Basic Information

Insect: Aleochara bilineata
Gene Symbol: -
Assembly: GCA_003054995.1
Location: NBZA01001932.1:45576-56191[+]

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 41 0.035 4.1 8.0 0.1 1 20 296 315 296 317 0.94

2 41 0.00024 0.028 14.8 4.8 1 23 323 345 323 345 0.98

3 41 0.7 81 3.9 1.1 1 21 505 525 505 526 0.95

4 41 0.0045 0.53 10.8 0.6 2 23 533 555 533 555 0.95

5 41 0.01 1.2 9.7 1.7 3 23 561 581 560 581 0.97

6 41 0.0063 0.74 10.4 4.1 1 23 587 610 587 610 0.96

7 41 3.4e-06 0.0004 20.6 1.2 1 23 615 637 615 637 0.97

8 41 0.075 8.7 7.0 1.8 1 23 708 731 708 731 0.89

9 41 2.1 2.4e+02 2.4 4.8 1 23 825 848 825 848 0.96

10 41 0.0071 0.82 10.2 0.6 1 23 851 874 851 874 0.96

11 41 0.025 2.9 8.5 0.8 2 21 882 901 881 904 0.88

12 41 2.6 3e+02 2.1 1.2 3 23 908 929 907 929 0.96

13 41 0.062 7.2 7.2 0.2 1 23 963 986 963 986 0.96

14 41 0.11 13 6.4 0.0 2 21 1002 1021 1001 1022 0.92

15 41 0.0053 0.62 10.6 0.7 1 20 1363 1382 1363 1384 0.95

16 41 0.24 28 5.4 5.3 2 23 1386 1408 1385 1408 0.96

17 41 1.3 1.5e+02 3.1 0.1 3 23 1414 1435 1413 1435 0.87

18 41 1.7e-05 0.002 18.5 1.7 1 23 1484 1507 1484 1507 0.97

19 41 9.4e-05 0.011 16.1 0.9 1 23 1513 1535 1513 1535 0.98

20 41 0.33 39 4.9 0.7 2 21 1544 1563 1543 1564 0.93

21 41 0.00035 0.041 14.3 0.1 2 23 1571 1593 1570 1593 0.95

22 41 0.13 15 6.3 0.7 3 23 1599 1619 1598 1619 0.96

23 41 0.0027 0.31 11.5 0.0 1 23 1638 1660 1638 1660 0.98

24 41 1.3e-05 0.0015 18.8 2.9 1 23 1666 1688 1666 1688 0.98

25 41 0.2 24 5.6 5.7 1 23 1694 1717 1694 1717 0.96

26 41 0.0011 0.13 12.7 0.8 1 23 1754 1777 1754 1777 0.97

27 41 0.00056 0.066 13.7 0.3 1 23 1783 1805 1783 1805 0.98

28 41 3.5 4e+02 1.7 0.8 2 21 1814 1833 1813 1834 0.91

29 41 0.00083 0.096 13.1 0.9 2 20 1841 1859 1840 1861 0.93

30 41 0.39 45 4.7 0.4 3 23 1869 1889 1868 1889 0.96

31 41 0.0019 0.22 12.0 0.0 1 23 1908 1930 1908 1930 0.98

32 41 0.006 0.69 10.4 5.0 1 23 1936 1958 1936 1958 0.96

33 41 0.0007 0.082 13.4 6.5 1 23 1964 1987 1964 1987 0.97

34 41 1.3 1.6e+02 3.0 0.8 1 23 2020 2043 2020 2043 0.94

35 41 0.00067 0.078 13.4 1.2 1 23 2049 2072 2049 2072 0.95

36 41 3.7 4.3e+02 1.7 0.1 1 12 2080 2091 2080 2096 0.85

37 41 0.0064 0.74 10.3 1.1 3 23 2110 2131 2108 2131 0.94

38 41 0.00043 0.05 14.0 0.2 3 23 2137 2157 2136 2157 0.97

39 41 0.044 5.1 7.7 1.7 2 23 2181 2202 2180 2202 0.96

40 41 7.2e-05 0.0083 16.5 1.3 1 23 2208 2230 2208 2230 0.98

41 41 0.0046 0.54 10.8 3.2 1 23 2236 2259 2236 2259 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	41	0.035	4.1	8.0	0.1	1	20	296	315	296	317	0.94
2	41	0.00024	0.028	14.8	4.8	1	23	323	345	323	345	0.98
3	41	0.7	81	3.9	1.1	1	21	505	525	505	526	0.95
4	41	0.0045	0.53	10.8	0.6	2	23	533	555	533	555	0.95
5	41	0.01	1.2	9.7	1.7	3	23	561	581	560	581	0.97
6	41	0.0063	0.74	10.4	4.1	1	23	587	610	587	610	0.96
7	41	3.4e-06	0.0004	20.6	1.2	1	23	615	637	615	637	0.97
8	41	0.075	8.7	7.0	1.8	1	23	708	731	708	731	0.89
9	41	2.1	2.4e+02	2.4	4.8	1	23	825	848	825	848	0.96
10	41	0.0071	0.82	10.2	0.6	1	23	851	874	851	874	0.96
11	41	0.025	2.9	8.5	0.8	2	21	882	901	881	904	0.88
12	41	2.6	3e+02	2.1	1.2	3	23	908	929	907	929	0.96
13	41	0.062	7.2	7.2	0.2	1	23	963	986	963	986	0.96
14	41	0.11	13	6.4	0.0	2	21	1002	1021	1001	1022	0.92
15	41	0.0053	0.62	10.6	0.7	1	20	1363	1382	1363	1384	0.95
16	41	0.24	28	5.4	5.3	2	23	1386	1408	1385	1408	0.96
17	41	1.3	1.5e+02	3.1	0.1	3	23	1414	1435	1413	1435	0.87
18	41	1.7e-05	0.002	18.5	1.7	1	23	1484	1507	1484	1507	0.97
19	41	9.4e-05	0.011	16.1	0.9	1	23	1513	1535	1513	1535	0.98
20	41	0.33	39	4.9	0.7	2	21	1544	1563	1543	1564	0.93
21	41	0.00035	0.041	14.3	0.1	2	23	1571	1593	1570	1593	0.95
22	41	0.13	15	6.3	0.7	3	23	1599	1619	1598	1619	0.96
23	41	0.0027	0.31	11.5	0.0	1	23	1638	1660	1638	1660	0.98
24	41	1.3e-05	0.0015	18.8	2.9	1	23	1666	1688	1666	1688	0.98
25	41	0.2	24	5.6	5.7	1	23	1694	1717	1694	1717	0.96
26	41	0.0011	0.13	12.7	0.8	1	23	1754	1777	1754	1777	0.97
27	41	0.00056	0.066	13.7	0.3	1	23	1783	1805	1783	1805	0.98
28	41	3.5	4e+02	1.7	0.8	2	21	1814	1833	1813	1834	0.91
29	41	0.00083	0.096	13.1	0.9	2	20	1841	1859	1840	1861	0.93
30	41	0.39	45	4.7	0.4	3	23	1869	1889	1868	1889	0.96
31	41	0.0019	0.22	12.0	0.0	1	23	1908	1930	1908	1930	0.98
32	41	0.006	0.69	10.4	5.0	1	23	1936	1958	1936	1958	0.96
33	41	0.0007	0.082	13.4	6.5	1	23	1964	1987	1964	1987	0.97
34	41	1.3	1.6e+02	3.0	0.8	1	23	2020	2043	2020	2043	0.94
35	41	0.00067	0.078	13.4	1.2	1	23	2049	2072	2049	2072	0.95
36	41	3.7	4.3e+02	1.7	0.1	1	12	2080	2091	2080	2096	0.85
37	41	0.0064	0.74	10.3	1.1	3	23	2110	2131	2108	2131	0.94
38	41	0.00043	0.05	14.0	0.2	3	23	2137	2157	2136	2157	0.97
39	41	0.044	5.1	7.7	1.7	2	23	2181	2202	2180	2202	0.96
40	41	7.2e-05	0.0083	16.5	1.3	1	23	2208	2230	2208	2230	0.98
41	41	0.0046	0.54	10.8	3.2	1	23	2236	2259	2236	2259	0.96

Sequence Information

Coding Sequence: ATGGCCAGTCTTTCGGATATTATGCAGATGTGTCGGCTGTGCTTAGTCAAGGACCAAGTGAATCTACCTATTTTCGGTGCCGAAGGGGACATTCAACAGATTTTCCTCAAAATCACGGCGTGTCTGCCGGTGAAGGTGTCTCGCGAAGATAATCTACCGAAAAATATCTGTGATGGCTGCTCATATAAATTGGACATGTTGTATCAGTTTTGGAACACATCTTCCAATGCTGAGAAGCAACTAATCGATTGGCTCACCGCTGCCGGCGTTGACCCCAAAGACAAAGCACACGAGCCACTTGGACTCGCCACCCAAACTCAAAATGTGATTCTCAAAGAGGAGCCAGCCGCTGAACTGGATTCTATATCTCCTGACACGCAAAATTATATAATGCAACAGCAGGTACTCGCGTACAAGCCGGAAGAATACGATTCGTTTACAAAAGAAGCAACACAGATAACAACGCTGCAGCCACAGCCGAGTCCGAGTGTTGTACAAGTAAACAGTACAAATAAGAAGAAAGCCGTGGATTCGGCCGAAGATTCAGATGAGCATACGCCGGCGAAACGGCCGCGACGAGCCACGGCAAATACGTGGTCCGTGAAGGAGGATGATTCCGACGAAGACTATGACTTCGCGATGGACGCCGCAATTTCAAAGACTGAAGACGATAGTGACGAGGAGGACGATGAAgatggcgatgatgatgatgagggtGGTGCGCCAGGCCCCGATTTTGTGGCGGTCGAAGAAGACGCAGACCAACCTGGTCCCTCAGGTGTCAGTGGCAGCACATCAAGCGCACCATACGTACAAGGGGACGAAAGCATAAAGGATGAAGGCgaatttgaagaaatcttGATAGAAACAGTAGccgaaaataattatgaatgtgAAGTGTGTTCACTAGTATTCCCCGATCGCGAGTCATATTTAGAGCATCACGTGTCCCAATTCGGTTCCAGATTCTCTTGCTGTCGCTGCGGCGAGTCGTTCAAAAACTCAACGCAGTTATATCGGCATTACGATACGCATAAACTTGAGTCAGTTCAGTCGCAAGTCGTCTACGTTGACGAGACAGATCAAGAAACAGCAGATGACCTTGACAGCGATGAGCAGGTCAACGCTGTTATGAACATCCCTGGCGAAGTGAGCACGCGCCAGGAGGTGGTCTACGTGCTCGATGACAACCAATGTGTCAACGAGGTGATCATTGAGACGGACGACAGCACCGAGGAGCCACTTACTCCTGCTACCAAGGCTGATTTCTCTGTAGTTCAGGTGGACCATGGGTATATAATTCCTTCGCGGTACTCTAAAAAGCACGCCACTTTTGTTGAGTCTTCAGACGAAAGTGGTAACATTGTACTGCAGGTGCAATCTACGTCGCCCACGGAGTCTGTGTTGCTTTCCCCCAAGCAGTTGCCATCGCGACGTCGCCATGAAGTACCAGATTTTTCGGCTACCACCTACGAGGTCATTAACCCCACCGACGATGTTGAGATCGTCCATTACAAATGCCTGCGTTGCGAACAATTGTTCATTAACAAGTTTGTCTTCTTTCGGCACATTGAGAAGGGCAAATGTTACATCAACAGCTGTGACGTCTGCCCCATGACTTTCACGAAGAACACAGACTTTTATAATCATTATGTAACGTCGCACCCTGAACGCGCCATTTGCAACTTTTGTTTCCGAACTTTTATGTATGAGAAAAATGTGAAGGAGCATATGATGCGGCACTTGGACCAGTTTCGACACCGCTGCGACGAGTGCAACAAAGGGTTCTACACGGTGCGCGAGTATCGGAATCATTACAAGAACCGACACATGGGTCTGAGGCACGTTTGTTCGGAGTGCGGGCGCTCCTTTGCCGACGAGTACTATTTCAAGAAGCATATTGCGACGCACGGTCTACAACTTTCCACAGAAATTATTGAGTTCACGTGGTGTACGGCAAAGGAAGAGTACGAGTATtataaaaagaaatacaacTTAAAAGAGTGTATTGTATTCCTGGGCGAGTCCGAGCGGTTTGACGCGACGCGCTTCCGCTTTGTGCATTCGCAGATATCGTGCGAAGTCGCCATGAGCAATATTCTTCCGGCGCCGCGCATGAAGTACAAATGCGATTACTGCGAGATGAAATTCCGCGACCATGGTATCCTGATGCTTCACCGGTCAGAAAAGCACTCGGCGGAAGAGGATACACCCAAGTACGACGAAGAGGACAATTACAGCGACGCATGGACTGTAAAAGATTCCTCTTCCTCCTCAGGCGACTCGTTTCACCCCGACGATGAGCTGGATGAAGAGGATGAGCTGGAGGAAGACGATGAATTAGATGATCAGGAGGAACATTCCATAAATAAACGGCCACAGATGACTGAGAAATACGACGCAGATACCATAAAACAAATGTGCGCCTCCACTGCTAAGTTCAAAACTAGCGTGTGTACCACGAAGCGACTATTTACTTGTTTCAAGTGTTTGCAAACGTTCAACGTAAAATGTGAAATGCACGATCATTTGCTGAGTGTGCACTCCTTATACCCGTGCAAACTTTGTACTCAGGTGTTTTACTCTGATCAGAATGTGCAGAAGCATGTGAATTATGTACATAAGGGCCTCAAAGGCCTGTGGAAATGCACACAATGTACTATATCGTTTGCGCACTATGATGATTTGCTAGAGCACAATTTGGATAAACACAAACTGCTATGTAGGGTCTGTTTGCGCGATTTTACCGAAGTAGTGGAACTGGTGAAGCACAAGCATACGTTTCACAATGTACCCATGGAATGGTTGTGTACCTGTTGCGGAGTAACGGCTTTGTCTGTAGAGGATCTTGAGAATCATCAGCGTGGGCACATCTCAATTAGGGGATACATGTGTAGTGTATGCAAGAAGCTTATCGAGAGCAAGGAGGCGTACACGGAGCACATGCTCAATGAGCATTCGAATCCTATTAAGACTTCTTCAGTGAAgatctataaaaatataaaatgttccaAGTGTGATATTCTCTTCGCGGACAAGGGTGTTCTTGCCAAGCACGAAAAACTATGCACGATGCAACCTACAAAACCGAAGATACTTAACCACACGCAAGTACTGCCTACAGTTGCAGCTGTGAAGTCGAAGACTGACAAAATGGACGAGGGATATGTGATATCAAATGTGACGACTGTATGTCCAGAGGGTTCGACTTCCACCAGTCAGGTCGAAGCACCCAGATTTCTAGTCATCGAAGGGAATCAAGTTATGGTCGTTCCAACTGTAGCTCTTAAAGAGAACCAACCTTCCATTTCTCAGACACATACCATTACGTTGCCAAACAATCCTAATAGTGGAATTAATATTACCAACAATACGATTCACACCACGAATATTATCGGTTTTCCTGCTATGTCCAACCCACCTAAGCTATTTACCAAGGGACAAAAACCGCAAAccgaaataaataatgaaattcggATTTCATTTGGAGGTTCTCAAGCACCTCATACAAATACTCAAATCCAAGAAGCCAATACAAAGACTATAGAGGTTCAAGAAACACCAGCTGCCGAGGAGGAGGATGATTGTCAGATAATAAACGAAGAGATTTTTGAGATCAACAGTGATTCAGATTCCAGCCAAATAGAAGAAGTTAACGTACATAGTGAAACATCAACAGAGGCAAATATCGATACGCATCAAGAGACATCGAAATCTGAGACTGAATCTGAAAGTCGGCCTAAGATTTTTTTAAAGCCTCTCAGCCTACTGTTAGAGAAACCAGCGACTTCAGCAGTATCTGTGACTGAACCCAAGCCAGGATTTTTGTCTGAACCAATCTCAGTTAAAATGTCTGAACCATTCTCAGTTAAAATGTCTGAAcccaaaattataaatttgccTCAGAAGCCAAAATTGCGAGAAGTATCTCCGTCTTCTGTACCAGACTGTGTTAAACAGCGTCTTACTCAAAAAGCGGTAGCCACTCACAGTGAACCATTGATTTTGACGCCCATTCGAAATCCGAATGATAGTATAGGTTCTGGTACCGCGCATACACCAGAGTCATCTTCGGCGGAGATAGGGTTCAAATGCGGGTCGTGTGGGCTGATGTTCAAACATATGGAGAAACTGAAAATACATCAGGGCAAACTGAAATGTAAGGTGTGTGAGTACAGCTGCTGTAAGCTGAAGACTTTAGATGTCCACTATCGTGTCAAACACAACTATCAGAATCAGTGCATCACCTGCAACATTCAGTATACTACTCTTGACCTTCTACAAGAACACAACAAAGAGGTACATCTCTGTAAGAAATGCAACAAGTTCTACACGTCCATCGAGAAGCACGTCAGCATTAACAAGGAGGGTGTGCAGCCCCCGAAGTCTAAAAGTAGTCAAGCCGGGGTCGATGCATATTTAGAAACGATCTCCTGGACGGACACGCGTTTCAAGTGTCCGGTCTGCGGGCGCGTGTACACAGCGAAGCACTCTCTCAAGATGCACATGTACAAGGATCATGTATTTGATCGGCCATATGAATGCCATATATGCCGGATGGGCTTTGCGCTTAAGTATCTATTGAAGGCACACATGAAAGGCCATTCGGGGAAGCCAACCACACCACTCAAATGTCCCAAATGCCCGTTTTCTTCTGTGTACGAGACGAGCATCAAGCGGCATTTGTGCGTGGATACGAAACGCAACCTGGTGTGTGACTCCTGCGGCAAGACATTCTACATCAAAGCGAGCCTGCGCAGTCATATTGCAAAAGTACACGGGGGCACTAAGTTTTGCGAGATCTGCGGGGTAGTCTGTGAGAACGAGTACAGATACAAGTATCACATGGATTTGCACACGGGTCGGCAGGCCGAGCGGATcgagaagagaaagaaagcGAAACGTAAAGAATACGTGTGCGCACAATGCGGAAAGATCCTTATTACAAAAGTGGGATACGTGGAGCACATGAATATCCACAACGGAATCAAGCCATTTATGTGTCAATTTTGTGAGAAGTGCTTTACGACACGAGCGCAACTGGTGGTCCATGTACGGACACATACCGGAGAGAGGCCTTACGCCTGCAAGTTTTGCATGCAGGCGTTCACACAGAAGCATTGCCTGACCAGTCATTTGGCGAAGAAGCATGGGGATTTCCAAGAGACTCTTACCAAGAAGTCACTTGAGAATTACAATCAGAGCAGTCGGGCGGCCGTCGAGGCGTACCTGAAGACGCTGCCCTGGACGGCGAAGAGCTTCACCTGCTCGGTGTGCCCCATTGCCTACACGGCTAAGTACTCGCTGAAATACCACATGTACAAAAACCACGTGTTCGAAAAGCCCTTCGAGTGTGAGATTTGCAAGGCGCGATTCTCGCTGCAGGTGATGCTCAATTCGCACGTCAAGTCACACGAGATGAAGCCCACCGAGCTGCTCAAGTGCGAGAAGTGTCCATTCACTTCAATCTACGAGCGCAGCATCCGCAATCACCTCTGCGTGGACACGCAGCGTAACCTAGTTTGCGACCTCTGCGGAAAGACATTCTTCTCAAAGGCGAGTCTACGCATGCACGCCAAGTGCGTGCATGGGGGGCCCAAGTTTTGTGAGATCTGTGGAATCATGTGTGAGAACGTCTACAAGTACGACTACCACATGGACGTGCACAATGGTAGACAGGCAGAACGCATGATCAAGAGGAAAATGGTTAAGAAGAAGGAATTTGTATGCGCTCTTTGCGGCAAGGTACTCATGACCAAGCCGGGATACCAGGAGCACATGAACATTCACAACGGCATTAAGCCACATGCATGCGAGCTGTGCGAGAAGACGTTCACCTGCAAGAAATCTCTCATTGTCCATCGACGGACGCACACTGGCGAGCGGCCCTATATGTGTACGTTCTGCGGGCAGGCGTTCACCCAGAAACATTGCCTCACGAATCATTTGTCCAAGAAGCACAGCGACTTGCAAGTGACGATATTTATGTACAGAAATAGTGCAGAAGAAGTTGATGCGTATCTAAAATCGTTTCCATGTTCCGTATTGAAAAATGGTTTTCCTTGTCTTGCTTGTCCGCACGTCGCTAATAAGAAGAATGGTCTTAAACTGCACATGTACCGTAAGCATGTTTTCGAGAAACCCTACAAGTGCTCTTTTTGCGAGCGGAGTTTTGCATtggaatatttacttaaaaaacaCGTAAAGGATCTTCATGAAAAACAAAACCGTAAATTATACGAATGCGATAAATGTGACTACAAATCAAATCATTCCATCTTGGTCGCCCGATATCATTCGTGTCCTGGAAGCGAGAAAAAGCACCTTTGTGAAATTTgtaacaaaatattcaatggCGAATATGGATTGAAAATACATAAACTTAGGAAACACACTGGAGGAGGTATATGCGAAGGATGTGGATTTGCTTGTCCAGATAGGGCCACACTGCAAAGACATTTACAGATACataataagaatttattaGAAAGGGAGAAACTGTGGACGAAAGCAAGAAGGGAGAAAGAGAAGGAAACAAGTCAGTGCAGCTTGTGCCAAAAATGGTTGAGCTCCAAGGAATCTCTAAGACATCATATGGATTGGCACAAAGGACTTAAGAACTATATCTGCAACACATGTGGCAAGGCTTTTGGAAAACACACCACTTTGAAAGTGCACGAACGTGTTCACACAGGGGAGAAACCgtttgcatgtaaatattgtgGAAATAGATACACACAACGACACACTGTGAAGAGTCACATCGAGAAGCAGCATCCAGAGTGGAAACTCAGCGAAGAAAGCATAGGACAATTAATAGTTAAAAcatgttaa
Protein Sequence: MASLSDIMQMCRLCLVKDQVNLPIFGAEGDIQQIFLKITACLPVKVSREDNLPKNICDGCSYKLDMLYQFWNTSSNAEKQLIDWLTAAGVDPKDKAHEPLGLATQTQNVILKEEPAAELDSISPDTQNYIMQQQVLAYKPEEYDSFTKEATQITTLQPQPSPSVVQVNSTNKKKAVDSAEDSDEHTPAKRPRRATANTWSVKEDDSDEDYDFAMDAAISKTEDDSDEEDDEDGDDDDEGGAPGPDFVAVEEDADQPGPSGVSGSTSSAPYVQGDESIKDEGEFEEILIETVAENNYECEVCSLVFPDRESYLEHHVSQFGSRFSCCRCGESFKNSTQLYRHYDTHKLESVQSQVVYVDETDQETADDLDSDEQVNAVMNIPGEVSTRQEVVYVLDDNQCVNEVIIETDDSTEEPLTPATKADFSVVQVDHGYIIPSRYSKKHATFVESSDESGNIVLQVQSTSPTESVLLSPKQLPSRRRHEVPDFSATTYEVINPTDDVEIVHYKCLRCEQLFINKFVFFRHIEKGKCYINSCDVCPMTFTKNTDFYNHYVTSHPERAICNFCFRTFMYEKNVKEHMMRHLDQFRHRCDECNKGFYTVREYRNHYKNRHMGLRHVCSECGRSFADEYYFKKHIATHGLQLSTEIIEFTWCTAKEEYEYYKKKYNLKECIVFLGESERFDATRFRFVHSQISCEVAMSNILPAPRMKYKCDYCEMKFRDHGILMLHRSEKHSAEEDTPKYDEEDNYSDAWTVKDSSSSSGDSFHPDDELDEEDELEEDDELDDQEEHSINKRPQMTEKYDADTIKQMCASTAKFKTSVCTTKRLFTCFKCLQTFNVKCEMHDHLLSVHSLYPCKLCTQVFYSDQNVQKHVNYVHKGLKGLWKCTQCTISFAHYDDLLEHNLDKHKLLCRVCLRDFTEVVELVKHKHTFHNVPMEWLCTCCGVTALSVEDLENHQRGHISIRGYMCSVCKKLIESKEAYTEHMLNEHSNPIKTSSVKIYKNIKCSKCDILFADKGVLAKHEKLCTMQPTKPKILNHTQVLPTVAAVKSKTDKMDEGYVISNVTTVCPEGSTSTSQVEAPRFLVIEGNQVMVVPTVALKENQPSISQTHTITLPNNPNSGINITNNTIHTTNIIGFPAMSNPPKLFTKGQKPQTEINNEIRISFGGSQAPHTNTQIQEANTKTIEVQETPAAEEEDDCQIINEEIFEINSDSDSSQIEEVNVHSETSTEANIDTHQETSKSETESESRPKIFLKPLSLLLEKPATSAVSVTEPKPGFLSEPISVKMSEPFSVKMSEPKIINLPQKPKLREVSPSSVPDCVKQRLTQKAVATHSEPLILTPIRNPNDSIGSGTAHTPESSSAEIGFKCGSCGLMFKHMEKLKIHQGKLKCKVCEYSCCKLKTLDVHYRVKHNYQNQCITCNIQYTTLDLLQEHNKEVHLCKKCNKFYTSIEKHVSINKEGVQPPKSKSSQAGVDAYLETISWTDTRFKCPVCGRVYTAKHSLKMHMYKDHVFDRPYECHICRMGFALKYLLKAHMKGHSGKPTTPLKCPKCPFSSVYETSIKRHLCVDTKRNLVCDSCGKTFYIKASLRSHIAKVHGGTKFCEICGVVCENEYRYKYHMDLHTGRQAERIEKRKKAKRKEYVCAQCGKILITKVGYVEHMNIHNGIKPFMCQFCEKCFTTRAQLVVHVRTHTGERPYACKFCMQAFTQKHCLTSHLAKKHGDFQETLTKKSLENYNQSSRAAVEAYLKTLPWTAKSFTCSVCPIAYTAKYSLKYHMYKNHVFEKPFECEICKARFSLQVMLNSHVKSHEMKPTELLKCEKCPFTSIYERSIRNHLCVDTQRNLVCDLCGKTFFSKASLRMHAKCVHGGPKFCEICGIMCENVYKYDYHMDVHNGRQAERMIKRKMVKKKEFVCALCGKVLMTKPGYQEHMNIHNGIKPHACELCEKTFTCKKSLIVHRRTHTGERPYMCTFCGQAFTQKHCLTNHLSKKHSDLQVTIFMYRNSAEEVDAYLKSFPCSVLKNGFPCLACPHVANKKNGLKLHMYRKHVFEKPYKCSFCERSFALEYLLKKHVKDLHEKQNRKLYECDKCDYKSNHSILVARYHSCPGSEKKHLCEICNKIFNGEYGLKIHKLRKHTGGGICEGCGFACPDRATLQRHLQIHNKNLLEREKLWTKARREKEKETSQCSLCQKWLSSKESLRHHMDWHKGLKNYICNTCGKAFGKHTTLKVHERVHTGEKPFACKYCGNRYTQRHTVKSHIEKQHPEWKLSEESIGQLIVKTC

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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