Basic Information

Insect: Osmoderma eremita
Gene Symbol: zfy1
Assembly: GCA_031763485.1
Location: JARFOC010057937.1:5773-16579[+]

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 36 0.039 9.9 9.1 0.2 6 23 2 19 1 19 0.95

2 36 0.0013 0.34 13.7 0.3 1 23 64 86 64 86 0.97

3 36 6.4e-07 0.00016 24.1 0.1 1 23 92 114 92 114 0.98

4 36 1.2e-06 0.00031 23.3 0.4 1 23 120 142 120 142 0.98

5 36 0.0012 0.29 13.9 0.1 1 23 148 170 148 170 0.98

6 36 3.7e-07 9.2e-05 24.9 0.2 1 23 176 198 176 198 0.98

7 36 5.7e-05 0.014 18.0 0.1 1 23 204 226 204 226 0.98

8 36 0.0062 1.6 11.6 0.8 1 16 232 247 232 250 0.78

9 36 0.11 27 7.7 0.1 6 23 335 353 333 353 0.93

10 36 0.0004 0.1 15.4 0.4 1 23 374 396 374 396 0.97

11 36 0.011 2.8 10.8 0.5 1 14 402 415 402 419 0.90

12 36 0.00036 0.091 15.5 0.4 1 23 454 477 454 477 0.96

13 36 0.00022 0.056 16.1 0.6 1 20 483 502 483 504 0.95

14 36 0.022 5.4 9.9 4.4 1 23 511 533 511 534 0.95

15 36 0.004 1 12.2 0.9 7 23 545 561 539 561 0.87

16 36 0.084 21 8.1 2.6 1 23 568 590 568 590 0.98

17 36 6.8e-06 0.0017 20.9 1.0 1 23 607 629 607 629 0.97

18 36 4.4e-07 0.00011 24.7 0.6 1 23 635 657 635 657 0.98

19 36 0.00013 0.032 16.9 0.2 1 23 663 685 663 685 0.98

20 36 0.0008 0.2 14.4 0.1 1 23 691 713 691 713 0.97

21 36 0.00012 0.031 16.9 0.3 1 23 719 741 719 741 0.98

22 36 0.0002 0.05 16.3 0.3 1 23 747 769 747 769 0.97

23 36 1.4e-06 0.00035 23.1 0.2 1 23 775 797 775 797 0.98

24 36 3.8e-05 0.0095 18.6 0.5 1 23 803 825 803 825 0.98

25 36 0.0016 0.41 13.4 0.2 1 19 831 849 831 851 0.93

26 36 0.091 23 7.9 0.3 2 22 940 960 939 962 0.87

27 36 6.4 1.6e+03 2.1 0.7 1 10 971 980 971 994 0.86

28 36 0.0031 0.78 12.6 0.5 1 23 999 1021 999 1021 0.97

29 36 0.026 6.5 9.7 0.4 1 23 1027 1050 1027 1050 0.93

30 36 0.00072 0.18 14.6 1.1 1 23 1056 1078 1056 1078 0.93

31 36 0.00054 0.14 14.9 0.6 1 23 1084 1107 1084 1107 0.95

32 36 3.4e-05 0.0086 18.7 0.3 2 23 1118 1140 1117 1140 0.95

33 36 0.37 95 6.0 1.8 3 23 1155 1172 1154 1172 0.90

34 36 1.5e-05 0.0039 19.8 1.5 1 23 1178 1200 1178 1200 0.99

35 36 7.4e-07 0.00019 23.9 1.2 1 23 1206 1228 1206 1228 0.97

36 36 0.037 9.3 9.2 0.3 1 21 1234 1254 1234 1255 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	36	0.039	9.9	9.1	0.2	6	23	2	19	1	19	0.95
2	36	0.0013	0.34	13.7	0.3	1	23	64	86	64	86	0.97
3	36	6.4e-07	0.00016	24.1	0.1	1	23	92	114	92	114	0.98
4	36	1.2e-06	0.00031	23.3	0.4	1	23	120	142	120	142	0.98
5	36	0.0012	0.29	13.9	0.1	1	23	148	170	148	170	0.98
6	36	3.7e-07	9.2e-05	24.9	0.2	1	23	176	198	176	198	0.98
7	36	5.7e-05	0.014	18.0	0.1	1	23	204	226	204	226	0.98
8	36	0.0062	1.6	11.6	0.8	1	16	232	247	232	250	0.78
9	36	0.11	27	7.7	0.1	6	23	335	353	333	353	0.93
10	36	0.0004	0.1	15.4	0.4	1	23	374	396	374	396	0.97
11	36	0.011	2.8	10.8	0.5	1	14	402	415	402	419	0.90
12	36	0.00036	0.091	15.5	0.4	1	23	454	477	454	477	0.96
13	36	0.00022	0.056	16.1	0.6	1	20	483	502	483	504	0.95
14	36	0.022	5.4	9.9	4.4	1	23	511	533	511	534	0.95
15	36	0.004	1	12.2	0.9	7	23	545	561	539	561	0.87
16	36	0.084	21	8.1	2.6	1	23	568	590	568	590	0.98
17	36	6.8e-06	0.0017	20.9	1.0	1	23	607	629	607	629	0.97
18	36	4.4e-07	0.00011	24.7	0.6	1	23	635	657	635	657	0.98
19	36	0.00013	0.032	16.9	0.2	1	23	663	685	663	685	0.98
20	36	0.0008	0.2	14.4	0.1	1	23	691	713	691	713	0.97
21	36	0.00012	0.031	16.9	0.3	1	23	719	741	719	741	0.98
22	36	0.0002	0.05	16.3	0.3	1	23	747	769	747	769	0.97
23	36	1.4e-06	0.00035	23.1	0.2	1	23	775	797	775	797	0.98
24	36	3.8e-05	0.0095	18.6	0.5	1	23	803	825	803	825	0.98
25	36	0.0016	0.41	13.4	0.2	1	19	831	849	831	851	0.93
26	36	0.091	23	7.9	0.3	2	22	940	960	939	962	0.87
27	36	6.4	1.6e+03	2.1	0.7	1	10	971	980	971	994	0.86
28	36	0.0031	0.78	12.6	0.5	1	23	999	1021	999	1021	0.97
29	36	0.026	6.5	9.7	0.4	1	23	1027	1050	1027	1050	0.93
30	36	0.00072	0.18	14.6	1.1	1	23	1056	1078	1056	1078	0.93
31	36	0.00054	0.14	14.9	0.6	1	23	1084	1107	1084	1107	0.95
32	36	3.4e-05	0.0086	18.7	0.3	2	23	1118	1140	1117	1140	0.95
33	36	0.37	95	6.0	1.8	3	23	1155	1172	1154	1172	0.90
34	36	1.5e-05	0.0039	19.8	1.5	1	23	1178	1200	1178	1200	0.99
35	36	7.4e-07	0.00019	23.9	1.2	1	23	1206	1228	1206	1228	0.97
36	36	0.037	9.3	9.2	0.3	1	21	1234	1254	1234	1255	0.95

Sequence Information

Coding Sequence: ATGTGCGGAAGGAtttttaataacaggaaaagcTATAATGCCCACAAAGAGGTACACGAAGAGATACACGAAAGGAATCGGGACCACAAAAGCAAAACAGAACTCGCGAGGCCCTTGAACACGCGCGATCCTAACAGGAAGAAGAATTCCTCTATGAGTCACATGCGTCGTCACGAAGGTACTGCGCGGCATATCTGCGAGATATGTGGCAAGAGGATGACTACAGCCGGTTCGTTAGTCCTTCATAAGCgaatacatactggagaaaaaccgttcgtttgcgacacttgtggcaaggctttcgccCAGGTGTCAAATATTACGGCACATAtgcgaacacatactggagaaaagcctttcgtttgcgacacttgtggtaaggctttcacccagaggTCAACTATTacggcacatgtacggacacatactggagaaaaacctttcgtttgcgacacttgtagTATGGCTTTCGCCCGGAAGGCAGTTTTTGtggcacatgtacggacacatactggagaaaaacctttcgtttgcgatacttgtggtaaggctttcatcCAGAAGTCAAATTTTATggcacatgtacggatacatactggagaaagaccTTTCGTTTGCGCCACTTGTGGTAAGGCCTTCGCCCAGAAAAGAGGTTTTGTGGCACATGTTcagacacatactggagaaaaacctttcgtttgcgatacttgtggaaaggctttcacccagaaaGATTTCTTCATACACACCGGCAAAACCGGAGCTGGTGACACTGTCGTTGCCGACCAAGTGGCCCACAAAACTAGTACCGAAGATAGTGTTTGGCCGTTTATTAGTGTAGCAGTGAAAGGCGCTAGTTGCCGgtttataccagCACAAATGAATGTCCATGATATAGAAGAGGATCCTTATTCCGTAACATCAgcgcattttacacaagaatatttggaacgccacaataaaGCAATTATTCAGAATAGTGTTGGGTTTAAGAGCGAAAGGTGCGgaaggatttttaaggaaaGGGAAAGCTTCAATGCGCACGAAAGAGCAATACACGAAGAGAGTCAGAACGACAAATGCGAATTTTGGTACAAGATTCAGGAAGGGACGGCGCGGCATATCTGTGAGATATGTGGCAAAAGGATGACTACAGCCGCTTCGTTGGTCATTCATAAgcgaacacatactggagaaaaacctttcgtttgcgacacttgtggcaaggcatTCACCCGGAAGACAACACAAatgaaagtcgatgatatagaagagggtccttattccgtaacatcagtgcattttacacaagaagatttggaacgccacaataaaGCAATTTTTCAGAATAGTGTGGGGTTTAAGTGCGAAAGGTGCGgaaggatttttaaggaaaGGGAAAGCTACAATGCGCACGAAAGAGCAATACACGAAAAGAGTCAGGACCACAAATGCGAATTTTGCGACAAGTTCTTCGTCAACGCCGTAAATTTAGCCAGACACAAGGCGCAATACACCAAAGAATTTGAATATATGTGCGATAAATGCGATTGCGGCTTTTTTCGACCGGAAGATTTAATATTGCACCATGTAAAGCATCATGGTTTGCCTCAGTTTTCTTGTGATAAAGGCCGGAAAAGTTTCACCCGCAAAACAGGACTTACAAGCCACATGAAGACGCACAACCTTAAGAGGAAAACGCACGAGTGCAAGATATGCTCGGCAGTGTTCCTTTACAAGAAGTCCTATATGAATCACGTGCGCCGTCACAAGGCGGATATGATGAGGCATGTATTGACACATAATGGAGAAAAACGGTTCATTTGCGCCACTTGTGGAAAGACTTTCAACCAGAGAGCATTTTTGATGAGACATCGACGGATACATACTGAAGAAACatcgttcgtttgcgacacttgtggaaaggctttcgtCATGAAATTAAATCTTAAGAGacatatacggacacatactggagaaaagccgttcatttgcgacacttgtggaaagccTTTCGCCTATGAGGCATATATGACGAGGCATGCACAGACACATACTGGAGCAACACCGTTCGCTTGCtatacttgtggcaaggctttcatcCATAGGGCAGATATTGCGGCACATGTACTGACACATAATGGAGGAAAACCGTTCGtgtgcgacacttgtggaaaggctttcatccATAGAGCAAGCATTACGGCACATGAACTGACACATAATGGAGGAAAACCGTTCGattgtgacacttgtggaaaggctttcaatCAGAGAGCAATTTTGATGAGACATGGACGGACACATACTCAAAAAAaatcgttcgtttgcgacacttgtggaaaggctttcgtCATCAAATCAAGTCTTAGGAAACATATACGGGCACATACTGGAGataaaccgttcgtttgcgacatttgtggtACGACTTTCTTAACCAAATGGAATCTTAAGGTGCATTcacgaacacatactggagacAAACCTtacgtttgcgatacttgtggaaaggctttcaacCATAAAACAGGCATTGCGAGACATGAGATGTGCCGTTCTAAAGCTTTAAAATTAGATTTGCGTCTACATATTGGTGGAAGCCTTACATGTGATCATTACTGCAAAAAGAAACATACGGTGGTAAGAAAATATCTTAGACTGTGTTTCAACAAGGAATTTGTAAGTGTACCGTCCTTGAGACTAGACACATCGGTGAAAATTGAAGAAACTACGCTATCGGGAATAGCAAACAAGGCGAACACAAAGAGAACGACTAAGAAGGCGGCGAAGAAAATGATCAAGCGAGACGTGTGGAATTGCAGACTCTGTGACGCCGTATTTAAGAAGAGACGCCAACTGTCCGACCACAACTTGGGGGTGCACAAACACCGTATTTGTATTAAGGGTTATACTTGTAAGGTGTGCCATATGGAGTTTCTGTGGAAGAAAGATATGGATGAGCATTACTTGAAGACGCACGAAGAGACAAAATTCACGTGTGCGACATGCGGGGAACTGTTTCGTACGGCGTACGAATACTCGGTGCATCTTTACAAACACGACAGCAGTAAGGGTTATCCTTGTCCCATCTGCAGTTTTACCACATCCAGGCAGAGATCAATGGGTACTCACATACATGCCGCTCACTTCAAACAGTACGACCACGTATGCAAATATTGCggtaaaagttttaataatccGATTAGTCGGATGGAACACGAAGAAAGCCACGTCAGCAGTACCGAGTACATATGCGTAGTGTGCAAGCGCGGCTTTTCCCAAAGCGACAAGCTGACCATGCACCAGGTTCGCTACCATAGAGTCCCCGTGATACAGAAAAGCATGAAAGTGTGCGATATATGTGGGAAAAGCTACGTCAAGAAGTACTCCCTCGAATTGCACATTATGAATTTCCACGGGAAAAAGACCGGTTTCAAGGAGACCGAGAAAAATACCCTCTGTTCCATATGCGGCAAACATTTCTCCGCTTTGGGCACGCATATGAAACTACACAACAATTACAAGCCGTACAAATGCGGTCATTGCGACAAGACCTTCGCCAAGAGCGAGTACTTGGTGATGCACGAAAGGATTCACAGTGGGGAGAGACCGTTCGCTTGCAAAACTTGCGGAAAACGCTTCAATCAGAAATCACCGCTCCGCTTACACATGCGTATACACACTGGCGAGAAACCATTCAAATGCCAGTTGTGTAATCGTGGTTTCATCGCTAAGACTGTACTAAATAGTCATTTAAAGTCGTGTTCTGGTTAa
Protein Sequence: MCGRIFNNRKSYNAHKEVHEEIHERNRDHKSKTELARPLNTRDPNRKKNSSMSHMRRHEGTARHICEICGKRMTTAGSLVLHKRIHTGEKPFVCDTCGKAFAQVSNITAHMRTHTGEKPFVCDTCGKAFTQRSTITAHVRTHTGEKPFVCDTCSMAFARKAVFVAHVRTHTGEKPFVCDTCGKAFIQKSNFMAHVRIHTGERPFVCATCGKAFAQKRGFVAHVQTHTGEKPFVCDTCGKAFTQKDFFIHTGKTGAGDTVVADQVAHKTSTEDSVWPFISVAVKGASCRFIPAQMNVHDIEEDPYSVTSAHFTQEYLERHNKAIIQNSVGFKSERCGRIFKERESFNAHERAIHEESQNDKCEFWYKIQEGTARHICEICGKRMTTAASLVIHKRTHTGEKPFVCDTCGKAFTRKTTQMKVDDIEEGPYSVTSVHFTQEDLERHNKAIFQNSVGFKCERCGRIFKERESYNAHERAIHEKSQDHKCEFCDKFFVNAVNLARHKAQYTKEFEYMCDKCDCGFFRPEDLILHHVKHHGLPQFSCDKGRKSFTRKTGLTSHMKTHNLKRKTHECKICSAVFLYKKSYMNHVRRHKADMMRHVLTHNGEKRFICATCGKTFNQRAFLMRHRRIHTEETSFVCDTCGKAFVMKLNLKRHIRTHTGEKPFICDTCGKPFAYEAYMTRHAQTHTGATPFACYTCGKAFIHRADIAAHVLTHNGGKPFVCDTCGKAFIHRASITAHELTHNGGKPFDCDTCGKAFNQRAILMRHGRTHTQKKSFVCDTCGKAFVIKSSLRKHIRAHTGDKPFVCDICGTTFLTKWNLKVHSRTHTGDKPYVCDTCGKAFNHKTGIARHEMCRSKALKLDLRLHIGGSLTCDHYCKKKHTVVRKYLRLCFNKEFVSVPSLRLDTSVKIEETTLSGIANKANTKRTTKKAAKKMIKRDVWNCRLCDAVFKKRRQLSDHNLGVHKHRICIKGYTCKVCHMEFLWKKDMDEHYLKTHEETKFTCATCGELFRTAYEYSVHLYKHDSSKGYPCPICSFTTSRQRSMGTHIHAAHFKQYDHVCKYCGKSFNNPISRMEHEESHVSSTEYICVVCKRGFSQSDKLTMHQVRYHRVPVIQKSMKVCDICGKSYVKKYSLELHIMNFHGKKTGFKETEKNTLCSICGKHFSALGTHMKLHNNYKPYKCGHCDKTFAKSEYLVMHERIHSGERPFACKTCGKRFNQKSPLRLHMRIHTGEKPFKCQLCNRGFIAKTVLNSHLKSCSG

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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