Basic Information

Insect: Asbolus verrucosus
Gene Symbol: ZBTB41
Assembly: GCA_004193795.1
Location: QDEB01097319.1:12136-25041[-]

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 54 0.48 25 5.4 0.1 3 20 91 108 89 111 0.88

2 54 4.1 2.1e+02 2.4 4.8 1 23 117 139 117 139 0.97

3 54 0.013 0.65 10.3 1.9 1 23 145 167 145 167 0.91

4 54 0.00022 0.011 15.9 3.6 1 23 173 196 173 196 0.98

5 54 0.00098 0.05 13.8 3.1 1 23 208 231 208 231 0.93

6 54 0.0097 0.49 10.7 1.3 3 23 242 262 241 262 0.98

7 54 9.7e-07 4.9e-05 23.3 0.6 1 23 268 290 268 290 0.98

8 54 6.1e-06 0.00031 20.8 0.7 1 23 296 318 296 318 0.98

9 54 5.4 2.8e+02 2.0 0.2 1 10 324 333 324 335 0.89

10 54 3.7e-07 1.9e-05 24.6 0.2 2 23 367 388 366 388 0.97

11 54 0.49 25 5.3 4.1 1 23 392 414 392 414 0.98

12 54 7.5 3.8e+02 1.6 0.2 1 23 420 443 420 443 0.94

13 54 0.071 3.6 8.0 1.9 1 23 449 471 449 471 0.93

14 54 0.00075 0.038 14.2 0.5 1 23 477 500 477 500 0.92

15 54 0.011 0.58 10.5 5.2 1 23 507 529 507 529 0.97

16 54 0.0027 0.14 12.4 0.5 2 23 535 556 534 556 0.97

17 54 0.0011 0.055 13.7 4.1 1 23 562 584 562 584 0.97

18 54 1.4e-05 0.00071 19.6 0.6 1 23 590 612 590 612 0.99

19 54 0.001 0.053 13.7 0.0 1 22 618 639 618 639 0.97

20 54 0.033 1.7 9.0 2.6 3 23 706 726 705 726 0.99

21 54 2.7e-05 0.0013 18.8 0.0 1 23 728 750 728 750 0.97

22 54 0.051 2.6 8.4 0.1 1 23 755 777 755 777 0.97

23 54 0.15 7.6 6.9 1.1 1 23 783 805 783 805 0.96

24 54 0.004 0.21 11.9 2.4 1 23 811 833 811 833 0.97

25 54 1.7 88 3.6 2.2 1 23 839 862 839 863 0.92

26 54 8.7e-06 0.00044 20.3 1.2 1 23 873 896 873 896 0.98

27 54 1.9e-05 0.00094 19.2 0.5 2 23 905 926 904 926 0.97

28 54 0.035 1.8 9.0 3.9 2 23 933 954 933 955 0.94

29 54 0.034 1.7 9.0 1.1 2 23 1023 1044 1022 1044 0.97

30 54 0.04 2 8.8 0.1 1 23 1063 1086 1063 1086 0.97

31 54 0.00083 0.042 14.1 3.8 1 23 1090 1112 1090 1112 0.97

32 54 0.31 16 6.0 1.3 1 23 1118 1141 1118 1141 0.97

33 54 0.065 3.3 8.1 1.6 1 19 1147 1165 1147 1169 0.89

34 54 0.00098 0.05 13.8 1.4 1 23 1175 1198 1175 1198 0.97

35 54 0.0015 0.077 13.2 0.9 2 23 1210 1232 1209 1232 0.96

36 54 0.00017 0.0087 16.2 0.6 3 23 1246 1266 1244 1266 0.96

37 54 3.5e-05 0.0018 18.4 1.4 1 23 1272 1294 1272 1294 0.98

38 54 0.00081 0.041 14.1 0.7 1 23 1300 1322 1300 1322 0.97

39 54 1.4 71 3.9 0.2 1 17 1328 1344 1328 1345 0.90

40 54 0.079 4 7.8 0.4 1 23 1423 1446 1423 1446 0.91

41 54 0.00093 0.047 13.9 3.4 1 21 1451 1471 1451 1474 0.88

42 54 0.0035 0.18 12.1 0.4 1 23 1509 1531 1509 1531 0.96

43 54 0.0011 0.058 13.6 1.0 1 23 1537 1560 1537 1560 0.96

44 54 0.0004 0.02 15.1 4.7 1 23 1571 1593 1571 1593 0.97

45 54 1.2e-05 0.00058 19.9 1.2 3 23 1601 1621 1600 1621 0.98

46 54 3.9e-05 0.002 18.2 4.1 1 23 1627 1649 1627 1649 0.98

47 54 8.7e-07 4.4e-05 23.4 3.3 1 23 1655 1677 1655 1677 0.98

48 54 0.97 49 4.4 0.1 1 13 1683 1695 1683 1698 0.82

49 54 0.00047 0.024 14.8 2.2 2 23 1758 1779 1757 1779 0.97

50 54 0.1 5.2 7.5 0.3 1 23 1799 1821 1799 1821 0.98

51 54 0.0029 0.15 12.3 0.5 1 23 1825 1847 1825 1847 0.97

52 54 0.023 1.2 9.5 0.4 1 23 1853 1876 1853 1876 0.96

53 54 0.0022 0.11 12.7 0.2 1 23 1882 1904 1882 1904 0.96

54 54 0.0053 0.27 11.5 0.6 1 23 1910 1933 1910 1933 0.94

#	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	54	0.48	25	5.4	0.1	3	20	91	108	89	111	0.88
2	54	4.1	2.1e+02	2.4	4.8	1	23	117	139	117	139	0.97
3	54	0.013	0.65	10.3	1.9	1	23	145	167	145	167	0.91
4	54	0.00022	0.011	15.9	3.6	1	23	173	196	173	196	0.98
5	54	0.00098	0.05	13.8	3.1	1	23	208	231	208	231	0.93
6	54	0.0097	0.49	10.7	1.3	3	23	242	262	241	262	0.98
7	54	9.7e-07	4.9e-05	23.3	0.6	1	23	268	290	268	290	0.98
8	54	6.1e-06	0.00031	20.8	0.7	1	23	296	318	296	318	0.98
9	54	5.4	2.8e+02	2.0	0.2	1	10	324	333	324	335	0.89
10	54	3.7e-07	1.9e-05	24.6	0.2	2	23	367	388	366	388	0.97
11	54	0.49	25	5.3	4.1	1	23	392	414	392	414	0.98
12	54	7.5	3.8e+02	1.6	0.2	1	23	420	443	420	443	0.94
13	54	0.071	3.6	8.0	1.9	1	23	449	471	449	471	0.93
14	54	0.00075	0.038	14.2	0.5	1	23	477	500	477	500	0.92
15	54	0.011	0.58	10.5	5.2	1	23	507	529	507	529	0.97
16	54	0.0027	0.14	12.4	0.5	2	23	535	556	534	556	0.97
17	54	0.0011	0.055	13.7	4.1	1	23	562	584	562	584	0.97
18	54	1.4e-05	0.00071	19.6	0.6	1	23	590	612	590	612	0.99
19	54	0.001	0.053	13.7	0.0	1	22	618	639	618	639	0.97
20	54	0.033	1.7	9.0	2.6	3	23	706	726	705	726	0.99
21	54	2.7e-05	0.0013	18.8	0.0	1	23	728	750	728	750	0.97
22	54	0.051	2.6	8.4	0.1	1	23	755	777	755	777	0.97
23	54	0.15	7.6	6.9	1.1	1	23	783	805	783	805	0.96
24	54	0.004	0.21	11.9	2.4	1	23	811	833	811	833	0.97
25	54	1.7	88	3.6	2.2	1	23	839	862	839	863	0.92
26	54	8.7e-06	0.00044	20.3	1.2	1	23	873	896	873	896	0.98
27	54	1.9e-05	0.00094	19.2	0.5	2	23	905	926	904	926	0.97
28	54	0.035	1.8	9.0	3.9	2	23	933	954	933	955	0.94
29	54	0.034	1.7	9.0	1.1	2	23	1023	1044	1022	1044	0.97
30	54	0.04	2	8.8	0.1	1	23	1063	1086	1063	1086	0.97
31	54	0.00083	0.042	14.1	3.8	1	23	1090	1112	1090	1112	0.97
32	54	0.31	16	6.0	1.3	1	23	1118	1141	1118	1141	0.97
33	54	0.065	3.3	8.1	1.6	1	19	1147	1165	1147	1169	0.89
34	54	0.00098	0.05	13.8	1.4	1	23	1175	1198	1175	1198	0.97
35	54	0.0015	0.077	13.2	0.9	2	23	1210	1232	1209	1232	0.96
36	54	0.00017	0.0087	16.2	0.6	3	23	1246	1266	1244	1266	0.96
37	54	3.5e-05	0.0018	18.4	1.4	1	23	1272	1294	1272	1294	0.98
38	54	0.00081	0.041	14.1	0.7	1	23	1300	1322	1300	1322	0.97
39	54	1.4	71	3.9	0.2	1	17	1328	1344	1328	1345	0.90
40	54	0.079	4	7.8	0.4	1	23	1423	1446	1423	1446	0.91
41	54	0.00093	0.047	13.9	3.4	1	21	1451	1471	1451	1474	0.88
42	54	0.0035	0.18	12.1	0.4	1	23	1509	1531	1509	1531	0.96
43	54	0.0011	0.058	13.6	1.0	1	23	1537	1560	1537	1560	0.96
44	54	0.0004	0.02	15.1	4.7	1	23	1571	1593	1571	1593	0.97
45	54	1.2e-05	0.00058	19.9	1.2	3	23	1601	1621	1600	1621	0.98
46	54	3.9e-05	0.002	18.2	4.1	1	23	1627	1649	1627	1649	0.98
47	54	8.7e-07	4.4e-05	23.4	3.3	1	23	1655	1677	1655	1677	0.98
48	54	0.97	49	4.4	0.1	1	13	1683	1695	1683	1698	0.82
49	54	0.00047	0.024	14.8	2.2	2	23	1758	1779	1757	1779	0.97
50	54	0.1	5.2	7.5	0.3	1	23	1799	1821	1799	1821	0.98
51	54	0.0029	0.15	12.3	0.5	1	23	1825	1847	1825	1847	0.97
52	54	0.023	1.2	9.5	0.4	1	23	1853	1876	1853	1876	0.96
53	54	0.0022	0.11	12.7	0.2	1	23	1882	1904	1882	1904	0.96
54	54	0.0053	0.27	11.5	0.6	1	23	1910	1933	1910	1933	0.94

Sequence Information

Coding Sequence: ATGGTAGTTTGTGTGTGCTGCGACCCAGCGCTCAGTACCGTCACTCACTCGTGTTTTTGTTGTAGGGTTACCTCACTGttagagaaattaatttatggtcCTTCGATTTCGATCACGCCGGTAGGAGGCCGCCTGAAGAGCCCCAAGCGCAAGAAGAAGGGCAAAAAAAAGACGGCGAAGCGCGACGAGTTGATCGTCCAGGTGATCGACCCGAAGAAGGAGGGCCAAGAGGACGCTTCCAAGCAGGACGAGACCACGGAGGCGGTGCACTGCGAGGTCTGCGACGAGACCTACCCGAACAACGTGGCCTTCGCGCTGCACTCGGTCGACCACAACGGCGACAATAAGTACTCGTGCCACTTCTGCGAGTACCGCAACTCCTCCAAGTACCACATAGAGATGCACATCAAGGCGCACGAGGGCACCACCAAGTACAAGTGTGAGATCTGCCAGAAGGCCTTTACGGTCAGCACGCACGCCATCGAGCACAAGTACTTCCATACCGGCGAGAAGCCCTTCCAGTGCGAGATCTGCGGCAAGCACTTCATGTTCTCCTGGTTCTTGACCTCGCACAGGCGCACGCAGCACTGGGAGATCATGACGGGCACTCCGCTGGTCAAGTATGACTGTACCATTTGCAACAAGCACTACACTTCCTCGACGGGCTTGCGTAGGCACAATCTGAGCAAGCACAACGTGCTCGGGATAGATTCTTCGGTACTCTGTGATATTTGTGGGAAAAGACTCTCCAGCAAGGAGAAGTTGAAGTTCCATAGGAGGATCCATACGGGTTATAAGCCATACGCTTGCGAGATTTGCACCAAGAGTTTTTCCAGGAAAGAACAGCTCAAGGAGCACGAGAGGGTTCATACGGGGGAGAAGCCCTTCATTTGCAACTTCTGCGGTAAGGGGTTCACTCAGAGGTCGCCTTTAAGGATCCACGAGAGGACTCACACTGGTGAGAGGCCCTACATATGTAGAATCTGCGGGAAAGGgTATATTCCGGAATTTTTCGCCCCAATTGTAACCATAAAGGAGGTCGAGCAAAAGTCTGTAAGCAAACAGAGGCGCAAGAAGAAGAAGCCGGTTTCGGTGGACCCTTGCGACATCTGCGGCAAAACTTTCAAACAGAAGGCGGGCCTTAAAGACCACATGCAGATGCACAGCAAATACTTCCACTGCGAGAAGTGCGGCACCACGCACAAGCAGCTCTTGGATTACGTTACGCACATGCGCATCCACTCGGACAAGATGGATTTCCAGTGCATTTTCTGTGATTACGCCACGGACAACATAGTCGAGATCACGCAGCACCTCAACACTAGTCACGTGGAAGAAAAGCCGTACACTTGTGATATTTGCAACAAACATTTTCCCATCTTCAAATGGTACAAAGAACACGAGAACGACCACAACAACCTCAAGCCCTACCAGTGCGAtttatgtgataaaaatttcgcCTATTCCAGGTACCTGTCGGTGCACAAAGCTCTAGTCCACAAAACCAACCCCGATTTACACGAGTGCGTGGTTTGTAAAAAGCAGTACCAacataaaaacagtttaaaactGCACATGAACAGCCACACAGGCAACGTTTCTGTTTGCGACGTTTGCGGGAAGATCCTCTCGAGTAAGGAGAAGCTCAAGTTCCACCTGAGGACGCACACCGGGTACAAGCCTTTCTGTTGTACTTACTGCGGCAAGTGCTTCACGAAGAAGCCGATTCTAGTCGAACACATTCGCATTCACACCGGCGAGAAACCGTATGTGTGTCAGTATTGCATGAAAGCGTTCTCGCAGAGGTCCAGTTTGGTCATTCACATCAGAAGCCACACCGGAGAGAGGCCGTATGTTTGCTCTTCGTGTGGCAAGGGCTTCGTGGCCAAGGCCATGCTTAACATACATTTGAGGACGTGTAAAGGGCCGCCCGCGTCCAGAGAAGAAACCATAATAATCGACATAATCGAGGACTTGCGCGAAGACACCCCCCTGCTGAAGAAGCGCGAGCGCATCGTGTGCCACGAGTGCGGCAACTTGGTGACCTTGGGCTACCTGGCCACGCACATGTTCGAGATGCACTACAACTCCGACGTGGCCTCGCCGCGCATCCTCTGCTCGGAATGCGGCGTCCTCTGCAAGGACAAGCGCACCTACAAGAGCCACCAGCGCGTGCACTCCTTCAAGTGCGAGGAGTGCCCCGAGGTGTTCAAGAGCAAGGAGCTGCTGGAGGCGCACGCCGCCTCGCACCTGCGCGAGGAGTACGCCTGCGAGGAGTGCGAGACGCGCTTCGGCAGCGTCTTCGAGTTCATCGTCCACCGGGAGATGCACGAGAACTCCAGCAGGTTCGCCTGCGTCAAGTGTTCGTTCACCACCGGCAAGGCGCAGCTGCTGAAGCGCCATCTGAAGCAGCACGAGGGCCGGACGGTCTACACCTGCGAGGTCTGCGGCAAGCAGTTCTTCGGGAAGAGCCGGTTCGACCACCACATGGAGCTGCACGCGGGGATTAAGAAGTACTCGTGCGATCTGTGCGCGAAGAAGTTCTTGACGATGACGTATCTGAAGGTGCACCGAGATCTGAACCACCACAAGGAGCTGTACGGGTTCGAGATGACGTACGTGTGCCAGGAGTGCGGGAGGAAGTTCACCTTCGAGAGGAGTCTGAGGAGGCATCTGAGCACCATCCACAAGATCGGGGAGGACAGGACCGTTTCGTGTCCCGTCTGCTTCAAGAAGATTTCCAATAATTATAATCTTAAGGTGCACATGAGGATGCACACTGGCGAAAAGACGAACGTGTGCGAGAGCTGCGGGAAGGGGTATCACACCTACAAGTCGTACAAGAAGCACGTGCTCACCCACCATCCCGGGAAGGTACCTGTGCCTAAAACGGAGCCTAAGAGTTTGCCCAAAATTCTTGTAAAACTCGAAGACAGCAACGACGTGGAGCTGCGCTTAAAAGCGACGCGCGTGCTGCGTACGAGAACGATACTGAAAGAAGACAGCGACGAGGACTACAAACCGCCAACCGAACACCGCAGCCGAACGCGAAAGGGCAAAACGTGGACGTGCAGAAAATGCCTGGCCGAATACACCACCCGGAGAGCCCTAACGGAGCACAGGAAGACGCACAAGAGCGACGAACAAGAGCAGCAAACGTACAAATACGACTCCAACCTGGAGGTGTACGTGTGCAACACCTGCTCGGCCGAATTTCAAGACAAGGAGGAGGCGCAGGCGCACATCACCAAGAACCACATCGAAACCTACTCGTGCGACGACTGCGAGAAGAGGTTCAGCAACCCCTACAACTTCTCCTGCCACATGCAGCAGCACGACGAGAAGCAGATGTACAGCTGTCCGCTCTGCTCTTACATCACGCCGAGGAGGACGTGCATCCTCACCCACATCAACCGGATGCACTACCACAAGTTCTACTACTACTGCAAGACTTGCGGAAAAGGTTTCAACGACTCTCTCCGCTTCAAAGAGCACGACAACGAGCACCTGGGGGTGAAACCCTTCGTCTGCGTGGTGTGCACCAAGTCCTTCGTTTACTCGCGCTATCTCTTCCTCCACCAACTGCGCTACCACACAGTGGGAATCGAAGGGCAGCTCCTGAAGAACCAGTGCTCTATCTGCTTGAGGGTGTTCTCCAAGAACAACACGCTAGACAAGCACATGGCTTCCAGACACTCCACCACCCCTCTGGGACCCAGGGAGAAGAGGCATCTCTGCGACATCTGCGGCAAGGGTTTTGCCACCAACGACAAGATGAGCATACATTACAGGGTCCACACAGGCGTGAAGCCCTACACGTGCCAATACTGCAgcaaaagtttcattaaaaggGATTATTTGATAATGCACGAGAGGGTGCATACAGGGGAAAAACCCTATGTCTGTCGATTTTGCGGAAAGTGCTTCAACCAGGGGGCGCCGTTGAGGATCCACGTTAGGGGGCACACGGGCGAGAGGCCTTATATTTGCCAGTTTTGCAATACGGGGTTCATTTCGAAGGGTCAAATGAGGTCCCCCAAATCCAAAGGCAAAGTCACGTACAAAAACCCCTTCGTCTATACCAACTCCAAAATGGCGACGAAAAAGCACAAGAGGCGCCCCCCTCAGGAGAACAAGAGCATCAAATGGGCGTGCATGATTTGTTCGGACGTGAAAGAAGACAAACAGTCGTTGATCGACCACTACGAGTTCCACAAGAACGAAACGGAGAGCTTGGGGTTGGGGGACCACTCCAGCGGCGATTATTTCCTCTGTCCCGTCTGCCTAACCGACTTCACCTCGCTGAAAAGCTACGAAAAACACGTGGAGAACCAGCACGGGGAGAAACACTTCGCCTGCGACGACTGCAACAAGTTCTTCAAGAACTCCTACCAGCTGTGCATCCACAACTACAACATCCACTCCACCGACAAGCTGTACAGGTGCGTGCTGTGCAGCTTCACCACCAAGCACCTGAAGTCGCTGCGACCGCACCTCAAGCACAAACACGAAGACGAGTTCAAGTACAGGTGTGAGGTGTGCAATCGCGGGTTCGCTTCTGCCACGTGGTACGAAGAGCACAAGAACTTCCACACCGGCGCCATGCCCTTCGAGTGCGAGATCTGCTTCAAGAGCTTCCCTTACACCAGATATCTGATCGCGCACAAGAAGAACATGCACCCGGAAGTGCAGTCCGTCTCTCCCGCCAGCCACGAGTGCGACATCTGCCATAAGCGCTTCGCGCACAAGAAGAGCCTCGTTCTGCACGTTAGGGGGCACACCGGGGAGAATACGGTCCTGTGCGAAATGTGCGGGAAGAGCTTGTCCAGCTCGGAGCATCTCAAGCAGCACATCAGGATCCACACAGGGTACAAACCGCACACTTGTTCCGTCTGCGGGAAGAGTTTCGCCAAGAAGTGCAATCTCACCCTCCACGAGAGGGTGCACAGTGGGGAGAAGCCCTATGTCTGCAACACCTGCGGCAAATGCTTCTCGCAGAGATCCACGCTCGTCATACACCAAAGATACCACTCGGGGGAGAGGCCCTATGTCTGCCATCTTTGTAACCGGGGATTCGTTGCCAAAGGACTCCTCGGATCTCTAACTCTCGCATTTTTCAGGAAGTCCCAAAAGCGCAAGCGCGAAAGCGACGAAGAATATTTACCGAACGAAAAAAACCGTTCATCCGACGACGAAAACGAATCTCCCCGGAAGCGCCGCACGAGACCCGCTAACCGACAGAAGCGCAAATACGACGCCAACAAGACCTGGCCCTGCAAGAAGTGCAATCAAAGCTTCCAAACTTTGCGCTTGCTGCGCTCTCATCGCAAAACCCACATTTCTGAGGACGTCGTGGAAGAACACACCTACAAATTCGACGAGATCCAGGAGATATACATCTGCAACACTTGCTCGGCTGAGTACCAGGAGAAAGAGGAGATCGAGAAGCATCTTAAAACCCACGAGGAAGTGTTCGAGTGCTCGATTTGCCAGGAGAAGTTCCAGAAGGCGTACAATTTCGGCACGCACATGGTGATACACAGCGAGGATAAGCTGTTCAGGTGCCCCCAGTGCACCTACAAAACCCCCAAGCGTACCGGCCTTCTCATCCACATCAACTACGTCCACTTGAGGAAGTTTTACTACGTCTGCTCCACCTGCGGGAAAGGTTTTAACGACGTGGTCCTCTTCAAAGAGCACGAGAACGAGCATTTAGGAGTGCGCCCCTTCATCTGCGTGGTGTGCAACAAGGACTTCGCCTACTCCAGATATCTCCTCACCCACCAGGTGCGCTACCACAGGGTGGGGATTGACGGCAAACTCCTCCCCAATCAGTGCAGTGTTCAGCAGCTCAGGGTTTTCTAA
Protein Sequence: MVVCVCCDPALSTVTHSCFCCRVTSLLEKLIYGPSISITPVGGRLKSPKRKKKGKKKTAKRDELIVQVIDPKKEGQEDASKQDETTEAVHCEVCDETYPNNVAFALHSVDHNGDNKYSCHFCEYRNSSKYHIEMHIKAHEGTTKYKCEICQKAFTVSTHAIEHKYFHTGEKPFQCEICGKHFMFSWFLTSHRRTQHWEIMTGTPLVKYDCTICNKHYTSSTGLRRHNLSKHNVLGIDSSVLCDICGKRLSSKEKLKFHRRIHTGYKPYACEICTKSFSRKEQLKEHERVHTGEKPFICNFCGKGFTQRSPLRIHERTHTGERPYICRICGKGYIPEFFAPIVTIKEVEQKSVSKQRRKKKKPVSVDPCDICGKTFKQKAGLKDHMQMHSKYFHCEKCGTTHKQLLDYVTHMRIHSDKMDFQCIFCDYATDNIVEITQHLNTSHVEEKPYTCDICNKHFPIFKWYKEHENDHNNLKPYQCDLCDKNFAYSRYLSVHKALVHKTNPDLHECVVCKKQYQHKNSLKLHMNSHTGNVSVCDVCGKILSSKEKLKFHLRTHTGYKPFCCTYCGKCFTKKPILVEHIRIHTGEKPYVCQYCMKAFSQRSSLVIHIRSHTGERPYVCSSCGKGFVAKAMLNIHLRTCKGPPASREETIIIDIIEDLREDTPLLKKRERIVCHECGNLVTLGYLATHMFEMHYNSDVASPRILCSECGVLCKDKRTYKSHQRVHSFKCEECPEVFKSKELLEAHAASHLREEYACEECETRFGSVFEFIVHREMHENSSRFACVKCSFTTGKAQLLKRHLKQHEGRTVYTCEVCGKQFFGKSRFDHHMELHAGIKKYSCDLCAKKFLTMTYLKVHRDLNHHKELYGFEMTYVCQECGRKFTFERSLRRHLSTIHKIGEDRTVSCPVCFKKISNNYNLKVHMRMHTGEKTNVCESCGKGYHTYKSYKKHVLTHHPGKVPVPKTEPKSLPKILVKLEDSNDVELRLKATRVLRTRTILKEDSDEDYKPPTEHRSRTRKGKTWTCRKCLAEYTTRRALTEHRKTHKSDEQEQQTYKYDSNLEVYVCNTCSAEFQDKEEAQAHITKNHIETYSCDDCEKRFSNPYNFSCHMQQHDEKQMYSCPLCSYITPRRTCILTHINRMHYHKFYYYCKTCGKGFNDSLRFKEHDNEHLGVKPFVCVVCTKSFVYSRYLFLHQLRYHTVGIEGQLLKNQCSICLRVFSKNNTLDKHMASRHSTTPLGPREKRHLCDICGKGFATNDKMSIHYRVHTGVKPYTCQYCSKSFIKRDYLIMHERVHTGEKPYVCRFCGKCFNQGAPLRIHVRGHTGERPYICQFCNTGFISKGQMRSPKSKGKVTYKNPFVYTNSKMATKKHKRRPPQENKSIKWACMICSDVKEDKQSLIDHYEFHKNETESLGLGDHSSGDYFLCPVCLTDFTSLKSYEKHVENQHGEKHFACDDCNKFFKNSYQLCIHNYNIHSTDKLYRCVLCSFTTKHLKSLRPHLKHKHEDEFKYRCEVCNRGFASATWYEEHKNFHTGAMPFECEICFKSFPYTRYLIAHKKNMHPEVQSVSPASHECDICHKRFAHKKSLVLHVRGHTGENTVLCEMCGKSLSSSEHLKQHIRIHTGYKPHTCSVCGKSFAKKCNLTLHERVHSGEKPYVCNTCGKCFSQRSTLVIHQRYHSGERPYVCHLCNRGFVAKGLLGSLTLAFFRKSQKRKRESDEEYLPNEKNRSSDDENESPRKRRTRPANRQKRKYDANKTWPCKKCNQSFQTLRLLRSHRKTHISEDVVEEHTYKFDEIQEIYICNTCSAEYQEKEEIEKHLKTHEEVFECSICQEKFQKAYNFGTHMVIHSEDKLFRCPQCTYKTPKRTGLLIHINYVHLRKFYYVCSTCGKGFNDVVLFKEHENEHLGVRPFICVVCNKDFAYSRYLLTHQVRYHRVGIDGKLLPNQCSVQQLRVF

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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