Basic Information

Insect: Glossina morsitans
Gene Symbol: grau
Assembly: None
Location: scf7180000651771:2538392-2563524[+]

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 42 0.00014 0.0079 16.1 1.7 1 23 17 40 17 40 0.95

2 42 0.065 3.5 7.8 3.2 2 23 61 83 60 83 0.96

3 42 0.025 1.4 9.1 0.1 6 23 92 109 92 109 0.99

4 42 0.0029 0.16 12.0 0.8 1 23 115 138 115 138 0.96

5 42 1.9 1e+02 3.1 1.1 3 23 167 187 165 187 0.95

6 42 0.31 17 5.6 2.2 2 23 493 515 492 515 0.93

7 42 0.12 6.7 6.9 2.5 6 23 524 541 524 541 0.99

8 42 0.04 2.2 8.4 1.9 2 23 563 585 562 585 0.94

9 42 0.0068 0.37 10.8 2.8 1 23 593 616 593 616 0.91

10 42 0.2 11 6.2 0.1 2 23 637 659 636 659 0.95

11 42 0.35 19 5.4 1.0 6 23 668 685 668 685 0.98

12 42 0.0022 0.12 12.4 0.4 1 23 691 714 691 714 0.96

13 42 0.13 7.1 6.8 0.8 1 23 722 745 722 745 0.94

14 42 0.79 43 4.3 0.2 2 21 751 770 750 771 0.93

15 42 2.4 1.3e+02 2.8 1.6 3 23 775 795 773 795 0.96

16 42 0.52 28 4.9 2.2 2 23 1079 1101 1078 1101 0.93

17 42 0.048 2.6 8.2 1.2 6 23 1110 1127 1110 1127 0.99

18 42 0.041 2.2 8.4 1.3 1 23 1133 1156 1133 1156 0.94

19 42 0.0002 0.011 15.6 1.2 1 23 1164 1187 1164 1187 0.95

20 42 6.7 3.6e+02 1.4 0.2 2 23 1208 1230 1207 1230 0.89

21 42 0.01 0.55 10.3 1.3 6 23 1239 1256 1239 1256 0.99

22 42 0.0013 0.073 13.1 1.8 1 23 1262 1285 1262 1285 0.96

23 42 0.027 1.5 8.9 0.2 1 23 1293 1316 1293 1316 0.91

24 42 0.035 1.9 8.6 0.2 2 21 1322 1341 1322 1342 0.95

25 42 0.035 1.9 8.6 2.1 3 23 1346 1366 1344 1366 0.97

26 42 0.17 9.2 6.4 0.1 2 20 1378 1396 1378 1397 0.93

27 42 0.022 1.2 9.2 1.3 6 23 1723 1740 1723 1740 0.99

28 42 0.0028 0.15 12.0 1.2 2 23 1747 1769 1746 1769 0.94

29 42 0.0032 0.17 11.9 0.7 1 23 1777 1800 1777 1800 0.95

30 42 0.016 0.86 9.7 0.6 2 23 1821 1843 1820 1843 0.94

31 42 0.16 8.9 6.5 0.1 6 23 1852 1869 1852 1869 0.98

32 42 0.24 13 6.0 0.3 1 23 1895 1918 1895 1918 0.91

33 42 0.0054 0.3 11.1 0.3 2 21 1924 1943 1924 1944 0.95

34 42 0.1 5.5 7.2 0.6 2 23 2342 2364 2341 2364 0.93

35 42 0.059 3.2 7.9 2.2 6 23 2373 2390 2373 2390 0.99

36 42 0.02 1.1 9.4 0.3 2 23 2397 2419 2396 2419 0.94

37 42 0.00082 0.045 13.7 0.6 1 23 2427 2450 2427 2450 0.95

38 42 0.85 46 4.2 0.2 2 23 2471 2493 2470 2493 0.95

39 42 0.14 7.9 6.7 0.2 6 23 2502 2519 2502 2519 0.99

40 42 0.002 0.11 12.5 0.9 1 23 2525 2548 2525 2548 0.96

41 42 0.24 13 6.0 0.3 1 23 2556 2579 2556 2579 0.91

42 42 0.0028 0.15 12.1 0.2 2 21 2585 2604 2585 2605 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	42	0.00014	0.0079	16.1	1.7	1	23	17	40	17	40	0.95
2	42	0.065	3.5	7.8	3.2	2	23	61	83	60	83	0.96
3	42	0.025	1.4	9.1	0.1	6	23	92	109	92	109	0.99
4	42	0.0029	0.16	12.0	0.8	1	23	115	138	115	138	0.96
5	42	1.9	1e+02	3.1	1.1	3	23	167	187	165	187	0.95
6	42	0.31	17	5.6	2.2	2	23	493	515	492	515	0.93
7	42	0.12	6.7	6.9	2.5	6	23	524	541	524	541	0.99
8	42	0.04	2.2	8.4	1.9	2	23	563	585	562	585	0.94
9	42	0.0068	0.37	10.8	2.8	1	23	593	616	593	616	0.91
10	42	0.2	11	6.2	0.1	2	23	637	659	636	659	0.95
11	42	0.35	19	5.4	1.0	6	23	668	685	668	685	0.98
12	42	0.0022	0.12	12.4	0.4	1	23	691	714	691	714	0.96
13	42	0.13	7.1	6.8	0.8	1	23	722	745	722	745	0.94
14	42	0.79	43	4.3	0.2	2	21	751	770	750	771	0.93
15	42	2.4	1.3e+02	2.8	1.6	3	23	775	795	773	795	0.96
16	42	0.52	28	4.9	2.2	2	23	1079	1101	1078	1101	0.93
17	42	0.048	2.6	8.2	1.2	6	23	1110	1127	1110	1127	0.99
18	42	0.041	2.2	8.4	1.3	1	23	1133	1156	1133	1156	0.94
19	42	0.0002	0.011	15.6	1.2	1	23	1164	1187	1164	1187	0.95
20	42	6.7	3.6e+02	1.4	0.2	2	23	1208	1230	1207	1230	0.89
21	42	0.01	0.55	10.3	1.3	6	23	1239	1256	1239	1256	0.99
22	42	0.0013	0.073	13.1	1.8	1	23	1262	1285	1262	1285	0.96
23	42	0.027	1.5	8.9	0.2	1	23	1293	1316	1293	1316	0.91
24	42	0.035	1.9	8.6	0.2	2	21	1322	1341	1322	1342	0.95
25	42	0.035	1.9	8.6	2.1	3	23	1346	1366	1344	1366	0.97
26	42	0.17	9.2	6.4	0.1	2	20	1378	1396	1378	1397	0.93
27	42	0.022	1.2	9.2	1.3	6	23	1723	1740	1723	1740	0.99
28	42	0.0028	0.15	12.0	1.2	2	23	1747	1769	1746	1769	0.94
29	42	0.0032	0.17	11.9	0.7	1	23	1777	1800	1777	1800	0.95
30	42	0.016	0.86	9.7	0.6	2	23	1821	1843	1820	1843	0.94
31	42	0.16	8.9	6.5	0.1	6	23	1852	1869	1852	1869	0.98
32	42	0.24	13	6.0	0.3	1	23	1895	1918	1895	1918	0.91
33	42	0.0054	0.3	11.1	0.3	2	21	1924	1943	1924	1944	0.95
34	42	0.1	5.5	7.2	0.6	2	23	2342	2364	2341	2364	0.93
35	42	0.059	3.2	7.9	2.2	6	23	2373	2390	2373	2390	0.99
36	42	0.02	1.1	9.4	0.3	2	23	2397	2419	2396	2419	0.94
37	42	0.00082	0.045	13.7	0.6	1	23	2427	2450	2427	2450	0.95
38	42	0.85	46	4.2	0.2	2	23	2471	2493	2470	2493	0.95
39	42	0.14	7.9	6.7	0.2	6	23	2502	2519	2502	2519	0.99
40	42	0.002	0.11	12.5	0.9	1	23	2525	2548	2525	2548	0.96
41	42	0.24	13	6.0	0.3	1	23	2556	2579	2556	2579	0.91
42	42	0.0028	0.15	12.1	0.2	2	21	2585	2604	2585	2605	0.95

Sequence Information

Coding Sequence: ATGCGCATTCATTTCCTCAGTAAACATAAAAAAGACGAAGATAAAATGTTTACTTGCTCTCAGTGCCCCAAAAAATTCTTTAGAAGATACTCCCTAAGACAGCATGAATTAGTTGGTCACAGTGATCACAAGAACGCATGTTTAGCCGTTGATGAAGAGATAGCAAAGTTTATGTCACTGCATTGTGAACTATGCCATAAAGAAGCAAACAATTTTACAAGTCTTAAAGGTCACATGCGTACTGAGCATAAAACCAAAGGCTATGTAAAATGTTGTAATAAAAAATTTCGTGAACGTGGTTTACTTGTTGAGCACATACGCGTACACTTCAATCCCGCTTGTTATAAATGTGAAGAATGCAGTCTTGTTTTTCCCGATCGGCAATCTATGCGTAATCATTTCCTTATGAAACATCCAAAAGTGGAAGATAAACCTTTTGGTTGTTCTCAATTTGACAGTGCAGCTCAGCTATATGCTCATATCAAAGAGCAGTGTTTGTGCGATACATGCGCGGAAGTCGTATGTGGCACTGCTGCCCTTCAGCGCCATCTTCTAAAACATAAAAAGAGCTTTGCTGAAAGCAAAGAAACTGAAGTTCCTGATATTTCTGACAAGACATCATCTAGTCAACAAGGCAAATTAATTCGTAAATCCTGCGTTCTCAATTCTTTACGTACAACAATAATGATTTGTCGCTTGTGTTTAAAAGACGTTAATGAATTTAAAAGCGCGTTTGCTGTGATGGAGAATAAACCAACCATTGCTTCAGTAATCAGAATTCATTTCTGGTTCGAGCTGCAGGAAAACGATCCCATATCAACAGTGATTTGTAACAATTGTTGGCTTAAAGTCTCCGATTTCCATGAGTTCTATAAAAGCGTTGAGGAAGCTCAAAGTCACCTGGGAGAAAATGTTACAGTGAAAATTGAAAACATTAGCGCGGAGCATTCCATAGAAAATGTGATGATTCCGTCATTTTCATTGTCTAGTAAACAGGAACCTGAAGTCAATTTCGACGAAGTTAACGATGAAGTTCCTTTTGACATGATGACGGTTGAAACACATAGTACGCGTACAGATCTAAGAACCGACGATTCCCATGATATATGGAGAAACCAAATAAATAGTGATAATAATGCCATAGAGGACGTTAAGGATGTTATTGACTACAAAGATGAAGTCTTCAATGAGCATAATTCCGACCCGGTTAACAAACCAATTTTTGCAGAAAATGAAGAAAGTAATAAACTAACCGTAAACAAAAAGGGAACAAGTAAAACGACCAAAATGTCAGTTAAGACGCAACGGAATGTCCCGCTAGCACAGAAAATTCATTGCAAAAACGTACGTGCAGCAAAAGTGCCTGAAACAGAAAAGAACAATGTCaaaaaaaCGAAGGAACTTTCTGAACAAGCTAAAGCTATTCGTGAGCAGGGTTTAGCCTTTGATGGAGAAATAGCCAAGTTTATGTCATTGCATTGCGAACTGTGTAAATTAACGGCAACGAATTTTAGCTCTCTTCATACTCATATGCTCGCAGAACATAAAATCAATGGTTATGTGAGATGTTGTAATAAAAAATTTTCGAAACGTTTCGCACTTCTGGATCACATACGGCATCATTCAAATCCTGAGCGTTTCAAAAAACACCATGAAATaaaaaaaGGCAGCGGCAGTCCGGCAAAAAGATGCGAGCAATGTAATCGTGTTTATGCTAATCGTAATTCAATGCGCACTCATTTCCTTAGCAAGCATAAAAACGACAAAGAGAAAGTATTTACATGTTCTCAGTGCCCTCAGAAATTTTTTAAAAAGTATTTACTAAGAAAGCATGAACTGTTTGGACATAGTGATCATAAGAACGCTTGTATAGCAGTCGATGAGGAGATAGCTAATTTTATGCCATTGCGTTGCGAACTGTGCAATGAGGACGCTACCAATTTTACAGCTCTTAAAGGTCACATGCGCGATGAACATAACATCAAAGGCTACGTCAGATGTTGTAATAAAAAATTTTGTGAGCACGGTTTACTTGTCGAGCACATACGCGCCCATTTAAATCCTGCATGTTACAAATGTGAAGAATGTAGTCTTGTCTTTCCCGATCGCCAGTCTATGCGCAATCATTTCCTTATGGAACACGGAAAAATGGAAGATAAACCTTTTGCTTGCTCTCTGTGTTCTAGCAAATTTGTTACAGTATATTTATTACATCGACATACAGCAGTTGTTCATGGAGACCATAGCAAAACCTGCAGCAGTTGTCGGAAAAAATTGGACACTGCAGCTCAGTTATCAGCTCATGTCAAAGAACAATGCTTATGTGATACATGCGCGGAAGTCGTATGTGGGGCTGCTGCCCTTCAACATCACCTTTTAAAACATAAGAAGAATACCGTTGAAATGGAAGAAGAAGAATCAAGAATGATTTGCCGCTTGTGTTTAAAACAGGTTAATGAATTTAAAAGCGCGTTTGAAGTAACGGATAATAAACCAACCATAGCTTCAGTAATCAAAAAACACTTCTGGTTTGAACTGCAGCAAAACGATCCAGTATCAACAGTAATTTGCAATAATTGTTGGTTTAAGGTTTTTGATTTCCACGAGTTCTATAGAACCGTTGAAAGAGCTCAAAATCAATTGGGTGAAAATGTTGTCGTGAAAATTGAAAACATTGGCGCCGAGCATTCCATAGAGAATGTGATGATCCCGTCATTTTCATTGTCCAGTAAACAGGAACCTGGTGTTAATTTCGACGAAGTTAATGATGAAGTTCCTTTTGATATGGTTGCGACGAATGACAACACGCGTGCAGATGTCAGAGCAGATGATTCCCATGATATATTGGGAACTCAACAAGGTTGTACTAATAACGCCATAGAGGATGTTAAACATGTCGATGTTTACAAGGATGATAGATTTAATGATCACATTGTTGACCCATTTAATAAGGAAGTGTTTGCAGaaaatgacaaaaataataaaataagcaaaaagaaaaaaGCTGTTAAATCTTCAGGAAAGACTAGAACTACCAGATCTTCGTCCAAGGTACAAAGGAACGATTCATTGGCACAGAATATTCATTCCTCAAAACCAGCTGCAACAAAAGTGCGCAAGATTGAAAAGAGCAACGTaaaaaaaGTGAAAACAAAAGAACTGTCTGAACAGGCTAAAGCTATTCGCGAACAAGGTTTAGCGTTTGACGAAGAAATAGCGAAATTTATGTCTCTACGTTGCGAGCTATGTAGCCTTGAAGTAAAGAATTTTCATGATCTTGAAACTCATATGCACGCAAAACACAAAGTCAAAGGTTACGTGAGATGTTGTAATAAGAAATTTTCTAAACGCTTTTTGCTGCTCGATCACATACGCCAACATTCAAATCCCGATTGTTTCAAATGCGATCCATGTAAGCGGGTTTTCGCAGATCGTAAATCTATGCGCAATCATTTCCTTATCAAACATCAAAAGGATGAAGATAAAATGTTCTCGTGCTCTCAATGTTCTAAGAAATTTGTTAGAAGATATTTACTGCGACAGCATGAATTAGTGGGTCATAGCGATCATAAAAACGCTTCTTTAGCTGTAGATGAGGAAATAGCCAAATTTATGTCATTACATTGTGAACTATGCAGCATAGAGATAGAAAATTTTACTGCTCTGCGCAATCATATGGTCGCAGAGCATAACATCAAAGGCTACGTCAGATGTTGTAATAAGAAATTTTCCAAACGTTTTTTACTTTTGGAGCACATACGGACGCATTTAAATCCTGCTTGCTACAAATGTGAGAACTGTAGTCGTGTATTTCCCGATCGTAAGTCCATGCGTAATCATTTTCTTATGAAACATCAAAAGGATGAAGACAAAACATTTGCTTGTTCTCAGTGTCCCAGCAAATTTGTTACTGTGTACCTATTACAGCGCCACAAAGTGATTGCTCACCGTGATCGTACTAACACTTGCAAAAGTTGTAACAGAAGGTTTAGTACGGGTGTTCTGTTGTCTGCTCATATCAAGGAGCAGTGTTTGTGCGATACCTGCGGGGAAGTTGTGTGTAACACTGCTGCATTTCAACGTCATCTATTGAGACATAAAAACTGCCTTGCGGAATCCAAAGAATTGCGCACCTGTGATATTTGCCAAAAGGTATCAACAAGTCAACAAGATATGTTGGCTCACAAACTTTGTGCTCATAATCCCTTACGTACTTACGAATGCAATACGTCCTCTGTGCACGATAACTTTCCATTTCAATATCCATATGCAATCACATCCCAAGAAAATGCATCCACAATGCTCGCATATCCGAACCATCCAATGATTTGCCGCTTATGTTTACAAGAAATTTGTGATTTTAAAAGTGCGTTCGACTCGGCAGACAATGAACGAACTATCGCTTCGATAATTGAAAAATATTTCTGGTTTGAGTTCCAGCAAAACGATGCAGTATCAACAGTGATTTGTAACAATTGTTGGTGTAAAGTTTCTGACTTTCATGAATTTTATAAAAGTGTTGAGGAAGCTCAAAGCCGCCTGGGTGAAAATGTCGTAGTCAAAATTGAAAACATTAGTGTAGAGCATTCCATAGAAAACGTAATAGTTCAGTCGATCCCTTTTTCTAGCAAGCAGGAGCCCACCGATTTTGCAGAAGCTACTGATGAGGATCCTTTTGATATGCCAATAGTAGATAATAATCCGTCATTACTCCTAAAAGGAAAAGATAATTCCAATGATAAATTAAGGACACAAACTTATAGTATTAATTCTATGGAAACGGTTGAGAATGTTGGTGATGACAAAGACGAAAAATCTAGTGACTATAACGGCAAAAAAGCAGCGGTTAAGAAGCCTTCGAAAAAGAAAAAGCCTGTAAAGTCTACCACAACGGGTAGAACTAAAAATCCTACGCCTAAATTACAACGGAATGTAAACTTATGCTTAACgaaaaatacaagaaaattgagcaaaactgaaaacaataactcaaaaaaaggaaaagtgaaaaaaCCGATTGAAGATCCCAAAAGTGTAGCCTTCGATGAAGAGATAGCTAAGTTTATGTCGTTACATTGTGATCGATGCAAATTAGAGGCCAAGAATTTTAATGCTCTGCACAGTCATATGCTCGCAGAGCATAACATCAAAGGTTATGCAAGATGTTGCAATAGGAGATTTTCCTCACGCTTTTTATTACTTGACCATATACGCCGACATTCTAATCCTGACAGTTTGAAATGCGAGCCATGTAATCGTGTCTTTGCCGATCGCAATTCTTTGCGTCATCATTTACAAATCAAACATCAAAAAGACGAAGATAAAATGTTTTCTTGTTCTCGATGTCCAAAGAAGTTTGTTAAAATGTATTTGCTGCGACAACATGAGCTAGTGGGCCATAGCGATCATAAAAACGCTTGTCTAGCTGTTGATGAAGAGATAGCCAAGTTTATGTCGTTGCATTGTGAACAATGCAATGAAGAGGCGACCAACTTTACAGCCCTTAATCGTCATATGCGCGCTGAACATAACGTGCGAGGCTACGTCAGATGTTGTAATAGAAAATTTCGTGAGCGTGGTTTGCTTGTTGAGCATATACGCGCACATTTAAATCCTGCTTGTTATAAGCAATCTATGCGTAATCATTTTCTTATGATTCATCAAAAGGAGGAAGATAAACCTTTTGCTTGTTCTCAGTGTTCCAACAAATTTGTTACAGTATACCTGTTACAACTACATAAGGTGGTTGCTCATGGTGATCCCACAAATACTTGCAAAAGCTGCAGTAGAAAGTTCAATACTTCAGCTGAACTGTCTGCTCATATCAAAGAGCAATGCCTGTGTGATACATGTGCAGAAGTTATATGTGGAGTTGCCGCTTTTCAAAATCATATGCTCGGTCACGAAAAAAGTCTTACGGGTTCAAAAGGTTCCCATGTTTGTGATATTTATACTCACAAACCTATTCGTAATTACGAATGCAAAGTCTCCTCACTGCATGAAAATTTTCCATTCCCTTACCAAGAGTTGATACTCTATCGGTTACAATTTATTGAAGAGCAGTTATTTAAATCCGAGTGCGAGCAAAAAGAAGCTTTACCTCTGGTCGATTTAAGAAAAATTGTAGTAGGGGAGCGTGAGTTGTGTGGTAAACCTCAGGCTTTAGCGTGGGATCCTAAAAGCTTATTTTTGGCGATTACCTTTCAAGATACAGTCTGTATTGCTATCTTCTCAAAAACCATACAAAAATATGATCTTACTGTGTCACCATCATCGTTCCTGACCGGTGTTGAAGTTAATGAATTTAAAAGCGTCTTTGATGCGGCGGAGTGCAAACTGGATATGGCCTCAATAATTGCAAAACATTTCTGGTTTGAGCTCCAGCAAAACGATCAAATATCAACAGTAATTTGCAATAATTGTTGGCTTAAAGTCTCTGATTTCCATGAGTTCTATAAAAGTGTTGAGAAAGCTCAGAGCAATCTAGGCGAGAATGTCGTAGTGAAAATAGAAAACAATAATGTAGAGCATTCCATAGAAAATGTTATGATTCAGTCGATTCCTTTTTCTAATAAACTTGAGCCCAATGACGATTTGAACGAATCTAATGATGAGGATCCTTTCGAAATGCCAATAGACGAGGCGGAAAATAATCCATCATTACTCCTAAAAGAAAAAGATTTCAACGACAAACGTTTTAACACTAACGCAACGGAAGAAGTTACGAATGTCATTAATTATAAAGATGAAAAATTTGATGACGACGATGGCGATCCATTTAGCAGCGGGGaaacaaaaattggcaacaaaagagaaagtactaaactatcaaaaaaggaaaaaTCTATTAAGTCTGCAAGAACGATTAGAATGAAAAATCCTTCGCCGCGGAATGcaacaaaaggtacaagaaaattgagcaaaagcgaaaacaatgattcaaaaaagacaaaagtgaaaaaaCCCCTTGAAGATCCTAAAAGTGTGGCTATCGATGAGGAGATCGCTAAGTTTATGAAACTACATTGTGAGCGATGCAAGTTGGAAGTTACGAACTTTAGCGCTCTTCAAACTCATATGCTCGCAGAGCATAACATCAAAGGTTATGCAAGATGTTGCCATAGGAGATTTTCTTCGCGATTTTTGCTAATTGACCATATACGACAGCATTCAAATCCTGACAGTTTGAAATGCGAACCATGTAATCGTGTTTTTGCCGATCGTAATTCTATGCGTAATCATTTGCTAATCAAACATCAAAAAGACGAAGATAAAATGTTTTCTTGTTCTCGATGTCCAAAGAAGTTTGTTAGGATGTATTTGTTGCGACAACATGAGCTAGTGGGCCACAGCGATCACAAAAACGCTTGTTTAGCTGTTGATGAAGAGATAGCCAAGTTTATGCCGTTGCATTGTGAATTGTGCAGTGTAGAGGTGGAAAATTTCACAGCTCTGAAAGGCCATATGCGTGTTGAGCATAATATGAAGGGTTATATGAGATGTTGCAATAGAAAATTTTTTGAACGTGGCTTACTTGCGGAGCATATACGCACACACTTAAACCCTGCCTGTTATAAATGTGAGAAATGCAGTCTTGTTTTTCCGGACCGCAAGTCCATGCGTAATCATTTTCTTATGATTCATCAAAAGAAGGAAGATAAACCTTTTGCATGTTCACAATGTTCTAACAAATTCGTTACCGTATACTTGTTACAATTACATAAAGTGGTTGCTCATGGTGATCCCACAAATACTTGCAAAAGCTGCAGTAGAAAGTTTAACACAGCAGGTGAGCTAACGGCTCATATTAAAGAGCAATGTCTATGCGATACATGCGCGGAAGTTATATGTGGAGTTGCAGCTTTTCAACATCATATACTGGGCCATGAAAAAAGTCTTGCGGGCTCCAAAGATTCTAATGTTTGTGATATTTGCCGCCAAGATAAACTTTGTGTTCATAACTCTGCACGTACTTACGAATGCAAGGTCTCCTCTTTGCATGAAAATTTCCCATTCCCTTATCAGTACGCATCTACATCGCAAGAAAATGCGTCCACAACTATGCTTACATCCTCGAATTATACTCACTCTTCAAACGATCATTAA
Protein Sequence: MRIHFLSKHKKDEDKMFTCSQCPKKFFRRYSLRQHELVGHSDHKNACLAVDEEIAKFMSLHCELCHKEANNFTSLKGHMRTEHKTKGYVKCCNKKFRERGLLVEHIRVHFNPACYKCEECSLVFPDRQSMRNHFLMKHPKVEDKPFGCSQFDSAAQLYAHIKEQCLCDTCAEVVCGTAALQRHLLKHKKSFAESKETEVPDISDKTSSSQQGKLIRKSCVLNSLRTTIMICRLCLKDVNEFKSAFAVMENKPTIASVIRIHFWFELQENDPISTVICNNCWLKVSDFHEFYKSVEEAQSHLGENVTVKIENISAEHSIENVMIPSFSLSSKQEPEVNFDEVNDEVPFDMMTVETHSTRTDLRTDDSHDIWRNQINSDNNAIEDVKDVIDYKDEVFNEHNSDPVNKPIFAENEESNKLTVNKKGTSKTTKMSVKTQRNVPLAQKIHCKNVRAAKVPETEKNNVKKTKELSEQAKAIREQGLAFDGEIAKFMSLHCELCKLTATNFSSLHTHMLAEHKINGYVRCCNKKFSKRFALLDHIRHHSNPERFKKHHEIKKGSGSPAKRCEQCNRVYANRNSMRTHFLSKHKNDKEKVFTCSQCPQKFFKKYLLRKHELFGHSDHKNACIAVDEEIANFMPLRCELCNEDATNFTALKGHMRDEHNIKGYVRCCNKKFCEHGLLVEHIRAHLNPACYKCEECSLVFPDRQSMRNHFLMEHGKMEDKPFACSLCSSKFVTVYLLHRHTAVVHGDHSKTCSSCRKKLDTAAQLSAHVKEQCLCDTCAEVVCGAAALQHHLLKHKKNTVEMEEEESRMICRLCLKQVNEFKSAFEVTDNKPTIASVIKKHFWFELQQNDPVSTVICNNCWFKVFDFHEFYRTVERAQNQLGENVVVKIENIGAEHSIENVMIPSFSLSSKQEPGVNFDEVNDEVPFDMVATNDNTRADVRADDSHDILGTQQGCTNNAIEDVKHVDVYKDDRFNDHIVDPFNKEVFAENDKNNKISKKKKAVKSSGKTRTTRSSSKVQRNDSLAQNIHSSKPAATKVRKIEKSNVKKVKTKELSEQAKAIREQGLAFDEEIAKFMSLRCELCSLEVKNFHDLETHMHAKHKVKGYVRCCNKKFSKRFLLLDHIRQHSNPDCFKCDPCKRVFADRKSMRNHFLIKHQKDEDKMFSCSQCSKKFVRRYLLRQHELVGHSDHKNASLAVDEEIAKFMSLHCELCSIEIENFTALRNHMVAEHNIKGYVRCCNKKFSKRFLLLEHIRTHLNPACYKCENCSRVFPDRKSMRNHFLMKHQKDEDKTFACSQCPSKFVTVYLLQRHKVIAHRDRTNTCKSCNRRFSTGVLLSAHIKEQCLCDTCGEVVCNTAAFQRHLLRHKNCLAESKELRTCDICQKVSTSQQDMLAHKLCAHNPLRTYECNTSSVHDNFPFQYPYAITSQENASTMLAYPNHPMICRLCLQEICDFKSAFDSADNERTIASIIEKYFWFEFQQNDAVSTVICNNCWCKVSDFHEFYKSVEEAQSRLGENVVVKIENISVEHSIENVIVQSIPFSSKQEPTDFAEATDEDPFDMPIVDNNPSLLLKGKDNSNDKLRTQTYSINSMETVENVGDDKDEKSSDYNGKKAAVKKPSKKKKPVKSTTTGRTKNPTPKLQRNVNLCLTKNTRKLSKTENNNSKKGKVKKPIEDPKSVAFDEEIAKFMSLHCDRCKLEAKNFNALHSHMLAEHNIKGYARCCNRRFSSRFLLLDHIRRHSNPDSLKCEPCNRVFADRNSLRHHLQIKHQKDEDKMFSCSRCPKKFVKMYLLRQHELVGHSDHKNACLAVDEEIAKFMSLHCEQCNEEATNFTALNRHMRAEHNVRGYVRCCNRKFRERGLLVEHIRAHLNPACYKQSMRNHFLMIHQKEEDKPFACSQCSNKFVTVYLLQLHKVVAHGDPTNTCKSCSRKFNTSAELSAHIKEQCLCDTCAEVICGVAAFQNHMLGHEKSLTGSKGSHVCDIYTHKPIRNYECKVSSLHENFPFPYQELILYRLQFIEEQLFKSECEQKEALPLVDLRKIVVGERELCGKPQALAWDPKSLFLAITFQDTVCIAIFSKTIQKYDLTVSPSSFLTGVEVNEFKSVFDAAECKLDMASIIAKHFWFELQQNDQISTVICNNCWLKVSDFHEFYKSVEKAQSNLGENVVVKIENNNVEHSIENVMIQSIPFSNKLEPNDDLNESNDEDPFEMPIDEAENNPSLLLKEKDFNDKRFNTNATEEVTNVINYKDEKFDDDDGDPFSSGETKIGNKRESTKLSKKEKSIKSARTIRMKNPSPRNATKGTRKLSKSENNDSKKTKVKKPLEDPKSVAIDEEIAKFMKLHCERCKLEVTNFSALQTHMLAEHNIKGYARCCHRRFSSRFLLIDHIRQHSNPDSLKCEPCNRVFADRNSMRNHLLIKHQKDEDKMFSCSRCPKKFVRMYLLRQHELVGHSDHKNACLAVDEEIAKFMPLHCELCSVEVENFTALKGHMRVEHNMKGYMRCCNRKFFERGLLAEHIRTHLNPACYKCEKCSLVFPDRKSMRNHFLMIHQKKEDKPFACSQCSNKFVTVYLLQLHKVVAHGDPTNTCKSCSRKFNTAGELTAHIKEQCLCDTCAEVICGVAAFQHHILGHEKSLAGSKDSNVCDICRQDKLCVHNSARTYECKVSSLHENFPFPYQYASTSQENASTTMLTSSNYTHSSNDH

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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