Basic Information

Insect: Monochamus alternatus
Gene Symbol: -
Assembly: GCA_037114965.1
Location: CM073426.1:3641278-3660262[-]

Transcription Factor Domain

TF Family: zf-C2H2
Domain: zf-C2H2 domain
PFAM: PF00096
TF Group: Zinc-Coordinating Group
Description: The C2H2 zinc finger is the classical zinc finger domain. The two conserved cysteines and histidines co-ordinate a zinc ion. The following pattern describes the zinc finger. #-X-C-X(1-5)-C-X3-#-X5-#-X2-H-X(3-6)-[H/C] Where X can be any amino acid, and numbers in brackets indicate the number of residues. The positions marked # are those that are important for the stable fold of the zinc finger. The final position can be either his or cys. The C2H2 zinc finger is composed of two short beta strands followed by an alpha helix. The amino terminal part of the helix binds the major groove in DNA binding zinc fingers. The accepted consensus binding sequence for Sp1 is usually defined by the asymmetric hexanucleotide core GGGCGG but this sequence does not include, among others, the GAG (=CTC) repeat that constitutes a high-affinity site for Sp1 binding to the wt1 promoter [1].
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 50 0.05 3.6 9.7 0.8 1 20 46 65 46 67 0.94

2 50 0.15 11 8.2 1.9 1 20 99 118 99 120 0.94

3 50 2.7 2e+02 4.2 1.6 2 23 231 253 230 253 0.89

4 50 0.079 5.7 9.1 0.5 1 22 310 331 310 332 0.91

5 50 6.5 4.7e+02 3.0 0.4 1 20 395 414 395 416 0.90

6 50 0.0034 0.25 13.3 1.8 1 23 420 442 420 442 0.98

7 50 0.028 2.1 10.5 0.3 1 23 457 480 457 480 0.90

8 50 4 2.9e+02 3.7 0.1 2 23 509 530 508 530 0.94

9 50 0.45 32 6.7 0.2 1 20 671 690 671 690 0.94

10 50 4.7 3.4e+02 3.5 0.6 1 23 766 788 766 788 0.95

11 50 0.54 39 6.4 0.2 1 20 857 876 857 878 0.93

12 50 0.0015 0.11 14.5 0.8 1 23 883 905 883 905 0.96

13 50 0.54 39 6.4 2.2 1 23 920 943 920 943 0.93

14 50 1.6 1.2e+02 4.9 0.7 3 23 997 1017 995 1017 0.93

15 50 0.83 60 5.8 2.5 2 23 1464 1486 1463 1486 0.96

16 50 3.7 2.7e+02 3.8 0.8 1 23 1615 1637 1615 1637 0.96

17 50 0.013 0.95 11.5 1.8 1 21 1691 1711 1691 1712 0.94

18 50 0.012 0.85 11.7 3.7 1 23 1748 1771 1748 1771 0.95

19 50 0.00072 0.052 15.5 3.3 1 23 2441 2463 2441 2463 0.98

20 50 0.00013 0.0095 17.8 1.3 1 23 2469 2491 2469 2491 0.98

21 50 0.00015 0.011 17.6 5.8 1 23 2496 2518 2496 2518 0.99

22 50 0.15 11 8.1 1.8 3 23 2526 2547 2525 2547 0.96

23 50 0.3 22 7.2 0.1 2 23 2553 2574 2552 2574 0.95

24 50 0.00012 0.009 17.9 1.5 1 23 2584 2606 2584 2606 0.97

25 50 0.00014 0.01 17.7 0.5 1 23 2612 2634 2612 2634 0.99

26 50 5.4e-06 0.00039 22.2 0.6 1 23 2640 2662 2640 2662 0.98

27 50 1.4e-06 0.0001 24.0 1.8 1 23 2668 2690 2668 2690 0.98

28 50 0.00053 0.038 15.9 3.5 5 23 2699 2717 2696 2717 0.95

29 50 0.00093 0.067 15.1 3.6 1 23 2746 2768 2746 2768 0.98

30 50 0.00085 0.062 15.2 0.3 1 23 2774 2797 2774 2797 0.92

31 50 0.0057 0.41 12.7 6.4 1 23 2825 2847 2825 2847 0.98

32 50 0.00051 0.037 15.9 1.2 1 23 2853 2875 2853 2875 0.95

33 50 0.00099 0.072 15.0 0.8 1 23 2882 2904 2882 2904 0.99

34 50 0.0073 0.53 12.3 1.9 3 23 2912 2933 2911 2933 0.96

35 50 0.0073 0.53 12.3 1.0 1 23 2939 2961 2939 2961 0.97

36 50 0.0056 0.41 12.7 0.6 2 23 2972 2994 2971 2994 0.95

37 50 0.0004 0.029 16.3 0.3 1 23 3000 3023 3000 3023 0.94

38 50 0.00037 0.027 16.4 4.1 1 23 3029 3051 3029 3051 0.98

39 50 0.00014 0.01 17.7 5.8 1 23 3057 3079 3057 3079 0.99

40 50 0.066 4.8 9.3 1.6 2 23 3086 3108 3086 3108 0.96

41 50 0.00025 0.018 16.9 1.8 2 23 3120 3141 3119 3141 0.96

42 50 6.2e-06 0.00045 22.0 2.4 1 23 3147 3169 3147 3169 0.97

43 50 0.018 1.3 11.0 1.7 1 23 3175 3197 3175 3197 0.98

44 50 0.0069 0.5 12.4 0.2 2 23 3204 3226 3204 3226 0.95

45 50 0.0042 0.3 13.1 0.7 1 23 3231 3253 3231 3253 0.96

46 50 0.0088 0.64 12.0 0.3 2 23 3264 3286 3263 3286 0.93

47 50 0.0045 0.33 13.0 0.9 1 23 3293 3315 3293 3315 0.98

48 50 2.2e-06 0.00016 23.4 0.8 2 23 3322 3343 3321 3343 0.98

49 50 1.8e-05 0.0013 20.5 2.5 1 23 3349 3371 3349 3371 0.98

50 50 0.031 2.3 10.3 4.8 1 23 3377 3399 3377 3400 0.95

#	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	50	0.05	3.6	9.7	0.8	1	20	46	65	46	67	0.94
2	50	0.15	11	8.2	1.9	1	20	99	118	99	120	0.94
3	50	2.7	2e+02	4.2	1.6	2	23	231	253	230	253	0.89
4	50	0.079	5.7	9.1	0.5	1	22	310	331	310	332	0.91
5	50	6.5	4.7e+02	3.0	0.4	1	20	395	414	395	416	0.90
6	50	0.0034	0.25	13.3	1.8	1	23	420	442	420	442	0.98
7	50	0.028	2.1	10.5	0.3	1	23	457	480	457	480	0.90
8	50	4	2.9e+02	3.7	0.1	2	23	509	530	508	530	0.94
9	50	0.45	32	6.7	0.2	1	20	671	690	671	690	0.94
10	50	4.7	3.4e+02	3.5	0.6	1	23	766	788	766	788	0.95
11	50	0.54	39	6.4	0.2	1	20	857	876	857	878	0.93
12	50	0.0015	0.11	14.5	0.8	1	23	883	905	883	905	0.96
13	50	0.54	39	6.4	2.2	1	23	920	943	920	943	0.93
14	50	1.6	1.2e+02	4.9	0.7	3	23	997	1017	995	1017	0.93
15	50	0.83	60	5.8	2.5	2	23	1464	1486	1463	1486	0.96
16	50	3.7	2.7e+02	3.8	0.8	1	23	1615	1637	1615	1637	0.96
17	50	0.013	0.95	11.5	1.8	1	21	1691	1711	1691	1712	0.94
18	50	0.012	0.85	11.7	3.7	1	23	1748	1771	1748	1771	0.95
19	50	0.00072	0.052	15.5	3.3	1	23	2441	2463	2441	2463	0.98
20	50	0.00013	0.0095	17.8	1.3	1	23	2469	2491	2469	2491	0.98
21	50	0.00015	0.011	17.6	5.8	1	23	2496	2518	2496	2518	0.99
22	50	0.15	11	8.1	1.8	3	23	2526	2547	2525	2547	0.96
23	50	0.3	22	7.2	0.1	2	23	2553	2574	2552	2574	0.95
24	50	0.00012	0.009	17.9	1.5	1	23	2584	2606	2584	2606	0.97
25	50	0.00014	0.01	17.7	0.5	1	23	2612	2634	2612	2634	0.99
26	50	5.4e-06	0.00039	22.2	0.6	1	23	2640	2662	2640	2662	0.98
27	50	1.4e-06	0.0001	24.0	1.8	1	23	2668	2690	2668	2690	0.98
28	50	0.00053	0.038	15.9	3.5	5	23	2699	2717	2696	2717	0.95
29	50	0.00093	0.067	15.1	3.6	1	23	2746	2768	2746	2768	0.98
30	50	0.00085	0.062	15.2	0.3	1	23	2774	2797	2774	2797	0.92
31	50	0.0057	0.41	12.7	6.4	1	23	2825	2847	2825	2847	0.98
32	50	0.00051	0.037	15.9	1.2	1	23	2853	2875	2853	2875	0.95
33	50	0.00099	0.072	15.0	0.8	1	23	2882	2904	2882	2904	0.99
34	50	0.0073	0.53	12.3	1.9	3	23	2912	2933	2911	2933	0.96
35	50	0.0073	0.53	12.3	1.0	1	23	2939	2961	2939	2961	0.97
36	50	0.0056	0.41	12.7	0.6	2	23	2972	2994	2971	2994	0.95
37	50	0.0004	0.029	16.3	0.3	1	23	3000	3023	3000	3023	0.94
38	50	0.00037	0.027	16.4	4.1	1	23	3029	3051	3029	3051	0.98
39	50	0.00014	0.01	17.7	5.8	1	23	3057	3079	3057	3079	0.99
40	50	0.066	4.8	9.3	1.6	2	23	3086	3108	3086	3108	0.96
41	50	0.00025	0.018	16.9	1.8	2	23	3120	3141	3119	3141	0.96
42	50	6.2e-06	0.00045	22.0	2.4	1	23	3147	3169	3147	3169	0.97
43	50	0.018	1.3	11.0	1.7	1	23	3175	3197	3175	3197	0.98
44	50	0.0069	0.5	12.4	0.2	2	23	3204	3226	3204	3226	0.95
45	50	0.0042	0.3	13.1	0.7	1	23	3231	3253	3231	3253	0.96
46	50	0.0088	0.64	12.0	0.3	2	23	3264	3286	3263	3286	0.93
47	50	0.0045	0.33	13.0	0.9	1	23	3293	3315	3293	3315	0.98
48	50	2.2e-06	0.00016	23.4	0.8	2	23	3322	3343	3321	3343	0.98
49	50	1.8e-05	0.0013	20.5	2.5	1	23	3349	3371	3349	3371	0.98
50	50	0.031	2.3	10.3	4.8	1	23	3377	3399	3377	3400	0.95

Sequence Information

Coding Sequence: ATGAGGAAACTGTCACAGAAGATTCTAGAAAAGTATATAAAACGATACGATCTAAAACAATGCCAATTGGTATTACCAGATGTCACGCGATGTTTCCAAATCGTCAATAACCATACCAAACTACCTAGATTCAAGTACAAGTGCTATATCTGTTCGGAAACCTTTATCACCCACGTCGACCTTGTGTCCCATAAGACGAAGTATAAAAACAAAGAATGCAAGAAGTTCACGAAGATTAAGCCGAAGACGTCGAGGAAGAAGAAACAGAAACAACCCGTTAAGGCTAAGGATATATACACTTGTAAAGTTTGCTTGAAGGTATTCCTCACGAAAACAGCACTGCGTCGTCACAAACATAGGTTGGACACGTTTGACGAGACTGTTCAAGTTCCTGAAATTGTTATACCTGCCAGTATAACAAATGAAGACGTTGCTGAACTACCTCCCGAGTTTGGGAACAGAAAAGTGACAGTTGTGCGTTACCAGAAGCGACCGCCCAATCAGCTCATCAACAACTCCCATCTGCACTGTTTAAGGTGCGAAAGAAACTTCCTGGTAATTGACGACTTGAAAGAGCACGTAATAAGAGCTAGGTGCTACTCCATACGTAAATGCAGGATCTGCTTCGCTTCTTTTGAGAAGAATCGAGAGATGTACGATCATGTTGTCCAGCAACATCCCCAGCAACTTATCTGCGAGTTTTGTTACAAGTTGTTTACTAATTACGGTGATCTTAGCTTACATAAGCACGGAAAGCATTTTATGCACTTCCGACACGTGTGTCAAACCGACTTGGACAACACCAAAGAATTACTAGCAAAATATTCCATAACGGAATCTCGTGTGGTATTACGCGATATATTGTTGAACAAATCGATAAAAATCGTTGATGGCACCGCCAAATTACCAAGTGACGGTAGAAAAAAGTATGCGTGCACCATTTGCTGGAAGAGATTCTTAACGTCAAAGGAACTTGAAAACCACAGACCCACTCATGAAAAGGAAAAAGAACATGATGGCGATGATGTAATTATAGTAACGGAGAAACCTCGGAAAAAAGCTACACTCATTAAAAGACAAGCAAAGTCCACACCTAAAACAGTTCCCGTCAAGAATacaattaaaaactattttcaaaaaGCTACAAAGAAAGTTGTGAAACACGAGCGCCCTCTGCTTTCACACAAATGCGAGACGTGCGATAGTGACTTTACATCTATCGAGGATATTAAGCTGCATACTTCCAGTGAATGTCGGTTTAAATGCGGAGTATGCCACAAGACATACAACACAGTGTACGCGTTCACCGTGCACATTCTACAACATAAAATCAACCTTTTCAACACAACTCCAGCTCCTGATAAGTTGCATAAGTGTTCGTTGTGTCCAGAATCATTCGACGACTACATTGATCTGAAGACTCACGGTATTCTGGAGCACAAAACCAAATCTGGATCGATCATTCAAGACGAACCAGAAAGTAACCCAGACGAAACCAACGGCAACGGCAAAGAAATTGAAATTAGTTGTGAATTGTGCTTCGACATATTTGAATCCGAAGAAGAACTGAATGAGCACATGGAATTCCACAAAGAGCTGGGGGGAAAACATGATAAAAAAGTACAAGAAGAAAACAGCGTTGATACGGAAGAAAGCTCTGAAAAACAAGCAGAAGATGATAGTCCTGAAAATACTAAAGAAGCCCCAGAAGAAATCGCTAAAGAATGTGCCACTCGCGAAGTGAGAATCGAGTTGAATCCCATTCCAGTAATAGAATGCAGTTACAGTCTTGCAGAACAAGACCCGGATACTCCTTCAGCGGAACCTGATTCTCCAGGTCAACCTGTTCATTCTCCAGGAGGATCTGTTGATTCTCCAGGTGATCATGTCGATTCTTCAGATAAACATGTTGATCTTTCAACTGAACCTGTTGAAGACGAGAGAAAAGAAGAAGACTCGGGCCTTAAGTACATTGTCTTGCCATCTAATGATATGATACCCAAGAAACATTACAAATGTAACAAGTGCGAACGCATCTACACATCCATAGAGGAATTCGACAGCCATATACCCTCAGGCTGTAAAATGGAAAACGTCTGTCCTGTTTGTTTGATAACTATCAGCACGAATTCGGAATGGTCGGCAGATTCGTCAGGGGAGTTATCGCTAAAAGAGAAgcttaaaaaatacaacatgACTAGAGAACTTGTTATCCTTTTAGAAGACGTCAAATTAgataagaatttcgaattcgaCGGCGACGTCGCTGTTGAGAGCGACGAACGGAAGAAAAAATTCACCTGCTACATTTGCATGGCAAAGTTTTCGTCAGCGCTCAACATGAGCAAACATAAAGCCCTTCACGGTGACAGTGAACTTGAGGATGACGCGGTTGACGATGAAGAAACGTGGTCAAAACCTAAAACTAAAAACATTTGTCCACAAAACTCGTCTACTAAACTCAGTTTAAAGCCTAAAATTACGAGTACTGAAAACATGAATAAGAACTGTAATAAAGCAAAATGTGATGAGGCTGTTGCGTCAAACGAACCTCaaaagattacacctttcaAGTGCGAAACGTGCGATGTCTTTTTCGAAAGTTCCGATGACGCAAAATTGCATACGGTTTccaataaatgtaaatttttctgCAAGATATGCGGTAGGAAGTTCAACACCCTATACGCTTTCGTGGTGCATGTGATGCAACACAGATCCAACGCTGCCAAAAGTCACAACTCTTCTCAAATGGTTTATACCTGTATGACTTGCAAGCAGTCGTTCGACAACTGCCTACTGCTGAGAAGTCACGAACTCAACGCGCACGCATCAAAATCTGATGAAATACCATGCGATCCCGAGCCCGTTACTAATCCATCCAGAGAAGAAACTAACGTATCTGTGAAAGAAGAACCAACGGAACCATCTGTTCATGACCAGGTGCCAATTACAGACACGACAGCGACCGAATTAACTGAAATATGTTGCGAACTTTGCTATGATGTCTTTGAAACAACGGAAGATCTAAACTCACACATGGAATTTCACAAACAACTCGAGGACAAATCGGACGCCATCGTGATAGAAGACGATGAAAACGAAGTAGTGGAAGTGTACGAAGAAAAAAAAGATCCTCACGAAATCATCACTACTATCAAATCGACAACAAAGCCGCCCCGAAAGAAGAAAGTTATACCGCCAACTATGCGTTCTACTGTAACCACTACTACGTCCCTTCAAACTACGTCAACCCACAGCCTTACTGACGCAATAAAAGATTTGTTGACCCCTAAGGTTGAGAAACAATCTAAAACTATTCTCCTACCACCATCAGTTACATTGCCGAATCTGATACCCATAAGCAAACTCAAAAAGGCCGAAGCTAAGTCAAAACGCACCTCCCAACCGGAAAACTCAAATGTAGAGCTACGCAGGACGGGTCCTTTAAGCTATTCCCTCTATTTTAAAGAAGACGGAACTATTTCGACTACTTCCAGCGCAGGAATCAGCAACGCAACTACTAGTTCTACTGTATCGAATAAGGTCCCCATTTATTCTACGTCACACATGAATTCCAATCCAATGCTTTCAGTGGCAGCAACCAATTTAACCAGTACCGTAGCAAATAGTCCTCTCAAGTTTTTTATAACCAATGTCCCTTACGTATCGGGACTCCCGACCGCATCAGTAAGTAACACTATACCAACAGTAACTAATAATGTCGTAACAAATACCTCGAGTACTTTAGTTACGACTACTACCAGtgcaaataattttacctaCGTAGTAGCACCTTCAAATACATTCGTACCTCCCATAGTTCTGAATGATCCGCAAAAGAACTTAGCGTACGTTATAATACCGCACAACAATACCAACGTTGTAAATTCGATGACCCAGAGCACTAGCACTGCATCGGTGATGACTTCAAAGCTACAACCTCCAGTTGCATCAACTTCTTTACCTGTAATCAATTTAACAACAACGCAGGCAAGTGCGTCTGTAACAGCAACCACTAACACAACATCTAGCGGACAAACAAATTCATTACCAGCGATCTCTAATTATTTCACTATAGCTGGCATCCCAAAGACAACTACAAGTGAAGCATCTACGTCTGGTATGGTCAGTTCTAACGCAAAAGCACCTGACCCGCCCAAACAATTAGAAGAATCGATCGTGATAGACAGCGATTCTTCCGACGATGATGAACCCGAGAAAACCCCGATAATAAAAGACAGTACCGAAAACGAGTCCGAATCCGACGAATTGGTTATAGACGAAAGCTCGCCCAGTACCGAATCGTCCGAAAAAAAGAAAGGTGAAAACGCAGGCTCTAAAGACGAAAACGAAAAaaccaagaagaagaaatataaattccCGATGAAGTGCAACGGTTGTTCAGTGATTTTTCAAAGGCTGAGGAGCATGCGGCACCACCTAGAGCGTAGACACGGCTGCCAACTCTGCGTGTTTAAGTGCTGCAAGGTGTCCGACCTCAAGCAGCATTACATTTTGGAACATCGCAAGTTCTTCTGTTCCAGATGCTCTATTTTGGCGGACAGCAAACGGGGTTTTACAGAACACAACCGTAGGAATCACATATGCCAATCGTGCAACGGTTTCTACTTTAACTTGTCGCACCACACCTGTCCCAAAGTTGTGGAAAAAGATAGCAATGTAATTTTTAGGTCTCTTCATTCGACTTCCAAAGAACAGATAGTTGCTGAAATACGCCAGTGTTTCGTGGTATTGAGAGACATTAAACGGACGCAATTAAAGATTAATAGCGAGTTGATTAAAGACACAACCTTACATGTGGAGGAGAGGAAGAAGAAATACACTTGCTACGTTTGCATGGCAAATTTTTTTACAGAGTCCGACCTGGATAGACACAAATCTTTACACAATGACGATCACGATGCAGACATAACCAAAGATGACGATAAAGATTCCGACTACTCAGGAAATGAATCTGAAGAGACTGAAagtggtgatgatggtgatctTATCGAAAAGACTTCAACTGCTTCAAATATTAGTGTAAATCCAATGACTTGTAGTGTATTTAAATGTTTCACTTGTAAAAGAGTGTTGAAGACGTTGAGTAATCTTAGAACTCATACGTCGACCAAGTGCACATTTTCTTGTAAGTTATGTTCGAAGAACTTCAACAATTCCGACGTATTTCTTTGTCACATAATCCACCACAGAATCAATTTCCTGTCGTTGCAGTTCTTCAAGTGTGAGGTGTGCTCTCAGTGTTTTGACAATTACTTTCAATTGAGGAAACATGAATCTGTTTCCCATAATCTAAAGCCTTGGGCCGATAAAGGTAAACTGCCACCACTGTTAGACAAGGATTGTGAACCTAAGGAAATGTCGGAGCTTCAAGTAATTAAAGAAGAACCACCTGATCAAGATTTATCCGAGACAAGAGGCGGCACAACCACCATCGCTTGTGAGTTGTGCTTCGATCTGTGTAACTCAGACGAAGAGTTTCGTACTCACATGGATTTCCACAGGCAGTTAGCTATAAAAGAGTCTGACAATGAAGTTGATACTCGCGCTGCAAATTCAGAAGTTAAACCTAAAAGCGCTACTGTATTCCCTCCTTCGAAAATTGTCCTTAAGTCTGCACCACGTGTTACTCCAATTACCAAGGCTAAACTCATTCCTATTTTACCAAAAGAATCTGTaccaaataaaattcaaaacgtTTCCGTCAGTTCACACACTACTTTAAAATCCTCTACAGTTAGCACAACGCAAACTTCCACTGTACACCAGGTGATAAATACAGTTCCTTATAAAATACAGATACCGCCTCGTATTAATGGTGAAACGAGTGATAAAGTTGTAAATTTTTCTGACCAAACGAAACCAGCCAATATCGCCATCAAGCAATTGGATATATCAACTGTGTCAAAGAAACGGCTTGTATTGAGAAAAGAATTTTCACTGCCTTTAGGAAAGtttgttttaacaaaaaaagatTCCATGGCGGTTCAAGAGTTTTTCAATCGTAACTCAAAAGAGCCCATCGCTGAAAAGTCTAAAACCACAGAGATGTGTTCTAGCGTAACGACTGCAACAGCTGTCAGCGCAACAGCTTCTAATATGGTAACCAATCCTGTTATAGCTGCAGGGTCAAATCCACAAAAAGGGCAACCTGTTTTAAATCCAAACATTTTTTCAGTTAAGAGTGGTGTTAATACTACTCCGAAACCAACTTATATtccaaatatattaaaaaaggcTGTTCCAATTTCTAAAAGTAGCACCTCACAACTAATCATTCAAAATAATCAGATTCCTCTTACAGTGAACGCAATGTGTGGGAAGCAAACGACTTTACAACGTACCACCAATATTGCTCCTGCACCTAGTGTTGTAGCGATACCACCAACACAGAACTCTTATGTAAACGGCTATTTAGACAAACAGACGACTATTAGCAAACCAAATAACTGGACGAACACTCAAAGCACCAGTGCAGCCAGTTCCAATCTGATTTACCTTATTAATCCCGTCAACAACATAGGAGTGCCTGTAGAACCTCCGATGACCTATATAAACGATGCCTCCAACTTCACCTACTTTTTGATGCCCCCAAACCCAACCGAAAACGTGTCGAATATCAATTTTGCACCTCAGACTTCCGTGCTTCAGAACCCTTTTCCAGTACAAGACGCGAATAAAGTTGTGTTCACCTTACCAACCGTAGACCAGTCTCTCAATCTGGCTTCGCAAAGTAGGAGTTCTCAATTATCCAACGCCGTCCCGATGCCTATGCTGTCTTCCGACAATAACTTGTTCTTCGTTACGAATCAGCCAAATAATTCGGTCCAGACGAGTATGCAGTCCACTGGCATTATCAACACGATAGTTTCGCAAAACAGTTTGCAAGCGAACAATTCGATTGGTGGGACATATTTCCAAAGACCGCTATATCAGGATCAGTTGTACTCGACAAACTTCAGCCTACATTCTTTAAATGCCAACAATCTACATATGCAATGCAACTACTTGATGGACATCGTCGACTGTCAAAAACAGGCTATTCCGGACAACATCCTGGAAAATTCTGTCGTGGATCAACTCAACGAATCCGATGCCGAGCTTCTAAACCTTCTAACAGCCGAGGAAGACTGCACCGCCATCTTGAACAACATTGCGACCAACGAACAATTCCAAAGACTGATAAGCAACGAAGCAGATTTCGTCCAAACGGAAGAAATGGAACAGTTCATGAACAAAACTTGTGAAGCACCCTTACCATCCAcggaaaaagaagaaaaatccACCCAAGAAGGCTTCAAATGCCTTCAGTGTGGGAGAATTTGCTCTACGAAGAAGTTACTGAAGAAACACTTACTGATACACACCCAAGAACGTAGCTTTCCTTGTGAAATTTGTGGTAAACTTTTTCGACATAGATACGAAGTAACCGCTCACCAGAAGAGCCACAACAAGCCTACATTCCAGTGTGATATTTGTTCTAGGATGTTTATACACAAGTCTCACCTCAACGTTCATCGAAAAAAACATTTGGGAGAGTACACAGCTTTCTGTAAAGAGTGCCAAATGGGTTTCGTTACTCTAACTTCATTCAAAACTCATAGAAATAACTACCATGATAATCTTCAACTCATTTGCGACAGTTGTGGCGCCAAACTCAGCAGCCTTTCCGCTTTGAAAGAACATAAATTAATCCACGATCCCAACTACGGCAAAGAACGGTCACACGTATGCGACATATGCGGGAAGAGCTACCTAACCTCTAGAAACCTGAGAAGTCACATGAAAATCCACTCTAAAATCTGTCCTTACAAATGCAGCATCTGCGGTAAATCTGTCAGTAGCAAGAGCATCTTGGAAACCCACCTCAAAATGCACACTGGAGTGAAAGACTTCAATTGCGAGATTTGCGATAAAAACTTCGCCTCCaaggagtacctcaaggttcaTCAGCGCATCCACAACGGCGACAAACCGTTTGAATGTACGATGTGTGGGAAACGCTTCACTCAGAAGACGTCTCTCACGGTTCATATAAGGTACCACACTGGACAGAAACCTTACAAGTGCGAATGTGGAAAGGAATTTACCACTAAGAGTCACCTTATGACTCATTACAAAACGCACGATATCGGTGGGGTCGATATAGAATTGTCAACTACCGTGAACCTAGACGCATTTTTGGTAACTCTCGACAACGGAAAGGAAAAATTCAAATGCCCAACTTGCCTGAAAACATTCAGTACAAAGCAGTACTTCAAGAGCCACCTACTCAACCATACCAGTTTCAAACCATACGAATGCATACAATGTGGTAAATCGTTCGTAAAGAAGAAACAACTTACTGCTCACATCTTGGACGAACACGATGACCTAAACATTTTTCAACTACCAACTGAAAtggtaattgaaaaattttcgaTCGTAGTGGAAAACGGCAAGGAAGTCTACAAGTGCGCCACCTGTTTCAAGACTTTCAGCAGCAAACACTACTTTAAGAGCCATCTTCTCAGCCACACGGACTTCAAACCCTTCAGGTGTATCGATTGTGGCAAGACCTTCAAAAGAAAACAGGAGCTCACCAGCCATAGTCTTGTCCATAACGCCAACAGGAAGATATTCCAGTGCGAGGTGTGCAAGAAGATCATGACCACCAAATCTGGTCTCATCCTTCACCAAAGAAGGCACCTAAAGCTCTACAACGTGTTTTGTGATTATTGCAAAAAAGGTTTTTATTCCAAAACGACGCTTACTTTACACGTAAATTCCAAACACACGGGCAAATCCACGTTTATCTGTGAAATATGCGGAAGACCTTGTTACGACAAAACCAGCTTGGACAACCACAGAGCAAAACACGACATCAGCTACGGGAAGAAGAAAAACATCAAATGCGAGCTGTGCGAGACCAAGTTCATAGATAAAAAGTACCTCTTGGTGCATATGTACAAACTCCACGGCAGCGGTAACAGATTCGTCTGCGACATCTGCGGGAAGAAGTTATGCTCCAAGGTTAGCTTACAGGAGCACATGATTGCCGTACACGAAGGCCTGAAACCCCACAAGTGCAAAATGTGCGATCAGAGCTTCGCAAACAAGACTACTTTGAGGTTGCACGAAAGGAGACACACGGGCGTACGACCCTATAAGTGTACCCATTGCGAGAGGGCTTTCACGCAAAGTCACAGCTTGAAAATGCATTTACGTCTGCATACAGGGGAGAAGCCCGAGGTGTGCACCTTGTGTAATTCCAATTTTGTTTCCAAGAACATGCTGAGGTCGCATTTGAAGAGTAAACATAAGGTGGTAAAAGGCGAAGCGGGAACCGAGATACCATGCTCGTACTGCgagaaaatgttcaaaaacaaaCGTCGACTCAAGAAACACCTCCTATCCCATAGCACCGAGAGACCTTTCGCGTGTCACATCTGCGACAAGCGTTTCAAGAGGAAGTACGACATCAACATACACATGAGAGTACATGGCGACCATCCCACCTTCCAGTGCGACTTCTGCTCGAAAACCCTCAAATCCAGAGGCGCCTTTGTGATACACAGAAAGCGACACTTAAAACAGTACGTGGCCAAGTGTGAAATTTGCGGAAGGGGATTTGTCACCAACCAAGAGTACCTCAACCACGTGGCTTCCAAGCACGGAACCAGCAACCACATCTGCAACGTGTGCGGAAGGGGGTGCTACGACAAGGCGGCCCTTCAAGGCCACATGGCGCGCCACGCGGAGGACTACGAAACTAACCAAAACATCAAATGCGACATATGTGGGAAAACTTTCCTCCAAGAAAAGTACCTCAAGCAACACGTGGTGAGGATCCACAAAGACGGAGGTCAGAGATATATGTGCGACTTCTGTGGGAAAAACTTGCATTCCAAAGGCAGCTTAAGAGATCACATACTGATACACAAAGGACTGAGGCCCATACAGTGCACAGAGTGCGGTAGAAGCTTCGCTCTAAAGTCTACCCTTAAGCTACACATGAGAACCCATACAGGAGAAAGGCCGTATAGTTGCAAAGTATGTGGTAAATCGTTCACGCAGAAAGGTCCTTTGAATACCCATATGCACTACCATACGGGAGAGAGACCCCACAAGTGTGACATTTGCTCCATGGGCTTCGTAACCAAGACTATGCTGCAAAGCCACAATAAGAAACACCACGACATGATGATACTAGGTGCATATTAA
Protein Sequence: MRKLSQKILEKYIKRYDLKQCQLVLPDVTRCFQIVNNHTKLPRFKYKCYICSETFITHVDLVSHKTKYKNKECKKFTKIKPKTSRKKKQKQPVKAKDIYTCKVCLKVFLTKTALRRHKHRLDTFDETVQVPEIVIPASITNEDVAELPPEFGNRKVTVVRYQKRPPNQLINNSHLHCLRCERNFLVIDDLKEHVIRARCYSIRKCRICFASFEKNREMYDHVVQQHPQQLICEFCYKLFTNYGDLSLHKHGKHFMHFRHVCQTDLDNTKELLAKYSITESRVVLRDILLNKSIKIVDGTAKLPSDGRKKYACTICWKRFLTSKELENHRPTHEKEKEHDGDDVIIVTEKPRKKATLIKRQAKSTPKTVPVKNTIKNYFQKATKKVVKHERPLLSHKCETCDSDFTSIEDIKLHTSSECRFKCGVCHKTYNTVYAFTVHILQHKINLFNTTPAPDKLHKCSLCPESFDDYIDLKTHGILEHKTKSGSIIQDEPESNPDETNGNGKEIEISCELCFDIFESEEELNEHMEFHKELGGKHDKKVQEENSVDTEESSEKQAEDDSPENTKEAPEEIAKECATREVRIELNPIPVIECSYSLAEQDPDTPSAEPDSPGQPVHSPGGSVDSPGDHVDSSDKHVDLSTEPVEDERKEEDSGLKYIVLPSNDMIPKKHYKCNKCERIYTSIEEFDSHIPSGCKMENVCPVCLITISTNSEWSADSSGELSLKEKLKKYNMTRELVILLEDVKLDKNFEFDGDVAVESDERKKKFTCYICMAKFSSALNMSKHKALHGDSELEDDAVDDEETWSKPKTKNICPQNSSTKLSLKPKITSTENMNKNCNKAKCDEAVASNEPQKITPFKCETCDVFFESSDDAKLHTVSNKCKFFCKICGRKFNTLYAFVVHVMQHRSNAAKSHNSSQMVYTCMTCKQSFDNCLLLRSHELNAHASKSDEIPCDPEPVTNPSREETNVSVKEEPTEPSVHDQVPITDTTATELTEICCELCYDVFETTEDLNSHMEFHKQLEDKSDAIVIEDDENEVVEVYEEKKDPHEIITTIKSTTKPPRKKKVIPPTMRSTVTTTTSLQTTSTHSLTDAIKDLLTPKVEKQSKTILLPPSVTLPNLIPISKLKKAEAKSKRTSQPENSNVELRRTGPLSYSLYFKEDGTISTTSSAGISNATTSSTVSNKVPIYSTSHMNSNPMLSVAATNLTSTVANSPLKFFITNVPYVSGLPTASVSNTIPTVTNNVVTNTSSTLVTTTTSANNFTYVVAPSNTFVPPIVLNDPQKNLAYVIIPHNNTNVVNSMTQSTSTASVMTSKLQPPVASTSLPVINLTTTQASASVTATTNTTSSGQTNSLPAISNYFTIAGIPKTTTSEASTSGMVSSNAKAPDPPKQLEESIVIDSDSSDDDEPEKTPIIKDSTENESESDELVIDESSPSTESSEKKKGENAGSKDENEKTKKKKYKFPMKCNGCSVIFQRLRSMRHHLERRHGCQLCVFKCCKVSDLKQHYILEHRKFFCSRCSILADSKRGFTEHNRRNHICQSCNGFYFNLSHHTCPKVVEKDSNVIFRSLHSTSKEQIVAEIRQCFVVLRDIKRTQLKINSELIKDTTLHVEERKKKYTCYVCMANFFTESDLDRHKSLHNDDHDADITKDDDKDSDYSGNESEETESGDDGDLIEKTSTASNISVNPMTCSVFKCFTCKRVLKTLSNLRTHTSTKCTFSCKLCSKNFNNSDVFLCHIIHHRINFLSLQFFKCEVCSQCFDNYFQLRKHESVSHNLKPWADKGKLPPLLDKDCEPKEMSELQVIKEEPPDQDLSETRGGTTTIACELCFDLCNSDEEFRTHMDFHRQLAIKESDNEVDTRAANSEVKPKSATVFPPSKIVLKSAPRVTPITKAKLIPILPKESVPNKIQNVSVSSHTTLKSSTVSTTQTSTVHQVINTVPYKIQIPPRINGETSDKVVNFSDQTKPANIAIKQLDISTVSKKRLVLRKEFSLPLGKFVLTKKDSMAVQEFFNRNSKEPIAEKSKTTEMCSSVTTATAVSATASNMVTNPVIAAGSNPQKGQPVLNPNIFSVKSGVNTTPKPTYIPNILKKAVPISKSSTSQLIIQNNQIPLTVNAMCGKQTTLQRTTNIAPAPSVVAIPPTQNSYVNGYLDKQTTISKPNNWTNTQSTSAASSNLIYLINPVNNIGVPVEPPMTYINDASNFTYFLMPPNPTENVSNINFAPQTSVLQNPFPVQDANKVVFTLPTVDQSLNLASQSRSSQLSNAVPMPMLSSDNNLFFVTNQPNNSVQTSMQSTGIINTIVSQNSLQANNSIGGTYFQRPLYQDQLYSTNFSLHSLNANNLHMQCNYLMDIVDCQKQAIPDNILENSVVDQLNESDAELLNLLTAEEDCTAILNNIATNEQFQRLISNEADFVQTEEMEQFMNKTCEAPLPSTEKEEKSTQEGFKCLQCGRICSTKKLLKKHLLIHTQERSFPCEICGKLFRHRYEVTAHQKSHNKPTFQCDICSRMFIHKSHLNVHRKKHLGEYTAFCKECQMGFVTLTSFKTHRNNYHDNLQLICDSCGAKLSSLSALKEHKLIHDPNYGKERSHVCDICGKSYLTSRNLRSHMKIHSKICPYKCSICGKSVSSKSILETHLKMHTGVKDFNCEICDKNFASKEYLKVHQRIHNGDKPFECTMCGKRFTQKTSLTVHIRYHTGQKPYKCECGKEFTTKSHLMTHYKTHDIGGVDIELSTTVNLDAFLVTLDNGKEKFKCPTCLKTFSTKQYFKSHLLNHTSFKPYECIQCGKSFVKKKQLTAHILDEHDDLNIFQLPTEMVIEKFSIVVENGKEVYKCATCFKTFSSKHYFKSHLLSHTDFKPFRCIDCGKTFKRKQELTSHSLVHNANRKIFQCEVCKKIMTTKSGLILHQRRHLKLYNVFCDYCKKGFYSKTTLTLHVNSKHTGKSTFICEICGRPCYDKTSLDNHRAKHDISYGKKKNIKCELCETKFIDKKYLLVHMYKLHGSGNRFVCDICGKKLCSKVSLQEHMIAVHEGLKPHKCKMCDQSFANKTTLRLHERRHTGVRPYKCTHCERAFTQSHSLKMHLRLHTGEKPEVCTLCNSNFVSKNMLRSHLKSKHKVVKGEAGTEIPCSYCEKMFKNKRRLKKHLLSHSTERPFACHICDKRFKRKYDINIHMRVHGDHPTFQCDFCSKTLKSRGAFVIHRKRHLKQYVAKCEICGRGFVTNQEYLNHVASKHGTSNHICNVCGRGCYDKAALQGHMARHAEDYETNQNIKCDICGKTFLQEKYLKQHVVRIHKDGGQRYMCDFCGKNLHSKGSLRDHILIHKGLRPIQCTECGRSFALKSTLKLHMRTHTGERPYSCKVCGKSFTQKGPLNTHMHYHTGERPHKCDICSMGFVTKTMLQSHNKKHHDMMILGAY

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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