Basic Information

Insect: Blastobasis adustella
Gene Symbol: ZFY
Assembly: GCA_907269095.1
Location: OU026119.1:309693-324824[-]

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 45 0.037 3.5 9.1 3.4 1 23 304 326 304 326 0.98

2 45 1.3 1.2e+02 4.3 0.9 1 19 333 351 333 355 0.79

3 45 3.6e-05 0.0034 18.6 0.3 2 23 362 383 361 383 0.96

4 45 9.1e-05 0.0086 17.3 3.5 1 23 389 411 389 411 0.98

5 45 0.0006 0.057 14.8 2.1 1 23 417 439 417 439 0.96

6 45 0.3 28 6.3 0.2 1 11 445 455 445 458 0.89

7 45 0.019 1.8 10.0 0.6 5 23 473 491 472 491 0.95

8 45 0.3 28 6.3 0.2 1 11 497 507 497 510 0.89

9 45 0.019 1.8 10.0 0.6 5 23 525 543 524 543 0.95

10 45 0.3 28 6.3 0.2 1 11 549 559 549 562 0.89

11 45 0.019 1.8 10.0 0.6 5 23 577 595 576 595 0.95

12 45 0.3 28 6.3 0.2 1 11 601 611 601 614 0.89

13 45 0.019 1.8 10.0 0.6 5 23 629 647 628 647 0.95

14 45 0.3 28 6.3 0.2 1 11 653 663 653 666 0.89

15 45 0.019 1.8 10.0 0.6 5 23 681 699 680 699 0.95

16 45 0.3 28 6.3 0.2 1 11 705 715 705 718 0.89

17 45 0.019 1.8 10.0 0.6 5 23 733 751 732 751 0.95

18 45 0.3 28 6.3 0.2 1 11 757 767 757 770 0.89

19 45 0.019 1.8 10.0 0.6 5 23 785 803 784 803 0.95

20 45 0.3 28 6.3 0.2 1 11 809 819 809 822 0.89

21 45 0.019 1.8 10.0 0.6 5 23 837 855 836 855 0.95

22 45 0.3 28 6.3 0.2 1 11 861 871 861 874 0.89

23 45 0.019 1.8 10.0 0.6 5 23 889 907 888 907 0.95

24 45 0.3 28 6.3 0.2 1 11 913 923 913 926 0.89

25 45 0.019 1.8 10.0 0.6 5 23 941 959 940 959 0.95

26 45 0.3 28 6.3 0.2 1 11 965 975 965 978 0.89

27 45 0.019 1.8 10.0 0.6 5 23 993 1011 992 1011 0.95

28 45 0.3 28 6.3 0.2 1 11 1017 1027 1017 1030 0.89

29 45 0.019 1.8 10.0 0.6 5 23 1045 1063 1044 1063 0.95

30 45 0.3 28 6.3 0.2 1 11 1069 1079 1069 1082 0.89

31 45 0.019 1.8 10.0 0.6 5 23 1097 1115 1096 1115 0.95

32 45 0.3 28 6.3 0.2 1 11 1121 1131 1121 1134 0.89

33 45 0.019 1.8 10.0 0.6 5 23 1149 1167 1148 1167 0.95

34 45 0.3 28 6.3 0.2 1 11 1173 1183 1173 1186 0.89

35 45 0.019 1.8 10.0 0.6 5 23 1201 1219 1200 1219 0.95

36 45 0.3 28 6.3 0.2 1 11 1225 1235 1225 1238 0.89

37 45 0.019 1.8 10.0 0.6 5 23 1253 1271 1252 1271 0.95

38 45 0.3 28 6.3 0.2 1 11 1277 1287 1277 1290 0.89

39 45 0.019 1.8 10.0 0.6 5 23 1305 1323 1304 1323 0.95

40 45 0.3 28 6.3 0.2 1 11 1329 1339 1329 1342 0.89

41 45 0.019 1.8 10.0 0.6 5 23 1357 1375 1356 1375 0.95

42 45 0.3 28 6.3 0.2 1 11 1381 1391 1381 1394 0.89

43 45 0.019 1.8 10.0 0.6 5 23 1409 1427 1408 1427 0.95

44 45 1.3e-05 0.0012 20.0 0.5 1 23 1433 1455 1433 1455 0.97

45 45 0.0011 0.1 14.0 1.4 1 23 1472 1495 1472 1495 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	45	0.037	3.5	9.1	3.4	1	23	304	326	304	326	0.98
2	45	1.3	1.2e+02	4.3	0.9	1	19	333	351	333	355	0.79
3	45	3.6e-05	0.0034	18.6	0.3	2	23	362	383	361	383	0.96
4	45	9.1e-05	0.0086	17.3	3.5	1	23	389	411	389	411	0.98
5	45	0.0006	0.057	14.8	2.1	1	23	417	439	417	439	0.96
6	45	0.3	28	6.3	0.2	1	11	445	455	445	458	0.89
7	45	0.019	1.8	10.0	0.6	5	23	473	491	472	491	0.95
8	45	0.3	28	6.3	0.2	1	11	497	507	497	510	0.89
9	45	0.019	1.8	10.0	0.6	5	23	525	543	524	543	0.95
10	45	0.3	28	6.3	0.2	1	11	549	559	549	562	0.89
11	45	0.019	1.8	10.0	0.6	5	23	577	595	576	595	0.95
12	45	0.3	28	6.3	0.2	1	11	601	611	601	614	0.89
13	45	0.019	1.8	10.0	0.6	5	23	629	647	628	647	0.95
14	45	0.3	28	6.3	0.2	1	11	653	663	653	666	0.89
15	45	0.019	1.8	10.0	0.6	5	23	681	699	680	699	0.95
16	45	0.3	28	6.3	0.2	1	11	705	715	705	718	0.89
17	45	0.019	1.8	10.0	0.6	5	23	733	751	732	751	0.95
18	45	0.3	28	6.3	0.2	1	11	757	767	757	770	0.89
19	45	0.019	1.8	10.0	0.6	5	23	785	803	784	803	0.95
20	45	0.3	28	6.3	0.2	1	11	809	819	809	822	0.89
21	45	0.019	1.8	10.0	0.6	5	23	837	855	836	855	0.95
22	45	0.3	28	6.3	0.2	1	11	861	871	861	874	0.89
23	45	0.019	1.8	10.0	0.6	5	23	889	907	888	907	0.95
24	45	0.3	28	6.3	0.2	1	11	913	923	913	926	0.89
25	45	0.019	1.8	10.0	0.6	5	23	941	959	940	959	0.95
26	45	0.3	28	6.3	0.2	1	11	965	975	965	978	0.89
27	45	0.019	1.8	10.0	0.6	5	23	993	1011	992	1011	0.95
28	45	0.3	28	6.3	0.2	1	11	1017	1027	1017	1030	0.89
29	45	0.019	1.8	10.0	0.6	5	23	1045	1063	1044	1063	0.95
30	45	0.3	28	6.3	0.2	1	11	1069	1079	1069	1082	0.89
31	45	0.019	1.8	10.0	0.6	5	23	1097	1115	1096	1115	0.95
32	45	0.3	28	6.3	0.2	1	11	1121	1131	1121	1134	0.89
33	45	0.019	1.8	10.0	0.6	5	23	1149	1167	1148	1167	0.95
34	45	0.3	28	6.3	0.2	1	11	1173	1183	1173	1186	0.89
35	45	0.019	1.8	10.0	0.6	5	23	1201	1219	1200	1219	0.95
36	45	0.3	28	6.3	0.2	1	11	1225	1235	1225	1238	0.89
37	45	0.019	1.8	10.0	0.6	5	23	1253	1271	1252	1271	0.95
38	45	0.3	28	6.3	0.2	1	11	1277	1287	1277	1290	0.89
39	45	0.019	1.8	10.0	0.6	5	23	1305	1323	1304	1323	0.95
40	45	0.3	28	6.3	0.2	1	11	1329	1339	1329	1342	0.89
41	45	0.019	1.8	10.0	0.6	5	23	1357	1375	1356	1375	0.95
42	45	0.3	28	6.3	0.2	1	11	1381	1391	1381	1394	0.89
43	45	0.019	1.8	10.0	0.6	5	23	1409	1427	1408	1427	0.95
44	45	1.3e-05	0.0012	20.0	0.5	1	23	1433	1455	1433	1455	0.97
45	45	0.0011	0.1	14.0	1.4	1	23	1472	1495	1472	1495	0.96

Sequence Information

Coding Sequence: ATGGCGTCGACAGGAGCAATGAACTCCACAGACTCCGCTATCGAAATCGGAGCAGCGGAGACGGACTCCTGCATCAAGACTGAGGTGGAGGTGAAGCATGAGTCCGTGGAGTGCGTCGTGTGCACGTCGCGGGGGTCGGACGGCGGCGAGGCGGCGGCGGCGCGCACGGCCAGCGGCACGCGGCTGGTGGACTTCCTGCGGCGCGTCGTGCGCTGCGAGCTCGGCGCCGCCGCGGCCGCGCGCCGCGTCTGCAGCCACTGCCTTCATCTCGTCGACGTGCTGGAGCAGGCCGAACTCGAATATCTTAAGCTCAAGGAAGCATTCGAAGCCGTCATCAGCAAAAACCCGCTGTTCGACCACGGCCGCCTGGAAAGCCACACCGTTAAGGTTGAAATGGAGCTGGAGAATGGCTTCGAGGACGAGTGCACTAATCGTTCGGACTCGGAGGACGAGCCCCTTGCTGTAACTAAAAAGAAACGAAATCAAAAACCTGTGAAGAGAAAATTTAAAGTTTATCCTAACAAGAGGAAACAAAGGATAAAAAACAGAATAGAGAAAAAGAAAAACAGTATAGAGAGATTTATTGACGAGACTTTACCTGTTGAAGATGAATATTTTGGCAATAGAGAAGTCAAGAAAGAGGACTCTGCTGATGGATCAGAGACCTCACATTTCAATAACGGCCTGGACGGGCTGTTCAAGATCGAAGTGGGGGCTGATGACCTCGACGACGAGGACTACGAGAGCGAGTCAGGTGATGGGTCGGAGGAGGCTTTGGAGGGCGTGCGGGCGACGCGGGCGGCGCGCGGGGCGCGGGGGGCGCGGGGGGCGCGCGGGCGCGGCGCGGGGCGCGGGCGCGGCGGCCGCGGGCGAGCCCCCGCCGAGCCCAAGTGGCAGCGACGGGTGGTGCATCAGTGCAACCAATGCAATGCCAAATATACATCGCTGAAGCGCCTGGAGTCTCACCTGTCGAAGCACTCCGCGGGCATGCCGCCATACATCTGCGAGGTGTGCGGCGCGCGCTACAAGCACAAGCGCGCCTGCGACATACACGTTGCGCTGCACAAAGGCATTAGCGACTGGAAGTGTGAAGAATGCGACAAGCTGTTCCCGTCCAAGAGCGCGCTGCAGCGGCACAACAACATCCACACCGGGAAACTCAACTATCAGTGCGACCTGTGCGGCAAGTCGTTCATCCACACGTCGTCGTTCAAGATGCACAAGCTGTCGCACTCGGGCGTGAAGCCGCACGCGTGCGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTGGGTCGGTGGGGACGGTGGGACCGAGAGGGGTCCCACTGATGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTGGGTCGGTGGGGACGGTGGGACCGAGAGGGGTCCCACTGATGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTGGGTCGGTGGGGACGGTGGGACCGAGAGGGGTCCCACTGATGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTGGGTCGGTGGGGACGGTGGGACCGAGAGGGGTCCCACTGATGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTGGGTCGGTGGGGACGGTGGGACCGAGAGGGGTCCCACTGATGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTGGGTCGGTGGGGACGGTGGGACCGAGAGGGGTCCCACTGATGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTGGGTCGGTGGGGACGGTGGGACCGAGAGGGGTCCCACTGATGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTGGGTCGGTGGGGACGGTGGGACCGAGAGGGGTCCCACTGATGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTGGGTCGGTGGGGACGGTGGGACCGAGAGGGGTCCCACTGATGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTGGGTCGGTGGGGACGGTGGGACCGAGAGGGGTCCCACTGATGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTGGGTCGGTGGGGACGGTGGGACCGAGAGGGGTCCCACTGATGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTGGGTCGGTGGGGACGGTGGGACCGAGAGGGGTCCCACTGATGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTGGGTCGGTGGGGACGGTGGGACCGAGAGGGGTCCCACTGATGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTGGGTCGGTGGGGACGGTGGGACCGAGAGGGGTCCCACTGATGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTGGGTCGGTGGGGACGGTGGGACCGAGAGGGGTCCCACTGATGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTGGGTCGGTGGGGACGGTGGGACCGAGAGGGGTCCCACTGATGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTGGGTCGGTGGGGACGGTGGGACCGAGAGGGGTCCCACTGATGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTGGGTCGGTGGGGACGGTGGGACCGAGAGGGGTCCCACTGATGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTGGGTCGGTGGGGACGGTGGGACCGAGAGGGGTCCCACTGATGACGTGTGCGGGCTCGCGCTCATGACGCGGTCGCACCTCAAGCGGCACAAGCGGGTCCACTCGGGCGAGAAGCGGCACGAGTGCGGCGTCTGCGGGAAGCGGTTCTCGGAGAGGTACAACCTGGCGGCGCACGCGAAGTCGCACGAGGTGGCGGGCGGCGCGCCGCCGGCCGACGCGCCGCGCCGCCGCCTCTTCCGCTGCCCCTACTGCCAGGACCGCTTCGAGCGACGGTACATGCTGGAGCGCCACGTGTCGTCCACCCACGGCCGCACGCTGGAGCGCGCGCCCGCCACGCCGCGGAACACCATGAGCAAGCTGCTCAAGCAGCAGGCGGCGGGCCGGGTGGGGGCGGGGGCGGGCGCGGGCGCGGGGGCGGAGGGGGAGCTGGCGGCCGGCACGGCGCCGCACACGCCGCAGACGCCGGCTGACGTGTCCCCGCCGAAGCGCGACCGCAGCCCGGCGGGGGCGGGGGCGGGCGCGGGGGCGGCGGCGGGGGTGGGGGCGGGGGCGGGCCGGGCGCTGGCGCCGGCGGCGCTCGCCCTACACAAACTACAACTTTCGTCGGCGGCGACGTCGGTGTCGGCGGGCGCGTGGTCGGCCGCCTACGGGGCCGAGTTCGGCCTCCGGCCCGACTACCACTGA
Protein Sequence: MASTGAMNSTDSAIEIGAAETDSCIKTEVEVKHESVECVVCTSRGSDGGEAAAARTASGTRLVDFLRRVVRCELGAAAAARRVCSHCLHLVDVLEQAELEYLKLKEAFEAVISKNPLFDHGRLESHTVKVEMELENGFEDECTNRSDSEDEPLAVTKKKRNQKPVKRKFKVYPNKRKQRIKNRIEKKKNSIERFIDETLPVEDEYFGNREVKKEDSADGSETSHFNNGLDGLFKIEVGADDLDDEDYESESGDGSEEALEGVRATRAARGARGARGARGRGAGRGRGGRGRAPAEPKWQRRVVHQCNQCNAKYTSLKRLESHLSKHSAGMPPYICEVCGARYKHKRACDIHVALHKGISDWKCEECDKLFPSKSALQRHNNIHTGKLNYQCDLCGKSFIHTSSFKMHKLSHSGVKPHACDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERWVGGDGGTERGPTDDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERWVGGDGGTERGPTDDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERWVGGDGGTERGPTDDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERWVGGDGGTERGPTDDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERWVGGDGGTERGPTDDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERWVGGDGGTERGPTDDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERWVGGDGGTERGPTDDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERWVGGDGGTERGPTDDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERWVGGDGGTERGPTDDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERWVGGDGGTERGPTDDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERWVGGDGGTERGPTDDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERWVGGDGGTERGPTDDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERWVGGDGGTERGPTDDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERWVGGDGGTERGPTDDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERWVGGDGGTERGPTDDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERWVGGDGGTERGPTDDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERWVGGDGGTERGPTDDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERWVGGDGGTERGPTDDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERWVGGDGGTERGPTDDVCGLALMTRSHLKRHKRVHSGEKRHECGVCGKRFSERYNLAAHAKSHEVAGGAPPADAPRRRLFRCPYCQDRFERRYMLERHVSSTHGRTLERAPATPRNTMSKLLKQQAAGRVGAGAGAGAGAEGELAAGTAPHTPQTPADVSPPKRDRSPAGAGAGAGAAAGVGAGAGRALAPAALALHKLQLSSAATSVSAGAWSAAYGAEFGLRPDYH

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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