Basic Information

Insect: Rhamphomyia laevipes
Gene Symbol: unc-89
Assembly: GCA_963920725.1
Location: OY987259.1:53946564-53968489[+]

Transcription Factor Domain

TF Family: HMG
Domain: HMG_box domain
PFAM: PF00505
TF Group: Other Alpha-Helix Group
Description: High mobility group (HMG) box domains are involved in binding DNA, and may be involved in protein-protein interactions as well. The structure of the HMG-box domain consists of three helices in an irregular array. HMG-box domains are found in one or more copies in HMG-box proteins, which form a large, diverse family involved in the regulation of DNA-dependent processes such as transcription, replication, and strand repair, all of which require the bending and unwinding of chromatin. Many of these proteins are regulators of gene expression. HMG-box proteins are found in a variety of eukaryotic organisms, and can be broadly divided into two groups, based on sequence-dependent and sequence-independent DNA recognition; the former usually contain one HMG-box motif, while the latter can contain multiple HMG-box motifs. HMG-box domains can be found in single or multiple copies in the following protein classes: HMG1 and HMG2 non-histone components of chromatin; SRY (sex determining region Y protein) involved in differential gonadogenesis; the SOX family of transcription factors [1]; sequence-specific LEF1 (lymphoid enhancer binding factor 1) and TCF-1 (T-cell factor 1) involved in regulation of organogenesis and thymocyte differentiation [2]; structure-specific recognition protein SSRP involved in transcription and replication; MTF1 mitochondrial transcription factor; nucleolar transcription factors UBF 1/2 (upstream binding factor) involved in transcription by RNA polymerase I; Abf2 yeast ARS-binding factor [3]; yeast transcription factors lxr1, Rox1, Nhp6b and Spp41; mating type proteins (MAT) involved in the sexual reproduction of fungi [4]; and the YABBY plant-specific transcription factors.
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 53 6 8.8e+03 -1.7 0.6 21 44 3013 3036 3009 3048 0.78

2 53 4.1 6e+03 -1.2 0.1 21 38 3185 3202 3176 3209 0.82

3 53 0.58 8.5e+02 1.5 0.1 22 46 3221 3245 3211 3255 0.81

4 53 0.13 2e+02 3.6 0.4 20 46 3254 3280 3245 3289 0.80

5 53 0.11 1.6e+02 3.8 0.1 20 45 3289 3314 3280 3322 0.81

6 53 0.15 2.2e+02 3.4 0.0 22 45 3361 3384 3351 3389 0.83

7 53 0.095 1.4e+02 4.0 0.0 23 47 3397 3421 3387 3423 0.87

8 53 0.68 9.9e+02 1.3 0.1 20 45 3464 3489 3457 3498 0.83

9 53 0.069 1e+02 4.5 0.1 23 48 3502 3528 3493 3537 0.84

10 53 0.27 4e+02 2.6 0.2 24 49 3538 3563 3532 3569 0.88

11 53 0.23 3.4e+02 2.8 0.1 22 45 3570 3593 3563 3605 0.82

12 53 0.11 1.6e+02 3.9 0.1 23 45 3606 3628 3596 3637 0.84

13 53 1.6 2.4e+03 0.1 0.2 24 45 3642 3663 3630 3672 0.80

14 53 0.34 5e+02 2.3 0.2 22 46 3675 3699 3664 3707 0.81

15 53 0.12 1.7e+02 3.7 0.1 23 45 3711 3733 3700 3747 0.83

16 53 1.7 2.5e+03 0.0 0.1 24 45 3747 3768 3738 3779 0.82

17 53 3.2 4.7e+03 -0.9 0.0 20 38 3778 3796 3769 3804 0.82

18 53 1.2 1.8e+03 0.5 0.1 23 45 3816 3838 3805 3848 0.83

19 53 2.7 4e+03 -0.6 0.2 24 45 3852 3873 3840 3882 0.82

20 53 0.11 1.6e+02 3.8 0.0 23 45 3886 3908 3879 3922 0.85

21 53 1.6 2.3e+03 0.1 0.2 24 45 3922 3943 3910 3954 0.80

22 53 0.11 1.5e+02 3.9 0.1 21 46 3954 3979 3944 3987 0.80

23 53 0.099 1.4e+02 4.0 0.1 23 45 3991 4013 3981 4024 0.83

24 53 2.9 4.3e+03 -0.7 0.0 24 45 4027 4048 4020 4057 0.82

25 53 0.11 1.6e+02 3.8 0.1 23 45 4061 4083 4050 4093 0.85

26 53 1.5 2.2e+03 0.2 0.2 24 46 4097 4119 4085 4130 0.80

27 53 0.068 99 4.5 0.2 20 46 4128 4154 4120 4162 0.81

28 53 0.16 2.4e+02 3.3 0.2 23 45 4166 4188 4155 4198 0.83

29 53 1.5 2.2e+03 0.2 0.3 24 46 4202 4224 4190 4235 0.80

30 53 0.11 1.7e+02 3.8 0.3 21 46 4234 4259 4226 4268 0.80

31 53 1.8 2.7e+03 -0.1 0.2 26 45 4274 4293 4272 4304 0.80

32 53 0.23 3.3e+02 2.8 0.1 22 45 4375 4398 4366 4409 0.83

33 53 0.82 1.2e+03 1.0 0.2 24 46 4412 4434 4400 4444 0.80

34 53 0.24 3.5e+02 2.8 0.0 22 45 4515 4538 4506 4547 0.83

35 53 0.39 5.7e+02 2.1 0.2 24 48 4552 4576 4540 4581 0.88

36 53 2.9 4.3e+03 -0.7 0.0 24 45 4584 4605 4578 4614 0.83

37 53 0.28 4.1e+02 2.5 0.1 22 45 4617 4640 4608 4652 0.84

38 53 0.045 65 5.1 0.1 20 45 4650 4675 4641 4685 0.81

39 53 0.23 3.4e+02 2.8 0.0 22 45 4722 4745 4713 4755 0.82

40 53 0.84 1.2e+03 1.0 0.1 23 42 4758 4777 4748 4790 0.87

41 53 0.11 1.7e+02 3.8 0.1 22 45 4792 4815 4781 4825 0.82

42 53 0.14 2.1e+02 3.5 0.1 15 45 4855 4885 4852 4897 0.83

43 53 1.2 1.8e+03 0.5 0.1 24 45 4899 4920 4887 4929 0.83

44 53 0.59 8.7e+02 1.5 0.0 21 42 4966 4987 4958 4995 0.84

45 53 0.031 46 5.6 0.2 22 48 5002 5029 4992 5035 0.83

46 53 4.1 6e+03 -1.2 0.1 26 46 5076 5096 5075 5106 0.80

47 53 0.086 1.3e+02 4.2 0.2 20 48 5105 5134 5096 5141 0.80

48 53 0.11 1.6e+02 3.9 0.1 21 45 5176 5200 5167 5212 0.81

49 53 1.6 2.3e+03 0.1 0.3 24 45 5214 5235 5202 5246 0.80

50 53 1.5 2.2e+03 0.2 0.2 23 45 5248 5270 5237 5281 0.80

51 53 3.5 5.2e+03 -1.0 0.0 20 39 5349 5368 5341 5380 0.81

52 53 0.2 2.9e+02 3.0 0.1 22 46 5386 5410 5375 5421 0.82

53 53 0.022 32 6.1 0.4 22 45 5421 5444 5411 5452 0.82

#	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	53	6	8.8e+03	-1.7	0.6	21	44	3013	3036	3009	3048	0.78
2	53	4.1	6e+03	-1.2	0.1	21	38	3185	3202	3176	3209	0.82
3	53	0.58	8.5e+02	1.5	0.1	22	46	3221	3245	3211	3255	0.81
4	53	0.13	2e+02	3.6	0.4	20	46	3254	3280	3245	3289	0.80
5	53	0.11	1.6e+02	3.8	0.1	20	45	3289	3314	3280	3322	0.81
6	53	0.15	2.2e+02	3.4	0.0	22	45	3361	3384	3351	3389	0.83
7	53	0.095	1.4e+02	4.0	0.0	23	47	3397	3421	3387	3423	0.87
8	53	0.68	9.9e+02	1.3	0.1	20	45	3464	3489	3457	3498	0.83
9	53	0.069	1e+02	4.5	0.1	23	48	3502	3528	3493	3537	0.84
10	53	0.27	4e+02	2.6	0.2	24	49	3538	3563	3532	3569	0.88
11	53	0.23	3.4e+02	2.8	0.1	22	45	3570	3593	3563	3605	0.82
12	53	0.11	1.6e+02	3.9	0.1	23	45	3606	3628	3596	3637	0.84
13	53	1.6	2.4e+03	0.1	0.2	24	45	3642	3663	3630	3672	0.80
14	53	0.34	5e+02	2.3	0.2	22	46	3675	3699	3664	3707	0.81
15	53	0.12	1.7e+02	3.7	0.1	23	45	3711	3733	3700	3747	0.83
16	53	1.7	2.5e+03	0.0	0.1	24	45	3747	3768	3738	3779	0.82
17	53	3.2	4.7e+03	-0.9	0.0	20	38	3778	3796	3769	3804	0.82
18	53	1.2	1.8e+03	0.5	0.1	23	45	3816	3838	3805	3848	0.83
19	53	2.7	4e+03	-0.6	0.2	24	45	3852	3873	3840	3882	0.82
20	53	0.11	1.6e+02	3.8	0.0	23	45	3886	3908	3879	3922	0.85
21	53	1.6	2.3e+03	0.1	0.2	24	45	3922	3943	3910	3954	0.80
22	53	0.11	1.5e+02	3.9	0.1	21	46	3954	3979	3944	3987	0.80
23	53	0.099	1.4e+02	4.0	0.1	23	45	3991	4013	3981	4024	0.83
24	53	2.9	4.3e+03	-0.7	0.0	24	45	4027	4048	4020	4057	0.82
25	53	0.11	1.6e+02	3.8	0.1	23	45	4061	4083	4050	4093	0.85
26	53	1.5	2.2e+03	0.2	0.2	24	46	4097	4119	4085	4130	0.80
27	53	0.068	99	4.5	0.2	20	46	4128	4154	4120	4162	0.81
28	53	0.16	2.4e+02	3.3	0.2	23	45	4166	4188	4155	4198	0.83
29	53	1.5	2.2e+03	0.2	0.3	24	46	4202	4224	4190	4235	0.80
30	53	0.11	1.7e+02	3.8	0.3	21	46	4234	4259	4226	4268	0.80
31	53	1.8	2.7e+03	-0.1	0.2	26	45	4274	4293	4272	4304	0.80
32	53	0.23	3.3e+02	2.8	0.1	22	45	4375	4398	4366	4409	0.83
33	53	0.82	1.2e+03	1.0	0.2	24	46	4412	4434	4400	4444	0.80
34	53	0.24	3.5e+02	2.8	0.0	22	45	4515	4538	4506	4547	0.83
35	53	0.39	5.7e+02	2.1	0.2	24	48	4552	4576	4540	4581	0.88
36	53	2.9	4.3e+03	-0.7	0.0	24	45	4584	4605	4578	4614	0.83
37	53	0.28	4.1e+02	2.5	0.1	22	45	4617	4640	4608	4652	0.84
38	53	0.045	65	5.1	0.1	20	45	4650	4675	4641	4685	0.81
39	53	0.23	3.4e+02	2.8	0.0	22	45	4722	4745	4713	4755	0.82
40	53	0.84	1.2e+03	1.0	0.1	23	42	4758	4777	4748	4790	0.87
41	53	0.11	1.7e+02	3.8	0.1	22	45	4792	4815	4781	4825	0.82
42	53	0.14	2.1e+02	3.5	0.1	15	45	4855	4885	4852	4897	0.83
43	53	1.2	1.8e+03	0.5	0.1	24	45	4899	4920	4887	4929	0.83
44	53	0.59	8.7e+02	1.5	0.0	21	42	4966	4987	4958	4995	0.84
45	53	0.031	46	5.6	0.2	22	48	5002	5029	4992	5035	0.83
46	53	4.1	6e+03	-1.2	0.1	26	46	5076	5096	5075	5106	0.80
47	53	0.086	1.3e+02	4.2	0.2	20	48	5105	5134	5096	5141	0.80
48	53	0.11	1.6e+02	3.9	0.1	21	45	5176	5200	5167	5212	0.81
49	53	1.6	2.3e+03	0.1	0.3	24	45	5214	5235	5202	5246	0.80
50	53	1.5	2.2e+03	0.2	0.2	23	45	5248	5270	5237	5281	0.80
51	53	3.5	5.2e+03	-1.0	0.0	20	39	5349	5368	5341	5380	0.81
52	53	0.2	2.9e+02	3.0	0.1	22	46	5386	5410	5375	5421	0.82
53	53	0.022	32	6.1	0.4	22	45	5421	5444	5411	5452	0.82

Sequence Information

Coding Sequence: ATGGGTAATCAGTGTTCAACATGTTGTAAATGTGTTGATCAAAAACATGCTGGATTATCAACTTCTTCGTCAATCTACAGGCGcagGAGCCGAGGTGAAATACCAATTGCTAATTCAGATCGTTTTCGAATAACCGAAACTAGTAATGCAGTTCAATTGGCTGTTGAGCATGTTCAACGTGAAGATGCTGGCCATTATACATTATATGCACGAACGAAAAAAGGCAATGTTATACGAAAAGATGTTGAATTAATTGTTGAAGATAGATCTGTTGGTGAAGATCCACCAATATTTCTAAGACGTTTAGGTGATTTACAAGTTAAAGTTGGTACAAGGACAAGACTACTTGTAGAAATTCGCAGTTCAACAGATGTCAagGTTACTTGGTATCGTAATGATCATCGAATTTGTGATAATGATCGTATCAAACATGTCAATGAAGGTAGTTTCTTTTGTTTAGAAATTACACCAATAACATTAGAAGATGGTGGTCAGTGGATGTGTATGGCTGAAAATTTAGGTGGTCGTAATTCATGTATTGGAATTGTTAATGTTCTAGTACCAAAAGCATATAAACCTCCGGAATTTATTGAAGATTTGAGAGCAGTTTTAACTGAACAGGGTACAGTATCATTAGAATGTAAAGTTGTTGGTGTACCAACACCAATATTACGTTGGTTTAAGgattcaaaagaaataaaagctGGTGATGTTTTTGCATTAACTGCTAATCCCGATGATCCAACATCATTGGGTACATATACTTGTGAAGCTGTTAATTGTATGGGAAAAGCATATTCTAGTTCAAAAGTTCATGTTGTTGGAAAGGGTAGTCGTGAAGGTTCACTAAAACCAGCAGATAGTGTGCATCATAGTGCGCCACCACCGATTTTCACAAATGAATTAAAAGGTGTAAAAGTCCGCATAGGTGACAAAATTATTCTTGGCTGTCAAGttgtTGTTCCGCCATGGCCGAAAATAGTTGCATGGTATAATAAAGAAGGTCGTGTTGAAACAAATGAAAAGTATAGATTAATTGAAGATGGTTTAGGTGTTTATATGGTAGAATCAAAACCATCAGAAAGTTGTGATGAAGGCGAATGGAAATGTGTTGTTACTAGTAACGAAGGAAGTGTTGGAATAACATCATGTTTTGTAGAAATGGAAATACCTAAAAACTACAGAAAACCAAGATTTATGGAAAGTTTAAAAGCAGTTTTAACTGAAGAAGGATTAGTATCGTTTGAATGTAAAGTTGTCGGTTTTCCAACACCAGTTTTAAAATGGTTTAAAGATGGACAAGAATTAAAACCAGGTGATGTTTATCAATTGACCGGTAGTAATTCTCTAGGAACATATTGTTGTATTGCTAAAAATTGTATGGGTGAAACCAGTAGTGTGGCTGTACTAACTGTTGAAGatattcaaaatcaattaaatgatGAAGAAAGACTTATTCTGAGTCAACAAAATCAACCACCTAAATTTGTTGTAGGATTAAAAACACAAGAAGCCaaaattaatgaagaatttcaattttctgtagctgttaaagcTACACCTGAACCACTATTATCTTGGTTTAGAGATGAGTTACCAATTGATTCAAATGACCGTTATAATCCATATCGTGGCGATAAGGATCATTGgcatttaaatatcaaatgtaTCGAATTTGTAGATCAGGCTGAATGGAAATGTGTTGCTGCAAATGATTTTGGTACAACAATTACTTCATGCTTTTTAAAACTATTGATTCCGAGACATTATAAGAAACCACGGTTTCTTGAATGCCTACGAGCTGTACTAACTGATGAAGGTGCCGTCAATTTGGAATGTAAAGTTATTGGAGTACCTCAACCAGTTTTGAAATGGTATAAGGATGGTGTTGAATTAAAACCAGGTGATATTCATAGAATTATATCTGGTCAAGATGGTACATGTTGTTTGGGCACCTATACATGTGAAGCTCGTAATTGTATGGGAGTTGTTGCTAGTTCAGCATCTTTACTTGGTTATGAGGATGCTGAAAAAACATCCAATAGACAAGATCGTCAATCAGCTGAATTACAGCGAAATTTATCATTATCTACTATTCAAGAGGAGAGAACGTCACAATTATATGAGACACCACAAGGTGATATTACAATTGATGAAAGAGGTGACGTATCATTTTCTTTTGATGGTAAAGAGGTATCTGTATCACTTTATGAAACGCCAGATTTGACTGAAGAGGAAGCACTACAAATAGTCGAAATGTATGCAGACCAAATTTCTGAACATGTGACTGAAGGAAATGTTGTAGAATTACCACCGTTAAGATTTATTAAAGAAACATCACAGTCCGGAAATTTAATAATGGAAGCAGTTGTTATTGATATTGCTCCTGAATACTTTATCCATGAAGAAGATTTACGAACCGACGCTGGTTTGGATGACATATCCATTAATGAAATAACCATACATTCGGGAAGAGATAATTTAACATTTGATAAAGACACCGAAGATTATGCTCAAAGATCAGTTGAAAGAATGGAAGAAGAATTAGGATCACAAGCTCCTATTCGAAAACGCAAAAAATCTAAAGGCACTGATATAGAAGAATTCTACAGTTTGTCTCACTCTAAAGCATCACGATCAGATAGTCATGATGATAATACTGAATCGGATGTTCAAACATTTGCAAGTGCCCAAGATTCACAAATGGATTCGCGATTGACGTCTCCTGATCAAGAAGTTCCACAATTAGTAACTAAAGACAATTCTCAAGAGCCTATTCCACCTAAACGAAAAAAGAGTATTAAAACTACAACAGATTCAGAATCATCAGGTAGAACAGGGGAAAATGAAGCCCACTTGCAAGATATTTCCGGGGCAGCTGGGGACGGTTTAGGTGCTATAAGATGTTCAAAGCAAATAACAGATGAAAATCAAATTCGAAAAAATTTGGAATCATTGATACCACTCGCAATAGATTTGAAAGCCATAGAAAAGAATTTAGTTGTTGTTGACGAAGAAGTGCGATCACAATCAGCAATGATGATGTCACCAGCTTCTGCTGATAAAagcattgaaataattaaaaatgttttagatcCACTGAAGCAAATTCAAAGTAAAATGCGCGTTTACTCCGGAGAAATTCCACTTGAAACTCTATTTGATTCTCTTGAAGATGATGTCAAAGAACTTCATCGTAGCTTGCAAGTTATTGAAAAATGTGTTGAAATGGATGAACAAGGTCTAACATTAATTCAAAGAACTAGTGTTTGCGTTATTGATACAGCTGGAGATCAATTTATTCGTGCATTAGGTCAAGTCAAAAATATTGcaacaaattttgaattagagCGTCtgaaaagtgaaattaaatttatagttgaaGACATGCAGCAAGGCATACAAATTACACAAGAATCTATTAAATCACAAACTTTGTTACAAGAAGCTTCAGAACTCGAAGCTGCTAAACATTTTTCAGAAACTGTAGCTAAATTACAAACAACACCACAAACTTTACCATttgaaacaatttcaatatCACAATTGCCCAGCGACGCTGattcattaaagaaaatatgcCGTCCAGTTGTTAAAATACAAAAGGCTTTAGAAAGTATTGAACATGATTTGTCTCTTGAAGAAAATGAAGAACAACTTTTTTCAAAAGTTCATGAAactgttttaatgaaattaactcAACCAATTGAAGAATTgcatttggaaatattaaatgttgaaCAAAAAGCAGGTGCACAAGCAGGAAAAGAAACattagaacaaaaaataaatattgcaatattAGATATAGTAACACCACCATTATTTGAATTACAGAAAGGACTAGAAATAATTGCTAAACAATCAACTAGCAATATTCATTCGGGTATGGTCAGTGTTAGCATTATTGAACAAATGGTTCCTCCATTACAAGAAATTCAAAATGGGCTCGCACAACTTGGTCAAGATATTGAAAGCGGGCAAGTAAAAGATGAAACAGCTGCAGAATCTGCAGATtcccaaaaattatttcaatcaattgCACAAGGTGTTCTATATTTGGAAAGCAATATTGAGACACTTTCTCATCGAATACCTGATGATCTTCATGTATCtatgacaaatttaaaaaatgatgtaTCACGTCTCGTTGGAAATATTTTGGATTCATCTGTTAGTAAATATCACTTGACTTTACTGGAAAATCTAAAACGACCTATTGATGAACTTAACTATTGTTTGCGTCAAACCGAAGAAAAATCTATTAGCGGATCACTATATGATTTAATTGAACCATTAAATCATCTTCATCAAAAAGCTAAATTAAgtgaagatattttaatattaacaggACAAGTAGAGaatgaatttaatatcaaaatgttaaaagaaataaGATCTACAATTAATGTTATACAAAATGATATTGACAAGtatgatttgaaaatattacaagaTGAAATTGAATGCCAACAGAAACGTGGAAATGAAATTGAACAAAGTATTATTTCAATGCATGAAGCCAAATCATTGCACGCGTCCGAGAAGGTAattgcaaaaacaaaacaaatatttgaagaattacATGCTTGTATAGCAGCTGTTCAGCAGCAAACAGTTTTTGAAGAGGCTGAATATTTagcaaatgatgaaaatatgtcTCTTCTAAAAACTTTAGCCACACCCTTTCAGAATATGATGCAATGTATTGGTAAAATTAAGGAAGTAACAGCTTTTGAGACtgtttcaaatttatcaaagaGTGGCGATATCAAAATTCTGCAACAAATTGCAAAACCTCTTGAAGAAATTGtagatacaattaaaataattacacaacaaaaaatatttgaacctTTGCATTCAATGTCTACTCAAGAAAATATATCAGTTCTTAAAACATTGGCTGAACCACTGCAAGAGCTGCAAAATTGTATTGCAGTTGTTGAAGATGTTCAAAGTTTAGCAGAAACATTGGGAGATGTATCAGAAGATTGGGCTACACCGAAAATTGCACAGCCATTCAATGAacttaataattgtttaaatcaaattatttgccAAATTGGTGAACCTGTTGAAGATTTGTCAACTTTGGAAGATATTTCAGCATTGAAAAGTGCTGCTGATATTGTTTCATCCGAAGAAATGGAACTTGCAATTGGTCAGCAAATTATAGCTACAGAGCAAGAACGTAGTCTAAAATCCTTAAGTATGGATAAAGCACATgctaatataatattagaagagctaaaaaaatcaattgccAGTGTATTTCATAACTGTTCGGAACTTGACATTAAATCACTAAATGAAGAACAAATTGCCGAATATAAAGCAACTGTAACCAAACTTAAGGACTTAGAATATTGTATAGCAGAAGTTCAAAAAGATAGTTTATATGAACCGTTAATTTCGATATCCGATATTTCAagcaaaactgaaataaaaacatttgcACAGTCCGTTAATGACTTACAATCACGCATTATTCAGGTTCAAGATGAATTGGGTCTTGAAAAAGAGGAATCGTTGTCAAGTACTAGTGacatttcaaaattgaaaacaCTAGCAAAACCAATCCAGGAATTAAAGCAATACTTGCAAcaaattaattttgaaacattagaaaatattgttgaTTTATCAACACAAGATGAAATTTCTGCTCTACAAACATATGCTGAGTCACAATTAGAAAAATCGGATAAAGAAAATGCATTattagaacaaattaaaataatgcaagATGATGGTTTTAAAGAGTGCTTTGAAGACGGTTTGAAACAAATTACTAATTGCTTACAAGTTGTCAAGAAAGAAGAAaaggaaaaaatttcaaaagaatcaTGCGAAGTATTAGCAGCTATAGAAGAATCTTtacatgatttaaaaatatcatttgaaataattcaaaatgaacTAAATAGTTGTAAAACTATTCAAAGTGAACTAATTCAACGatcaaatatttcatatgcCCTGTTTAAGCTGAAAGAATGTCTTGTTCAAACATACGAAGGCTCTTTACAAAATAGTgaacttgaaaaattattggATGGACCAATGGCAGACatagaaaaaacatttaatgatattttggaaaatgttcCGTATTTAGAATTACTTCTGGCAGAACAAATGTCGCAAAAGTCACAAAAAGAAGTACTGgaactattaaaattagttacaaCAATATCCAATGATAATCCATCAttgtcatatttaataaatttggagaGACCTTTGCAAAATTTACAGCATACCATAATGAATTTGAGTAAAACAGCCGACTTAAATTTGGATAAATCATCAGCAATAATGATTGAACTGCAAACAAATTTAATGGAACTTTTTTCCACATTAAGTGATATAAATGAAAACATACCTAATGAAATTGTAAAACCAATTTTAGAAAGTCAAGATTGCTTGAACTCTATCTATAATTTCATTGAGACTTCTGATGATAAAGTAAAGTTGACTGAATTTTTGCAAGAAATTGATTCAATTTCACCTTAtcttatagaattaaatttaaaattaaatgaatatcataataaatctaaaccaaaagaaattgaaatgcTTCAGATATTCCAACCTGTAAACGAGGCGAAAGAATGTCTTATGTTTATGCAACAAAAACTATCTAAATATTCAGAagatatttcgaaattattcttaattaattattctggTATAATATCTGAATtggaaaacaaattaaaatatattgaaaattcaatattaattaaaagtgaTTTATCAAAGCTTACAgaaattgatattaatgaaattcaacaaataataaagcCATTAAAAATGCTTCAGGAAGGTATTAATCAAGTGGACCAAGTTTACAAAAATGAGCAACGCAAATTAAAAACTGTTAATGAAAGCGAGAAAAAAGATACGACTATGATTGATAATGAAGAGGATAAAGGTAAAGAAATTTGGGAAAATAAAAAACCTTCTCTAGAGGTAAATGAAGAACGAattattttagaacaaaaacttgaagaatataaacaaaaatcagaAGAACGTGATTTGACACCCGAAGAAATTGACattttgcaaataatattagaaaaactcGATCAAATGGATTCAGaagtatataaaacattaactgaagcaaaaattattaatcaaaataaagccgaactttttaaaaatatacgagAAGACGCAGAATTGTTTGAcgagataaaaaaaaacgtcgACAAAGGCGATTTTTCCGTAAACTTCGACAAAAATGTAGATCAGAAAATTGATGACCTTGAAAATAAAGAAGACAATTTTGCAACGAAAATGGACATTGATGCggataaaatgaatttaaaacgaaaaattaGCGAAAATACCGAAGATGAAAAAGCAGATGAAGATGAGAAACGAATTAAAATCCATTTAGATCATGAATCCACAATACCAGAATTTATTGTAGAAAATCTTAATCAAATTTCCAACATTCTGCAATTaattaatactattaaaatgaaaaaattcccaaaaaaatcttctgaaatatttgattcattaaaattaacccTAGtggaaattggaaatattttagaaaacacTCCTGAAGCTGAACTGGAGGACAATCTCTTTTTAACACTATTTAAATTACGAGATTTAATGACATTTGCAcaaagtaaacaaaaatttccaGAACAAATGAAAATACCTTTAGATGAATGTATAAGcgaaattagtaaattattctCCCATATCCTTAGACATTATCCAAATCTTCGACAAACATTTGTTCACGATATTGTAACAGGGCCGAAAGACGAAATTCATTATCTTATGAATATAGATAATGAGAAAatagaattatgtaaaatgGAAGAAATACGAGATCATTTGAAAACATTTGATGGAACTATTTCGGAATTTACACTCAAAAATCCAGAAATGTTGCCAAAAGCATCaaaagaaatcataaatttagaaaaaaatctagtaaatatttcaaaagcaATTGGAATGGTATGTAAAACAGCACCAAGAGAATTACAAGAACTACTTATGGAGTTAAATAATGATGTTTTAGAAATACATACTTTTATTGAGAATCATAATGgagattttgaattaattgaaatccTAAGTAAAATTGAGCCTATTTCAAAAGCAatacgaaatattaatatacttttGAAAGAGGCTATTTTACATGTAATAGATGATgacaatattaaaaagaataatgaaaaaattccGCTTAATACGGAAGAAACACATATTGCTTTGAAGCCATGTgacaaaataaataaccaaaatataaaaatatcggtTGCCGATATTAAAACAGCATTGCAAAATATATATGATTGTTTAGATGAAACATCTTTGGAAGCTTTCGAATCAATTCAAACCTCATTAGAACAACTTCAACGGCAATTATCAGATGATGAAAAAACTGACGAATCTAAAAATTCAATTCTCAAAGCGTTATTTAATTTGCGTGAATGTCTTGTTCACACATATGAGTCTACTGATAAAACaccttctaataattttaatgaaaatatgaacaaaaatcttaatataattggaaatacattatttaattttttgagttGCAATCCGGAACAGGGAAAACAATACTCACATAAGGTAGTAATTGAAACAAATATTGTCTTGAACGAAATGCTTAATTTGGTAGATGATAATAGTGAcgattttccaaatttaataatcataaaagaaCCAGTCCATATGCTCCAGCAAGATATTTTGAATTCTTTTTCAATGGAAAATGAAATAGTATTTGATAAATCATCtactaaaatagtaaaattgcaAACTCATTTGATGACCgcgtttataaaatttaatgagcTGAGTGAATTGATGCCAAAGTCAATAGTAGAAGATTTATTATGTTGTCAAAATGAACTTCTTAAAATCAACGATATTATAGATGAATCCACAAATTACATCCAAATGATTCCACTAgcatacaaaattgaaaaattcgcAAAagctttaagtaaatttaacaatacacttaaaaatatttcacaaaataagTCTTTAGAAACTACTGAAGTAACTCAGAAACTGGGAGAAGAAGCTAAACAAGAACAACTCAAAAAAGAAGAACAAAAAGCTAAAGTAGAAGTTTTATACACTGAAGGATTACAGACTGCTGAAATAAGTCAGACACTGGCAGGAGAAGCTAAACGGGAACTGAACGAAGAAAACCAGAAACAGGAGATATTAGATACAGCATATTTACAGACTGCTGAAATAATTCCGAAAGTGATAGAAGAAGTTAAACTAGAACAACTCAAAGCAGAAGAACAAAAAGCTAAAGAGGGGATATTAGATACAGCAGATGTACAGACTCCAGAAGTAAATCAGAAACTGGAAGAAGAGACTATACAAGAACAACTGATAGtagaaaaacacaaaataaaagagGAGATATTAGATAGTGCAGTCTTACAGACATCTGAAGTAGCACACGCACTGCCCGAAGAAACTAAAGTAGAACAACTAAAAGTAGAAGAACAAAAAGCTAAAGAAGATAAAGTAGATACTCCAGGTATACAGACTGCTGAAGTAACACAGAAACTGgctgaagaaattaaattagaacTACTAGAAGTAGAAAACCAAAAACCTAAAGAAGATAAAGTAGATACTCCAGTAATACAGACTGCTGAAGTAACACAGAAACTGGCTGAAGAATTTAAACTAGAACAACTAgaagtagaaaaacaaaaagcTAAAGAAGATAAAGTAGATACTCCAGGAATACAGACTGCTGAAGTAACACAGAAACTGGCTAAAGAATTTAAACTAGAACAACTAgaagtagaaaaacaaaaagcTAAAGAAGATAAAGTGGATACTCCAGGATTACAGACTGCTGAAGTATCACAGAAACTAgctgaagaatttaaaatagaacaactagaagtagaaaaacaaaaagataTTGACCAGAAATTAGATACTGCAGTATTACAGACACCTGAAGTAGCACATACACTGGCCGAAGAAACTAAAGTAGAACAACTAAAAGTAGAAGAACAAAAAGCTAAAGAAGATAAAGTAGATATTCCAGGAATACAGACTGCTGAAATAACACAGAAACTGTCTGAAGAATTTAAACTAGAACAACTAGAAGTAGCAAAACAAAGAGCTACAGCAGATAGATTAGATACTCCAGGAATACATACTGCTGAAGTAACACAGAAACTGgctgaagaatttaaattagaacAACTAGAAGTACAGAACCAAAAACCTAAAGAAGATAAAATAGATACTCCAGGAATACAGACTGCTGGAGTAACACAGAACCTGGCCAAAGAAATTACAGTAGAACAACTAgaagtagaaaaacaaaaagcTATTGAGCAAAAACTAGATAATGCAGGATTACAGACTGCTGAAATAACACAGAAAATGGCTGAAGAATTTAAACTAGAACAACTAgaagtagaaaaacaaaaagcTACAGAAGATAACGTAAATACTCCGGGATTACAGACTGCTGAAGTATCACAGAAAATAGCTGAAGAATTTAAACTAGAACAACTAgaacaagaaaaacaaaaagcAATTGAGCAGAAATTAGATACTGCAGGATTACAGACTGCTGAAATAACACAGAAACTGGCTGAAGAATTCAAAGTACAACAAGAAGTAGAAAAACGAAAAGCTAAAGAAGATAAAGTAGATACTCCAGGATTACAGACTGCTGAAGTAACACAAAAACTAGCAGAAGAATTTAAAGTAGAACAACTAgaagtagaaaaacaaaaagcTGAAGAAGATAACGTAGATACTCCGGGATTACAGACTGCTGAAGTATCACAGAAACTAGCAGAAGAATTTAAACTAGAACAACTAGAACTAGAAAAACAAAAAGCAATTGAGCAGAAATTAGATACTGCAGGATTACAGACAGCTGAAATAACACAGAAACTGGCTGAAGAATTCAAAGTAGAACAACTAgaagtagaaaaacaaaaagcTAAAGAAGATAAAATAGATACTCCAGCATTACAGACTGCTGAAGTAACACAAAAACTAGCAGAAGAATTTAAACTAGAACAACTAgaagtagaaaaacaaaaagcTAAAGAAGATAACGTAGATACTCCGGGATTACAGACTGCCGAATTATCACAGAAACTAGCTGAAGAATTTAAACTAGAACAACTAGAACTAGAAAAACAAAAAGCAATTGAGCAGAAATTAGATACTGCAGGATTACAGACTGCTGAAATAACACAGAAACTGGCTGAAGAATTCAAAGTAGAACAACTAgaagtagaaaaacaaaaagcTAAAGAAGGTAAAGTAGATACTCCAGGAATACAGACTGCTGAAGTAACACAGAAACTGgctgaagaaattaaattagaacTACTAGAAGTAGAAAACCGAAAACCTAAAGAAGATAAAGTAGATACTACAGGAATACAGACTGCTGAAGTAACACAAAAACTGGCTGAAGAATTTAAACTAGAACAACTAgaagtagaaaaacaaaaagcTATTGAGCAAAAACTAGATACTGCAGGATTACAGACTGCTGAAATAACACAGAAAATGGCTGAAGAATTTAAACTAGAACAACTAgaagtagaaaaacaaaaagcTACAGAAGATAACGTAGATACTCCGGGATTACAGACTGCTGAAGTATCACAGAAACTAGCTGAAGAATTTAAACTAGAACAACTAGAACTAGAAAAACAAAAAGCAATTGAGCAGAAATTAGATACTGCAGGATTACAGACTGCTGAAATAACACAGAAACTGGCTGAAGAATTCAAAGTAGAACAACTAgaagtagaaaaacaaaaagcTAAAGCAGATAAAGTAGATACTCCAGGATTACAGACTGCTGAAGTAACACAAAAACTAGCAGAAGAATTTAAACTAGAACAACTAgaagtagaaaaacaaaaagcTAAAGAAGATAACGTAGATACTCCGGGATTACAGACTGCTGAAGTATCACAGAAACTAGCTGAAGAATTTAAACTAGAACAACTAGAACTAGAAAAACAAAAAGCAATTGAGCAGAAATTAGATACTGCAGGATTACAGACTGCTGAAATAACACAGAAAATGGCTGAAGAATTTAAACTAGAACAACTAgaagtagaaaaacaaaaagcTACAGAAGATAACGTAGATACTCCGGGATTACAGACTGCTGAAGTATCACAGAAACTAGCTGAAGAATTTAAACTAGAACAACTAGAACTAGAAAAACAAAAAGCAATTGAGCAGAAATTAGATACTGCAGGATTACAGACTGCTGAAATAACACAGAAACTGGCTGAAGAATTCAAAGTAGAACAACTAgaagtagaaaaacaaaaagcTAAAGAAGATAAAGTAGATACTCCAGGATTACAGACTGCTGAAGTAACACAAAAACTAGCAGAAGAATTTAAACTAGAATCACTAgaagtagaaaaacaaaaagcTAAAGAAGATAACGTAGATACTCCGGGATTACAGACTCCTGAAGTATCACAGAAACTAGCTGAAGAATTTAAACTAGAACAACTAgaagtagaaaaacaaaaagcAATTGAGCAGAAATTAGATACTGCAGGATTACAGACTGCTGAAATAACACAGAAACTGGCTGAAGAATTCAAAGTAGAACAACTAgaagtagaaaaacaaaaagcTAAAGAAGATAAAGTAGATACTCCAGGAATACAGACTGCTGAAGTAAAACAAAAACTGGCTGAAGAATTTAAACTAGAACAACTAgaagtagaaaaacaaaaagcTAAAGAGGATAAAGTAGGTACTCTAGAATTACAGACTTCTGAAGTATCACAGAAACTAGCTGAAGAATTTAAACTAGAAAACCTAgaagtagaaaaacaaaaaaatattgagcaGAAATTAGATACTGCAGCATTACAGACACCTGAAGTAGCACACACACTGGCCGAAGAATCTAAACTAGAACAACTAaaagtagaaaaacaaaaagcTACAAAAGATAAAGTAGATACTACAGGATTACAGACTGCTGAAGTAACACAGAAACCGgctgaagaatttaaattagaacTACTAGAAGTAGAAAACCAAAAACCTAAAGAAGATAAAGTAGATACTCCAGGAATACAGACTGCTGAAGTAACACAGAAACTGGCTGAAGAATTTAAAGTAGAACAACTAgaagtagaaaaacaaaaagcTATTGAGCAGAAACTAGATACTGCAGGATTACAGACTGCTGAAATAACACAGAAACTGGCTGAAGAATTTAAACTAGAGCAACTAgaagtagaaaaacaaaaaaatattgagcaGAAATTAGATACTGCAGCATTACAGACACCTGAAGTAGCACACACACTGGCCGAAGAATCTAAACTAGAACAACTAaaagtagaaaaacaaaaagcTACAAAAGATAAAGTAGATACTACAGGATTACAGACTGCTGAAGTAACACAGAAACCGgctgaagaatttaaattagaacTACTAGAAGTAGAAAACCAAAAACCTAAAGAAGATAAAGTAGATACTCCAGGAATACAGACTGCTGAAGTAACACAGAAACTGGCTGAAGAATTTAAAGTAGAACAACTAgaagtagaaaaacaaaaagcTATTGAGCAGAAACTAGATACTGCAGGATTACAGACTGCTGAAATAACACAGAAACTGGCTGAAGAATTTAAAGTAGAACAACTAGAACAAAAAGCAATTGAGCAGAAATTAGATACTGCAGGATTACAGACTGCTGAAATAACACAGAAACTGGCTGAAGAATTCAAAGTAGAACAACTAAaagtagaaaaacaaaatgCTAAAGAAGATAAAATAGATACTCCAGGATTACAGACTGCTGAAGTATCAGAGAAACTAGCTGAAGAATTTAAACTAGAACAACTAGAAGTAGGCAAACAAAAAGCTAAAGAAGATAAAGTAGATACTCCAGGATTACAGACTGCTGAAGTATCACAGAAACTAGCTGAAGAATTTAAACTAGAACAACtagaaatagaaaaacaaaaaaatattgagcaGAAATTAGATACTGCAGCATTACAGACACCTGAAGTAGCACACACACTGGCCGAAGAATCTAAACTAGAACAACTAaaagtagaaaaacaaaaagcTACAGAAGATAAAGTAGATACTCCAGGAATACAGACTGCTGAAGTAACACAGAAACTGGCTGAAGAATTTAAAGTAGAACAACTAgaagtagaaaaacaaaaagcTAAAGAAGATATATTAGATACTCCAGGAATACAGACTGCTGAAGTAACACAGAAATTGgctgaagaatttaaattagaacTACTAGAAGTAGAAAACCAAAAACCTAAAGAAGATAAAGTAGATACTCCAGGAATACAGACTGCTGAAGTAACACAGAAACTGGCTGAAGAATTTAAACTAGAACAACTAgaagtagaaaaacaaaaatctattgAGCAGAAATTAGATACTGCAGTATTACAGACTGCTGATGTAGTACACACAGTGGCCGAAGAATCTGAACTAGAACAACTAAAAGTCGAAAAACAAAAAGCTAAAGAGTTTAAATTAGATATTCCAGGATTACAGACTGCTGAAGTAACACAGAAACTGGCAGAAGAACTTAAACTAGAACAACTAgaagtagaaaaacaaaaagcTATTGAGCAGAAACTAGATACTGCAGGATTACAGACTGCTGAAGTATCACAGAAACTAGCTGAAGAATTTAAACTAGAACAACTAGAAATAGaaagacaaaaaaatattgagcaGAAATTAGATACTGCAGCATTACAGACACCTGAAGTAGCACACACACTGGCCGAAGAATCTAAACTAGAACAACTAAAAGTAGAAAAAGAAAAAGCCACAGAAGATAAAGTAGATACTCCAGGATTACAGACTGCTGAAGTAACACAGAAACTGgctgaagaatttaaattagaacTACTAGAAGTAGAAAACCAAAAACCTAAAGAAGATAAAGTAGATACTCCAGGAATACAGACTGCTGAAGTAACAAAAAAACTGGCTGAAGAATTTAAACTAGAACAACCAAAAGGCGAAAAACAAAAAGCTATTGAGGATAAATTAGATACTGCAGGATTACAGACAGCTGAAGTAGCACACACACGTCCAGAAGAATCTAAACTAGAACAACTAAAAGTcgaaaaacaaaaagttaaagaGGATAAAGTAGGTACTCTAGAATTACAGACTGCTGAAGTAACACAGAAACTGGCTGAAGAATTTAAACTAGAACAACTAgaagtagaaaaacaaaaagcTAAAGAAGATAAAGTAGATACTCCAGGATTACAGACTGCTGAAGTAACACAGAAACTGGCAGAAGAATTTAAACCAGAACAACCAAAAGgcgaaaaacaaaaatctattgAGGATAAATTAGATACTGCAGGATTACAGACAGCTGAAGTAGCACACACACGGCCAGAAGAATCTAAACTAGAACAACTAAAAGTCGAAAAACAAAAAGTCAAAGAGGATAAAGTAGATACTCCAGGATTACAGACTGCTGAAGTAACACAGAAACTGGCAGAAGAATTTAAACTAGAACAACTAgaagtagaaaaacaaaaatctattgAACAGAAATTAGATACTGCAGGATTACAGACTGCTGAAATAACACAGAAACTGGCTGAAGAATTCAAAGTAGAACAACTAgaagtagaaaaacaaaaagcTAAAGAAGATAAAGTATATACTCCAGGATTACAGACTGCTGAAGTAACACAGAAACTGGCAGAAGAACTTAAACTAGAACAACTAgaagtagaaaaacaaaaagcTAAAGAGGATAAATTAGATACTGCAGTATTACAGACAACTGAAGTAGCACACACACTGGCAGAAAAATCTAAATTGCAACaactaaaagaaaaacaaaaagttaaagaGAATAAAGTAGATACTCCAAGATTACAGACTGCTGAAGTAGCACACACACTGGCAGAAGAATCTAAACTAGAACAATTGaaagtagaaaaacaaaaagcTATTGAGCAAAAATTAGATACTCCAGGATTACAGACGGCTGAAGTAACACAGAAACTGGCAGAAGAATCTAAAGTAGAACAACTAAAAGTCGAAAAACAAAGAGTTAAAGAAGATAAATTAGATATTCCAGGATTACAGAGTGCTGAAGTAACACAGAAACTGGCAGAAGAATTTAAACTAGAACAACTAGAAGTAGAAAAGCAAAAAGCGAAAAAGGATGAATTAGATACTCCAGGATTACAGAATGCTGAAGTAACACAGAAACTGGCAGAAGAATTTAAACTAGAACAACCAAAAGGCGAAAAACAAAAAGCTACTGAGGATAAATTAGATACTCCAGGATTACAGACAGCTGAAGAAGCACACAGACGGGCAGAAGAATCTAAACTAGAACAACCAAAAGTCGAAAAACAAAAAGCTAAAGAGGATATAATAGATACAGCAGGAATTCAGAATTCTGCAGTAACTCAGAATGTTGCGGAAGAAATTTCAGAAGAACAACAGAAAGTTGAAAAAACAGTTGAgcaacttaaaataaaaaaacaaaagaaaaagcCGGAAATATCAAATACTGAACAGGATCTGGCTGTTGAAGTAAATCAGAGAGAGAAAAAAGAACAGATGGAATTGCAAAAAGGAAATGAAATGCTGGAAGAATGtttctttgaaatttcaaaatatataaatttagtgaaAACTATACCTAAAGAATCTTctctgaaaaatttgattttttcatatGATCAAGTTCAGTCTCTAGAACAAAGTCTGTGTGAATGCAGAAATGCAAGAATGCTAGAATTTGATAAAGCATCAAGTAAAATGGTATTTTTACAAACACAATTAATggcaacatttataaaattcaatgaaattagTGAAACAgttgataaaacattaattaatgatCTCGAAAATTGTCAGAAAGCAATTATTAAGATTTACAATTGCATTGATGAAGCTACAGATAATATACGTTTTATTGTTATATCTGAACATGTTGCAAATTTAGCAAAacctttaaaagaattaaataattctttaatgcTATTACCAATAAATACATCTGAAGAAGTAATCCAAGCACAAGGGCTAGAGGAACTggatattaaagaaatattgcaAGGAAATGAAGGAGAAAATATGAGACAAGGTAAACTGGAAGTGGAATTTCAAACACCTAAATGTAAAAATGCACTTGATGAGTTCCAAATATCTCAACTTAGTGGAACCAAAGGTGAAGCTCTTCAAGAAAAATTGCAAATAGAATCAGAAAAAATTGATGCAGAGTCTGTTAAAATCGAGGAAAcacaaattccaaaaattagtGAGAATAAATCTGCAAAACTAAAACAGAAAAAAGTTGAAATAGAATCAAATACACTTAAAATTAGGGAAAAAGATtctgataaatataaaactgtTGAAGTACAAGAAACTGAAATTGAATTACAGAAATGTACAGTGAAACAAGATATTCTACCTAAAGAAATTAGTCTGAGGGAAACTGAAAAAATTAGAAGCGATATATTAGAAGCAGAATCGAAGAATCAAGATAAATTTATGGgaattgaatttgataaatcTAAAACtgctaaaattaatcaaaagagACAAATTGATGAGAAAGAATTagagaaaaatgattttaaaactgGAGAAGTTCTAGCTGTGACTACTAAAGACAAGAAAGCTGAAGAgcttaattatgaaaatagtgaaattaaattatatgataaaagtaaaaataatgaagTAGCTGATGAAGCAGATAGTCATACTAGCGAAAACTTAATTGCTAAAtctaagaaaattaaaagaaaatctttggaaatacaaaaatctaatataattgaaagtaataaaattggaaCAGTTGAATTAGAAAGTAGAGACCCAGAAATGGGAGAAACTAAAAAGAAATCACCAGATTCTCTAAAATCTCAAATAGTTAGAAACAATGACGGGGAAAATAAATCAGAATATTCAAGATTACGTAATGAGGAGGTGTTAGAAAACAATACAATAACGAAAATTAATGGagaacaaaaaataaaggaaactGAAAGAAAAAGATCATTGGAATTTGTAAATGGTAGAAAATCTTCTATTGAAGCAATCAGAGATATAAAAACAAAAgcactatataaaaatattgaagatgattttcaaaaagatatacttcaaaatttatcGAGTAAAAacgataaatattttgataaatacgATTTATCTACAAAAGGTGACGATTACGAtgaatacaaaacaaaaaaacaatatcgAGAGAGTAAACGCCGACctaattttgaatcaaaactTACAAATCGTACTGCCGCTGTTGGAGGTGGGATTAAATTAACTTGTAGTATATCGGGAATTGATATTGACATAAAATGGTATAAAGACAGCAATATTATTAGTACTGATAAAAAATTCACTATAAACAATATGGATGGAATCTCATCCCtcgaaattaataatgtaaatctTATTGATTCTGGAGTTTATACTTGTGTTGCATCAAATCGCAATGGTGAAATTGAAACTAGTTCACTAGTAACTATATATGAAGCTCCAAAAACTGATGCGGAAACATTAATTTCTCCAGTATTTACAAGGACAATAAAAGGTatcataatagaaattttataa
Protein Sequence: MGNQCSTCCKCVDQKHAGLSTSSSIYRRRSRGEIPIANSDRFRITETSNAVQLAVEHVQREDAGHYTLYARTKKGNVIRKDVELIVEDRSVGEDPPIFLRRLGDLQVKVGTRTRLLVEIRSSTDVKVTWYRNDHRICDNDRIKHVNEGSFFCLEITPITLEDGGQWMCMAENLGGRNSCIGIVNVLVPKAYKPPEFIEDLRAVLTEQGTVSLECKVVGVPTPILRWFKDSKEIKAGDVFALTANPDDPTSLGTYTCEAVNCMGKAYSSSKVHVVGKGSREGSLKPADSVHHSAPPPIFTNELKGVKVRIGDKIILGCQVVVPPWPKIVAWYNKEGRVETNEKYRLIEDGLGVYMVESKPSESCDEGEWKCVVTSNEGSVGITSCFVEMEIPKNYRKPRFMESLKAVLTEEGLVSFECKVVGFPTPVLKWFKDGQELKPGDVYQLTGSNSLGTYCCIAKNCMGETSSVAVLTVEDIQNQLNDEERLILSQQNQPPKFVVGLKTQEAKINEEFQFSVAVKATPEPLLSWFRDELPIDSNDRYNPYRGDKDHWHLNIKCIEFVDQAEWKCVAANDFGTTITSCFLKLLIPRHYKKPRFLECLRAVLTDEGAVNLECKVIGVPQPVLKWYKDGVELKPGDIHRIISGQDGTCCLGTYTCEARNCMGVVASSASLLGYEDAEKTSNRQDRQSAELQRNLSLSTIQEERTSQLYETPQGDITIDERGDVSFSFDGKEVSVSLYETPDLTEEEALQIVEMYADQISEHVTEGNVVELPPLRFIKETSQSGNLIMEAVVIDIAPEYFIHEEDLRTDAGLDDISINEITIHSGRDNLTFDKDTEDYAQRSVERMEEELGSQAPIRKRKKSKGTDIEEFYSLSHSKASRSDSHDDNTESDVQTFASAQDSQMDSRLTSPDQEVPQLVTKDNSQEPIPPKRKKSIKTTTDSESSGRTGENEAHLQDISGAAGDGLGAIRCSKQITDENQIRKNLESLIPLAIDLKAIEKNLVVVDEEVRSQSAMMMSPASADKSIEIIKNVLDPLKQIQSKMRVYSGEIPLETLFDSLEDDVKELHRSLQVIEKCVEMDEQGLTLIQRTSVCVIDTAGDQFIRALGQVKNIATNFELERLKSEIKFIVEDMQQGIQITQESIKSQTLLQEASELEAAKHFSETVAKLQTTPQTLPFETISISQLPSDADSLKKICRPVVKIQKALESIEHDLSLEENEEQLFSKVHETVLMKLTQPIEELHLEILNVEQKAGAQAGKETLEQKINIAILDIVTPPLFELQKGLEIIAKQSTSNIHSGMVSVSIIEQMVPPLQEIQNGLAQLGQDIESGQVKDETAAESADSQKLFQSIAQGVLYLESNIETLSHRIPDDLHVSMTNLKNDVSRLVGNILDSSVSKYHLTLLENLKRPIDELNYCLRQTEEKSISGSLYDLIEPLNHLHQKAKLSEDILILTGQVENEFNIKMLKEIRSTINVIQNDIDKYDLKILQDEIECQQKRGNEIEQSIISMHEAKSLHASEKVIAKTKQIFEELHACIAAVQQQTVFEEAEYLANDENMSLLKTLATPFQNMMQCIGKIKEVTAFETVSNLSKSGDIKILQQIAKPLEEIVDTIKIITQQKIFEPLHSMSTQENISVLKTLAEPLQELQNCIAVVEDVQSLAETLGDVSEDWATPKIAQPFNELNNCLNQIICQIGEPVEDLSTLEDISALKSAADIVSSEEMELAIGQQIIATEQERSLKSLSMDKAHANIILEELKKSIASVFHNCSELDIKSLNEEQIAEYKATVTKLKDLEYCIAEVQKDSLYEPLISISDISSKTEIKTFAQSVNDLQSRIIQVQDELGLEKEESLSSTSDISKLKTLAKPIQELKQYLQQINFETLENIVDLSTQDEISALQTYAESQLEKSDKENALLEQIKIMQDDGFKECFEDGLKQITNCLQVVKKEEKEKISKESCEVLAAIEESLHDLKISFEIIQNELNSCKTIQSELIQRSNISYALFKLKECLVQTYEGSLQNSELEKLLDGPMADIEKTFNDILENVPYLELLLAEQMSQKSQKEVLELLKLVTTISNDNPSLSYLINLERPLQNLQHTIMNLSKTADLNLDKSSAIMIELQTNLMELFSTLSDINENIPNEIVKPILESQDCLNSIYNFIETSDDKVKLTEFLQEIDSISPYLIELNLKLNEYHNKSKPKEIEMLQIFQPVNEAKECLMFMQQKLSKYSEDISKLFLINYSGIISELENKLKYIENSILIKSDLSKLTEIDINEIQQIIKPLKMLQEGINQVDQVYKNEQRKLKTVNESEKKDTTMIDNEEDKGKEIWENKKPSLEVNEERIILEQKLEEYKQKSEERDLTPEEIDILQIILEKLDQMDSEVYKTLTEAKIINQNKAELFKNIREDAELFDEIKKNVDKGDFSVNFDKNVDQKIDDLENKEDNFATKMDIDADKMNLKRKISENTEDEKADEDEKRIKIHLDHESTIPEFIVENLNQISNILQLINTIKMKKFPKKSSEIFDSLKLTLVEIGNILENTPEAELEDNLFLTLFKLRDLMTFAQSKQKFPEQMKIPLDECISEISKLFSHILRHYPNLRQTFVHDIVTGPKDEIHYLMNIDNEKIELCKMEEIRDHLKTFDGTISEFTLKNPEMLPKASKEIINLEKNLVNISKAIGMVCKTAPRELQELLMELNNDVLEIHTFIENHNGDFELIEILSKIEPISKAIRNINILLKEAILHVIDDDNIKKNNEKIPLNTEETHIALKPCDKINNQNIKISVADIKTALQNIYDCLDETSLEAFESIQTSLEQLQRQLSDDEKTDESKNSILKALFNLRECLVHTYESTDKTPSNNFNENMNKNLNIIGNTLFNFLSCNPEQGKQYSHKVVIETNIVLNEMLNLVDDNSDDFPNLIIIKEPVHMLQQDILNSFSMENEIVFDKSSTKIVKLQTHLMTAFIKFNELSELMPKSIVEDLLCCQNELLKINDIIDESTNYIQMIPLAYKIEKFAKALSKFNNTLKNISQNKSLETTEVTQKLGEEAKQEQLKKEEQKAKVEVLYTEGLQTAEISQTLAGEAKRELNEENQKQEILDTAYLQTAEIIPKVIEEVKLEQLKAEEQKAKEGILDTADVQTPEVNQKLEEETIQEQLIVEKHKIKEEILDSAVLQTSEVAHALPEETKVEQLKVEEQKAKEDKVDTPGIQTAEVTQKLAEEIKLELLEVENQKPKEDKVDTPVIQTAEVTQKLAEEFKLEQLEVEKQKAKEDKVDTPGIQTAEVTQKLAKEFKLEQLEVEKQKAKEDKVDTPGLQTAEVSQKLAEEFKIEQLEVEKQKDIDQKLDTAVLQTPEVAHTLAEETKVEQLKVEEQKAKEDKVDIPGIQTAEITQKLSEEFKLEQLEVAKQRATADRLDTPGIHTAEVTQKLAEEFKLEQLEVQNQKPKEDKIDTPGIQTAGVTQNLAKEITVEQLEVEKQKAIEQKLDNAGLQTAEITQKMAEEFKLEQLEVEKQKATEDNVNTPGLQTAEVSQKIAEEFKLEQLEQEKQKAIEQKLDTAGLQTAEITQKLAEEFKVQQEVEKRKAKEDKVDTPGLQTAEVTQKLAEEFKVEQLEVEKQKAEEDNVDTPGLQTAEVSQKLAEEFKLEQLELEKQKAIEQKLDTAGLQTAEITQKLAEEFKVEQLEVEKQKAKEDKIDTPALQTAEVTQKLAEEFKLEQLEVEKQKAKEDNVDTPGLQTAELSQKLAEEFKLEQLELEKQKAIEQKLDTAGLQTAEITQKLAEEFKVEQLEVEKQKAKEGKVDTPGIQTAEVTQKLAEEIKLELLEVENRKPKEDKVDTTGIQTAEVTQKLAEEFKLEQLEVEKQKAIEQKLDTAGLQTAEITQKMAEEFKLEQLEVEKQKATEDNVDTPGLQTAEVSQKLAEEFKLEQLELEKQKAIEQKLDTAGLQTAEITQKLAEEFKVEQLEVEKQKAKADKVDTPGLQTAEVTQKLAEEFKLEQLEVEKQKAKEDNVDTPGLQTAEVSQKLAEEFKLEQLELEKQKAIEQKLDTAGLQTAEITQKMAEEFKLEQLEVEKQKATEDNVDTPGLQTAEVSQKLAEEFKLEQLELEKQKAIEQKLDTAGLQTAEITQKLAEEFKVEQLEVEKQKAKEDKVDTPGLQTAEVTQKLAEEFKLESLEVEKQKAKEDNVDTPGLQTPEVSQKLAEEFKLEQLEVEKQKAIEQKLDTAGLQTAEITQKLAEEFKVEQLEVEKQKAKEDKVDTPGIQTAEVKQKLAEEFKLEQLEVEKQKAKEDKVGTLELQTSEVSQKLAEEFKLENLEVEKQKNIEQKLDTAALQTPEVAHTLAEESKLEQLKVEKQKATKDKVDTTGLQTAEVTQKPAEEFKLELLEVENQKPKEDKVDTPGIQTAEVTQKLAEEFKVEQLEVEKQKAIEQKLDTAGLQTAEITQKLAEEFKLEQLEVEKQKNIEQKLDTAALQTPEVAHTLAEESKLEQLKVEKQKATKDKVDTTGLQTAEVTQKPAEEFKLELLEVENQKPKEDKVDTPGIQTAEVTQKLAEEFKVEQLEVEKQKAIEQKLDTAGLQTAEITQKLAEEFKVEQLEQKAIEQKLDTAGLQTAEITQKLAEEFKVEQLKVEKQNAKEDKIDTPGLQTAEVSEKLAEEFKLEQLEVGKQKAKEDKVDTPGLQTAEVSQKLAEEFKLEQLEIEKQKNIEQKLDTAALQTPEVAHTLAEESKLEQLKVEKQKATEDKVDTPGIQTAEVTQKLAEEFKVEQLEVEKQKAKEDILDTPGIQTAEVTQKLAEEFKLELLEVENQKPKEDKVDTPGIQTAEVTQKLAEEFKLEQLEVEKQKSIEQKLDTAVLQTADVVHTVAEESELEQLKVEKQKAKEFKLDIPGLQTAEVTQKLAEELKLEQLEVEKQKAIEQKLDTAGLQTAEVSQKLAEEFKLEQLEIERQKNIEQKLDTAALQTPEVAHTLAEESKLEQLKVEKEKATEDKVDTPGLQTAEVTQKLAEEFKLELLEVENQKPKEDKVDTPGIQTAEVTKKLAEEFKLEQPKGEKQKAIEDKLDTAGLQTAEVAHTRPEESKLEQLKVEKQKVKEDKVGTLELQTAEVTQKLAEEFKLEQLEVEKQKAKEDKVDTPGLQTAEVTQKLAEEFKPEQPKGEKQKSIEDKLDTAGLQTAEVAHTRPEESKLEQLKVEKQKVKEDKVDTPGLQTAEVTQKLAEEFKLEQLEVEKQKSIEQKLDTAGLQTAEITQKLAEEFKVEQLEVEKQKAKEDKVYTPGLQTAEVTQKLAEELKLEQLEVEKQKAKEDKLDTAVLQTTEVAHTLAEKSKLQQLKEKQKVKENKVDTPRLQTAEVAHTLAEESKLEQLKVEKQKAIEQKLDTPGLQTAEVTQKLAEESKVEQLKVEKQRVKEDKLDIPGLQSAEVTQKLAEEFKLEQLEVEKQKAKKDELDTPGLQNAEVTQKLAEEFKLEQPKGEKQKATEDKLDTPGLQTAEEAHRRAEESKLEQPKVEKQKAKEDIIDTAGIQNSAVTQNVAEEISEEQQKVEKTVEQLKIKKQKKKPEISNTEQDLAVEVNQREKKEQMELQKGNEMLEECFFEISKYINLVKTIPKESSLKNLIFSYDQVQSLEQSLCECRNARMLEFDKASSKMVFLQTQLMATFIKFNEISETVDKTLINDLENCQKAIIKIYNCIDEATDNIRFIVISEHVANLAKPLKELNNSLMLLPINTSEEVIQAQGLEELDIKEILQGNEGENMRQGKLEVEFQTPKCKNALDEFQISQLSGTKGEALQEKLQIESEKIDAESVKIEETQIPKISENKSAKLKQKKVEIESNTLKIREKDSDKYKTVEVQETEIELQKCTVKQDILPKEISLRETEKIRSDILEAESKNQDKFMGIEFDKSKTAKINQKRQIDEKELEKNDFKTGEVLAVTTKDKKAEELNYENSEIKLYDKSKNNEVADEADSHTSENLIAKSKKIKRKSLEIQKSNIIESNKIGTVELESRDPEMGETKKKSPDSLKSQIVRNNDGENKSEYSRLRNEEVLENNTITKINGEQKIKETERKRSLEFVNGRKSSIEAIRDIKTKALYKNIEDDFQKDILQNLSSKNDKYFDKYDLSTKGDDYDEYKTKKQYRESKRRPNFESKLTNRTAAVGGGIKLTCSISGIDIDIKWYKDSNIISTDKKFTINNMDGISSLEINNVNLIDSGVYTCVASNRNGEIETSSLVTIYEAPKTDAETLISPVFTRTIKGIIIEIL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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