Basic Information

Insect: Chloroclystis v-ata
Gene Symbol: -
Assembly: GCA_963691955.1
Location: OY829895.1:410839-428330[-]

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 39 2.9 2e+02 3.1 5.8 1 23 336 359 336 359 0.93

2 39 0.00025 0.018 15.9 0.5 2 23 906 927 905 927 0.95

3 39 1.3 91 4.2 0.1 1 16 932 947 932 949 0.80

4 39 1.3 91 4.2 0.1 1 16 966 981 966 983 0.80

5 39 1.3 91 4.2 0.1 1 16 1000 1015 1000 1017 0.80

6 39 1.3 91 4.2 0.1 1 16 1034 1049 1034 1051 0.80

7 39 1.3 91 4.2 0.1 1 16 1068 1083 1068 1085 0.80

8 39 1.3 91 4.2 0.1 1 16 1102 1117 1102 1119 0.80

9 39 1.3 91 4.2 0.1 1 16 1136 1151 1136 1153 0.80

10 39 1.3 91 4.2 0.1 1 16 1170 1185 1170 1187 0.80

11 39 1.3 91 4.2 0.1 1 16 1204 1219 1204 1221 0.80

12 39 1.3 91 4.2 0.1 1 16 1238 1253 1238 1255 0.80

13 39 1.3 91 4.2 0.1 1 16 1272 1287 1272 1289 0.80

14 39 1.3 91 4.2 0.1 1 16 1306 1321 1306 1323 0.80

15 39 1.3 91 4.2 0.1 1 16 1340 1355 1340 1357 0.80

16 39 1.3 91 4.2 0.1 1 16 1374 1389 1374 1391 0.80

17 39 1.3 91 4.2 0.1 1 16 1408 1423 1408 1425 0.80

18 39 1.4 94 4.2 0.1 1 16 1442 1457 1442 1459 0.79

19 39 1.3 91 4.2 0.1 1 16 1476 1491 1476 1493 0.80

20 39 1.3 91 4.2 0.1 1 16 1510 1525 1510 1527 0.80

21 39 1.3 91 4.2 0.1 1 16 1544 1559 1544 1561 0.80

22 39 1.3 91 4.2 0.1 1 16 1578 1593 1578 1595 0.80

23 39 1.3 91 4.2 0.1 1 16 1612 1627 1612 1629 0.80

24 39 1.3 91 4.2 0.1 1 16 1646 1661 1646 1663 0.80

25 39 1.3 91 4.2 0.1 1 16 1680 1695 1680 1697 0.80

26 39 1.3 91 4.2 0.1 1 16 1714 1729 1714 1731 0.80

27 39 1.3 91 4.2 0.1 1 16 1748 1763 1748 1765 0.80

28 39 1.3 91 4.2 0.1 1 16 1782 1797 1782 1799 0.80

29 39 1.3 91 4.2 0.1 1 16 1816 1831 1816 1833 0.80

30 39 1.3 91 4.2 0.1 1 16 1850 1865 1850 1867 0.80

31 39 1.3 91 4.2 0.1 1 16 1884 1899 1884 1901 0.80

32 39 1.3 91 4.2 0.1 1 16 1918 1933 1918 1935 0.80

33 39 1.3 91 4.2 0.1 1 16 1952 1967 1952 1969 0.80

34 39 1.3 91 4.2 0.1 1 16 1986 2001 1986 2003 0.80

35 39 1.3 91 4.2 0.1 1 16 2020 2035 2020 2037 0.80

36 39 8.2e-06 0.00056 20.6 0.6 1 23 2063 2086 2063 2086 0.96

37 39 1.1e-06 7.9e-05 23.3 1.4 1 23 2092 2114 2092 2114 0.99

38 39 2.3e-05 0.0016 19.2 3.1 1 23 2120 2142 2120 2142 0.99

39 39 0.0062 0.43 11.5 3.5 1 23 2148 2170 2148 2170 0.91

#	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	39	2.9	2e+02	3.1	5.8	1	23	336	359	336	359	0.93
2	39	0.00025	0.018	15.9	0.5	2	23	906	927	905	927	0.95
3	39	1.3	91	4.2	0.1	1	16	932	947	932	949	0.80
4	39	1.3	91	4.2	0.1	1	16	966	981	966	983	0.80
5	39	1.3	91	4.2	0.1	1	16	1000	1015	1000	1017	0.80
6	39	1.3	91	4.2	0.1	1	16	1034	1049	1034	1051	0.80
7	39	1.3	91	4.2	0.1	1	16	1068	1083	1068	1085	0.80
8	39	1.3	91	4.2	0.1	1	16	1102	1117	1102	1119	0.80
9	39	1.3	91	4.2	0.1	1	16	1136	1151	1136	1153	0.80
10	39	1.3	91	4.2	0.1	1	16	1170	1185	1170	1187	0.80
11	39	1.3	91	4.2	0.1	1	16	1204	1219	1204	1221	0.80
12	39	1.3	91	4.2	0.1	1	16	1238	1253	1238	1255	0.80
13	39	1.3	91	4.2	0.1	1	16	1272	1287	1272	1289	0.80
14	39	1.3	91	4.2	0.1	1	16	1306	1321	1306	1323	0.80
15	39	1.3	91	4.2	0.1	1	16	1340	1355	1340	1357	0.80
16	39	1.3	91	4.2	0.1	1	16	1374	1389	1374	1391	0.80
17	39	1.3	91	4.2	0.1	1	16	1408	1423	1408	1425	0.80
18	39	1.4	94	4.2	0.1	1	16	1442	1457	1442	1459	0.79
19	39	1.3	91	4.2	0.1	1	16	1476	1491	1476	1493	0.80
20	39	1.3	91	4.2	0.1	1	16	1510	1525	1510	1527	0.80
21	39	1.3	91	4.2	0.1	1	16	1544	1559	1544	1561	0.80
22	39	1.3	91	4.2	0.1	1	16	1578	1593	1578	1595	0.80
23	39	1.3	91	4.2	0.1	1	16	1612	1627	1612	1629	0.80
24	39	1.3	91	4.2	0.1	1	16	1646	1661	1646	1663	0.80
25	39	1.3	91	4.2	0.1	1	16	1680	1695	1680	1697	0.80
26	39	1.3	91	4.2	0.1	1	16	1714	1729	1714	1731	0.80
27	39	1.3	91	4.2	0.1	1	16	1748	1763	1748	1765	0.80
28	39	1.3	91	4.2	0.1	1	16	1782	1797	1782	1799	0.80
29	39	1.3	91	4.2	0.1	1	16	1816	1831	1816	1833	0.80
30	39	1.3	91	4.2	0.1	1	16	1850	1865	1850	1867	0.80
31	39	1.3	91	4.2	0.1	1	16	1884	1899	1884	1901	0.80
32	39	1.3	91	4.2	0.1	1	16	1918	1933	1918	1935	0.80
33	39	1.3	91	4.2	0.1	1	16	1952	1967	1952	1969	0.80
34	39	1.3	91	4.2	0.1	1	16	1986	2001	1986	2003	0.80
35	39	1.3	91	4.2	0.1	1	16	2020	2035	2020	2037	0.80
36	39	8.2e-06	0.00056	20.6	0.6	1	23	2063	2086	2063	2086	0.96
37	39	1.1e-06	7.9e-05	23.3	1.4	1	23	2092	2114	2092	2114	0.99
38	39	2.3e-05	0.0016	19.2	3.1	1	23	2120	2142	2120	2142	0.99
39	39	0.0062	0.43	11.5	3.5	1	23	2148	2170	2148	2170	0.91

Sequence Information

Coding Sequence: ATGGGGTTATTTGTTGTGGTTTACAGACAGGTGTCGGTCGGAGAGGCGGTGGGCGAGGGGCCGTGGGGCGAGGAGCTGCTGGACCCGGACACGCGCATCGCCGCCATCGTGGCGCAGCTCGCCAGCGCGCGCACGGCCCACAAGGTGACGAGAAATGAAGTGGACACCTCTGTTATTCTAGACAGCTCGATACGATTCAATGGACAGAACTTGCAATCAGTATCGATGGCGGGCTTACCGCCGCTGCAGACGTTACCGCCGCTGCAGGAGATGAAACGGTGCGGCGCGGACTGGTTCACTGACAAGAACAAACGGAACGAGTCCCTGACGGACTCGGACGGCGGGGCGGAgccggcgcgcggcgcggcggggcggggcgcggcggggggcggggcggggggcgcggcggcggcgcagcGGCAGGCCAGCCGCAAGAGCCTGCCGCACAAGAAGCGGATCTCGCGCAAACTGAAACGTAACGGAGGCAGCACGCCGCACCAGGAGCTGGTAGTCATAAACAACATAGACCCGGGTGTGACCCCGGTCGTGGAGGACGAGCAGATACTGCCGGACAACTACGTGTCCGTGCCCACTGCTGGCCACCACATACCGCACGAGGTCCGACCAATCCTTATCTGCCAGATTTGCGGCCAGTTCTACGGCGAGGAGCAACTCAAGTTCTTCCATCATCTCAAACAGCACTACGAGCCGCACCCCACCCTTATCATAGACAATCCCGTCTCGGATCTCGTCATAGACAAGATAGCAAACAATTGTATAGTGGATAACGTGGCACAACTGCCGGATTCGATCGTGGAGCTGTCTCTCGAGAACACGGCGCCCAAGGCCATGTACCAACCCATAGACAAGCACGCCAATATGCACCAAGTACCACTTAACTATAACAATATGAAGGTGCAATACACAATGGCGAGCATGGTCAAAGTACCTCCCGTGGAACCTGAGAAGGCGGACCTTTACGAGACCCTGGACAAGTTGGAGCTGTTCAACTGCGGCAAGTGCAGCAGGACCTTCCGCAAGCAGCGCCACTGCGACCAACACGTGCGGGAGGCTCACCCGCACCACACCAAGCTGGAAGACATGGGAGAGTTCAGCGAACCGGAAGACCTGATGGCCGGCATCCACGTGTGCGTCGGCGAATACGAGGTGCCGCTGCTGCACCTCACCGTCGACAACGGACACGTGCACCAGGACCACACCCGACACTGGTCAGACATTATCTACCTGTTACACGTCAGTCCATCCACGTGTGCGTCGGCGAATACGAGGTGCCGCTGCTGCACCTCACCGTCGACAACGGACACGTGCACCAGGACCACACCCGACACTGGTCAGACATTATCTACCTGTTACACGTCAGTCCATCCACGTGTGCGTCGGCGAATACGAGGTGGCGCTGCTGCACCTCACCGTCGACAACGGACACGTGCACCAGGACCACACCCGACACTGGTCAGACATTATCTACCTGTTACACGTCAGTCCATCCACGTGTGCGTCGGCGAATACGAGGTGCCGCTGCTGCACCTCACCGTCGACAACGGACACGTGCACCAGGACCACACCCGACACTGGTCAGACATTATCTACCTGTTACACGTCAGTCCATCCACGTGTGCGTCGGCGAATACGAGGTGCCGCTGCTGCACCTCACCGTCGACAACGGACACGTGCACCAGGACCACACCCGACACTGGTCAGACATTATCTACCTGTTACACGTCAGTCCATCCACGTGTGCGTCGGCGAATACGAGGTGCCGCTGCTGCACCTCACCGTCGACAACGGACACGTGCACCAGGACCACACCCGACACTGGTCAGACATTATCTACCTGTTACACGTCAGTCCATCCACGTGTGCGTCGGCGAATACGAGGTGCCGCTGCTGCACCTCACCGTCGACAACGGACACGTGCACCAGGACCACACCCGACACTGGTCAGACATTATCTACCTGTTACACGTCAGTCCATCCACGTGTGCGTCGGCGAATACGAGGTGCCGCTGCTGCACCTCACCGTCGACAACGGACACGTGCACCAGGACCACACCCGACACTGGTCAGACATTATCTACCTGTTACACGTACTCAAGAAACGGTCAGCCAATAGAACCTTGTGAAAACTGCAACGAATGTAACAGTGAAGCTTACTGCCCGCGTGCCCACAACACACACGGACACGACACACATCCACACGGCACACATCCACACGGCACACACCCACACGGCACACACTTACACGACACACATCCACACGACTCACACCCACACGACACACACCCACATGACACACACCCACATGACACACACCCACATGACACACACCCACATAACACACATACACACGAACACACACATGACACACACAGTCACAGCGCGCACGGTCCTGTGCAAGAAACGCAGCCGCTCAAAGTACTCAAAGAGGAAGTCCTCCGCCGAATACTTGAAACCGAAGTACCAGTGCCAACGTCAATATCATACAGTAACATAATTCACGAACAGAACGAGACGGAAGATCCTGGGCCTTCCCCCGAGGCCAACGAACAGAGCGAGACAGCAGACGTTACCGAGTCCGCTCTAACTGATCAATATGATAGGAaggatattaatataaatagagaGGAAAAGAAACGGAGTGAAGAAAAACACAATGCTAAGAGCGGGGGGAATGGAAAGCAGCGAAAACGTCTAGAATGCGGCGAATGCGGCCGCGTCTTCTCGCACCGCAACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGATAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACACGCGGCGCGCCAGCACGCCTGCACGCTGTGCGACAAGACCTTCCTCACGTCCGCCGCGCTCAAGGTAACTGCATACAGCCTCATGTACCACGCGCTCTCACAcgcgtatATTCACAAACGAGTTCACAATGGAGACAAACCTTACAAGTGTGATCTGTGCGGGCGGGATTTCAGGCAGTGGAGCGATCTCAAATACCACACCATATCTCTACATTCAAATGAGAAACAATTCAAATGCGATTTCTGTGGCAAGGAATTCGCGAGAAAATACTCGTTGAACGTACATCGACGGATCCACACCGGCGAAAGGAACTACAAGTGTAACTACTGCAGTAAGACGTTCAGCGCCGCCTCCTACCGGCAGACTCACATGAGGACGCATACCGGTGATCGCCCGTTCAAGTGTGAGCAATGCGAGAAATCCTTTCGTTCCGGTTTCGATCTCCGCCGCCACTGCCTCATTCACGATAGAGTCCGCAACCGATTCgacgaaaacaaaataaaagccAAGGACAAAAAAGCAAAACCGGACAAGGAAGAAAAAACACTAACTcctaaagaaataaaagaacAGCAACCTCCCCCATCACCGGAAACACCCAAACAGTCCCCAAAGAAGAAGACAAATAAAAAAGGCGCACCAAACgtaacaatacaaaatagagCACAGTTCAAAATAGAATACCCTGCCTCCGATCCTTTCGATGTGAAACCCACACTAACCAAATTCAAAGTCATCTACAACGAAAACGAATTCAAACCAGAGTATAAACCGCTACCTTACAGAGATAACGACAGAGATGTTGTCAGAACTGTTAGAGACGACAGACATTATAGAGAGACCACTGACGGGAAACTACAGATTTATACTCATATCGAAAAAGGGAAGGAATATAGTGGGTCTATTGTGTCCACACCTCAGGTGCTCGGAGATATCCGGCACTTAGATCGAGATGTTACGAGAGAAGTTAGAGGGGATAGCATGAACGGTGAAGCTGAGAATGTGTTTATAGAAAGGTTGACTGCTTTGTATAATGTGCCTGCATAA
Protein Sequence: MGLFVVVYRQVSVGEAVGEGPWGEELLDPDTRIAAIVAQLASARTAHKVTRNEVDTSVILDSSIRFNGQNLQSVSMAGLPPLQTLPPLQEMKRCGADWFTDKNKRNESLTDSDGGAEPARGAAGRGAAGGGAGGAAAAQRQASRKSLPHKKRISRKLKRNGGSTPHQELVVINNIDPGVTPVVEDEQILPDNYVSVPTAGHHIPHEVRPILICQICGQFYGEEQLKFFHHLKQHYEPHPTLIIDNPVSDLVIDKIANNCIVDNVAQLPDSIVELSLENTAPKAMYQPIDKHANMHQVPLNYNNMKVQYTMASMVKVPPVEPEKADLYETLDKLELFNCGKCSRTFRKQRHCDQHVREAHPHHTKLEDMGEFSEPEDLMAGIHVCVGEYEVPLLHLTVDNGHVHQDHTRHWSDIIYLLHVSPSTCASANTRCRCCTSPSTTDTCTRTTPDTGQTLSTCYTSVHPRVRRRIRGGAAAPHRRQRTRAPGPHPTLVRHYLPVTRQSIHVCVGEYEVPLLHLTVDNGHVHQDHTRHWSDIIYLLHVSPSTCASANTRCRCCTSPSTTDTCTRTTPDTGQTLSTCYTSVHPRVRRRIRGAAAAPHRRQRTRAPGPHPTLVRHYLPVTRQSIHVCVGEYEVPLLHLTVDNGHVHQDHTRHWSDIIYLLHVSPSTCASANTRCRCCTSPSTTDTCTRTTPDTGQTLSTCYTYSRNGQPIEPCENCNECNSEAYCPRAHNTHGHDTHPHGTHPHGTHPHGTHLHDTHPHDSHPHDTHPHDTHPHDTHPHDTHPHNTHTHEHTHDTHSHSAHGPVQETQPLKVLKEEVLRRILETEVPVPTSISYSNIIHEQNETEDPGPSPEANEQSETADVTESALTDQYDRKDININREEKKRSEEKHNAKSGGNGKQRKRLECGECGRVFSHRNSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKITAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAARQHACTLCDKTFLTSAALKVTAYSLMYHALSHAYIHKRVHNGDKPYKCDLCGRDFRQWSDLKYHTISLHSNEKQFKCDFCGKEFARKYSLNVHRRIHTGERNYKCNYCSKTFSAASYRQTHMRTHTGDRPFKCEQCEKSFRSGFDLRRHCLIHDRVRNRFDENKIKAKDKKAKPDKEEKTLTPKEIKEQQPPPSPETPKQSPKKKTNKKGAPNVTIQNRAQFKIEYPASDPFDVKPTLTKFKVIYNENEFKPEYKPLPYRDNDRDVVRTVRDDRHYRETTDGKLQIYTHIEKGKEYSGSIVSTPQVLGDIRHLDRDVTREVRGDSMNGEAENVFIERLTALYNVPA

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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