Basic Information

Insect: Agapetus fuscipes
Gene Symbol: SNRK
Assembly: GCA_951799405.1
Location: OX637357.1:12445245-12466760[-]

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 34 4.9 3.3e+02 2.5 0.8 1 11 142 152 142 162 0.79

2 34 0.0015 0.1 13.6 1.8 1 23 173 196 173 196 0.96

3 34 0.45 30 5.8 1.4 2 21 211 230 210 231 0.92

4 34 0.024 1.6 9.8 2.1 2 23 460 481 459 481 0.97

5 34 0.21 14 6.9 4.9 1 23 486 509 486 509 0.95

6 34 0.00072 0.049 14.6 0.6 3 23 517 537 516 538 0.95

7 34 0.051 3.5 8.8 5.0 1 23 545 568 545 568 0.96

8 34 0.0017 0.12 13.4 4.6 1 23 575 597 575 597 0.98

9 34 1.5 1e+02 4.2 3.9 1 23 604 629 604 630 0.96

10 34 0.0042 0.28 12.2 3.9 1 23 639 661 639 661 0.92

11 34 0.00036 0.025 15.5 0.2 1 23 668 691 668 691 0.94

12 34 0.3 20 6.4 0.6 1 23 699 721 699 721 0.97

13 34 1.8e-05 0.0012 19.6 0.5 2 23 728 749 727 749 0.97

14 34 0.00011 0.0075 17.2 1.3 1 23 785 808 785 808 0.97

15 34 0.43 29 5.9 1.7 2 23 814 836 813 836 0.96

16 34 0.0091 0.62 11.1 3.1 1 23 843 866 843 866 0.96

17 34 0.019 1.3 10.2 0.6 1 23 872 895 872 895 0.95

18 34 0.0019 0.13 13.3 2.7 1 23 901 924 901 924 0.96

19 34 0.73 50 5.1 2.0 1 23 987 1009 987 1009 0.96

20 34 0.0011 0.077 14.0 1.7 1 23 1223 1246 1223 1246 0.95

21 34 0.83 57 5.0 1.9 1 23 1252 1276 1252 1276 0.96

22 34 0.011 0.76 10.9 2.6 1 23 1282 1304 1282 1304 0.98

23 34 0.0015 0.1 13.6 1.6 1 23 1308 1330 1308 1330 0.95

24 34 8.2e-05 0.0056 17.6 0.7 1 23 1336 1359 1336 1359 0.97

25 34 9.8 6.7e+02 1.6 7.0 1 23 1365 1388 1365 1388 0.93

26 34 0.16 11 7.2 2.9 1 23 1394 1417 1394 1417 0.98

27 34 0.013 0.86 10.7 1.2 1 23 1425 1448 1425 1448 0.97

28 34 3.4e-05 0.0023 18.8 0.2 1 23 1458 1480 1458 1480 0.97

29 34 0.0093 0.63 11.1 2.9 1 23 1512 1534 1512 1534 0.97

30 34 0.021 1.4 10.0 0.1 1 20 1542 1561 1542 1562 0.95

31 34 0.67 45 5.3 2.7 2 23 1571 1593 1570 1593 0.95

32 34 0.028 1.9 9.6 0.4 1 23 1599 1622 1599 1622 0.96

33 34 0.00098 0.067 14.2 3.0 1 23 1628 1651 1628 1651 0.96

34 34 0.00014 0.0097 16.8 2.4 1 23 1659 1682 1659 1682 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	34	4.9	3.3e+02	2.5	0.8	1	11	142	152	142	162	0.79
2	34	0.0015	0.1	13.6	1.8	1	23	173	196	173	196	0.96
3	34	0.45	30	5.8	1.4	2	21	211	230	210	231	0.92
4	34	0.024	1.6	9.8	2.1	2	23	460	481	459	481	0.97
5	34	0.21	14	6.9	4.9	1	23	486	509	486	509	0.95
6	34	0.00072	0.049	14.6	0.6	3	23	517	537	516	538	0.95
7	34	0.051	3.5	8.8	5.0	1	23	545	568	545	568	0.96
8	34	0.0017	0.12	13.4	4.6	1	23	575	597	575	597	0.98
9	34	1.5	1e+02	4.2	3.9	1	23	604	629	604	630	0.96
10	34	0.0042	0.28	12.2	3.9	1	23	639	661	639	661	0.92
11	34	0.00036	0.025	15.5	0.2	1	23	668	691	668	691	0.94
12	34	0.3	20	6.4	0.6	1	23	699	721	699	721	0.97
13	34	1.8e-05	0.0012	19.6	0.5	2	23	728	749	727	749	0.97
14	34	0.00011	0.0075	17.2	1.3	1	23	785	808	785	808	0.97
15	34	0.43	29	5.9	1.7	2	23	814	836	813	836	0.96
16	34	0.0091	0.62	11.1	3.1	1	23	843	866	843	866	0.96
17	34	0.019	1.3	10.2	0.6	1	23	872	895	872	895	0.95
18	34	0.0019	0.13	13.3	2.7	1	23	901	924	901	924	0.96
19	34	0.73	50	5.1	2.0	1	23	987	1009	987	1009	0.96
20	34	0.0011	0.077	14.0	1.7	1	23	1223	1246	1223	1246	0.95
21	34	0.83	57	5.0	1.9	1	23	1252	1276	1252	1276	0.96
22	34	0.011	0.76	10.9	2.6	1	23	1282	1304	1282	1304	0.98
23	34	0.0015	0.1	13.6	1.6	1	23	1308	1330	1308	1330	0.95
24	34	8.2e-05	0.0056	17.6	0.7	1	23	1336	1359	1336	1359	0.97
25	34	9.8	6.7e+02	1.6	7.0	1	23	1365	1388	1365	1388	0.93
26	34	0.16	11	7.2	2.9	1	23	1394	1417	1394	1417	0.98
27	34	0.013	0.86	10.7	1.2	1	23	1425	1448	1425	1448	0.97
28	34	3.4e-05	0.0023	18.8	0.2	1	23	1458	1480	1458	1480	0.97
29	34	0.0093	0.63	11.1	2.9	1	23	1512	1534	1512	1534	0.97
30	34	0.021	1.4	10.0	0.1	1	20	1542	1561	1542	1562	0.95
31	34	0.67	45	5.3	2.7	2	23	1571	1593	1570	1593	0.95
32	34	0.028	1.9	9.6	0.4	1	23	1599	1622	1599	1622	0.96
33	34	0.00098	0.067	14.2	3.0	1	23	1628	1651	1628	1651	0.96
34	34	0.00014	0.0097	16.8	2.4	1	23	1659	1682	1659	1682	0.94

Sequence Information

Coding Sequence: ATGGAAGTTAAGGATACAATTGTTATTGAGTTGTGCTCAACCTGCATAAACTGCAAACAAACATTTGACAGTGATGAGAAACTCATTGGGCATGACTGTAAAACTAAAATAGAAAATCTACTGTCTTCATGTGAGGGCCACGCAGCTGAGGACGCTAGTTATCAGTCAAATAATCCTTTGTCTACGTATGGTGATCACAGAACTAAAGATCCGGGCAATcttttacgcaatgctttatctAAATTTGGGGACCAAGCTTCAAAGGATTCTGGATACCAGGTAAATAGTTCTTTGCAGACGTGTGATGATACTAAAAATGAGTCCATGGACCTTCAGCCGAGTGGTGGCAGTTCAGACGGTCAGGAAACACAAATCAGAGTGGTTACAGATGATTTCCTGAAAGAAACTCCAccaatccaaccttacagctgCAAAATGTGTCACCAAAGGTTTCACTTGTTGCTCGATTACGTAACACACGAGAACAATGATTGTTTTAAGAGTTCAACTTCCGCTTACCGGTGCGACATTTGTAACAAAGAATTCAGAGAAAAGCGCTTTCTGAACATTCACAAAACGAGAATACACGAGAAACCAAAAACAACCAAACCCATGCAAACTGAAGGCCTGTATTGCGATAAATGCCGCAAGAGATGTTCATCCCTTGAGGAGTACGACAAGCACTTACAAGCCAAGGACACCCTAGTGTGCGTGATGTGCAGGTTTGCTTGCCACTCTACCATAGAGCTGAGAGCACACAAGGCCACGCACAAGTACCAATACAACTGCCAGCAATGCCATGACTTCAGATCCAACGACTTTGATTTGTTCCAAAGGCATCTGTCCACACACAGCGTGCATGAGGTGACCGTCAACGAGATCAAAGTTGAACAGAACATGGGGGATGATGATGAGAACCCTCTCCAGCTGCCGGAGGAGGCCCTGTACCTGAGCGATGCGTCGGCTCTGATCAAGACTGAACTTCCTATAGAAGGATACAGTCCGTCGCATGATGAAGAAGCCGACCTGCAGCGATGCTCAGTTGTCCTTGAAAAGTCAACAGGAAGAGCAAGAAGGACGAGAGTCAAAGTTGAAATGGACAGCGACGAGGAGGATAGGATGTGTAAGCGGAACATCAGGAAATCCAGGGATTCACTTCTGCGTGAAGTAAAACgtttgaagaagaagaataaattattaaagtatCACAGGTGCAATGTGTGTGAGTTTGGTTGTTGGGGCTGGTCGCTGTTCAGCGAGCACACGGCCACCCACTTCAAGTACAAGCACCTGCGCTGCGCCCACTGCAGCTACGCCTGCAACTTCAAGCCCGCGCTCATCTGTCATCTGTACAAGCACATGAACTGGACCTTGCTCaagtgcagcatgtgcaagaaCCAGTACACCACGGAGAAGGGCCTGAGGTACCACATGCAGCGCCACGATGCCAAGAGGTTCCCCTGCCGCAAGTGCAGCATGGCGTTCTTCACTCACCGGGAACTGATCAGGCATCACGAGAGGAGGCACACGAGCCACGAGAGGATCCTGTGTGACCGCTGCCCGCTGAGCTTCATCACCGCGGGACAGCTGCAGCGCCACGTGATGTCTCACCACAGCCTGCCCGGCCAGAGACACAAGTGCAGCGACTGCAGCTACTCCACCATGTTCTCATCCCAGCTGAAGAAGCACTACACGCGGCTGCACGCCGATGTCAAGAAGAGCTTCAGCTGCCACGAGTGCGGGCAGTCCTATAAACTCAAGTGCGACCTGAGCTCTCACATGCTCTCTCATCGTCCTGAATATGAACCTTACAGGTGTAAGAAGGATAGCTGTTCATTTAGGGCAAAGAAAAAGAAAGAACTCACGGAACACATGCGACAAGTCCACCACATGAGCAATCTGGAAATGCAAGGTCACGCGTGTCCACACTGCAAGAAgaggttcaacagatatcagcTGATGAAGCATTTGCTGGAGGCTCACTCGGATGTGGTTACCAAGTTTGAATGCAACGAATGTGGAGAAGTGTTTCCCAGAAAGAGTTTTGTGAGTCAACATATTCTGGCCAAACATCCGAAGACAGTAAACTTCCGCTACCCCTGCTTGGTCTGTGAAGAAGAATTCAACACCTCCGCAAGACTGACGTTCCACAAGAGGAAGCACTTGGAGCCCGAGTCCTTACCCTGCACCTTGTGCCCCAAGATATTCAAGTCCTCCTACAGCTTAACAGATCACTTGAAAActcatcaaaacaaaaacaacaacaagTACTGCTGCCAGGTGTGCAGCTTTAAGACTAACAAGGTTTACCTGCTGACGATGCATGATAGAATCCACAAAAATGAAACAATATTTCAATGCCCTAAGTGCCCGTTTAactttaatactttaaaaaatttgaaaactcaCAATCGCGTAATACACGAGGGAAAGAAGCTCAAGTGTGACGAGTGTGAGTATTCCTGTGCCAAGGGCTCCTACATGACGGTGCACAAGAAGCGCTGGCACAGCAACGAGGGCCTGACACACGAGTGCTCCATCTGCGGCACCAAGTGCGTGACCGAGGCCTTGCTCAACCGCCACAAGTACACCACACACAAGCACCTGCTGGCATTCAGGTGTAAGGACTGCGACTTCAAAAGCAGAGGAGCCAAAGAACTGAAGGTTCATGTCAACCTTAATCATGCTTTTGATCTGCAGCACGTCTGTAAAGAATGCAACATGAGATTCAAATCCAAGAAGCTGCTGCTCATGCACACCAACATCATGCATGTGAACGTTCAGCAGTACAAGTGCCAGCTCTGCATGTTTGCCTGCAGCTCGAGCAACGGCCTCGACATCCACAACAAGAGAATCCACACCGAGTCCAACAAGCAGTACTTGCTAGTGGAGGCCACCTTTGTGGAGGGGAACATCAGCCAGGAAGTGCCCGAGGGGCAGGCGCTCAACGTGGCCGTGTTCTCCTGCGAGCAGTGCACCTTTGTGTGCAACTCCCTGACGGAGTTCAACGACCACAAGGCCGTGCACTCGCTGCCCTTCTGCAGTGAGTGCAAGTGCACCCTACCCAGCCTGCTGCATTACCAGCTGCACATCTCCCAGCTGCACGGCGTGGGCCTCTTCAACAACAACCTGTACTACTGCAACCGCTGCGCCTTCTCCTGCAAAACCCTGCAGCACATGGAGACGCATAAGAATGATCATAAAACCGAAACATCGGTCATTAATGATTTTGATGATTTGATCACTTCAGATTTTATCCGGCAAGAACAAACAGAGGACAACAAGTGTGATGATTCTAGCGATGACGGCGTTGTGCTCAGTGACTACCATAAAGTAAGATCTGTGCGTAAGGCAGATTCAGATGTTTGTGAAGAGCCTGAAGCTGCCAATGCTGAATATGAGATCCCAATAGAGGAATTCCAAATGGAATTTGATAACGATTGTACAGATGAAGTGACTTATGACTCCAACATCAAAGAAGAAACATCTGAGTTCATTGATTTGGAAGAAAGCATAGAGAAGTATTGTGAAAAGAATTTCATGCTGGGGAAATTAATCAGCGAAGAGCCTGCTGGTGTCCTGCATCCTAGGATGAGCCAAAAAACAGCTCCCCCTGCAGAGACCAGCCTGTCCCCAAGCGATGGAGAGGAGGAAGGAAGCAGGGTATTCAAATGTCCGGAATGCAACAAAACTTTCTTAAAACGAAACAAATTGGAGAAGCACATTCTACTCAAACATTCTTCATCTGAATGGTTCACTTGCCGGTCTAAGCTTTGTGGTTATTTCACAAATAACGTTGAAGAATATCTGAAGCATACCAAAACACACAAACTGACAGGTCGATACAAGTGTGACCAGTGCCATTACGTTGGGGATAAGAAAGCCTCCCTGAAGAAGCACAAGGCCACCCACAGCAAGCCCTTCCTGTGCGAGGTGTGCAGCTACAACTGCAGCTCCCGCGACGGCCTCAACAAGCACATGAACATCCACAGGCCGCAGGGCAGGTTCCAGTGTGACTACTGCGAGCGCGTGTTCTCCCAGAGGCTCGCACTGGTCAAGCACATACAGAACAAACACTTGCCCAAGAAGCTGCACCCATGTCACCTCTGCGAGTACACTGCCAAGTCTGCCTTCTACTTAAATCACCATCGAGAGCTTTGCCattctaaacaaaataatttcaaatgtcataTTTGTCCAGATCACTTTCCAGCAAAAAGATTTTTACTAGAGCACATCAGAATGAAGCACAAAAAAGTCTCCCCTACACGGTTTCCGTGTCAGCGGTGTCATCGCAGctatgcaaacattgctcgtcTGGAGGAACACATGCAGAAGAGTCACACGAGCCTTGCTGAGCCAGAACCATCCTATGTATGTGAAACTTGCGACAAGCCATTCCGTTCTCCCATCCTGCTGAAGAACCATCAGGTGAGGCACACCAGCAACTACTTCTACTGTGCGCACTGTTCCTACAAGTCTCTGTTCAAATCCCGGCTGGCTGACCACCTGCAGAGGATGCACACCTTATCCTTCCCGTGCTCCAAGTGCAGCAAGAAGTTTGGCAGCAATAAGAAGCTCCAGCTACACTTCAAGCTGCATGACCACAAGCGGAATCGCTTCTTTGAATGCTCCGCTTGTGACACGTCATTCTCCAATGCGCAAGTACTGAGACGACACAAGGCCTTTTGTCAACAGAAAAAAAAGCAGGAGTGCAAACTGTGCAACTTCAAAACTCACCGACCATTTGATCTGAAGGTTCACTATGAGCGACAACACAGACAGGAGAAGAATTTTGTCTGTGACATCTGCGAGAACCCATATACATCCCGCACCCTGTTGAACCTGCACAAACTGAGAAGTCACAAGAATCTGAATCCATTCAGCTGCAGCCAGTGTGACTTTCAATGCAAGACTTGGAGTGATCTGAAGCGCCACGAGAATGTCAGTCACACTTCTGACGCAGACAGGCCGTTCCAGTGCCCGCACTGCTCCTACAAGTTCATACAGAAGCGACTTCTCCAGAGCCACATGACGGCGCTGCACAAAGATCTGCAGAAGTACGCCTGCAAGCATTGTAACTTTGCATGCAACTCCCTCAACGGGATAAACCTGCACTCCAAGAGACTTCACAATGCGTGTTGTGGGTGCAGTGTGATGCACCGCGGGGCGGGGGCGCCTGCAGGGGGGGGCGGGGGCGGCATGATCGCCGGCCTCTACGACCTGGAGGAGACCCTGGGCCGGGGACACTTCGCTGTGGTGAAGCTCGCACGACATGTGTTCACCGGAGAGAAAGTGGCCGTCAAGGTCATTGACAAGACAAAGCTGGATGAGATCTCGAAGGCGCATCTCTTCCAAGAGGTGCGTTGCATGAAGCTGGTTCAGCACCCCAATGTGGTGCGCCTGTACGAGGTGATCGACACCCAGACCAAACTGTACCTCATCCTGGAGCTGGGGGACGGCGGGGACCTGTACGACTACATCATGCGCCACGAGGCCGGCCTCTCTGAGAACCTGGCTAGGGACTACTTCAGGCAAATCGTCAGGGCCATCTCTTACTGCCACAGACTACATGTGGTGCACCGGGACCTGAAGCCGGAGAATGTGGTGTTCTTTGAGAAGCTGGGCATCGTGAAGCTGACAGACTTTGGGTTCAGCAACAAGTTCTGTCCGGGCCAGAAGCTGGACACCTCGTGCGGCAGCCTGGCGTACTCCGCACCCGAGATCCTGCTGGGGGACTCGTATGATGCCCCGGCGGTGGACGTGTGGTCCCTCGGGGTCATCCTGTACATGCTGGTGTGCGGGCACGCACCCTTCCAGGAGGCCAACGACAGCGAGACCCTCACCATGATCATGGACTGCAAGTACACTATCCCACAGCACGTGTCTGCAGAGTGCAAAAGATTGATTGGCAGTATGCTAGTTCGACAGCCAGAGAAGCGAGCTTCCCTATCTCAAATCTCCTCTGACCCGTGGGTGAGATCCTCAGAGCCGGCATCTGAAAGCAGCTCCCCCGAGGCCCTGATGGAAGACAACTTGCCGCTGGTCTCTAGGCAGCAGCTGTCCGAGGAGGACCACTCCCTGGTGGTGCAGAAGATGGTCAACGGGCAGATCGCCTCCAAGGAGCAGATCCTGGAGGCGCTGGACAAGAACGAGTACAACCACCTCACGGCCACCTACTACCTGCTGGCTGAGAGGAAGCTCCGAGCACACAGACAAGAGGAGAGAGCGTCTCGCCCCGAGCTGCTGGTGGTTGGAGGAGTCTCCCTGGACGGTATGGGGGACAACAAGGCCAGTGGTCTGCTGGTCCCCACGCAGCCTGTAGCGGGCATGCTGCTGGCCGTGCCCCGCACTCCCGGGGACCTGCCACAGGTACTTCACACTCATTACAGGTGGCTGCTGCATGGGCACATCAAGGCCAGTGGTCTGCTGGTCCCCACGCAGCCTGTAGCGGGCATGCTGCTGGCCGTGCCCCGCACTCCCGGGGACCTGCCACAGGTACTTCACACTCATTACAGGTGGCTGCTGCATGGGCACATCAAGGCCAGTGGTCTGCTGGTCCCCACGGAGCCTGTAGCGGGCATGCTGCTGGCCGTGCCCCGCACTCCCGGGGACCTGCCACAGGTACTTTACACTCATTACAGGTGGCTGCTGCATGGGCACATCAAAGCCAGTGGTCTGCTGGTCCCCACGCAGCCTGTAGCGGGCATGCTGCTGGCCGTGCCCCGCACTCCTGGGGACCTGCCACAGCGAGCGCGCAAGTGCAGCATAGTCCGCGAGGAGGACGACGACGAAGAAGCGAGCAGCAGTGGTCGGCGGGGCTCCCGCTCTGAGGGGCGCCTGCACCTCGCCCTGCAGGAGCGCCTGCCTGCCCTGCCTGCAGCAGCAGCCCCACAGGCACAGCCCAGCGGGGACCCCGATTGTCCCACACGACACACTCTCTCAGATAGAATAAACAAGGTGAACTTGGAAGAAGAGAACAAAAGAATGCACCTGGGCAGTGCGGGCATGGGCACCACTGGGAGCCCTGCCTGGCTGGCCTCCTTTGGGAAAAAGAACAACTGCTTAGGGGAGCAGGTGCGCCCCAAGTCTGCCATCGAGCCCACCCACACCACTGTCACCTACAGCGTGCCCAAGATAGTCAAGCCCAGCCTCAGCACAGGCAGGAGCTCCCTGCCGCTGCTGGGGGAGGACCAGGTGGCCATGAAGACCATCAGCGAGGCCGCCACCATCACCATCCCCATCAGGGGCAGCCCCCAGCCTGAGAGCTTGCCCCCGGGACACAAGACCATGCCCTCTCCCGCCCGGCCCCTCAAGCACTGCTTCCACGAGCAGACCTCCCTCCAAACAGCTGCACCAAAACCAAACACACAGGACTCTTATCAGCAGCGAAAAAGCAAATATCACAAGAGCCATATGACAGCCAGCTGCAGCTCATCTGACGCCTCCGACGAAGACTCCGAGAGCAGAATAAAGAAGCGACCGCCTAAGCATCTCAACACTCCCACACGCAAGTCAGCCACCCAGCGGCGAGACTCTCATGATGACTCCAGTGACTCTCAAGAGCAGGGGTCGACGGGGGGCAGCGGGGGGGCAGGCGGGGGGGGAGGGGGAACAGGACAAGTCACCAGTGGGAACAGCGGGGGAGGCGGGGGAGGGACGGGGACAGGGGGAGGAGCCGGGGGAGGAGGAGGGGCGCCTCCAGGCACAGGCAGTAGCAGCCTCACCCGGAGGCACCGAGGAGGGCGCCGCGCTGGAGAGACCCGTCTACGGGAGAGCCAGTCCCTCAACAGAATCACCGAGGTGCAAGAAGCAGATGCTGGCCCGGTCCCCCAGGCTCAGCGCACAAAAGGATTCTTCCATCCTTCTCGTTTCCTGCACGGCTTTTCCCGGCGGCCCATGCAGCCGTCAACCGGAGGAAGAAACGAGAAAGAGAAGTCTCTCCCTCCACATCCGGAGAAGATAGCTGCCGTCAATAGTTATCCCCAAGTGCGAGCCATCTCAGAAGAGAAGGAGAACTGCCACAAGCTGGTGACGGTGAACGAGAAGCACACCTTCAAGAAAATCAGATTGCTCAGTAGATATTTCCAAGTTCACAAGAAGCTGTGTCTCCCCCGCCTGCCCGGCCTGCTAAGTCGGGGGAGcggggcgggggcgggggccGGGGGGCGCCTGTACAAGGCGCAGTCCTGCGGCAGCATCGTGAGAGACAAGATCACCTCGGCCGGCGCCTCCAGCCTGCTGCTGGTGAACGAGCTGTGCCGGGACAAGCCGCTTGTGGTGGACGCCCAGCGAGCGCGCATCAAGCTCCTGGCGGAGACCAGCCCGTCCCCCTTCAGCGTGTGCCGGGTGCACCTGGGCGACGCCTCCAAGTGCTGCGGCTTGTGTTGA
Protein Sequence: MEVKDTIVIELCSTCINCKQTFDSDEKLIGHDCKTKIENLLSSCEGHAAEDASYQSNNPLSTYGDHRTKDPGNLLRNALSKFGDQASKDSGYQVNSSLQTCDDTKNESMDLQPSGGSSDGQETQIRVVTDDFLKETPPIQPYSCKMCHQRFHLLLDYVTHENNDCFKSSTSAYRCDICNKEFREKRFLNIHKTRIHEKPKTTKPMQTEGLYCDKCRKRCSSLEEYDKHLQAKDTLVCVMCRFACHSTIELRAHKATHKYQYNCQQCHDFRSNDFDLFQRHLSTHSVHEVTVNEIKVEQNMGDDDENPLQLPEEALYLSDASALIKTELPIEGYSPSHDEEADLQRCSVVLEKSTGRARRTRVKVEMDSDEEDRMCKRNIRKSRDSLLREVKRLKKKNKLLKYHRCNVCEFGCWGWSLFSEHTATHFKYKHLRCAHCSYACNFKPALICHLYKHMNWTLLKCSMCKNQYTTEKGLRYHMQRHDAKRFPCRKCSMAFFTHRELIRHHERRHTSHERILCDRCPLSFITAGQLQRHVMSHHSLPGQRHKCSDCSYSTMFSSQLKKHYTRLHADVKKSFSCHECGQSYKLKCDLSSHMLSHRPEYEPYRCKKDSCSFRAKKKKELTEHMRQVHHMSNLEMQGHACPHCKKRFNRYQLMKHLLEAHSDVVTKFECNECGEVFPRKSFVSQHILAKHPKTVNFRYPCLVCEEEFNTSARLTFHKRKHLEPESLPCTLCPKIFKSSYSLTDHLKTHQNKNNNKYCCQVCSFKTNKVYLLTMHDRIHKNETIFQCPKCPFNFNTLKNLKTHNRVIHEGKKLKCDECEYSCAKGSYMTVHKKRWHSNEGLTHECSICGTKCVTEALLNRHKYTTHKHLLAFRCKDCDFKSRGAKELKVHVNLNHAFDLQHVCKECNMRFKSKKLLLMHTNIMHVNVQQYKCQLCMFACSSSNGLDIHNKRIHTESNKQYLLVEATFVEGNISQEVPEGQALNVAVFSCEQCTFVCNSLTEFNDHKAVHSLPFCSECKCTLPSLLHYQLHISQLHGVGLFNNNLYYCNRCAFSCKTLQHMETHKNDHKTETSVINDFDDLITSDFIRQEQTEDNKCDDSSDDGVVLSDYHKVRSVRKADSDVCEEPEAANAEYEIPIEEFQMEFDNDCTDEVTYDSNIKEETSEFIDLEESIEKYCEKNFMLGKLISEEPAGVLHPRMSQKTAPPAETSLSPSDGEEEGSRVFKCPECNKTFLKRNKLEKHILLKHSSSEWFTCRSKLCGYFTNNVEEYLKHTKTHKLTGRYKCDQCHYVGDKKASLKKHKATHSKPFLCEVCSYNCSSRDGLNKHMNIHRPQGRFQCDYCERVFSQRLALVKHIQNKHLPKKLHPCHLCEYTAKSAFYLNHHRELCHSKQNNFKCHICPDHFPAKRFLLEHIRMKHKKVSPTRFPCQRCHRSYANIARLEEHMQKSHTSLAEPEPSYVCETCDKPFRSPILLKNHQVRHTSNYFYCAHCSYKSLFKSRLADHLQRMHTLSFPCSKCSKKFGSNKKLQLHFKLHDHKRNRFFECSACDTSFSNAQVLRRHKAFCQQKKKQECKLCNFKTHRPFDLKVHYERQHRQEKNFVCDICENPYTSRTLLNLHKLRSHKNLNPFSCSQCDFQCKTWSDLKRHENVSHTSDADRPFQCPHCSYKFIQKRLLQSHMTALHKDLQKYACKHCNFACNSLNGINLHSKRLHNACCGCSVMHRGAGAPAGGGGGGMIAGLYDLEETLGRGHFAVVKLARHVFTGEKVAVKVIDKTKLDEISKAHLFQEVRCMKLVQHPNVVRLYEVIDTQTKLYLILELGDGGDLYDYIMRHEAGLSENLARDYFRQIVRAISYCHRLHVVHRDLKPENVVFFEKLGIVKLTDFGFSNKFCPGQKLDTSCGSLAYSAPEILLGDSYDAPAVDVWSLGVILYMLVCGHAPFQEANDSETLTMIMDCKYTIPQHVSAECKRLIGSMLVRQPEKRASLSQISSDPWVRSSEPASESSSPEALMEDNLPLVSRQQLSEEDHSLVVQKMVNGQIASKEQILEALDKNEYNHLTATYYLLAERKLRAHRQEERASRPELLVVGGVSLDGMGDNKASGLLVPTQPVAGMLLAVPRTPGDLPQVLHTHYRWLLHGHIKASGLLVPTQPVAGMLLAVPRTPGDLPQVLHTHYRWLLHGHIKASGLLVPTEPVAGMLLAVPRTPGDLPQVLYTHYRWLLHGHIKASGLLVPTQPVAGMLLAVPRTPGDLPQRARKCSIVREEDDDEEASSSGRRGSRSEGRLHLALQERLPALPAAAAPQAQPSGDPDCPTRHTLSDRINKVNLEEENKRMHLGSAGMGTTGSPAWLASFGKKNNCLGEQVRPKSAIEPTHTTVTYSVPKIVKPSLSTGRSSLPLLGEDQVAMKTISEAATITIPIRGSPQPESLPPGHKTMPSPARPLKHCFHEQTSLQTAAPKPNTQDSYQQRKSKYHKSHMTASCSSSDASDEDSESRIKKRPPKHLNTPTRKSATQRRDSHDDSSDSQEQGSTGGSGGAGGGGGGTGQVTSGNSGGGGGGTGTGGGAGGGGGAPPGTGSSSLTRRHRGGRRAGETRLRESQSLNRITEVQEADAGPVPQAQRTKGFFHPSRFLHGFSRRPMQPSTGGRNEKEKSLPPHPEKIAAVNSYPQVRAISEEKENCHKLVTVNEKHTFKKIRLLSRYFQVHKKLCLPRLPGLLSRGSGAGAGAGGRLYKAQSCGSIVRDKITSAGASSLLLVNELCRDKPLVVDAQRARIKLLAETSPSPFSVCRVHLGDASKCCGLC

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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