Basic Information

Insect: Acleris laterana
Gene Symbol: ZFX
Assembly: GCA_963966035.1
Location: OZ014464.1:9804827-9813241[+]

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 38 3.1e-05 0.0031 19.0 0.5 1 23 139 161 139 161 0.98

2 38 5e-05 0.005 18.3 4.2 1 23 167 189 167 189 0.98

3 38 0.00051 0.051 15.2 1.3 1 21 194 214 194 215 0.95

4 38 7.2e-05 0.0072 17.8 0.2 1 23 246 268 246 268 0.96

5 38 1.5e-05 0.0015 20.0 3.1 1 23 554 576 554 576 0.98

6 38 4.6e-06 0.00046 21.6 1.5 1 23 624 646 624 646 0.98

7 38 0.03 3 9.6 8.0 1 20 652 671 652 675 0.93

8 38 4.3e-06 0.00043 21.7 1.0 2 23 755 776 754 776 0.96

9 38 4.3e-05 0.0043 18.5 0.3 1 23 782 804 782 804 0.98

10 38 0.00014 0.014 17.0 0.6 1 20 810 829 810 832 0.92

11 38 0.0007 0.07 14.7 6.3 1 23 838 860 838 860 0.96

12 38 0.00032 0.032 15.8 0.7 1 23 1201 1223 1201 1223 0.97

13 38 1.9e-06 0.00019 22.8 0.3 1 23 1229 1251 1229 1251 0.98

14 38 0.00059 0.059 14.9 0.9 2 23 1287 1307 1286 1307 0.97

15 38 2.6e-05 0.0026 19.2 0.4 1 23 1313 1335 1313 1335 0.98

16 38 3.1e-05 0.0031 19.0 2.7 1 23 1341 1364 1341 1364 0.96

17 38 2.6e-05 0.0026 19.2 0.9 1 23 1443 1465 1443 1465 0.96

18 38 9.7e-05 0.0097 17.4 0.1 1 23 1471 1493 1471 1493 0.97

19 38 0.64 65 5.4 1.6 1 20 1499 1518 1499 1522 0.92

20 38 1.4e-05 0.0014 20.1 2.2 1 23 1542 1564 1542 1564 0.97

21 38 0.0017 0.17 13.5 2.4 1 23 1570 1592 1570 1592 0.97

22 38 0.21 21 6.9 1.7 1 20 1598 1617 1598 1621 0.92

23 38 3.2e-05 0.0032 18.9 1.4 1 23 1641 1663 1641 1663 0.97

24 38 2.8e-06 0.00028 22.3 0.6 1 23 1669 1691 1669 1691 0.98

25 38 0.00092 0.093 14.3 3.9 3 23 1699 1719 1698 1719 0.98

26 38 1.5e-05 0.0015 20.0 3.1 1 23 2056 2078 2056 2078 0.98

27 38 2e-05 0.002 19.6 0.7 2 23 2114 2134 2113 2134 0.97

28 38 0.00054 0.054 15.1 0.3 1 23 2140 2162 2140 2162 0.98

29 38 0.00066 0.066 14.8 7.5 1 23 2168 2191 2168 2191 0.92

30 38 9.7e-06 0.00097 20.6 2.0 1 23 2270 2292 2270 2292 0.97

31 38 5.4e-06 0.00054 21.4 0.2 1 23 2298 2320 2298 2320 0.97

32 38 0.17 17 7.2 0.5 1 20 2326 2345 2326 2349 0.92

33 38 6.4e-06 0.00064 21.1 0.5 1 23 2369 2391 2369 2391 0.98

34 38 4.7e-05 0.0047 18.4 0.9 1 23 2397 2419 2397 2419 0.98

35 38 0.013 1.3 10.7 2.4 1 23 2425 2448 2425 2448 0.95

36 38 6.2e-05 0.0062 18.0 2.4 1 23 2468 2490 2468 2490 0.97

37 38 5.2e-05 0.0052 18.3 0.5 1 20 2496 2515 2496 2518 0.92

38 38 0.0007 0.07 14.7 6.3 1 23 2524 2546 2524 2546 0.96

#	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	38	3.1e-05	0.0031	19.0	0.5	1	23	139	161	139	161	0.98
2	38	5e-05	0.005	18.3	4.2	1	23	167	189	167	189	0.98
3	38	0.00051	0.051	15.2	1.3	1	21	194	214	194	215	0.95
4	38	7.2e-05	0.0072	17.8	0.2	1	23	246	268	246	268	0.96
5	38	1.5e-05	0.0015	20.0	3.1	1	23	554	576	554	576	0.98
6	38	4.6e-06	0.00046	21.6	1.5	1	23	624	646	624	646	0.98
7	38	0.03	3	9.6	8.0	1	20	652	671	652	675	0.93
8	38	4.3e-06	0.00043	21.7	1.0	2	23	755	776	754	776	0.96
9	38	4.3e-05	0.0043	18.5	0.3	1	23	782	804	782	804	0.98
10	38	0.00014	0.014	17.0	0.6	1	20	810	829	810	832	0.92
11	38	0.0007	0.07	14.7	6.3	1	23	838	860	838	860	0.96
12	38	0.00032	0.032	15.8	0.7	1	23	1201	1223	1201	1223	0.97
13	38	1.9e-06	0.00019	22.8	0.3	1	23	1229	1251	1229	1251	0.98
14	38	0.00059	0.059	14.9	0.9	2	23	1287	1307	1286	1307	0.97
15	38	2.6e-05	0.0026	19.2	0.4	1	23	1313	1335	1313	1335	0.98
16	38	3.1e-05	0.0031	19.0	2.7	1	23	1341	1364	1341	1364	0.96
17	38	2.6e-05	0.0026	19.2	0.9	1	23	1443	1465	1443	1465	0.96
18	38	9.7e-05	0.0097	17.4	0.1	1	23	1471	1493	1471	1493	0.97
19	38	0.64	65	5.4	1.6	1	20	1499	1518	1499	1522	0.92
20	38	1.4e-05	0.0014	20.1	2.2	1	23	1542	1564	1542	1564	0.97
21	38	0.0017	0.17	13.5	2.4	1	23	1570	1592	1570	1592	0.97
22	38	0.21	21	6.9	1.7	1	20	1598	1617	1598	1621	0.92
23	38	3.2e-05	0.0032	18.9	1.4	1	23	1641	1663	1641	1663	0.97
24	38	2.8e-06	0.00028	22.3	0.6	1	23	1669	1691	1669	1691	0.98
25	38	0.00092	0.093	14.3	3.9	3	23	1699	1719	1698	1719	0.98
26	38	1.5e-05	0.0015	20.0	3.1	1	23	2056	2078	2056	2078	0.98
27	38	2e-05	0.002	19.6	0.7	2	23	2114	2134	2113	2134	0.97
28	38	0.00054	0.054	15.1	0.3	1	23	2140	2162	2140	2162	0.98
29	38	0.00066	0.066	14.8	7.5	1	23	2168	2191	2168	2191	0.92
30	38	9.7e-06	0.00097	20.6	2.0	1	23	2270	2292	2270	2292	0.97
31	38	5.4e-06	0.00054	21.4	0.2	1	23	2298	2320	2298	2320	0.97
32	38	0.17	17	7.2	0.5	1	20	2326	2345	2326	2349	0.92
33	38	6.4e-06	0.00064	21.1	0.5	1	23	2369	2391	2369	2391	0.98
34	38	4.7e-05	0.0047	18.4	0.9	1	23	2397	2419	2397	2419	0.98
35	38	0.013	1.3	10.7	2.4	1	23	2425	2448	2425	2448	0.95
36	38	6.2e-05	0.0062	18.0	2.4	1	23	2468	2490	2468	2490	0.97
37	38	5.2e-05	0.0052	18.3	0.5	1	20	2496	2515	2496	2518	0.92
38	38	0.0007	0.07	14.7	6.3	1	23	2524	2546	2524	2546	0.96

Sequence Information

Coding Sequence: ATGGGAGATGGTGAAGAAACCTCTGATTTAGTAGAATTTGAATCAGTTTACGTTGAACAGCGACATCAAGAAGATAGCCCTTTTGAAGCGGATAATGAGTTGGATGAAATTATACAGGAAGGTGAAGAAGAAAGCTCTGCTCGAGAAGAGTATGAGTCAGATCACGGTCAACACGGAATCCAAGAAGTTAGCTCTTTGCTCGTGAATAATAAACTGGATGACATCGAACAGTCTGATAATGAAGACAGCTCTGTTAATGCTGATATTGAATTACATCATGTTGAACAGgaaaaccacaaaaataacttttttgaagCAAAGAATGAACTGGATCCTGTATTACGATTGAATGTAGAAAAAAGCGGTCGCCTATATTTGGTCAAGCTTAAGCTGATTGAGGCTGGAACAAAACCTTACTCTTGTGATGTGTGTAAGAAAGCGTTTATGTTACGCTCAAGTCTGATCACGCATATGCGGATTCACTCCGGGGGAGACCCGTATTCCTGTGATATCTGTAATCAGAATTTTAAAGACCACAGTACTTTTACTTCTCACATGCGTAGTCACACGAAAATACCGTTCTCATGCGAGATTTGTCACCAAGCTTTTAGGCAACACTCTGCTCTAGCCAATCATAAACGTTCTCGGACATGCAAAATTAGTCATGAACAGAATATGGAAAAATTAAGTTTAAGAAAACCAAAATTGACATGCAGTGCGGAGCCCGCTAAATCATATCTATGTGATATATGCGGGAAACAGTTCGTCGGCAGGTCTAGTTTAAGAGAGCATGTTTTGACTCACACGGAACATCTACCTCACCTAAGATTATCGAACCATATGCAAATTCACAGGCCGGAAATCGTAAAAGATACGGTCGTTGAACAGGAAAAccttgaaagtattttttttcaagaggAGAATGAACTGGACGACTTTATACATGTAAATGAAATGGAAAGTTTGGCTCGAGAAGAGCGTGAGTTAACCCACATTCAACTTAGAGACACCGAAAACAGCTCATTGCTACTGGATAATGAGCTGGGTGATATTGAACAGGGAGATGAAGAAGGAAGCTCAGCCTTTGCAGAATCTGAATTAGATTACGTTGAACACGAAAACGAAGACGATAGCTATTTTCAAGATGGAAATGAGTTGGATATTGAACAGAGAAACAAAGAAGAAAGTCCTGCTCGGCTTGAATATAAGTTAGATCGCGTTGGACAAGGATATCTAGAAAACTGCTCTTTGCAGGAGGAGCATGAGACAAATAAGTTAAGACAGGGAAATGAAGAAAATCATCCTAAGCACGGAAATCAAGAGGATACCTGTTTTCAAACGGAGAATGAGCTAGATCTCATTGACCTGGGAAGTAAAGAAGTAAAGATAAAACACTTAGATCAAGGAAAGCAACAAGAAAACTCTATTCTAGATGAGAATAGGCTGAATCAGATTGAAAATATGGGTGAAGATAAAGATTCTGCTCTAGCAAGCCATGAATACATAAacaatgaaaatataaatagtttctcagtaaataataaccTGGATCAAGTGGAGCAAGAAAATAAAGAGGATATGTCCCAACCTGACGGCAGACTCCATGCAGGCAACACTTTCAACATTTCTCAAGTGCAGCTTCACCATGGACACAGTCCGTATTTCTGCGATCATTGTAAGAAGGCATTTTCAACTCGCAGTGACATAATTAATCACATGCGTAGTCACGCGGAACCCAAAGAAAAGTTATGCGAAACCAGTGGAAAACAGGTCGAACACCCTCTGCCGTTGTCTAAACACGAAATGACTGGCTCCCGACCGAACTATGGAAAAACGTGTGACATGCGGGCTCACTCTGGGAAAAAAACATACTCTTGTGACATCTGCAAAAAAGCGTTTAACCGGCCAAGAAATTTGAGAACACATAAGCTGACTCACTCTGGGTTAAAACCCCACGCATGTGATGTTTGTAAGAAAACGTTCAGGCGTCGTCACTGTTTAAAGAACCACATTTTGTGTGTCCACCCGGGGGGGCAACAGTTAAGAAACACATTAGATTTATCGAATCATAAATTAATAGACTCGAGCGAAAATGCAACTGTGATAGATAACCAAGAAAAGGCAGGAGATGGGTCCGTTCCGTCAAACTACAAGCTTGCGAAGAACGAGCTCCATAATGTTGACGGAGGAAGTGAGGAAGATAACACCCGGCGTGACGGCGGTCCCGTCGCTGGCAAACAGTTTTCTGTTGTGAAAGAACTTCCCTGCGACATCTGTAAAAAGGTGTTTAGGCATCGAAGTGAATTAATGCGGCATTTGCTAATTCACTCTGGGGAAAAACCATACTCTTGTAAAATCTGCCAAAAAGCGTTTAACACACCAGGAAGTTTGAAAGGACATGAGCTGACTCACTCTGGGGCGAAACCATACTCTTGTAAAATCTGCCAAAAAGCGTTTTACTCGCCAGGAAGTTTGAAAAGACATGAGCCGACTCACTCTGGGGTGAAACCCCACGCATGTGATGTGTGTAAGAAAGCGTTTACGTTCCACTCATGTTTATTGCGGCATATGAGAATTCACAAGTTGGATAAGGTAAAACGAGGAGATAAAGAAGGTAACTCCCAGCCTGGCAGTAGACCTCTCGCTTGTGACGTTTCCAAACAAGAGTTTAGGTACAGCTCAGTATTATTACACTCTGGGGAAAAACCGTACTGTTGCGACTTACAAGAAGATAGTTCTTTGCTAGTAAACAATAAGCTGGACGAACAGGCAGATAACGAAGAAAGCTCTGTTATTACTGAATTAGAGCTAGAGTACGTTGAACAGGAAAACCTCAAAAGTAGCCTATCTCAAGACGAGAATGATCTGGATCACTTTATACGAGTAAATGAAAAGGAAAGCTTGGCTCGAGAAGAGCGTGAGCCTACCCTCATTCAACTTAGAGACACAAACATCAGCTCATTGCTACCGGATAATGAACAGAGTGACATTGAACAGGGAGATCAAGAAGGAAGCACAGCCTTTGCAGAATTTGAACTAGATTACGTTGAACACGAAAACGAAGAAGATAGCCATTTTCAAGATGGAAATGAGTTGGATATTGAACAGAGAAACAACGAAGAAAGTTCTGCTCGGCTTGAATATAAGTTAGATCGCGTTGGACAAGGATATCTAGAAAACTGCTCTTTGCAGGAGGAGCATGAGACAAATAAGTTAAGACAGGGAAATGAAGAAAATCATCCTAAGCACGGAAATCAAGAGGATACCTGTTTTCAAACGGAGAATGAGCTAGATCTCATTGACCTGGGAAGTAAAGAAGTAAAGATAAATCAGTTAGATCAAGGAAAGCAACAAGAAAACTCTATTCTAGATGAGAATAGGCTGAATCAGATTGAAAATATGGGTGAAGATAAAGATTCTGCTCTAGCAAGCCATGAATACATAAACAATGAAAATGGAAATAGTTTCTCAGTAAAGAATAACCTGGATCAAGTGGAGCAAGAAAGTAAAGAGGATATGTCCCAACCTGACGGCAGTCTCCATGCTGGCGACTCCTTCTACAAAGCATCGGAGACCCTAGCACATTTGGATAAGAAACCCCACTCTTGCGGCATCTGTAGGAAAGCATTTAATATCCCCTCGAAATTAACGCAGCATATGCTTATTCACTCTGGGGGAAAGCCATTCTCCTGCGATATTTGTAAGGCAGCATTTTCGCGTCGTGGTCAATTAACTGCACACATGCGTAGTCACACGGAAACCAAAGAAAACTTATGTGTAACCAGTGGAAAACAGTTCGAACATCCTCTGACGTTGTCTAAACACAAATTGACTGGCTCCCGACCGAAGTATACAAAAACATGTGACATTTGCAACAAAAAGTTCGAAccctattatttaaaattgcatATGCGGGTTCACTCTGGGGAAAAACCATACTCTTGTGACATCTGCCAAAAAGCGTTTAACATGCCTGGAAATTTGAGAACACATAAGCTGACTCACTCTGGGTTAAAACCCTACGCATGTGATGTTTGTAAGAAAACGTTTAGGCGTCGTCACTATTTAAAGGACCACATTTTGCGTGTCCACCCGGGGGGGCAACAGTTAAGAAACACATCAGATTTATCGAATCATAAAAGAATAGACTCGAGCGAAAATGCAACTGTGATAGATAACCAAGAAAAGGCAGGAGATGGGTTCGTTCCGTCAAACTACAAGCTTGCGAAGAACGAGCTCCATAATGTTGACGGAGGAAGTGAGGAAGATAACACCCGGCGTGACGGCGGTCCCGTCGCTGGCAAACAGTTTTCTGTTGTGAAAGAACATCCCTGCCGCATCTGTGAGAAGGTGTTTAGGCAACAAAAGCAATTAATGCTGCATATGGCAGTTCACCCTGGGGAAAAACCATACTCTTGTGACATCTGCAAAAAAGCGTTTACCATACCAGGAAATTTGAGAATACATAAGCTAATTCACTCTGGGGCGAAACCCCACGCATGTGATGTGTGTATGAAAACGTTTAGGCTTCACCGAGATTTGAAGAGTCACATTTGGCGTGCTCACCCGGGGGAGCAACAGTTATCGAATCATAAATCAATGAACTCGAGCGAAAATGCGGAACATTCATGCGACGTCTGTAAGAAGGTGTTTAGGCAACGATATCAATTAACGCTGCATATGGAGGTTCACTCTGGGGAAAAACCATACTCCTGCGATGTCTGCCTGAAAGCGTTTAAGCGACGTTGTTATTTGAATGCGCATAAGCTAATTCACTCTTGGGCGAAACCCCACGCATGTGATGTGTGTATGAAAACGTTTAGGCTTCACCGAGAATTGAAGAGGCACATTTGGCGTGCTCACCCGGGGGAGCAACAGttaacaaatcaaaaatcaaaggACTCGAGCAAAAATGCGGAACATCCATGCGACGTCTGTAAGAAGGTGTTTACGCGTCGAAGTCGATTAATGCTGCATATGCTAATTCACTCTGGGGAAAAACCATACTCGTGTAAAATCTGCCAAAAAGCGTTTAACACACCAGGAAGTTTGAAAAGACATGAGCTGACTCACTCTAGGGCGAAACCCCCCGCATGTGATGTGTGTAAGAAAGCGTTTACGTTCCACTCATGTTTATTGCGGCATATGCAAATTCACAAGTTGGATAAGGTAAAACGAGGAAATAAAGAAGGTAACTCCCAGCCTGGCAGTAGACCTCTCGCTTGTGACGTTTCCAAACAAGAGTTTAGGTACAGCTCAGTATTATTACACTCTGGGGAAAAACCGTACTTACAAGAAGATAGTTCTTTGCTAGTAAACAATAAGCTGGACGAACAGGCAGATAACGAAGAAAGCTCTGTTATTACTGAATTAGAGCTAGAGTACGTTGAACAGGAAAACCTCAAAAGTAGCCTATCTCAAGACGAGAATGATCTGGATCACTTTATACGAGTAAATGAAAAGGAAAGCTTGGCTCGAAAAGAGCGTGAGCTTACCCTCATTCAACTTAGAGACACAAAAATCAGCTCATTGCTACCGGATAATGAACAGAGTGACATTGAACAGGGAGATGAAGAAGGAAGCACAGCCTTTGCAGAATTTGAACTAGATAACGTTGAACACGAAAACGAAGAAGATAGCCATTTTCAAGATGGAAATGAGTTGGATATTGAACAGAGAAACAACGAAGAAAGTTCTGCTCGGCTTGAATATAAGGTAGATCGCGTTGGACAAGGATATCAAGAAAACTGCTCTTTGCAGGAGGAGCATGAGACAAATAAGTTAAGACAGGGAAATGAAGAAAATCATCCTAAGCACGGAAATCAAGAGGATACCTGTTTTCAAACGGAGAATGAGCTAGATCTCATTGACCTGGGAAGTAAAGAAGTAAAGATAAATCACTTAGATCAAGGAAAGCAACAAGAAAACTGTATTCTAGATGAGAATAGGCTAAATCAGATTGAAAATATGGGTGAAGATAAAGATTCTGCTCTAGCAAGCCATGAATACATAAacaatgaaaatataaatagtttctCAGTAAAGAATAACCTGGATCAAGTGGAGCAAGAAAATAAAGAGGATATGTCCCAACCTGCCGGCAGACTCCACGCAGGCAACACTTTCAACATTTCTCAAGTGCAGCTTCACCATGGACACAATCCGTATTTCTGCGATCATTGTAAGAAGGCATTTTCAACTCGCAGTGACATAATTAATCACATGCGTAGTCACGCGGAACCCAAAGAAAAGTTATGCGAAACCAGTGGAAAACAGGTCGAACATCCTCTGCCGTTGTCTAAACACGAAATGACTGGCTCCCGACCGAACTATGGAAAAACATGTGACATTTGCAACAAAACGTTCGATCCCTCTTATTTAAAACTGCATATGCGGGTTCACTCTGGGGAAAAACCATACTCTTGTGAATTCTGCCAAAAAGCGTTTATGATACCAGGAAATTTGAGAAGACATGAGCTGACTCACTCTGGGGCGAAACCCCACGCATGTGATGTGTGTAAGAAAACGTTTAGGCATCGCCACCATCTAAAGAAGCACATTTTGGGTGTCCACCCGGGGGAGCAACAGTTAAGAAACACATCAGATTTATCGAATCATAAATTAATGGACTCGAGCGAAAATGCAAATGTTAAAGACAGTCAGAAAAAGGTAGGAGATGGGTTCGTTCCGTCAAACTACAAGCTTGCGAAGAACGAGTTCCAGAATGTTGACGGTGGAAGTGAGGAAGATAACACCCGGCGTGACGGCGGTCCCGTCGCTGGCAAACAGTTTTCTGTTGTGAAAGAACATCCCTGCCACATCTGTGAGAAGGTGTTTAGGCAACAAAAGCAATTAATGCTGCATATGGCAGTTCACCCTGGGGAAAAACCATACTCTTGTGACATCTGCAAAAAAGCGTTTACCAGTCCAGGAAATTTGAGAATACATAAGCTGATTCACTCTGGAGTGAAACCCCACGCATGTGATGTGTGTATGAAACCGTTTAGGCTTCGCCAAGATTTGAAGAGGCACATTTGGCGTGCTCACCCGGGGGAGCAACAGTTAACGAATCTTAAATCAATGAACTCGAGCGAAAATGCGAAATATTCATGCGACGTCTGTAAGAAGGTGTTTAGGCAACGAAGTCGATTAATTTGGCATATGCTAATTCACTCTGGGGAAAAACCATACTCTTGTGACATCTGCCAAAAAGCGTTTAACTTTCGACCAAATTTGAGAAGACATAAGCTGGTTCACTCTGGAGCGAAACCCCACGCATGTGATGTGTGTATGAAAACGTTTAGCCTTCGCCAACATTTAATGAGGCACATTTTGAGTGTTCACCCGGGAGAGAAACAGctaacaaatcaaaaatcaaaggACTCGAGTGAAAATGCGGAACATTCATGCGACGTCTGTAAGAAGGTGTTTAGGCGTCGAAGTCGATTAATGCTGCATATGCTAATTCACTCTGGGGCGAAACCATACTCGTGTAAAATCTGCCAAAAAGCGTTTAACACACCAGGAAGTTTGAAAAGACATGAGCCGACTCACTCTGGGGCGAAACCCCACGCATGTGATGTGTGTAAGAAAGCGTTTACGTTCCACTCATGTTTATTGCGGCATATGAGAATTCACAAGTTGGATAAGGTAAAACGAGGAAATAAAGAAGGTAACTCCCAGCCTGGCAGTAGACCTCTCGCTTGTGACGTTTCCAAACAAGAGTTTAGGTACAGCTCAGTATTATTACACTCTGGGGAAAAACCGTACTGTTGCGACTTACAAGAAGATAGTTCTTTGCTAGTTAACAATAAGCTGGACGAACAGGCAGATAACGAAGAAAGCTCTGTTATTACTGAATTAGAGCTAGAGTACGTTGAACAGGAAAACCTCAAAAGTAGCCTATTTCAAGACGAGAATGATCTGGATCACTTTATACGAGTGAATGAAAAGGAAAGCTTGGCTCGAGAAGAGCGTGAGCCTACCCTCATTCAACTTAGAGACACAAACATCAGCTCATTGCTACCGGATAATGAACAGAGTGACATTGAACAGGGAGATCAAGAAGGAAGCACAGCCTTTGCAGAATTTGAACTAGATTACGTTGAACACGAAAACGAAGAAGATAGCCATTTTCAAGATGGAAATGAGTTGGATATTGAACAGAGAAACAACGAAGAAAGTTCTGCTCGGCTTGAATATAAGGTAGATCGCGTTGGACAAGGATATCTAGAAAACTGCTCTTTGCAGGAGGAGCATGAGACAAATAAGTTAAGACAGGGAAATGAAGAAAATCATCCTAAGCACGGAAATCAAGAGGATACCTGTTTTCAAACGGAGAATGAGCTAGATCTCATTGACCTGGGAAGTAAAGAAGTAAAGATAAATCACTTAGATCAAGGAAAGCAACAATAA
Protein Sequence: MGDGEETSDLVEFESVYVEQRHQEDSPFEADNELDEIIQEGEEESSAREEYESDHGQHGIQEVSSLLVNNKLDDIEQSDNEDSSVNADIELHHVEQENHKNNFFEAKNELDPVLRLNVEKSGRLYLVKLKLIEAGTKPYSCDVCKKAFMLRSSLITHMRIHSGGDPYSCDICNQNFKDHSTFTSHMRSHTKIPFSCEICHQAFRQHSALANHKRSRTCKISHEQNMEKLSLRKPKLTCSAEPAKSYLCDICGKQFVGRSSLREHVLTHTEHLPHLRLSNHMQIHRPEIVKDTVVEQENLESIFFQEENELDDFIHVNEMESLAREERELTHIQLRDTENSSLLLDNELGDIEQGDEEGSSAFAESELDYVEHENEDDSYFQDGNELDIEQRNKEESPARLEYKLDRVGQGYLENCSLQEEHETNKLRQGNEENHPKHGNQEDTCFQTENELDLIDLGSKEVKIKHLDQGKQQENSILDENRLNQIENMGEDKDSALASHEYINNENINSFSVNNNLDQVEQENKEDMSQPDGRLHAGNTFNISQVQLHHGHSPYFCDHCKKAFSTRSDIINHMRSHAEPKEKLCETSGKQVEHPLPLSKHEMTGSRPNYGKTCDMRAHSGKKTYSCDICKKAFNRPRNLRTHKLTHSGLKPHACDVCKKTFRRRHCLKNHILCVHPGGQQLRNTLDLSNHKLIDSSENATVIDNQEKAGDGSVPSNYKLAKNELHNVDGGSEEDNTRRDGGPVAGKQFSVVKELPCDICKKVFRHRSELMRHLLIHSGEKPYSCKICQKAFNTPGSLKGHELTHSGAKPYSCKICQKAFYSPGSLKRHEPTHSGVKPHACDVCKKAFTFHSCLLRHMRIHKLDKVKRGDKEGNSQPGSRPLACDVSKQEFRYSSVLLHSGEKPYCCDLQEDSSLLVNNKLDEQADNEESSVITELELEYVEQENLKSSLSQDENDLDHFIRVNEKESLAREEREPTLIQLRDTNISSLLPDNEQSDIEQGDQEGSTAFAEFELDYVEHENEEDSHFQDGNELDIEQRNNEESSARLEYKLDRVGQGYLENCSLQEEHETNKLRQGNEENHPKHGNQEDTCFQTENELDLIDLGSKEVKINQLDQGKQQENSILDENRLNQIENMGEDKDSALASHEYINNENGNSFSVKNNLDQVEQESKEDMSQPDGSLHAGDSFYKASETLAHLDKKPHSCGICRKAFNIPSKLTQHMLIHSGGKPFSCDICKAAFSRRGQLTAHMRSHTETKENLCVTSGKQFEHPLTLSKHKLTGSRPKYTKTCDICNKKFEPYYLKLHMRVHSGEKPYSCDICQKAFNMPGNLRTHKLTHSGLKPYACDVCKKTFRRRHYLKDHILRVHPGGQQLRNTSDLSNHKRIDSSENATVIDNQEKAGDGFVPSNYKLAKNELHNVDGGSEEDNTRRDGGPVAGKQFSVVKEHPCRICEKVFRQQKQLMLHMAVHPGEKPYSCDICKKAFTIPGNLRIHKLIHSGAKPHACDVCMKTFRLHRDLKSHIWRAHPGEQQLSNHKSMNSSENAEHSCDVCKKVFRQRYQLTLHMEVHSGEKPYSCDVCLKAFKRRCYLNAHKLIHSWAKPHACDVCMKTFRLHRELKRHIWRAHPGEQQLTNQKSKDSSKNAEHPCDVCKKVFTRRSRLMLHMLIHSGEKPYSCKICQKAFNTPGSLKRHELTHSRAKPPACDVCKKAFTFHSCLLRHMQIHKLDKVKRGNKEGNSQPGSRPLACDVSKQEFRYSSVLLHSGEKPYLQEDSSLLVNNKLDEQADNEESSVITELELEYVEQENLKSSLSQDENDLDHFIRVNEKESLARKERELTLIQLRDTKISSLLPDNEQSDIEQGDEEGSTAFAEFELDNVEHENEEDSHFQDGNELDIEQRNNEESSARLEYKVDRVGQGYQENCSLQEEHETNKLRQGNEENHPKHGNQEDTCFQTENELDLIDLGSKEVKINHLDQGKQQENCILDENRLNQIENMGEDKDSALASHEYINNENINSFSVKNNLDQVEQENKEDMSQPAGRLHAGNTFNISQVQLHHGHNPYFCDHCKKAFSTRSDIINHMRSHAEPKEKLCETSGKQVEHPLPLSKHEMTGSRPNYGKTCDICNKTFDPSYLKLHMRVHSGEKPYSCEFCQKAFMIPGNLRRHELTHSGAKPHACDVCKKTFRHRHHLKKHILGVHPGEQQLRNTSDLSNHKLMDSSENANVKDSQKKVGDGFVPSNYKLAKNEFQNVDGGSEEDNTRRDGGPVAGKQFSVVKEHPCHICEKVFRQQKQLMLHMAVHPGEKPYSCDICKKAFTSPGNLRIHKLIHSGVKPHACDVCMKPFRLRQDLKRHIWRAHPGEQQLTNLKSMNSSENAKYSCDVCKKVFRQRSRLIWHMLIHSGEKPYSCDICQKAFNFRPNLRRHKLVHSGAKPHACDVCMKTFSLRQHLMRHILSVHPGEKQLTNQKSKDSSENAEHSCDVCKKVFRRRSRLMLHMLIHSGAKPYSCKICQKAFNTPGSLKRHEPTHSGAKPHACDVCKKAFTFHSCLLRHMRIHKLDKVKRGNKEGNSQPGSRPLACDVSKQEFRYSSVLLHSGEKPYCCDLQEDSSLLVNNKLDEQADNEESSVITELELEYVEQENLKSSLFQDENDLDHFIRVNEKESLAREEREPTLIQLRDTNISSLLPDNEQSDIEQGDQEGSTAFAEFELDYVEHENEEDSHFQDGNELDIEQRNNEESSARLEYKVDRVGQGYLENCSLQEEHETNKLRQGNEENHPKHGNQEDTCFQTENELDLIDLGSKEVKINHLDQGKQQ

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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