Basic Information

Insect: Philopedon plagiatum
Gene Symbol: -
Assembly: GCA_963971165.1
Location: OZ020194.1:84422313-84445540[+]

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 0.23 45 7.1 1.7 2 23 28 49 28 49 0.94

2 34 1.8 3.4e+02 4.4 0.4 1 23 64 86 64 86 0.95

3 34 0.064 12 8.9 0.5 2 23 89 110 89 110 0.96

4 34 0.036 6.9 9.7 0.1 1 23 243 265 243 265 0.94

5 34 2.8 5.3e+02 3.8 0.4 1 23 271 294 271 294 0.93

6 34 0.0018 0.34 13.8 0.1 1 23 300 323 300 323 0.92

7 34 0.0022 0.44 13.5 2.0 1 23 329 352 329 352 0.97

8 34 9.6e-05 0.019 17.8 3.6 1 23 398 421 398 421 0.95

9 34 0.78 1.5e+02 5.5 3.6 1 23 427 449 427 449 0.93

10 34 0.001 0.19 14.6 0.2 1 23 455 477 455 477 0.96

11 34 0.0016 0.3 14.0 1.3 1 20 483 502 483 504 0.91

12 34 5 9.7e+02 3.0 3.2 1 23 605 627 605 627 0.88

13 34 0.064 12 8.9 1.4 1 23 643 665 643 665 0.97

14 34 0.018 3.5 10.6 0.1 3 23 669 689 668 689 0.96

15 34 0.0042 0.81 12.6 3.4 1 23 724 746 724 747 0.96

16 34 0.043 8.3 9.5 1.6 3 23 755 776 753 776 0.89

17 34 0.0022 0.42 13.5 1.0 1 23 821 843 821 843 0.96

18 34 0.00058 0.11 15.3 0.8 1 23 849 871 849 871 0.98

19 34 1.2e-05 0.0024 20.6 0.2 1 23 877 899 877 899 0.98

20 34 0.00018 0.034 17.0 1.1 1 21 905 925 905 925 0.95

21 34 0.033 6.4 9.8 1.0 3 23 1180 1201 1179 1201 0.94

22 34 4.9 9.5e+02 3.0 5.1 1 23 1206 1229 1206 1229 0.94

23 34 0.012 2.4 11.2 2.9 1 21 1254 1274 1254 1275 0.94

24 34 0.53 1e+02 6.0 0.7 3 23 1324 1345 1322 1345 0.96

25 34 0.25 48 7.1 4.2 1 23 1350 1373 1350 1373 0.93

26 34 0.079 15 8.6 2.2 1 21 1396 1416 1396 1417 0.95

27 34 4.6 8.9e+02 3.1 8.6 3 23 1987 2008 1985 2008 0.93

28 34 0.025 4.8 10.2 1.1 1 22 2013 2034 2013 2034 0.95

29 34 0.11 21 8.2 0.4 1 23 2061 2084 2061 2084 0.88

30 34 9.4 1.8e+03 2.1 0.2 1 23 2256 2279 2256 2279 0.91

31 34 0.74 1.4e+02 5.6 0.7 1 19 2300 2318 2300 2320 0.86

32 34 0.52 1e+02 6.1 0.8 1 19 2651 2669 2651 2672 0.84

33 34 0.029 5.7 10.0 0.7 2 20 2717 2735 2717 2736 0.93

34 34 0.025 4.8 10.2 7.4 1 21 2793 2813 2793 2814 0.95

#	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	0.23	45	7.1	1.7	2	23	28	49	28	49	0.94
2	34	1.8	3.4e+02	4.4	0.4	1	23	64	86	64	86	0.95
3	34	0.064	12	8.9	0.5	2	23	89	110	89	110	0.96
4	34	0.036	6.9	9.7	0.1	1	23	243	265	243	265	0.94
5	34	2.8	5.3e+02	3.8	0.4	1	23	271	294	271	294	0.93
6	34	0.0018	0.34	13.8	0.1	1	23	300	323	300	323	0.92
7	34	0.0022	0.44	13.5	2.0	1	23	329	352	329	352	0.97
8	34	9.6e-05	0.019	17.8	3.6	1	23	398	421	398	421	0.95
9	34	0.78	1.5e+02	5.5	3.6	1	23	427	449	427	449	0.93
10	34	0.001	0.19	14.6	0.2	1	23	455	477	455	477	0.96
11	34	0.0016	0.3	14.0	1.3	1	20	483	502	483	504	0.91
12	34	5	9.7e+02	3.0	3.2	1	23	605	627	605	627	0.88
13	34	0.064	12	8.9	1.4	1	23	643	665	643	665	0.97
14	34	0.018	3.5	10.6	0.1	3	23	669	689	668	689	0.96
15	34	0.0042	0.81	12.6	3.4	1	23	724	746	724	747	0.96
16	34	0.043	8.3	9.5	1.6	3	23	755	776	753	776	0.89
17	34	0.0022	0.42	13.5	1.0	1	23	821	843	821	843	0.96
18	34	0.00058	0.11	15.3	0.8	1	23	849	871	849	871	0.98
19	34	1.2e-05	0.0024	20.6	0.2	1	23	877	899	877	899	0.98
20	34	0.00018	0.034	17.0	1.1	1	21	905	925	905	925	0.95
21	34	0.033	6.4	9.8	1.0	3	23	1180	1201	1179	1201	0.94
22	34	4.9	9.5e+02	3.0	5.1	1	23	1206	1229	1206	1229	0.94
23	34	0.012	2.4	11.2	2.9	1	21	1254	1274	1254	1275	0.94
24	34	0.53	1e+02	6.0	0.7	3	23	1324	1345	1322	1345	0.96
25	34	0.25	48	7.1	4.2	1	23	1350	1373	1350	1373	0.93
26	34	0.079	15	8.6	2.2	1	21	1396	1416	1396	1417	0.95
27	34	4.6	8.9e+02	3.1	8.6	3	23	1987	2008	1985	2008	0.93
28	34	0.025	4.8	10.2	1.1	1	22	2013	2034	2013	2034	0.95
29	34	0.11	21	8.2	0.4	1	23	2061	2084	2061	2084	0.88
30	34	9.4	1.8e+03	2.1	0.2	1	23	2256	2279	2256	2279	0.91
31	34	0.74	1.4e+02	5.6	0.7	1	19	2300	2318	2300	2320	0.86
32	34	0.52	1e+02	6.1	0.8	1	19	2651	2669	2651	2672	0.84
33	34	0.029	5.7	10.0	0.7	2	20	2717	2735	2717	2736	0.93
34	34	0.025	4.8	10.2	7.4	1	21	2793	2813	2793	2814	0.95

Sequence Information

Coding Sequence: ATGGATGGCATATTCCTGATTTTGCTCGATGACAAGGATATCAATAGATCAGATACAAGTTTTCCACATATGCAAGACAGGAAATGTCAGGTGTGCCGGACAGAGTTCAAATCACCCAGATTTCTTAATATTCATAGATATTTTCACACGACTGAATCTTCTTTTAAATTTGTACATTTTAAAAACGCTTATCTTTGTGATATTTGTACATTTCAAAGTCCTGATCAAACAGTAATAGAAAAGCACATGAAAAAACACATGGCCACTTGCACAGAATGTAATGAAGACTTTTACCACCCATTTCTCTTGGGGCTGCACATGGCAAACCATGATAAAGACGATAAAGTTTGTTGCCCTTTTTGTGTATTTAAGGACCATCTCCCTACTATTCTTAAATTGCATATGGATCAAAAACATTTTAGTAAATTACACATTAACCCTATTGAACTTTCTGATAACGATAACGATGAAACTAAAAATGAAAGAGAGAGTAATGTGAATATTATCCGAGAAGATATCAAAATTTCTAACCTAAACCAATGTCAGATTTGTTTTAGAGACATAAGCGAACAGTTAACTGCTGAAGATCATATCAAGCTACACAAATTAGAAGCAATGGAACCCCGCTATTTCGCAGATAATTCAAAAACCGTATTTTCTTGCTTTCGCTGCACAGTACAATTTCATAAAGAAGAGGAAGTCGTAGAACATTCTAAGTTACACATGTTTTCTTGTTCTGAGTGTGATCAAACGTTTCCCCGTGCCCTTAGTTTTGGGATCCACCTGGCCGAGCATAGCGATGATAAAAAGTTCGCTTGTCCCCTTTGCAATGACTATAAGACTGTTGACTATTATCTTCTGTACAAACATATCTCTagtcatttaaaaatgaaatcttACCAGTGCGACTATTGCGGAATGTCTTTTGTTGCTGATAAGTTGCTGCGGAGACATATAGTAGAAGTTCACCAAATTAAAGATATTTACAGCTGCGTGGTTTGTGACAAAAAAGTTGAAACAAAGCACAGTTTGATATCTCACCAAAGAAACAAACACAGAGTGGTTGATGAGAGCGAAATCCCGTCAAATTACTGCAGCCTCTGTCAGCGAACAATGTCCTGTCAAGCAGCGTTAAAAAAGCATCTTGAAAAGGGCACATGCATAATACGGCCGCAAATAGAACCCAGTCAGTTCTTTTGCGAAATATGTGGCAAAAagttttcattcaaaaaaacactaaaaactCACCAGAAACTACAACATGATAATACTAAACCTTTTAAGTGCGCACATTGCCCAAAAACATTTGCACTTAATTGCCTAAAAGTCACTCATGAATTAACTCACTCGGACGAGAGACCGTTTGCTTGTGAAGTGTGTGGTATAGCATTCAAAGCAAAGACATCGTTACGAAAACATTCCATTACACATGAAGATACTTGGCGATACCTGTGCAGTCTGTGTGATAAGGGTTTTCGTAGGAAGGAACATTTGAGGTTGCATTCTAATAATTGTAAAGGGTCTACaaccGAGGTTGAGCTTTTGAAATTGGAAGCAAGCGTTGAAGTAGAAATACATGAGGACCAAGGAgaaattgcttttaaaattgaTGATATTATTAAAAGAAACAGGGAAATAGTCGATAACTACAGAAAAGACAGAAAAGAACAAGCGATATTAAAACAAGAACGTTTAAGGGAAAAAATGAGGCTAAAAAGACAGTggattaaagaaaataaaaaaaataatgaaacgAAAAATTCGAAATTAAAAAGTAGAAAACCCAAAATTTTTGTCCAACAAGAAGATTCTTTTTTGTGTACCTCATGCGATAAGCAATATTCTTCGAAGAAATTATTCGATCTtcacaaatattttcataaagtaGAAGCAAAAGAAAGTCAATGGAAAATAGGTAATTCCTCGTATATATGTAACTTTTGCGAAGCTCATTGCCCAACTCCTGAAAAATTAACTAGTCACATCGAATCTCACAAAGAGAATTGCAAAGAATGTGACGTGACTTTCGCGAATGCCTTTACTTTGGGCATCCACATGGCCGAGCATGACAAAGATGAAAAGATTTGTTGTCCGTTTTGCGATTATAGAGGGACTCTTTCCCACTGCTTGAAGACTCATCTTCTTACGAGGCATTATAAGCTTAAAATATTTAGGTGTGATAGTTGCGGTGCTAATTATAGCTCAAAGATGCATTTAGAGGAACATATTAGGttccatcatgaaaaaatggAGCCTCATATCTGCATTGTTTGCGAGAGaaaattcattttcaaaagCAGCCTTAAGAAGCATCAAATTAATGCCCACCGGCCCTTGATCGATGGTGACGTACCTTCCAACTACTGTATTCTTTGTAAAAGGACATTAAATACCGTTGAAGCCTTGAAAAAGCATGTGGAAGAAAAGCATACTAAGGAAAAGCCAAAAAACAAAGAAAGGTTTATCTGTGATATATGTGGGAAGGATTTTTCCCATCGTCAATCCTGGTTATTGCATACCAAAGGTCACAGCGGGTTAAAACCTTATAAATGCAAATTATGTTCTAAGGCCTTCAAAGTTCAAGCCTTTCTCACTGTCCACGAAAAGATACATTCAGACGAGAAACCTTTTTCATGTGAGGTCTGTGGAGCAGGCTTTAAAAGAAAAGAGGGTCTCAGAAGGCATTTATTAACGCATACAGACATCAAACCATTTATTTGCCCGAATTGCTCAAAGGCTTTTCGAAGGAGAGAGCATCTAAGGCTTCACTTAAAATGTTGTAATAAGAAACAAGAGTTTCTCTTAagcatacCAACGCAAGCAAGTCCTGATCCACTCAAAATAAACACAGCTAATACACCGGACTTGCCAGAAGGAACCGTATGTTCGTTTTGTTACTTTTGTGGAAAAGAATTTGACATTTTCAAGTTTGACTCGCATGAGTGTAAACCACGTGATTTCAATATCTCGGAATGTAATAATTCAGCTGAGACAGCAGTAGAAGCGCCTAAAATCAAACAAAAACAAGATAATAATGCCGAAACAGTTCCAGATGCAATAAGTGAAACATCTCAAGATGTGACTTCAGTTACAGTAGTTGACTCAAGTCAAAAAGCGACTCGTTGTCAAAGTACAATCGTCCACCAAAATCAAAATAAGGTTGATGCGCTTCCAGTAGCTGGGCTAAAAGAAGTACCGattaatactttaaataaaaatgacaggGAGCCAAATGGTGATATGGTTACCAATCCATCATCTAACTTAACATGCCACAATGGCTTACAACCAAACAGCCCAGCTCCTAAGCTTTCCCATAATCTAGAATTGGATCGAGCTAGTACTAGTACAGAATCAGATAATAATAAACAAGATTCTTCTGAAGCTGACCAGTTAAATTCTGATAATGAGAAAAATACAGGGCATCCTGGTGGTGATTTGAGTTTACCCGAGCTTGAAtctaatttaaacttaaatagtTTTGTTGCCCATGGCACAAGTAGctGTCGGAAAAAAGCCACATCAGAATCAGCTTTCTGTGAATTCTGCGGATTGAAGGTGTCCAATGCTGCGAATCTTAAATCTCATCAACTAGCTTGTCATGACAAAGACTACTTTTTGTGTTTTATGtgtaagaaaaaatttaatgacaCATGTGAACTCATGTTTCATCAAAGAATTAAGCATTATGACAGTGATGCCTTAAAAGCTGAGTTAGATTATTTTAATAACACCAAGGCAACAACAAGCAAGTATAGATACTATTGCAACCACTGTGGTAAAGGCTTTGATCATATCCATCTACTTCTTAACCATAAAAAGGAATTTGTAAATTTGGGTGGCCTTCGTCGTACTGGTACAGAACCAAATAGTGATAAACCAGAACATAGATCCAATATTTACTCGAATAGTTCTATAGCCAATGGCACCAAtagcTTTCAGAAACAAGCCACATCAGAAGCAACTTTCTGTGAATTCTGCGGTTTACAGATGTCAAATGCTGCGGATCTAAAATCTCACCACCTAACTATTCATGACAAAGAATACTTTTTGTGCTTTTTTTGTGGAAAAACGTTTAAAGACACATGTGAACTCATGTTTCATCAAAGAATTACGCATTATGAGACTGATGCTTTAAAAGCCGAGTTAGACTATTTTAATAGTACCCAGGCAACAGCACGCAAGTACTATTGCAACCAATGTGgtcaagactttaattttaccCATCAACTTCTAAACCATAAAAAGGAATTAGTGAACTTAGGTTACCATTTTCTTGAAGATGGATTAAAGGCTGTTGGAGTTAGTCCAGAAAAGAAACAAGTGAAGCTATTGGAAagtgaaaaaaagaaaaaagtaagcACCGACAGTTTTACGGATGAAAAAGCAAAATGCAGTGACGTAAAGAAACATACAGAAATTGATAATAAATCTCCAAAATTCAgcaatgaaaaaaatttaaaagagaaAAACATTAATGTAGAACATGAAAAAGGAATGTCTGCTAAATCCTCAAAAGACAAAAAGAGTCAACAAGATGGAAGTAAATTCAGTCATATGTCTAAAAGAGACAGTGATGTTACTTATAGTGCTGAAGAAGAAACAAATTATCACACTATTAAACAtcagaaaaaaatgaataaaaattctCAGGAcccagttaaacaaattaacaaCACCATTATGGATAAAATCCCAAAGCAcggcaaaaaaagttttaaaagtcaAAATTCTGATATGGACAAAAAGACTAATGTTAAGGATCAATTTAgggataaaaaagaaaaagataataaacGAGAAACAATTAGCGTTAGTAATGGAACAGAAGATACTAAACAAACGAAAAGGAACAAAAACGATAATCATTTAAAATCtagtaataaaacttttaattacaGCGAAGAGAGTTTTGAAAGCAAACAAGaacaaattcatttaaaatgGAGTTCTAAAAATGaagaagaaaaaagtaaaaaatcagaATATAGATGGTATTCTAGCTCAACGGCTGAAAATGAAAACCAAGAGAGTGTACATCACAAAGAAACAACACATAATAAACATGACGCTATTAAGAAGAAAAGCACGCAAAGATCAACTCAAACATTACAAAAAGATCCAAAAAATACtcacaaaaataaagaaaacagtATCAAGGTCAGCGTTATAGACAAAAGTATTTCAAATCTACCATATCTTAAGCTCAAGCCCCTTACCATATTGCTAAAAAGGGAGAACATAGAATCCCTTTCAAGCACGATGAAAGTTGAAAGTTCTAAAATGGAAAAGGAGgacaaatataaaacaaaaccaGAGCAacaagcaaaaattaaaaaaacagaaaatacatTTAAGAGACTAGCAACTGTGAATTCGAAAACTACACACAGTAAAgcagataataaatttaaaacgaGGGTTGATGCCAACAAAACAAATGGTAATCaaaccataaacaaaaatcgaGCGTCCAGAAAAACGCCCGAAAGGATCATAAAAGAAGttgatttatttagttttgacAAAAGCGTAGTATCCAAGCCAAAGAAAGATTTACAACAAACTGCTTATGAAAATATCAACACCAGCGTCATACAAGAATCAAGAAAAACTCAGCAACCAAGAAAAGATTTACAACAAACTGTTGATAAAAATTACAAGACTGACATCAGACGAGAAACTGGAGAAGTTTCTCACGaaggaaagaaaaaattatcattGCAACAATATAAGCAAATAAGAAGTGTGCCAAATCAACTACCTGCTAGCTCTACTCCATTAACTATAAGTAGACCTCAGATGAGTAATAGAGATATGGAAATAATTAATGAAGTAACTCAAAAAATTGAGGTCTACATTTCACAGCAGCATAATAATTCTGATAATGCCCAATTCTCAGAAGATAATGATGCATCTGAATCTCCATCCTTCGAAGAAAAGGTAACAACTATTCATTGTGAAGCTTGCGGTCACAAATGCCAAAATTCGGATCATCTAAACAAACACATGGAACATATGCATCCAGGCTTCCATTTTACTTGTTTCGTTTGTCATAAGCGTTTTGATACCTTGGACGCTGTGATGGAGCACCAAAAAAAATACCCAGATGACATGGTAACAACATCCGAAACCCAGTTTTTAAAACTTAGAAAGAGTATGCCTAATATGTTATATCCCTATTATTGTAATAATTGTGGAAAAGGATTTACCCTTATTAAGTTGGTGGCCATTCACAAGAAGCAGGAGCATGACGAACTAATTAGAAAGAAAGCAAAATCCTTAGAAATTAGGAAGATGGagaatgaaaagaaaaaatctcAAGTAAATGAAGTTTCTAACCAAAGTACGAAAAAGGAAGgacatattttaaatgttaagaaggcagttgttcaaaatgaatcAGAAGGTAGCTCCGAACTAGACGAAGATCAAGAAGATTTAATAAATGACTTCACTTCTGCCGTGGACAGCGACagtagtgaaaatttaagtaatCAACAGAATGAAATTATTGCTGACAACACAATAAATCCATCAATAGATGTCGCAGCAAAAACAAACGATCTGCTCCTAAGAAATGACCACTTTCAAAGGGACAccatgaataataaacataacgAATCCGGGGCCAACAGTTCGTCAAATGTTGCTGGTAGAACTCACGAAGATAATTCAGACCCCAATTTTCCACGATATTGTGAATCCTGCGGACAAAAACACCTTTCATTTGCAGACCAACAAAAAGATTTACATCTAGAGAAATTTAAGTGCGTTGTATGTCAAAGTCCTTATGAAACAATCGAACTTTTGGTTACACATTATGAATTTCGACATCCCAAGCACGAGGTAGCAAATTTCGAATATAGTCAACTATCGTTTCAGAAGAAACACTgttattattgcaaattttgTGGAAAAGGTTTCCACTTTATTGGTGAACTACTCGGTCATAGAGAATGTGATCATTTTGAGCTTTTGGAGAAAGAAAAAGAGAATCAGTCAGTCCCTAAAAATAATGAGAGCAGTACTGAAATAACAAAGACTAGTAAAGAAGACAatgccaaagaaaataaaaatgataattGCGAAAGAAATGTAGATGTCCCAAATTCGGCACTAGGGGTACTAAGAGTGAAGGACATTAATTCTCTTTTAGAGAAAAGAACCATAGATAACACACTTAAAGGCTTAACACTTAATTCTGCATCAGCAACACTAAACCAGCCAAAAAATTCTGTTCCAGACACTTTTTCTAAGTATATTGAAAATGGTCGAACCCGAAATGAAAATCAGTCTTTACGGAAGAATACTCTAGATATCGATACAAAAATCTATCTACAAAAATCCAATATTGCAGATACCCAAAAACATGTAAACTGTGATCGGGATAATAATCCAAAGAAGCGAAATTTAACCAATCTCTTagaactatccgatatatctgACACTTCATTTAATGATGAATCGGACAAAAGTGCACAAAAAAATGACAATTCGATAAATGCtccagaaataataaatatttctgacaCTGATTCAGATATCGGCAGTTTGATTATAGATCTGGAAAGTACAAATTCCTTAGAGGAATCAACAAATTTCGTTGATGTTGAGGAGTTTATAAGAGACAAGCAGGTGGAAACTCAAGAAGGAACTAAAAAGGATAATAGCGAAAAACCGAATATGGGTGAACCCAGTAGTGCTTTTGCTAAACTTAATAGTGACGAGTGGGACGAAGTAGCTAAACTTGCTGATGAAATATCTTTGATGGTAGAGGAAAGTATTTGTAATAATTCTCAAGAAGGGAAAGTCACAAACAAGTTGGTTAATGAAAAGTCTTCAACAGAGACGGAAAATCTTTTGGAAAATGTTCAGCACGAAGCGGTAGCTCAGTCATTAGTGGTGGAAGATAATCTTGTGGATGATTGTGCGGAAAATGAAGTTGAATATTACTGCAAATTTTGTGGAAAGGGTTTTAATCTCATCTATCAACTAAATTTCCACATCAGTAACAGTGGTTGTAGCAGGGAAGTTGCAGACAGTACTTCGCCAGGCTCAAAAGATAACAATttaaatgaagataatattgaaaGCTCTAATATGGCACCAACTACAAGTACCCCGATTAAGGCTAAAACTACGCCCACTTGCAACAactgtggaaaaaaatttaattattggcATTTGGTTAACGAACATAGGGTACAGAATTGTCCCGGTCGAATCATTCAGGATACTAAATCTACTCCAGAAAACATGTACAACGTTCATTTGGATTGTCAAATAAACATAACTAACTCAAACCAGCACCAAGCACAACCAGAAAACGAAGATACAAGCGAGTGCGGAGAAAGTAAACCTCAGGGtagaagatatttttgttttgattgtCATAAACACTTCTCGTATAGATATCAACTAGCACGGCACATATGTTTCCCTTCCCAGATATCTAATAAAACTGCTGAAATCCCTCTTTCGTTAAAATTTCCTAGCCCTTCAAGTTCATCTATCAGCCTAAAGGTAAATTATCCATCTCGCTCTTCCAAAGATTTTAGTTGTCCAGTATGTCCAGACAGAACTTTTGTATGCGAAGAAGCACTTAATCAACATTCAAGCTCTTCCAAAAAACATGTATCACTTATGATGGCTCAGAAGGATAAGCTAATTAATTCTCAGACACCTTCGTCCAGTAAAGAAACTCTTCTTTCCCAAAGTTTAGTTGCTTTAGAATCTGAAGCGGACCCACTTATGAACCAATCTGGCTCTTCCTTTAAATCATATATGGATCTAACTAGAGAAAAGAGAAACCGGGAATATTTTGTCTTCCCGTCTAGGGCACGATCTCGATCACCACCACGAAGTCGAAAAAGAACCAAATTGGCCGACCTAAGAAGAAGATCGGTTGACCGAGATGaagaatcaaaaaaatatgacaacaaagtaaaattaaaagacaaaaagaagaagaagaagaagaagaataagAGATCAAGGAAGCGTCGACATGAAAAATCAGAAAGTATAGATCGTAAAGCAAAACGACCTAAAAAGGATTATAGAGATGCAAATGCAGGAACTTTCAAAAGGACTAGTAAAACAACGACTAATGACGATAATGACCTTGACGGAATTTACACgcttaaagaaattaataaaatttgccCTGCAACGGTATAA
Protein Sequence: MDGIFLILLDDKDINRSDTSFPHMQDRKCQVCRTEFKSPRFLNIHRYFHTTESSFKFVHFKNAYLCDICTFQSPDQTVIEKHMKKHMATCTECNEDFYHPFLLGLHMANHDKDDKVCCPFCVFKDHLPTILKLHMDQKHFSKLHINPIELSDNDNDETKNERESNVNIIREDIKISNLNQCQICFRDISEQLTAEDHIKLHKLEAMEPRYFADNSKTVFSCFRCTVQFHKEEEVVEHSKLHMFSCSECDQTFPRALSFGIHLAEHSDDKKFACPLCNDYKTVDYYLLYKHISSHLKMKSYQCDYCGMSFVADKLLRRHIVEVHQIKDIYSCVVCDKKVETKHSLISHQRNKHRVVDESEIPSNYCSLCQRTMSCQAALKKHLEKGTCIIRPQIEPSQFFCEICGKKFSFKKTLKTHQKLQHDNTKPFKCAHCPKTFALNCLKVTHELTHSDERPFACEVCGIAFKAKTSLRKHSITHEDTWRYLCSLCDKGFRRKEHLRLHSNNCKGSTTEVELLKLEASVEVEIHEDQGEIAFKIDDIIKRNREIVDNYRKDRKEQAILKQERLREKMRLKRQWIKENKKNNETKNSKLKSRKPKIFVQQEDSFLCTSCDKQYSSKKLFDLHKYFHKVEAKESQWKIGNSSYICNFCEAHCPTPEKLTSHIESHKENCKECDVTFANAFTLGIHMAEHDKDEKICCPFCDYRGTLSHCLKTHLLTRHYKLKIFRCDSCGANYSSKMHLEEHIRFHHEKMEPHICIVCERKFIFKSSLKKHQINAHRPLIDGDVPSNYCILCKRTLNTVEALKKHVEEKHTKEKPKNKERFICDICGKDFSHRQSWLLHTKGHSGLKPYKCKLCSKAFKVQAFLTVHEKIHSDEKPFSCEVCGAGFKRKEGLRRHLLTHTDIKPFICPNCSKAFRRREHLRLHLKCCNKKQEFLLSIPTQASPDPLKINTANTPDLPEGTVCSFCYFCGKEFDIFKFDSHECKPRDFNISECNNSAETAVEAPKIKQKQDNNAETVPDAISETSQDVTSVTVVDSSQKATRCQSTIVHQNQNKVDALPVAGLKEVPINTLNKNDREPNGDMVTNPSSNLTCHNGLQPNSPAPKLSHNLELDRASTSTESDNNKQDSSEADQLNSDNEKNTGHPGGDLSLPELESNLNLNSFVAHGTSSCRKKATSESAFCEFCGLKVSNAANLKSHQLACHDKDYFLCFMCKKKFNDTCELMFHQRIKHYDSDALKAELDYFNNTKATTSKYRYYCNHCGKGFDHIHLLLNHKKEFVNLGGLRRTGTEPNSDKPEHRSNIYSNSSIANGTNSFQKQATSEATFCEFCGLQMSNAADLKSHHLTIHDKEYFLCFFCGKTFKDTCELMFHQRITHYETDALKAELDYFNSTQATARKYYCNQCGQDFNFTHQLLNHKKELVNLGYHFLEDGLKAVGVSPEKKQVKLLESEKKKKVSTDSFTDEKAKCSDVKKHTEIDNKSPKFSNEKNLKEKNINVEHEKGMSAKSSKDKKSQQDGSKFSHMSKRDSDVTYSAEEETNYHTIKHQKKMNKNSQDPVKQINNTIMDKIPKHGKKSFKSQNSDMDKKTNVKDQFRDKKEKDNKRETISVSNGTEDTKQTKRNKNDNHLKSSNKTFNYSEESFESKQEQIHLKWSSKNEEEKSKKSEYRWYSSSTAENENQESVHHKETTHNKHDAIKKKSTQRSTQTLQKDPKNTHKNKENSIKVSVIDKSISNLPYLKLKPLTILLKRENIESLSSTMKVESSKMEKEDKYKTKPEQQAKIKKTENTFKRLATVNSKTTHSKADNKFKTRVDANKTNGNQTINKNRASRKTPERIIKEVDLFSFDKSVVSKPKKDLQQTAYENINTSVIQESRKTQQPRKDLQQTVDKNYKTDIRRETGEVSHEGKKKLSLQQYKQIRSVPNQLPASSTPLTISRPQMSNRDMEIINEVTQKIEVYISQQHNNSDNAQFSEDNDASESPSFEEKVTTIHCEACGHKCQNSDHLNKHMEHMHPGFHFTCFVCHKRFDTLDAVMEHQKKYPDDMVTTSETQFLKLRKSMPNMLYPYYCNNCGKGFTLIKLVAIHKKQEHDELIRKKAKSLEIRKMENEKKKSQVNEVSNQSTKKEGHILNVKKAVVQNESEGSSELDEDQEDLINDFTSAVDSDSSENLSNQQNEIIADNTINPSIDVAAKTNDLLLRNDHFQRDTMNNKHNESGANSSSNVAGRTHEDNSDPNFPRYCESCGQKHLSFADQQKDLHLEKFKCVVCQSPYETIELLVTHYEFRHPKHEVANFEYSQLSFQKKHCYYCKFCGKGFHFIGELLGHRECDHFELLEKEKENQSVPKNNESSTEITKTSKEDNAKENKNDNCERNVDVPNSALGVLRVKDINSLLEKRTIDNTLKGLTLNSASATLNQPKNSVPDTFSKYIENGRTRNENQSLRKNTLDIDTKIYLQKSNIADTQKHVNCDRDNNPKKRNLTNLLELSDISDTSFNDESDKSAQKNDNSINAPEIINISDTDSDIGSLIIDLESTNSLEESTNFVDVEEFIRDKQVETQEGTKKDNSEKPNMGEPSSAFAKLNSDEWDEVAKLADEISLMVEESICNNSQEGKVTNKLVNEKSSTETENLLENVQHEAVAQSLVVEDNLVDDCAENEVEYYCKFCGKGFNLIYQLNFHISNSGCSREVADSTSPGSKDNNLNEDNIESSNMAPTTSTPIKAKTTPTCNNCGKKFNYWHLVNEHRVQNCPGRIIQDTKSTPENMYNVHLDCQINITNSNQHQAQPENEDTSECGESKPQGRRYFCFDCHKHFSYRYQLARHICFPSQISNKTAEIPLSLKFPSPSSSSISLKVNYPSRSSKDFSCPVCPDRTFVCEEALNQHSSSSKKHVSLMMAQKDKLINSQTPSSSKETLLSQSLVALESEADPLMNQSGSSFKSYMDLTREKRNREYFVFPSRARSRSPPRSRKRTKLADLRRRSVDRDEESKKYDNKVKLKDKKKKKKKKNKRSRKRRHEKSESIDRKAKRPKKDYRDANAGTFKRTSKTTTNDDNDLDGIYTLKEINKICPATV

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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