Basic Information

Insect: Osmoderma eremita
Gene Symbol: -
Assembly: GCA_031763485.1
Location: JARFOC010110740.1:15657-31833[+]

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 47 0.0056 1.4 11.7 1.2 2 23 49 71 48 71 0.92

2 47 0.00027 0.069 15.9 1.0 1 23 75 98 75 98 0.94

3 47 0.00011 0.026 17.2 0.3 1 23 104 127 104 127 0.96

4 47 0.0022 0.56 13.0 3.5 1 23 133 156 133 156 0.97

5 47 3.5e-05 0.0088 18.7 1.7 1 23 161 183 161 183 0.98

6 47 6.3e-05 0.016 17.9 2.1 1 23 188 210 188 210 0.97

7 47 8.3e-05 0.021 17.5 0.1 1 23 215 237 215 237 0.98

8 47 0.00014 0.035 16.8 1.5 1 23 243 265 243 265 0.96

9 47 3.9e-06 0.00099 21.7 2.5 1 23 271 293 271 293 0.98

10 47 0.02 5.1 10.0 0.8 1 14 299 312 299 313 0.91

11 47 1.8e-06 0.00045 22.8 0.2 2 23 349 370 348 370 0.96

12 47 2.7e-05 0.0069 19.0 0.8 1 23 377 400 377 400 0.95

13 47 0.0098 2.5 11.0 1.1 1 23 406 428 406 428 0.93

14 47 0.9 2.3e+02 4.8 0.2 1 23 434 457 434 457 0.87

15 47 3.1e-06 0.00077 22.0 0.7 1 23 462 484 462 484 0.97

16 47 0.28 69 6.4 3.8 1 23 493 515 493 515 0.98

17 47 2.2e-05 0.0057 19.3 0.7 1 23 521 543 521 543 0.97

18 47 6.4e-05 0.016 17.9 0.8 1 23 549 571 549 571 0.91

19 47 0.00075 0.19 14.5 7.5 1 23 577 599 577 599 0.98

20 47 6.1 1.5e+03 2.2 0.6 1 13 605 617 605 620 0.88

21 47 0.27 69 6.4 0.9 2 23 706 728 705 728 0.92

22 47 0.00033 0.082 15.6 1.6 1 23 734 757 734 757 0.95

23 47 0.0048 1.2 12.0 2.7 1 23 763 785 763 785 0.94

24 47 0.004 1 12.2 1.0 1 23 791 813 791 813 0.98

25 47 0.0038 0.96 12.3 6.0 1 23 818 840 818 840 0.99

26 47 0.034 8.7 9.3 1.9 1 23 849 871 849 871 0.98

27 47 7.1e-06 0.0018 20.9 0.5 1 23 876 898 876 898 0.97

28 47 1.5e-05 0.0037 19.9 0.3 1 23 904 926 904 926 0.98

29 47 6.3e-07 0.00016 24.2 0.4 1 23 932 954 932 954 0.99

30 47 0.00011 0.029 17.1 1.1 1 23 982 1005 982 1005 0.95

31 47 0.00074 0.19 14.5 0.2 1 23 1011 1034 1011 1034 0.94

32 47 0.0001 0.026 17.2 2.3 1 20 1040 1059 1040 1063 0.90

33 47 0.018 4.6 10.1 0.4 1 23 1069 1091 1069 1091 0.98

34 47 4.5e-05 0.011 18.3 3.6 1 23 1096 1118 1096 1118 0.97

35 47 0.0018 0.45 13.3 0.8 1 23 1127 1149 1127 1149 0.98

36 47 7.2e-05 0.018 17.7 0.0 1 23 1154 1176 1154 1176 0.99

37 47 0.0094 2.4 11.0 2.2 1 23 1182 1204 1182 1204 0.96

38 47 5.4e-07 0.00014 24.4 0.6 1 23 1210 1232 1210 1232 0.99

39 47 0.13 34 7.4 4.2 1 23 1238 1260 1238 1260 0.97

40 47 0.0019 0.47 13.3 0.5 2 23 1304 1326 1303 1326 0.94

41 47 6.9e-06 0.0017 20.9 0.9 1 23 1328 1351 1328 1351 0.95

42 47 0.0016 0.41 13.4 0.1 1 23 1357 1380 1357 1380 0.94

43 47 0.008 2 11.3 3.0 1 23 1386 1409 1386 1409 0.93

44 47 2.6e-05 0.0064 19.1 1.0 1 23 1415 1437 1415 1437 0.98

45 47 0.00014 0.035 16.8 0.7 1 23 1456 1478 1456 1478 0.98

46 47 3.5e-05 0.0089 18.7 0.1 1 23 1483 1505 1483 1505 0.99

47 47 0.0013 0.33 13.7 1.4 1 23 1511 1533 1511 1533 0.97

#	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	47	0.0056	1.4	11.7	1.2	2	23	49	71	48	71	0.92
2	47	0.00027	0.069	15.9	1.0	1	23	75	98	75	98	0.94
3	47	0.00011	0.026	17.2	0.3	1	23	104	127	104	127	0.96
4	47	0.0022	0.56	13.0	3.5	1	23	133	156	133	156	0.97
5	47	3.5e-05	0.0088	18.7	1.7	1	23	161	183	161	183	0.98
6	47	6.3e-05	0.016	17.9	2.1	1	23	188	210	188	210	0.97
7	47	8.3e-05	0.021	17.5	0.1	1	23	215	237	215	237	0.98
8	47	0.00014	0.035	16.8	1.5	1	23	243	265	243	265	0.96
9	47	3.9e-06	0.00099	21.7	2.5	1	23	271	293	271	293	0.98
10	47	0.02	5.1	10.0	0.8	1	14	299	312	299	313	0.91
11	47	1.8e-06	0.00045	22.8	0.2	2	23	349	370	348	370	0.96
12	47	2.7e-05	0.0069	19.0	0.8	1	23	377	400	377	400	0.95
13	47	0.0098	2.5	11.0	1.1	1	23	406	428	406	428	0.93
14	47	0.9	2.3e+02	4.8	0.2	1	23	434	457	434	457	0.87
15	47	3.1e-06	0.00077	22.0	0.7	1	23	462	484	462	484	0.97
16	47	0.28	69	6.4	3.8	1	23	493	515	493	515	0.98
17	47	2.2e-05	0.0057	19.3	0.7	1	23	521	543	521	543	0.97
18	47	6.4e-05	0.016	17.9	0.8	1	23	549	571	549	571	0.91
19	47	0.00075	0.19	14.5	7.5	1	23	577	599	577	599	0.98
20	47	6.1	1.5e+03	2.2	0.6	1	13	605	617	605	620	0.88
21	47	0.27	69	6.4	0.9	2	23	706	728	705	728	0.92
22	47	0.00033	0.082	15.6	1.6	1	23	734	757	734	757	0.95
23	47	0.0048	1.2	12.0	2.7	1	23	763	785	763	785	0.94
24	47	0.004	1	12.2	1.0	1	23	791	813	791	813	0.98
25	47	0.0038	0.96	12.3	6.0	1	23	818	840	818	840	0.99
26	47	0.034	8.7	9.3	1.9	1	23	849	871	849	871	0.98
27	47	7.1e-06	0.0018	20.9	0.5	1	23	876	898	876	898	0.97
28	47	1.5e-05	0.0037	19.9	0.3	1	23	904	926	904	926	0.98
29	47	6.3e-07	0.00016	24.2	0.4	1	23	932	954	932	954	0.99
30	47	0.00011	0.029	17.1	1.1	1	23	982	1005	982	1005	0.95
31	47	0.00074	0.19	14.5	0.2	1	23	1011	1034	1011	1034	0.94
32	47	0.0001	0.026	17.2	2.3	1	20	1040	1059	1040	1063	0.90
33	47	0.018	4.6	10.1	0.4	1	23	1069	1091	1069	1091	0.98
34	47	4.5e-05	0.011	18.3	3.6	1	23	1096	1118	1096	1118	0.97
35	47	0.0018	0.45	13.3	0.8	1	23	1127	1149	1127	1149	0.98
36	47	7.2e-05	0.018	17.7	0.0	1	23	1154	1176	1154	1176	0.99
37	47	0.0094	2.4	11.0	2.2	1	23	1182	1204	1182	1204	0.96
38	47	5.4e-07	0.00014	24.4	0.6	1	23	1210	1232	1210	1232	0.99
39	47	0.13	34	7.4	4.2	1	23	1238	1260	1238	1260	0.97
40	47	0.0019	0.47	13.3	0.5	2	23	1304	1326	1303	1326	0.94
41	47	6.9e-06	0.0017	20.9	0.9	1	23	1328	1351	1328	1351	0.95
42	47	0.0016	0.41	13.4	0.1	1	23	1357	1380	1357	1380	0.94
43	47	0.008	2	11.3	3.0	1	23	1386	1409	1386	1409	0.93
44	47	2.6e-05	0.0064	19.1	1.0	1	23	1415	1437	1415	1437	0.98
45	47	0.00014	0.035	16.8	0.7	1	23	1456	1478	1456	1478	0.98
46	47	3.5e-05	0.0089	18.7	0.1	1	23	1483	1505	1483	1505	0.99
47	47	0.0013	0.33	13.7	1.4	1	23	1511	1533	1511	1533	0.97

Sequence Information

Coding Sequence: ATGTTTTTAGGCACTGCCAGGGTAGGTTCTGGGCACATGTACGACGACCTTTTCTTCGCTAGCTGGTTACCAATCGAGACACATTGTAATGGAGACGGGGAGTGCCTCTACTGTTTCAAAGCCCACTTTCCTAGGAGGTTCTTGCAATGCGACATCTGCGGCAAGTCCTGTACTACGCGACAGCTCATGGACATCCACAAAAAGGAGGCCCACGAAGGAGGATTTAGCTGCGACAGTTGTCCGAAGACCTTTAAAAATTGGATATCTTTCAACAATCATAAGAAGGCCGTACACGAAGGGGATCCCGATTATATTTGCGAATACTGCGGAAACTCTTATTCGTCCAAGTATGGTCTCGTTCGGCACAGGATAGTCTCGCACACCAAAGACCGCAAATACATGTGCGATAAGTGCGATCGAAGTTACTTCGTACCGTTCGAGTTGAAGACCCACCAGAAAAGTTGTCATGGTAACTTCAGTTTTACGTGCGATACATGTAGCAAAGTGTTCAAGGATAAAGGTTATTTTAAAGAGCATCTTTTGATGCACATACCCGGAGCTTTCACATGCAAATTGTGTTCGAAGGCGTTTAGTTCTAAACGTAGCCTCAAGACACACGAAAGTGTGCACGAAGCTCCCAATTACGTATGCGAGGTTTGTGGTAAAGCTGTTAGTAGCAAGGTTTCCTTGATTGACCATAAACGCTTACATACTGGGGAGAAGCCTTTCGCTTGCGACCGGTGTGATAAGCGCTTCGCCCGCAAACACGGCCTCCAGTTGCATACATTGATTCACACTAAACAGAAGCCACACAAGTGTCAGATTTGTAACAAAGCCTTTTCCCAAAGGGGTACCCTCACGGTACATCTGCGCTACCATTCTGGAGACAGGCCGTACGAGTGTACCATTTGCGGGAAGAAATTCGTCAGCAAGACGTCTTCAGCAGAGATCGAAAGTCAGGAAGATAATGAACAGacCCTTCCAGAAAATCTCGACAGTGAAGATACAACTTTTTTCGGTCCGTCTACCTCGAAACCTGTTCTAAAATGCGATATATGCGGCAAAGTGTTCGCGAGGAGGGAAGGTTTAAGACGGCACACCGAGGTTCACAAGAGAAAGAGTGGTGGTTATTCGTGTAACGATTGTGGGAAGGTGTTTACGTCTCGCAGATACTTTCTGGGCCACCAGAAAGGCGTTCACGCCAAGAACCCCGATTTTCTCTGCGAATTTTGCGAGAAACGCTTCGCAAGCAAGGCGTCAATGGCCGCCCACAGGATTCACCATACCAAAGACTATCGGTACAAGTGTGATCAATGCGATCGCGGTTACCTTTGGTTGTCCGAGTTGAAAATGCACCAGGAGATTCAGCACAATAGCGTGAGGTTTATTTGCGCCAGTTGTGGCAAGTCTTTCAAGAGTCCGGACTATTTTAGGGTCCACATTAGGCGACACGATCCACTCTATTCGCCCAGCAACTTCACGTGCGAAATATGCTCTAAGGTATGCCTTGGCAAAAGGTCTTATTACAATCACATGCGATATCACAATGCTGTGGGCCAACACATGTGCGACGTTTGTGGCAAAGCTTTCTCCACGACTGGCGCTTTGAATATTCATAAACGCCAACATACGGGGGAAAGACCTTTTGTGTGCAGCAAGTGTGGGAAAGCTTTCGTCAGCTCCACCTTGCTTAAGAAGCACGACCTAACCCATACTAGGGAGAAACCTCACAAATGTCACATTTGCGCAAGATGTTTCGCGCAGAAAGGAGATCTTACCattcacttacggcatcatagCGGTGTCAAGCCGTATAAGTGTTTATCTTGTGAAAAGAAATTTGTCAAAGCCACTACAAACTTAGCTATTAGATCATGTTGTTTTGACAAAGGCTATATTCTCAAGGTCAAAACTGGTATTGTATGCTGGATTTATCCAAGGTGTTTAAAACAAACCGGGAGTCAATATAACGTTCAGGAGAACCCGCATTTGGAACAAGTGGAGGAAAAGACGTGTGTAACAGAAATCCAAACAACTGCTGTTACAAAACTACCTTCCTTGAAGACACGGGTCAAAGGGAATTGCAGTTTAGATCCTGTGAGAGGGCAAACCTTACAATGCGAGGAATGCGGTAAATTATTCGCATGTCCGATCGgcttatccaaacacaaaaagcTCTTTCATCAAAAGGGCGATGGCCACAGGTGCGACCAGTGCGGAAAGATTTTTAGTTCGTCGAGATATCTTTCAGGCCATAAGCGAGGAGTCCACGAGAAGAACCCAGATTTCACGTGCGACTACTGCGGTAAATGTTTCCCGGCGAAGAGGGCTATGCTCGCGCATAGGGTTCATCACACGAAAGAATACAGGTATCAATGTGACAAGTGCGATCGCGGGTACTTGAACCGAACCACTCTGAAGGTGCATCAAGAAAGTCACAGTACCGACCGCTACACTTGCAAGAAGTGCAATAGGATATACAAGAATAGGATTTGCTTCAAGAAACATCTGGCGACGCACGAACCCGATTACACCCCTAAGGAATACGTTTGTGATTTGTGTGCGGGTGTGTGCACCACAAAGAACGCCTATTATAAGCACATGAAACGTCACCAGGCCTTGAGGCATATGTGCGAAATTTGCGGTAAAACCGTTACTACTCCTACTAGCTTGGCTGCACACAAACGCACGCATTCTGGTGAGAAACCGTACGTTTGCGATACCTGTGGAAAGAGTTTCGCGTCCAAGAGGACCCTTGTTATTCATACTGTGACCCATACTAGGGAGAAGGCTTATAAATGTCAGGAATGCGGAAAGGCTTTCTCTCAAGTGGGTACTCTGACAATACATTTACGGAAACATACTGGCGAAAAGCCGTGTTTGGCACGGGCTATGCTTAATGTACCTCAACACAGAAGAGACCTACGTCCGAGCTGTGGCGACTACAAGTGTAAGGAATGCAACGAGGCCTTTAAATATCTGAAACAGTTAGCACAACATAGGAAGGACGTTCACAGTGGAGATGACGGCTTCAAGTGCGAGGAGTGTGGAGAGGTCTTTAAATCTCTGAGATATTTCGCCGGACACGTAAAGGGCGTTCACGAAAAGAATCCGGACTACATTTGCGATTACTGTGGTAAATGCTTCGTGAACAAAGAAGCAATGACTAGACACAAGGTCTTCAATCACACGAAAGAATTCAGGTATAAGTGTGACCAATGCGATCGCGGTTACTTGAAGATGTCCGAGCTAAAAGTTCATCTGGAGAGCCACAGCACTGAGCGCCACATTTGCAACCAGTGCGGCAAGATATTTAAGCAAAGGTACTATTTTAAACAGCATCTGGCGACGCACGATCCCGGATACGTTCAGAAGCGGTTCGTTTGTGAATTGTGCTCGAACGTGTACTCGGGCAGCGGTTCGTTTTACAAGCATATGAGACGGCACGAGGGAATGAAGTACGTGTGCGAAACTTGCGGCAAAGCCATTACCACTCCCACTGGCTTAGCCGCCCACAAACGTACACATTCCGGTGAAAAACCATACGCTTGCGGTACTTGTGGAAAGAGTTTCACTTGCAAGAATACTCTGGTTACGCACACCGTAACACACACCAAGGAGAAGTCCTATAAGTGTCAAGAGTGCGGGAAGGCTTTCTCGCAAGTTGGTACCCTCAAAATACATTTACGGAAACATACTGGCGAAAAACCATATCCCTGTTCGTTTTGTGAAAAACGTTTCATTAGcaaatgtttattaaacttTCACCTAAAGAACCATCGgTGTTTGGTACAGGATAACCTACAGGCTATACCTGTGGTTCTTGAAAATGGAGATTCTTTAAATATGTTCCCATTCAAATTGAGCTGGAAACCACACATGGAAAACCATAGCAACGCTGCTAAATGTATCTGCGAAAAGTGCGGAGTAGCATTTGCATCCTGGAAAGATGTAACTCAGCACAGAAGAGACCTACACGACTACAAGTGTAACGAATGCGGCAAAGCCTTTAGATATCTGAAACAGTTAGCACAACATAGGAAGGACGTTCATGGTGGAGGTGACGGCTACAAGTGCGAGGAGTGTGGAGAAATCTTTAAGTCTCTGGGATATTTCGTCGGACACGTAAAAGGCGTTCACGAGAAGAACCCGGACTACATTTGTGATTACTGTGATAAATGCTTCCTGAGTAAAGCAACGATGACTAGGCACAGGGCCTACAGTCACACGAAAGAATTCAGATACAAGTGTGAGAAATGCGATCGCGGTTTCGTGAAGATGTCCAAGCTAAAATCACATATGGAGATCCACAGCACTAAGCGACACCATTTGGCGACGCATGATCCTGGTTACGTCCAGAAGCAGTATGCTTGTGAAGTGTGCTCCAAAGTGTTCTCGTTGAGCGGTTCGTTTTATAGCCACATGAAACGGCACGAGGGGATAAAGTATGTGTGCGAAATTTGCGGCAAGACCGTTGCCAGTCTTACTGGTCTGGCCACACACAGACGCACACATTCAGGTGAAAAACCTTACGTTTGCCCTACCTGTGGGAAGAGCTTCGCGTGCAAGAATACTCTGGTTACCCACACTGTGACACACACCTAG
Protein Sequence: MFLGTARVGSGHMYDDLFFASWLPIETHCNGDGECLYCFKAHFPRRFLQCDICGKSCTTRQLMDIHKKEAHEGGFSCDSCPKTFKNWISFNNHKKAVHEGDPDYICEYCGNSYSSKYGLVRHRIVSHTKDRKYMCDKCDRSYFVPFELKTHQKSCHGNFSFTCDTCSKVFKDKGYFKEHLLMHIPGAFTCKLCSKAFSSKRSLKTHESVHEAPNYVCEVCGKAVSSKVSLIDHKRLHTGEKPFACDRCDKRFARKHGLQLHTLIHTKQKPHKCQICNKAFSQRGTLTVHLRYHSGDRPYECTICGKKFVSKTSSAEIESQEDNEQTLPENLDSEDTTFFGPSTSKPVLKCDICGKVFARREGLRRHTEVHKRKSGGYSCNDCGKVFTSRRYFLGHQKGVHAKNPDFLCEFCEKRFASKASMAAHRIHHTKDYRYKCDQCDRGYLWLSELKMHQEIQHNSVRFICASCGKSFKSPDYFRVHIRRHDPLYSPSNFTCEICSKVCLGKRSYYNHMRYHNAVGQHMCDVCGKAFSTTGALNIHKRQHTGERPFVCSKCGKAFVSSTLLKKHDLTHTREKPHKCHICARCFAQKGDLTIHLRHHSGVKPYKCLSCEKKFVKATTNLAIRSCCFDKGYILKVKTGIVCWIYPRCLKQTGSQYNVQENPHLEQVEEKTCVTEIQTTAVTKLPSLKTRVKGNCSLDPVRGQTLQCEECGKLFACPIGLSKHKKLFHQKGDGHRCDQCGKIFSSSRYLSGHKRGVHEKNPDFTCDYCGKCFPAKRAMLAHRVHHTKEYRYQCDKCDRGYLNRTTLKVHQESHSTDRYTCKKCNRIYKNRICFKKHLATHEPDYTPKEYVCDLCAGVCTTKNAYYKHMKRHQALRHMCEICGKTVTTPTSLAAHKRTHSGEKPYVCDTCGKSFASKRTLVIHTVTHTREKAYKCQECGKAFSQVGTLTIHLRKHTGEKPCLARAMLNVPQHRRDLRPSCGDYKCKECNEAFKYLKQLAQHRKDVHSGDDGFKCEECGEVFKSLRYFAGHVKGVHEKNPDYICDYCGKCFVNKEAMTRHKVFNHTKEFRYKCDQCDRGYLKMSELKVHLESHSTERHICNQCGKIFKQRYYFKQHLATHDPGYVQKRFVCELCSNVYSGSGSFYKHMRRHEGMKYVCETCGKAITTPTGLAAHKRTHSGEKPYACGTCGKSFTCKNTLVTHTVTHTKEKSYKCQECGKAFSQVGTLKIHLRKHTGEKPYPCSFCEKRFISKCLLNFHLKNHRCLVQDNLQAIPVVLENGDSLNMFPFKLSWKPHMENHSNAAKCICEKCGVAFASWKDVTQHRRDLHDYKCNECGKAFRYLKQLAQHRKDVHGGGDGYKCEECGEIFKSLGYFVGHVKGVHEKNPDYICDYCDKCFLSKATMTRHRAYSHTKEFRYKCEKCDRGFVKMSKLKSHMEIHSTKRHHLATHDPGYVQKQYACEVCSKVFSLSGSFYSHMKRHEGIKYVCEICGKTVASLTGLATHRRTHSGEKPYVCPTCGKSFACKNTLVTHTVTHT

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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