 0.80

52 57 0.00015 0.82 9.7 0.1 18 50 3295 3329 3287 3336 0.79

53 57 0.00018 1 9.5 0.1 18 51 3336 3371 3328 3377 0.81

54 57 0.00013 0.7 10.0 0.2 18 51 3378 3413 3369 3419 0.79

55 57 0.00091 4.9 7.2 0.1 13 45 3394 3426 3390 3429 0.86

56 57 0.00069 3.7 7.6 0.2 18 51 3478 3513 3473 3518 0.81

57 57 0.00017 0.9 9.6 0.1 18 49 3499 3532 3490 3539 0.79

#	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	57	0.73	4e+03	-2.1	2.0	14	44	308	338	305	364	0.74
2	57	0.85	4.6e+03	-2.3	0.6	13	36	510	533	509	535	0.91
3	57	0.85	4.6e+03	-2.3	0.6	13	36	679	702	678	704	0.91
4	57	0.85	4.6e+03	-2.3	0.6	13	36	848	871	847	873	0.91
5	57	0.85	4.6e+03	-2.3	0.6	13	36	995	1018	994	1020	0.91
6	57	0.85	4.6e+03	-2.3	0.6	13	36	1164	1187	1163	1189	0.91
7	57	0.85	4.6e+03	-2.3	0.6	13	36	1333	1356	1332	1358	0.91
8	57	0.85	4.6e+03	-2.3	0.6	13	36	1502	1525	1501	1527	0.91
9	57	0.85	4.6e+03	-2.3	0.6	13	36	1671	1694	1670	1696	0.91
10	57	0.81	4.4e+03	-2.2	0.6	13	36	1840	1863	1839	1866	0.91
11	57	0.18	9.7e+02	-0.1	0.1	13	36	1969	1992	1968	2012	0.87
12	57	4.1e-08	0.00022	21.2	0.7	11	45	2027	2061	2025	2064	0.92
13	57	0.59	3.2e+03	-1.8	1.0	26	51	2091	2116	2087	2122	0.74
14	57	0.0052	28	4.8	0.3	11	44	2181	2214	2178	2227	0.87
15	57	0.0055	30	4.7	0.3	11	44	2230	2263	2227	2276	0.87
16	57	0.0055	30	4.7	0.3	11	44	2279	2312	2276	2320	0.87
17	57	0.0058	32	4.7	0.3	11	44	2328	2361	2325	2369	0.87
18	57	0.9	4.9e+03	-2.3	0.0	26	44	2371	2389	2363	2397	0.83
19	57	0.00026	1.4	9.0	0.4	13	52	2393	2434	2388	2439	0.80
20	57	0.00016	0.88	9.6	0.4	18	52	2419	2455	2412	2460	0.80
21	57	8.6e-05	0.47	10.5	0.3	13	52	2435	2476	2431	2481	0.80
22	57	8.8e-05	0.48	10.5	0.4	13	52	2456	2497	2452	2502	0.80
23	57	0.00011	0.58	10.2	0.4	13	51	2477	2517	2473	2522	0.80
24	57	9.4e-05	0.51	10.4	0.3	13	51	2498	2538	2494	2544	0.80
25	57	0.00029	1.6	8.9	0.4	13	51	2519	2559	2515	2564	0.79
26	57	0.00014	0.74	9.9	0.3	18	51	2545	2580	2536	2586	0.79
27	57	0.00071	3.8	7.6	0.3	18	54	2587	2620	2578	2623	0.83
28	57	8.3e-05	0.45	10.6	0.3	13	52	2619	2660	2615	2665	0.80
29	57	9e-05	0.49	10.5	0.3	13	51	2661	2701	2657	2707	0.80
30	57	0.00017	0.9	9.6	0.4	18	54	2708	2741	2699	2744	0.84
31	57	0.019	1e+02	3.0	0.1	13	36	2740	2763	2736	2766	0.84
32	57	0.00037	2	8.5	0.1	19	55	2788	2821	2786	2823	0.92
33	57	8.8e-05	0.48	10.5	0.4	13	52	2826	2867	2822	2872	0.80
34	57	8.8e-05	0.48	10.5	0.4	13	52	2847	2888	2843	2893	0.80
35	57	8.8e-05	0.48	10.5	0.4	13	52	2868	2909	2862	2914	0.81
36	57	8.4e-05	0.46	10.6	0.3	13	52	2889	2930	2885	2935	0.80
37	57	0.00012	0.65	10.1	0.2	13	49	2910	2948	2906	2953	0.79
38	57	6.2e-05	0.34	11.0	0.4	13	55	2931	2970	2926	2972	0.87
39	57	9e-05	0.49	10.5	0.4	13	52	2975	3016	2971	3021	0.80
40	57	8.4e-05	0.46	10.6	0.3	13	52	3017	3058	3013	3063	0.80
41	57	8.4e-05	0.46	10.6	0.3	13	52	3038	3079	3034	3084	0.80
42	57	8.3e-05	0.45	10.6	0.3	13	52	3059	3100	3055	3105	0.80
43	57	8.6e-05	0.47	10.5	0.3	13	52	3080	3121	3076	3126	0.80
44	57	9e-05	0.49	10.5	0.4	13	52	3101	3142	3096	3147	0.80
45	57	8.4e-05	0.46	10.6	0.3	13	52	3122	3163	3118	3168	0.80
46	57	0.00011	0.6	10.2	0.3	14	51	3144	3183	3140	3188	0.79
47	57	8.6e-05	0.47	10.5	0.3	13	52	3164	3205	3160	3210	0.80
48	57	8.6e-05	0.47	10.5	0.3	13	52	3185	3226	3181	3231	0.80
49	57	0.0001	0.55	10.3	0.3	13	51	3206	3246	3202	3251	0.80
50	57	0.0001	0.55	10.3	0.4	13	51	3227	3267	3223	3272	0.80
51	57	9.3e-05	0.51	10.4	0.3	13	51	3248	3288	3244	3294	0.80
52	57	0.00015	0.82	9.7	0.1	18	50	3295	3329	3287	3336	0.79
53	57	0.00018	1	9.5	0.1	18	51	3336	3371	3328	3377	0.81
54	57	0.00013	0.7	10.0	0.2	18	51	3378	3413	3369	3419	0.79
55	57	0.00091	4.9	7.2	0.1	13	45	3394	3426	3390	3429	0.86
56	57	0.00069	3.7	7.6	0.2	18	51	3478	3513	3473	3518	0.81
57	57	0.00017	0.9	9.6	0.1	18	49	3499	3532	3490	3539	0.79

Sequence Information

Coding Sequence: ATGGCCCAAGTCCGCGATGCTCTCGAACGACATCGAGCAGCAGTAGAGTGCTTGGATGAGAAGACGCTTCGCGATGCCTTTCAGGGATCCACACCGGATCCGTCACTTCGGCTAGTTGTTGAGGCGGCCTACAGTTTGGTGGATAGCTCCGTCTCTGCTGATTCTCTCGACTGGGAGTGGGAAGATGTGAAGGCAGTCGTGTCGAAAAATCTCCAGTTTGTTCAGCGTCTGGTGAGCTTTGAGGTGGGGTATGACTTGAGCCCGGAGCATTACGAAGTAATGATGACCCGCTACGATGGTGACTACCGTTTGAAGGAGGACAACATCAATTCCGCTGCTGCTTATCTCAGCAACTCCAGTGCACGCGTGCTCAAAGTGCTCTTCTCATGGTTTTCTGCTCAGCTCGAAGCATTTCGTACGTACCGTCAATGTGCTAGTACACAGGTGTTGGCAGACAACTTGCAGCAGAACATCACTGAAAATGTTAACGCTCTTAAAGATTTGAGTCGCAAGCTCCTCCAAATAAAGTCTCAACTACGTGTCTTTCTATCTGGAGGACGCATTCAGTCTCAGCACGGAGATAGCATCACCTTCACTCCTGTCACACCGGAAGTAACCGTCACTAGTGAGCGGTGCGCCGTTATTGCATCGTTTGGAGAGGCGAAGAGTGGAGTCGCTGTGCTTGGCCCCGAGGATATCTCTGAATGTGAAGACCGTGCTGCCTGGCACCGGCCACAGCTCTTTGCGTTTGCTGCAAGCCTTATGCAAGAGGTTCAACATCTCCAGTACCTCCTCGATTTCGAAAAAACTCAGCGTGAGGCTGATCGCCGCTCGACTTCCCCTTCCAACGCCAGTCCTATTAAGTCACCACTAGGAGTTACCCCAACGAAGACTGATGATCGTGCACTCATTCTCTCACAACAAGAGGTACTGCAACTTCAAGATCAGCTGACTGAAAAAGAGATGGATATTGAGCACTTACAGCAGCGCTGCGCAGATGCACAAATGCTCGCAGAAGCACAGCAAGCTGATCTTGCCGACCAGCAGAAGGAGCTAGACAAACTCAACGAAGAGGTGAAGCGCCTCTGCTCAACTCCTTATGACACTCCCGAACCCTTCCAGAGTGAACGCCTCGCCAATGACCTCCATGGGCTTCAAGATAAGTTATTAGAAAATAGCGAAGAAATTGCTGCCTTGAACGACGAGCTTGCTGATCTCCGAGCACATGATGATCGTTGGAATGCTGACTGTGAGCCGGATGAGCAACCTACGACGACGCGTCACTCGAAGCAGTTGGTGGGCGATGGATGGCGAGACCTGTCGCGTGACAAGCCAGCTGAACTGCGCCAAGCGGTGTCTGTGGATGCTGCAAACGCGTGCCACGTTCTTGTGGATAATGTGCGCCGTGTACGGTTTGACCCGAACACTTCTGTAGCTGAGTTTGAGGTTGTGCACCGTAAGGATGTTCGCAAGGCTGACCTTGACAAGCGGATTGCCGAGTACCCATTCAGGGAGTGCAACCACTCTCGCGAGACTGTTGATGAGCCGAAGGAGGGAGAGGATCTTCTTGCGGACCAGCTGAAGGAGATGCAGCAGGAACGTGACGATGCACTGGACCGCCTTCACAACGCCGAGAACCAGAAGCCACGTGATACTGGAGCAGCCGAGAAGCTTGCCGAGAAGGATGATGAGATTGCTGCCTTGAACGACGAGCTTGCTGATCTCCGAGCACATGATGATCGTTGGAATGCTGACTGTGAGCCGGATGAGCAACCTACGACGACGCGTCACTCGAAGCAGTTGGTGGGCGATGGATGGCGAGACCTGTCGCGTGACAAGCCAGCTGAACTGCGCCAAGCGGTGTCTGTGGATGCTGCAAACGCGTGCCACGTTCTTGTGGATAATGTGCGCCGTGTACGGTTTGACCCGAACACTTCTGTAGCTGAGTTTGAGGTTGTGCACCGTAAGGATGTTCGCAAGGCTGACCTTGACAAGCGGATTGCCGAGTACCCATTCAGGGAGTGCAACCACTCTCGCGAGACTGTTGATGAGCCGAAGGAGGGAGAGGATCTTCTTGCGGACCAGCTGAAGGAGATGCAGCAGGAACGTGACGATGCACTGGACCGCCTTCACAACGCCGAGAACCAGAAGCCACGTGATACTGGAGCAGCCGAGAAGCTTGCCGAGAAGGATGATGAGATTGCTGCCTTGAACGACGAGCTTGCTGATCTCCGAGCACATGATGATCGTTGGAATGCTGACTGTGAGCCGGATGAGCAACCTACGACGACGCGTCACTCGAAGCAGTTGGTGGGCGATGGATGGCGAGACCTGTCGCGTGACAAGCCAGCTGAACTGCGCCAAGCGGTGTCTGTGGATGCTGCAAACGCGTGCCACGTTCTTGTGGATAATGTGCGCCGTGTACGGTTTGACCCGAACACTTCTGTAGCTGAGTTTGAGGTTGTGCACCGTAAGGATGTTCGCAAGGCTGACCTTGACAAGCGGATTGCCGAGTACCCATTCAGGGAGTGCAACCACTCTCGCGAGACTGTTGATGAGCCGAAGGAGGGAGAGGATCTTCTTGCGGACCAGCTGAAGGAGATGCAGCAGGAGCGTGACGATGCACTGGACCGCCTTCACAACGCCGAGAACCAGAAGCCACGTGATACTGGAGCAGCCGAGAAGCTTGCCGAGAAGGATGATGAGATTGCTGCCTTGAACGACGAGCTTGCTGATCTCCGAGCACATGATGATCGTTGGAATGCTGACTGTGAGCCGGATGAGCAACCTACGACGACGCGTCACTCGAAGCAGTTGGTGGGCGATGGATGGCGAGACCTGTCGCGTGACAAGCCAGCTGAACTGCGCCAAGCGGTGTCTGTGGATGCTGCAAACGCGTGCCACGTTCTTGTGGATAATGTGCGCCGTGTACGGTTTGACCCGAACACTTCTGTAGCTGAGTTTGAGGAGTGCAACCACTCTCGCGAGACTGTTGATGAGCCGAAGGAGGGAGAGGATCTTCTTGCGGACCAGCTGAAGGAGATGCAGCAGGAACGTGACGATGCACTGGACCGCCTTCACAACGCCGAGAACCAGAAGCCACGTGATACTGGAGCAGCCGAGAAGCTTGCCGAGAAGGATGATGAGATTGCTGCCTTGAACGACGAGCTTGCTGATCTCCGAGCACATGATGATCGTTGGAATGCTGACTGTGAGCCGGATGAGCAACCTACGACGACGCGTCACTCGAAGCAGTTGGTGGGCGATGGATGGCGAGACCTGTCGCGTGACAAGCCAGCTGAACTGCGCCAAGCGGTGTCTGTGGATGCTGCAAACGCGTGCCACGTTCTTGTGGATAATGTGCGCCGTGTACGGTTTGACCCGAACACTTCTGTAGCTGAGTTTGAGGTTGTGCACCGTAAGGATGTTCGCAAGGCTGACCTTGACAAGCGGATTGCCGAGTACCCATTCAGGGAGTGCAACCACTCTCGCGAGACTGTTGATGAGCCGAAGGAGGGAGAGGATCTTCTTGCGGACCAGCTGAAGGAGATGCAGCAGGAGCGTGACGATGCACTGGACCGCCTTCACAACGCCGAGAACCAGAAGCCACGTGATACTGGAGCAGCCGAGAAGCTTGCCGAGAAGGATGATGAGATTGCTGCCTTGAACGACGAGCTTGCTGATCTCCGAGCACATGATGATCGTTGGAATGCTGACTGTGAGCCGGATGAGCAACCTACGACGACGCGTCACTCGAAGCAGTTGGTGGGCGATGGATGGCGAGACCTGTCGCGTGACAAGCCAGCTGAACTGCGCCAAGCGGTGTCTGTGGATGCTGCAAACGCGTGCCACGTTCTTGTGGATAATGTGCGCCGTGTACGGTTTGACCCGAACACTTCTGTAGCTGAGTTTGAGGTTGTGCACCGTAAGGATGTTCGCAAGGCTGACCTTGACAAGCGGATTGCCGAGTACCCATTCAGGGAGTGCAACCACTCTCGCGAGACTGTTGATGAGCCGAAGGAGGGAGAGGATCTTCTTGCGGACCAGCTGAAGGAGATGCAGCAGGAGCGTGACGATGCACTGGACCGCCTTCACAACGCCGAGAACCAGAAGCCACGTGATACTGGAGCAGCCGAGAAGCTTGCCGAGAAGGATGATGAGATTGCTGCCTTGAACGACGAGCTTGCTGATCTCCGAGCACATGATGATCGTTGGAATGCTGACTGTGAGCCGGATGAGCAACCTACGACGACGCGTCACTCGAAGCAGTTGGTGGGCGATGGATGGCGAGACCTGTCGCGTGACAAGCCAGCTGAACTGCGCCAAGCGGTGTCTGTGGATGCTGCAAACGCGTGCCACGTTCTTGTGGATAATGTGCGCCGTGTACGGTTTGACCCGAACACTTCTGTAGCTGAGTTTGAGGTTGTGCACCGTAAGGATGTTCGCAAGGCTGACCTTGACAAGCGGATTGCCGAGTACCCATTCAGGGAGTGCAACCACTCTCGCGAGACTGTTGATGAGCCGAAGGAGGGAGAGGATCTTCTTGCGGACCAGCTGAAGGAGATGCAGCAGGAGCGTGACGATGCACTGGACCGCCTTCACAACGCCGAGAACCAGAAGCCACGTGATACTGGAGCAGCCGAGAAGCTTGCCGAGAAGGATGATGAGATTGCTGCCTTGAACGACGAGCTTGCTGATCTCCGAGCACATGATGATCGTTGGAATGCTGACTGTGAGCCGGATGAGCAACCTACGACGACGCGTCACTCGAAGCAGTTGGTGGGCGATGGATGGCGAGACCTGTCGCGTGACAAGCCAGCTGAACTGCGCCAAGCGGTGTCTGTGGATGCTGCAAACGCGTGCCACGTTCTTGTGGATAATGTGCGCCGTGTACGGTTTGACCCGAACACTTCTGTAGCTGAGTTTGAGGTTGTGCACCGTAAGGATGTTCGCAAGGCTGACCTTGACAAGCGGATTGCCGAGTACCCATTCAGGGAGTGCAACCACTCTCGCGAGACTGTTGATGAGCCGAAGGAGGGAGAGGATCTTCTTGCCGACCAGCTGAAGGAGATGCAGCAGGAGCGTGACGATGCACTGGACCGCCTTCACAACGCCGAGAACCAGAAGCCACGTGATACTGGAGCAGCCGAGAAGCTTGCCGAGAAGGATGATGAGATTGCTGCCTTGAACGACGAGCTTGCTGATCTCCGAGCACATGATGATCGTTGGAATGCTGACTGTGAGCCGGATGAGCAACCTACGACGACGCGTCACTCGAAGCAGTTGGTGGGCGATGGATGGCGAGACCTGTCGCGTGACAAGCCAGCTGAACTGCGCCAAGCGGTGTCTGTGGATGCTGCAAACGCGTGCCACGTTCTTGTGGATAATGTGCGCCGTGTACGGTTTGACCCGAACACTTCTGTAGCTGAGTTTGAGGTTGTGCACCGTAAGGATGTTCGCAAGGCTGACCTTGACAAGCGGATTGCCGAGTACCCGTTCAGGGAGTGCAACCACTCTCGCGAGACTGTTGATGAGCCAAAGGAGGGAGAGGATCTTCTTGCCGACCAGCTGAAGGAGATGCAGCAGGAGCGTGACGATGCACTGGACCGCCTTCACAACAGTGAAAGTGAGAAGCCGGTGAGAAGTGTCTTTGAGAGTGCTCAAAGCGAAGCTATTGGTTCAGAACGCCGCAGTTGCGTGTCAGACAGCCGTGATGCGGGTGCCCAGGCTGACAATGTTCGTCAGTTGCTGGATATGTACCAGGCAAAGGCTGCACACGCGCAAATGTCACAGGAAGCACTTCTGAAGGAGCTTGCTGATAAGGTGAGACAATTAGACGATCTAGCGACTCAGGTTGATGCCATGAGTGCGGACCGCATGGATATTCAAAATAGACCTTTGGGGAGGGACGACGTAGCAGCTCTGAAGGAGAAGCTGAAGAAAGCTGAGGCGGATCTTCGCGATTTGGAAGATGAGCTTGCTGGTGCAAATCGTGACGTGGCGGCTCTGAAAGAACAGCTGGCTGCGGCCAAAGAAGCAAATGATGCGTTCCAGCGGAACGACAGTCGGGCACCCTTTTCAGCAAAGGAAGAAATTGATGCCCTGAAAGATCAGGTTGCAGACCTCGAGAAGCAGCTCGCTGATGTTGAAAGGGAGAATGAAGCCCTCAACCGTGAACTATCAAACATGAAAGATCCACTTGCACCACCATTGATGCCTGCAGATGGTACCAACGATGAACCAGTCGCATCCCAAGCAGAAACGAATGCGCTTCGAGATCAACTCGATGCAGCTGCTGACGAAAATAATGCTCTAAAAGAGCAGCTTGAAGCCTCAGAAGCAAACCAAGTCGCCCTTCAGAACCAGCTATGCGCTACAGAAGATGCAAACGCAGCTCTACAGGATCAGTTAAATTCTTCGCATGCTGATAAAAATGCTCTGGAACATCCACTCACTGCCGCAGAGGCAGACAAGGAAACTCTCAAGGATCAGCTTGAAGCATCAGAAGCCGGCAAGGCTGCACTCGAAGATCAGTTGGCTGCTGCTGAAGAAGAAAACACGGCGCTCAAGGATCAGCTAGCCGATCTACAGGATCCACTCACTGCCGCAGAGGCAGACAAGGAGATTCTCAAGGATCAGCTTGAAGCATCAGAAGCCGGCAAGGCTGCACTCGAAGATCAGTTGGCTGCTGCTGAAGAAGAAAACGCGGCGCTCAAGGACCAGCTAGCCGATCTACAGGATCCACTCACTGCCGCAGAGGCAGACAAGGAAATTCTCAAGGATCAGCTTGAAGCATCAGAAGCCGGCAAGGCTGCACTCGAAGATCAGTTGGCTGCTGCTGAAGAAGAAAACACGGCGCTCAAGGATCAGCTAGCCGATCTACAGGATCCACTCACTGCCGCAGAGGCAGACAAGGAGATTCTCAAGGATCAGCTTGAAGCATCAGAAGCCGGCAAGGCTGCACTCGAAGATCAGTTGGCTGCTGCTGAAGAAGAAAACGCGGCGCTCAAGGACCAGCTAGCCGATCTACAGGATCCACTCACTGCCGCAGAGGCAGACAAGGAAATTCTCAAGGATCAGCTTGAAGCATCAGAAGCCGGCAAGGCTGCACTCGAAGATCAGTTGGCTGCTGCTACTGAAGAAAACGCGGCGCTCCAGGATCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCTGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGTTGCGCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCGCTCAAGGACCAGGTTGCTGATCTTCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCTGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCTGATCTTCAGGACCAGCTCGCTGCTGCGGAAGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTTCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCTGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGTTGCCCTCAAGGACCAGGTTGCGGATCTTCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCTGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGTTGCCCTCAAGGACCAGGTTGCTGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGTTGCCCTCAAGGACCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCTGATCTTCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCTGATCTTCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCTGATCTTCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCTGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGTTGCCCTCAAGGACCAGGTTGCTGATCTTCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGACGGCCCTCAAGGACCAGGACCAGCTCGCTGCTGCGGAAGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCCCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAAGACGAGAAGGCTGCCCTCAAGGACCAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAAGACGAGAAGACTGCCCTCAAGGACCAGGACCAGGTTGCGGATCTTCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCTGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCTGATCTTCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAAGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTTCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCTGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCTGATCTTCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGTTGCCCTCAAGGACCAGGTTGCTGATCTTCAGGACCAGCTCGCTGCTGCGGAAGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGGAGAGAAGGTTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAAGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCTGATCTTCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGTTGCCCTCAAGGACCAGGTTGCTGATCTTCAGGACCAGCTCGCTGCTGCGGAAGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCTGATCTTCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGTTGCCCTCAAGGACCAGGTTGCTGATCTTCAGGGACCAGCTCGCTGCTGCGGGAAGACGAGAAGGCTGCCCTCAAGGACCAGGACCAGCTCGCTGCTGCGGAAGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCTGATCTTCAGGACCAGCTCGCTGCTGCGGAAGACGAAGGCTGCCCTCAAGGACCAGGTTGCTGATCTTCAGGACCAGCTCGCTGCTGCGGAGGACGAGAAGGTTGCCCTCAAGGACCAGGTTGCTGATCTCCAGGACCAGCTCGCTGCTGCGGAAGACGAGAAGGCTGCCCTCAAGGACCAGGTTGCGGATCTCCAGGACCAGCTCGCTGCTGCGGAGGGACGAAAGGTTGCCCTCAAGGACCAGGTTGCTGATCTCCAGGACCAGCTCGCTGCTGCG
Protein Sequence: MAQVRDALERHRAAVECLDEKTLRDAFQGSTPDPSLRLVVEAAYSLVDSSVSADSLDWEWEDVKAVVSKNLQFVQRLVSFEVGYDLSPEHYEVMMTRYDGDYRLKEDNINSAAAYLSNSSARVLKVLFSWFSAQLEAFRTYRQCASTQVLADNLQQNITENVNALKDLSRKLLQIKSQLRVFLSGGRIQSQHGDSITFTPVTPEVTVTSERCAVIASFGEAKSGVAVLGPEDISECEDRAAWHRPQLFAFAASLMQEVQHLQYLLDFEKTQREADRRSTSPSNASPIKSPLGVTPTKTDDRALILSQQEVLQLQDQLTEKEMDIEHLQQRCADAQMLAEAQQADLADQQKELDKLNEEVKRLCSTPYDTPEPFQSERLANDLHGLQDKLLENSEEIAALNDELADLRAHDDRWNADCEPDEQPTTTRHSKQLVGDGWRDLSRDKPAELRQAVSVDAANACHVLVDNVRRVRFDPNTSVAEFEVVHRKDVRKADLDKRIAEYPFRECNHSRETVDEPKEGEDLLADQLKEMQQERDDALDRLHNAENQKPRDTGAAEKLAEKDDEIAALNDELADLRAHDDRWNADCEPDEQPTTTRHSKQLVGDGWRDLSRDKPAELRQAVSVDAANACHVLVDNVRRVRFDPNTSVAEFEVVHRKDVRKADLDKRIAEYPFRECNHSRETVDEPKEGEDLLADQLKEMQQERDDALDRLHNAENQKPRDTGAAEKLAEKDDEIAALNDELADLRAHDDRWNADCEPDEQPTTTRHSKQLVGDGWRDLSRDKPAELRQAVSVDAANACHVLVDNVRRVRFDPNTSVAEFEVVHRKDVRKADLDKRIAEYPFRECNHSRETVDEPKEGEDLLADQLKEMQQERDDALDRLHNAENQKPRDTGAAEKLAEKDDEIAALNDELADLRAHDDRWNADCEPDEQPTTTRHSKQLVGDGWRDLSRDKPAELRQAVSVDAANACHVLVDNVRRVRFDPNTSVAEFEECNHSRETVDEPKEGEDLLADQLKEMQQERDDALDRLHNAENQKPRDTGAAEKLAEKDDEIAALNDELADLRAHDDRWNADCEPDEQPTTTRHSKQLVGDGWRDLSRDKPAELRQAVSVDAANACHVLVDNVRRVRFDPNTSVAEFEVVHRKDVRKADLDKRIAEYPFRECNHSRETVDEPKEGEDLLADQLKEMQQERDDALDRLHNAENQKPRDTGAAEKLAEKDDEIAALNDELADLRAHDDRWNADCEPDEQPTTTRHSKQLVGDGWRDLSRDKPAELRQAVSVDAANACHVLVDNVRRVRFDPNTSVAEFEVVHRKDVRKADLDKRIAEYPFRECNHSRETVDEPKEGEDLLADQLKEMQQERDDALDRLHNAENQKPRDTGAAEKLAEKDDEIAALNDELADLRAHDDRWNADCEPDEQPTTTRHSKQLVGDGWRDLSRDKPAELRQAVSVDAANACHVLVDNVRRVRFDPNTSVAEFEVVHRKDVRKADLDKRIAEYPFRECNHSRETVDEPKEGEDLLADQLKEMQQERDDALDRLHNAENQKPRDTGAAEKLAEKDDEIAALNDELADLRAHDDRWNADCEPDEQPTTTRHSKQLVGDGWRDLSRDKPAELRQAVSVDAANACHVLVDNVRRVRFDPNTSVAEFEVVHRKDVRKADLDKRIAEYPFRECNHSRETVDEPKEGEDLLADQLKEMQQERDDALDRLHNAENQKPRDTGAAEKLAEKDDEIAALNDELADLRAHDDRWNADCEPDEQPTTTRHSKQLVGDGWRDLSRDKPAELRQAVSVDAANACHVLVDNVRRVRFDPNTSVAEFEVVHRKDVRKADLDKRIAEYPFRECNHSRETVDEPKEGEDLLADQLKEMQQERDDALDRLHNSESEKPVRSVFESAQSEAIGSERRSCVSDSRDAGAQADNVRQLLDMYQAKAAHAQMSQEALLKELADKVRQLDDLATQVDAMSADRMDIQNRPLGRDDVAALKEKLKKAEADLRDLEDELAGANRDVAALKEQLAAAKEANDAFQRNDSRAPFSAKEEIDALKDQVADLEKQLADVERENEALNRELSNMKDPLAPPLMPADGTNDEPVASQAETNALRDQLDAAADENNALKEQLEASEANQVALQNQLCATEDANAALQDQLNSSHADKNALEHPLTAAEADKETLKDQLEASEAGKAALEDQLAAAEEENTALKDQLADLQDPLTAAEADKEILKDQLEASEAGKAALEDQLAAAEEENAALKDQLADLQDPLTAAEADKEILKDQLEASEAGKAALEDQLAAAEEENTALKDQLADLQDPLTAAEADKEILKDQLEASEAGKAALEDQLAAAEEENAALKDQLADLQDPLTAAEADKEILKDQLEASEAGKAALEDQLAAATEENAALQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKVALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKVALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKVALKDQVADLQDQLAAAEDEKVALKDQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKVALKDQVADLQDQLAAAEDEKTALKDQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAAPQGPGCGSPGPARCCGGREGPLKDQVADLQDQLAAAEDEKAALKDQDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKTALKDQDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKVALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAGEKVALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKVALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEDEKVALKDQVADLQGPARCCGKTRRLPSRTRTSSLLRKTRRLPSRTRLLIFRTSSLLRKTKAALKDQVADLQDQLAAAEDEKVALKDQVADLQDQLAAAEDEKAALKDQVADLQDQLAAAEGRKVALKDQVADLQDQLAAA

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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