Basic Information

Insect: Ennomos fuscantarius
Gene Symbol: -
Assembly: GCA_905220475.1
Location: HG992051.1:4756231-4767047[-]

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 39 0.21 20 6.6 3.4 1 21 113 133 113 136 0.90

2 39 0.81 76 4.8 0.0 2 23 165 187 164 187 0.90

3 39 0.024 2.2 9.6 1.0 2 23 210 232 209 232 0.93

4 39 0.00036 0.034 15.3 0.1 1 19 237 255 237 256 0.96

5 39 2.8e-05 0.0027 18.8 0.7 1 23 264 287 264 287 0.96

6 39 0.0089 0.84 10.9 0.5 1 23 292 315 292 315 0.97

7 39 0.026 2.4 9.5 4.9 1 23 324 347 324 347 0.97

8 39 0.22 21 6.5 0.7 2 23 354 375 354 375 0.96

9 39 0.0059 0.55 11.5 3.9 1 23 421 443 421 443 0.98

10 39 1.7 1.6e+02 3.7 0.1 2 23 468 490 467 490 0.90

11 39 2.5e-05 0.0024 18.9 0.7 1 23 536 558 536 559 0.96

12 39 0.0003 0.028 15.6 0.9 1 23 564 587 564 587 0.94

13 39 0.0003 0.029 15.5 3.0 1 23 589 612 589 612 0.97

14 39 1.9 1.8e+02 3.6 1.8 1 23 651 674 651 674 0.94

15 39 0.048 4.6 8.6 0.0 2 21 749 768 748 771 0.89

16 39 0.00039 0.037 15.2 0.3 2 23 777 799 777 799 0.94

17 39 0.012 1.2 10.5 1.8 2 23 804 826 803 826 0.94

18 39 0.017 1.6 10.0 0.5 1 23 831 854 831 854 0.96

19 39 4.4e-05 0.0042 18.2 3.9 1 23 858 881 858 881 0.97

20 39 0.016 1.5 10.1 2.8 2 23 888 909 887 909 0.96

21 39 2.8e-05 0.0026 18.8 0.9 1 23 915 937 915 937 0.98

22 39 0.35 33 5.9 0.0 3 23 1057 1078 1055 1078 0.95

23 39 0.076 7.1 8.0 0.8 2 23 1101 1123 1101 1123 0.95

24 39 0.19 18 6.7 2.8 1 23 1128 1151 1128 1151 0.90

25 39 0.053 5 8.5 0.4 1 23 1156 1179 1156 1179 0.92

26 39 0.00075 0.071 14.3 0.8 2 23 1185 1207 1184 1207 0.94

27 39 0.0004 0.038 15.2 0.1 2 23 1215 1237 1214 1237 0.97

28 39 0.28 27 6.2 0.0 2 23 1244 1265 1243 1265 0.95

29 39 6.8e-07 6.4e-05 23.9 0.8 1 23 1271 1293 1271 1293 0.96

30 39 1.5e-06 0.00014 22.8 0.4 1 23 1299 1322 1299 1322 0.97

31 39 0.11 10 7.5 0.0 2 23 1492 1514 1491 1514 0.90

32 39 5.4 5.1e+02 2.2 0.2 2 23 1537 1559 1536 1559 0.94

33 39 4.4e-05 0.0042 18.2 1.0 1 23 1564 1587 1564 1587 0.97

34 39 0.2 19 6.6 5.8 1 23 1590 1613 1590 1613 0.97

35 39 0.97 91 4.5 0.4 1 23 1619 1642 1619 1642 0.94

36 39 0.0032 0.31 12.3 1.6 2 23 1650 1672 1649 1672 0.95

37 39 0.79 75 4.8 0.5 1 23 1677 1699 1677 1699 0.96

38 39 1.2e-06 0.00012 23.0 3.4 1 23 1705 1727 1705 1727 0.98

39 39 0.011 1.1 10.6 0.5 2 23 1734 1756 1734 1756 0.90

#	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	39	0.21	20	6.6	3.4	1	21	113	133	113	136	0.90
2	39	0.81	76	4.8	0.0	2	23	165	187	164	187	0.90
3	39	0.024	2.2	9.6	1.0	2	23	210	232	209	232	0.93
4	39	0.00036	0.034	15.3	0.1	1	19	237	255	237	256	0.96
5	39	2.8e-05	0.0027	18.8	0.7	1	23	264	287	264	287	0.96
6	39	0.0089	0.84	10.9	0.5	1	23	292	315	292	315	0.97
7	39	0.026	2.4	9.5	4.9	1	23	324	347	324	347	0.97
8	39	0.22	21	6.5	0.7	2	23	354	375	354	375	0.96
9	39	0.0059	0.55	11.5	3.9	1	23	421	443	421	443	0.98
10	39	1.7	1.6e+02	3.7	0.1	2	23	468	490	467	490	0.90
11	39	2.5e-05	0.0024	18.9	0.7	1	23	536	558	536	559	0.96
12	39	0.0003	0.028	15.6	0.9	1	23	564	587	564	587	0.94
13	39	0.0003	0.029	15.5	3.0	1	23	589	612	589	612	0.97
14	39	1.9	1.8e+02	3.6	1.8	1	23	651	674	651	674	0.94
15	39	0.048	4.6	8.6	0.0	2	21	749	768	748	771	0.89
16	39	0.00039	0.037	15.2	0.3	2	23	777	799	777	799	0.94
17	39	0.012	1.2	10.5	1.8	2	23	804	826	803	826	0.94
18	39	0.017	1.6	10.0	0.5	1	23	831	854	831	854	0.96
19	39	4.4e-05	0.0042	18.2	3.9	1	23	858	881	858	881	0.97
20	39	0.016	1.5	10.1	2.8	2	23	888	909	887	909	0.96
21	39	2.8e-05	0.0026	18.8	0.9	1	23	915	937	915	937	0.98
22	39	0.35	33	5.9	0.0	3	23	1057	1078	1055	1078	0.95
23	39	0.076	7.1	8.0	0.8	2	23	1101	1123	1101	1123	0.95
24	39	0.19	18	6.7	2.8	1	23	1128	1151	1128	1151	0.90
25	39	0.053	5	8.5	0.4	1	23	1156	1179	1156	1179	0.92
26	39	0.00075	0.071	14.3	0.8	2	23	1185	1207	1184	1207	0.94
27	39	0.0004	0.038	15.2	0.1	2	23	1215	1237	1214	1237	0.97
28	39	0.28	27	6.2	0.0	2	23	1244	1265	1243	1265	0.95
29	39	6.8e-07	6.4e-05	23.9	0.8	1	23	1271	1293	1271	1293	0.96
30	39	1.5e-06	0.00014	22.8	0.4	1	23	1299	1322	1299	1322	0.97
31	39	0.11	10	7.5	0.0	2	23	1492	1514	1491	1514	0.90
32	39	5.4	5.1e+02	2.2	0.2	2	23	1537	1559	1536	1559	0.94
33	39	4.4e-05	0.0042	18.2	1.0	1	23	1564	1587	1564	1587	0.97
34	39	0.2	19	6.6	5.8	1	23	1590	1613	1590	1613	0.97
35	39	0.97	91	4.5	0.4	1	23	1619	1642	1619	1642	0.94
36	39	0.0032	0.31	12.3	1.6	2	23	1650	1672	1649	1672	0.95
37	39	0.79	75	4.8	0.5	1	23	1677	1699	1677	1699	0.96
38	39	1.2e-06	0.00012	23.0	3.4	1	23	1705	1727	1705	1727	0.98
39	39	0.011	1.1	10.6	0.5	2	23	1734	1756	1734	1756	0.90

Sequence Information

Coding Sequence: ATGAACATTCTACTTGATGAGTTATTTAAATGGACATACAGAAGAACGCATCTCGTTTCAGATCGCGCCAGTACCGAACGCAGAAATCGATTACTGGAAACTGAGACAGACACAACTTCGACGATAAAAAAAGACAAAATCAAATTAGAAAACGACGATACCTCTGACAGCGATGATTCAAACAAACCTATATTAGAGCGACCAAAAAAAGGTCTAGACAAAATTAAAAATGAAGAATCCGTGTCTAAAATACTCCAATGCTTTAGAGTCAGGAAAAACGTTGCTTGCTTACTCAATAACACGACTGCAATACCATTCTCTCACGCTAAAAGTGAATTCAGATGTTTCATATGTCAAGAAGGTTTCCATAGATGCGATATGTTACAAGAGCATTTTACCGCGGAGCACTCTACATTTGGCTGTCACCATAGAGACAATATTATAAAGAAAGTCAATAAAAACACTTCCTTAAAACTAGATATATCCAAACTCAGCTGTAAACTGTGCGAGGAACCGTTTACAGATTTGAAAGTGATCATAGAACATCTTATATCCGAACACAATATCGAATACGATAAAACAGCTATAGACATAATCCAACCGTTTCGACTTAACGATGACGATCTCAGATGTCATATATGCGATGAAAAGTTTATATATTTCATCAAACTGGTTAGCCATTTAAACGATTATCACGAGGATAAGAAATACATGTGCGATATTTGTGGGAAATCGTTTAAGGACCTTAATTCTTACAACATTCATGGCTGGCAAGTACACGGTCCTGGGTATAACTGTGCGGATTGCGGTAGACGATGTTCTAACGCATCGCTGCTACGCGAGCATATGGCCAGTAACCATGGGAAAGGCACGTTCAAATGTTCCGAATGTCCGGCAGAATTCACGTCAATATACAAAAAGAAGAAGCATATTATATCGGTTCATAAAGCTAAGGATGTTCCGGCGTCTTTCAAATGTCCGCATTGCGAGAAAGTTTTCACTTGTACGTCCCAACGTAACGTCCACGTTAGGAAAGTGCATTTGAAAGAGAAAAATGAAGTTTGTCCGATATGTCACGCGGAACTGTTTAATAAGACCAGGCTGAATTTGCATATGGTCAAGCATTTGAGGGAGAGGAACCATGTGTGCGATGTTTGCGATTGTACGCCGGTCCAGTCCGCTACCGCAGAAAGGCGGAGGGAAAACTTGAAATCATTATTCAATAATACAACAATTATACCGTTCAAGTGGAAGTCAAATTTCACCTGTTTCTACTGCAGCAAAATGTTTACAGAATACGCAAAGTTCAGAAAACATACTATATCACACGGACCATGTACTAAACCAATGTTAAAGAGATTAAAGACGAATCGCGAAATAAAAATTGACGTGTCAGAAATCGTTTGCGAGTTATGCCAAACTGAGTTTAAAAGCCTGACCGTTGTCGTTGACCATTTGATCAAAAGCCATCAAGCGTACGATAAGAATATCGAAATGCATTACCAAGTGTATAGACTGTCAGATATGAGATGCGTGTTTTGCGATCAAAAGTTTGGGAAATTTAATATTTTAGCTGATCACGTGCATAGGTCTCATTCGGAACGTTTCGAATGCAATGACTGTGGACGTGAGTTTAATAAAGCCTCTCTTATAGCAAGTCATATTAAAACACACCACGAAGCTAACACGTTCGCTTGCGAATTGTGTGGTAAAGAGTTTGCTGATGTATCTCTATTAAAAAAGCACAATTGTCGCGAACATTCGCATCAATGCAATCAGTGCGATTCGCAGTTTAAATACGCTAGTGGTTTAAAGAAACACATGTCGAAAGACCATGGGAAATTTTTAGAAAAACGTTCAAAAAGAAACTCTCTTTGTCATCAAATTAGGCGGAATATTCAATGCGTTCTCAACATGTCCACTGCGATCCCGTTTAAATTTAAAGGGAATTTCTGCTGCTTTTACTGTTCTAATTGGTTCACCGATTTCGATGATCTAATTTTGCATACTCGCGCGGAACACCCCGTATGCGAGTTGAAGTCGAAAGCGATGCAGACGTGTAAAGGCGAGAAATCTTGCGTGAAACTGGATGTAAACGGCCTCGCATGCAAAATCTGCCATCAAACAATGTCGAACTTGAACTGTTTCGTTGACCATGCCATCGCTGAGCATAGAGCGGACTACGAGAAGTCTATACCCCTCAAGGTTTGCTTCGAAGTGTTCTGTGTTACTCAAGGCAGGATCCCATGCCCGCAATGTCAAGAGCCTTTCGCGTATTTTGCGACGTTGCTAAAGCATTTAGGCGCTGAGCATAACCACCACAAAGCGGTCTGCGCTTACTGCGGCAGAGGATTTCGCACCACAACCAGTTTAACCATTCACATATCCAACTCTCATACCGGTATGTGCGAATGCGCCTTATGCAACGCAAAGTGTAAGAACTCTGCTGCACTAGCGAGGCACATGGCTCGGTATCACGACGCGAAAGATTTCAAATGTCCACAATGTCCGGAACAGTTTGAAACGATATACAAGAAACAGAATCATTTGATCAAAGCGCATAATGTTGGACATAAATGTGCGTATTGCGGGAAAATGTTCACAAGAAACTCGTTTATGATGAATCACGTGAGGCGGACGCATCTTAAAGAACGGACTGTGCCCTGTTCCGTGTGTCACGTGAAGTTCTTCGATAGTTATCATATGAAACTACATATGGTTAAACATGAGGGCATGAGGAAGTTTCGATGCGAAGTCTGCGGGAAGTCCTTCCTGAGAGTGAGGAATTTGAAATCTCACATGGATACGCATAAAAAAAGTTATTTGCACCAGAGCGACACAGAAGTAAAAACAGCCAATTTGTTTGCAGGTGCAAAAATCAATACAGTGGAGGACAAATATAAGAAAATGGAACTTGCACGTAAGCTATTGATCAAACGGCGTAACGTAGAGTATGTTTTGCAGTACAGCAATGTCACGCCATTCATGTGGCACAAGTCCAAATACAGATGCTTCTACTGCATCCAACCTATGAAAGATCTAGAAGTCCTGAGACGGCATACCATTGAAACTCATCGGGATGCCAATCTAGAACTCGTAGTTTACGATAGGACCAAGAATAACAGAAACAAAGACGCAGCGATCAAAATTGACGTCACAGACATTGCATGCAAGCTATGCTCTCAAGCTGCTAACTCTTTAGAAGAGCTCATACATCATATTATTATAGCCCACGATGCGGAATACGACGTCAGCGTCCCTAACTGCCTCCTTCCATTCAAACTCGACAATGATCAGCCAACTTGTGCTACTTGCAACGAGAAATTCGTATTCTTCGAGTATTTACTCCGACATGCCAATAAAAACCATCTATCTCACCAATATATTTGCGACGTTTGCGGAGTCAGCTTCCAAGGAGAGAATCATTTGAAGATGCATTGTAGATACTATCACAGGGAAGGGGGGTATACGTGCGAATATTGCGGGATCAGTCTGACTACGTTATCAAAGAAGTTGCTTCACGAAAAGAACGTTCATGCGGCCAAGCTTTCAACTTGTCCCCACTGTCCGGAGACATTCAAAAGTCCGTATTTAAAGAAGCTGCATATGGCTAACATTCATGGTGTAGAAGAGCTCAAGATCAAATGTCCGTATTGTCCCAAAGTTTACCCTCAGGAGAGCATTATGTCTCGGCATATGAGACGCGTCCATTTGCGAGAGAAGAACGTTGAATGCGAAGTATGTGGCGACAAATTTTTCGGACCGTACGACGTGAAGCTGCACATGGTTAAACACAATGGCGATAAAAAATTCGTGTGCAATGTGTGCGGGAAAAAGTTCTCCAAAAAAAGCAATTTGAACTCTCACGTAATCTTGCACACAAGGGAGAAGAATTTCAACTGTGGACTCTGCGATAGGGTTTTTACAAATCAGCCGTCATTGAAAGCGCATATAAGGACTCGACATAATCAATACGAGGCTGGTTATAGTTTTCTTGATGATATCACAGGCAATAATATTACCACCGATGATATAGTTCAAATGGAAATTATACAAGATGAACTAGGTCCACTCGTCCACGGACGTAGTCTTCTCTATCCTCTTATCCCGGCAAGGGCTCGCACCCCAGGGGTGACCTTGCAGTTGCCTCACACTTTTAACGGCAGGGCGCCTTCAGTGCCTGCCCTCCCGCCCGGACGCTGTAAAGGCGTCACGAAGAACCAAATAAACGGTTGCCTCGACCGGCTGGCTTCAGCGCGAAGAAATATTACAACCGTGCTACGCTACGCTAGGATCATACCGTTCAACTGGAACACCAAAGGGTTTCGTTGCTTCTACTGTGCAAAACTCATGAAAGACTGTAACATATTAAAAGAACATACACTCAAACACAATCCCGTAGACTTGGACGAATTCGTCAACAAACGAATCATAACCAAAGATATCCCGATCAAAGTAGAGATCTCCGATATCACTTGCAAAGTCTGTAACATTCCATTGACAAATTTGGACGATATGATTAAGCATATTGGGGAATATCATTTCGAAGAGTACGATGACACCGTGGGGGTATGTTTCTTCCCGTTCGTTCTGAACAAAGAGGACATGCAATGCGTTTTATGTGATAATCAATATGATAACTTCTCAGGTATGATTGGACATATGTACAAGCAACACGTAAATCATCTATTCATGTGTCAGATGTGCGGATTGAGTTTCAAAGACCAAATACGACTGAAAAGACATATAACGACCAGCCATATTGGTCATAAATGTAATGTGTGCGCGAAATCTTTCGACGCGTTTCACAAATTGGAGAAGCATAAGCAAAGATTCCATGGACAGGTCAAGCTGTACGAATGCAATTTGTGCAGTGATAAGTTTCTAAATGACTATCAACTTAAAGTCCATATGGGGAAGGTCCATAACGTAGAGAAGTATAGGATCAAATGCGACCATTGTCCCAAAGTGTGTACGACAAAAGGAGCCATGTTACTCCACGTTCAAAGTCTACATTCGGATATCAGATACAAATGCGACTTGTGTGATTACACCGCTGGTATTAAATGGTCGATAAAACTGCATAAGCGTAAGCATTTTGGTCTGAAGGAGTACTGTTGCAGTATTTGTGACAGGCGTTTTGGGAGGTCCAGCAATCTTCGGACTCATATGAAAGTGCACACAGGGTCTTTTGGAAGAGTCTGCAGGTTCTGCCGTAAGGGGTTTACAGATTTGAAGTCTTTGGAGAAACATGAGTTGGAAATTCACTATTATGATAATTATTAG
Protein Sequence: MNILLDELFKWTYRRTHLVSDRASTERRNRLLETETDTTSTIKKDKIKLENDDTSDSDDSNKPILERPKKGLDKIKNEESVSKILQCFRVRKNVACLLNNTTAIPFSHAKSEFRCFICQEGFHRCDMLQEHFTAEHSTFGCHHRDNIIKKVNKNTSLKLDISKLSCKLCEEPFTDLKVIIEHLISEHNIEYDKTAIDIIQPFRLNDDDLRCHICDEKFIYFIKLVSHLNDYHEDKKYMCDICGKSFKDLNSYNIHGWQVHGPGYNCADCGRRCSNASLLREHMASNHGKGTFKCSECPAEFTSIYKKKKHIISVHKAKDVPASFKCPHCEKVFTCTSQRNVHVRKVHLKEKNEVCPICHAELFNKTRLNLHMVKHLRERNHVCDVCDCTPVQSATAERRRENLKSLFNNTTIIPFKWKSNFTCFYCSKMFTEYAKFRKHTISHGPCTKPMLKRLKTNREIKIDVSEIVCELCQTEFKSLTVVVDHLIKSHQAYDKNIEMHYQVYRLSDMRCVFCDQKFGKFNILADHVHRSHSERFECNDCGREFNKASLIASHIKTHHEANTFACELCGKEFADVSLLKKHNCREHSHQCNQCDSQFKYASGLKKHMSKDHGKFLEKRSKRNSLCHQIRRNIQCVLNMSTAIPFKFKGNFCCFYCSNWFTDFDDLILHTRAEHPVCELKSKAMQTCKGEKSCVKLDVNGLACKICHQTMSNLNCFVDHAIAEHRADYEKSIPLKVCFEVFCVTQGRIPCPQCQEPFAYFATLLKHLGAEHNHHKAVCAYCGRGFRTTTSLTIHISNSHTGMCECALCNAKCKNSAALARHMARYHDAKDFKCPQCPEQFETIYKKQNHLIKAHNVGHKCAYCGKMFTRNSFMMNHVRRTHLKERTVPCSVCHVKFFDSYHMKLHMVKHEGMRKFRCEVCGKSFLRVRNLKSHMDTHKKSYLHQSDTEVKTANLFAGAKINTVEDKYKKMELARKLLIKRRNVEYVLQYSNVTPFMWHKSKYRCFYCIQPMKDLEVLRRHTIETHRDANLELVVYDRTKNNRNKDAAIKIDVTDIACKLCSQAANSLEELIHHIIIAHDAEYDVSVPNCLLPFKLDNDQPTCATCNEKFVFFEYLLRHANKNHLSHQYICDVCGVSFQGENHLKMHCRYYHREGGYTCEYCGISLTTLSKKLLHEKNVHAAKLSTCPHCPETFKSPYLKKLHMANIHGVEELKIKCPYCPKVYPQESIMSRHMRRVHLREKNVECEVCGDKFFGPYDVKLHMVKHNGDKKFVCNVCGKKFSKKSNLNSHVILHTREKNFNCGLCDRVFTNQPSLKAHIRTRHNQYEAGYSFLDDITGNNITTDDIVQMEIIQDELGPLVHGRSLLYPLIPARARTPGVTLQLPHTFNGRAPSVPALPPGRCKGVTKNQINGCLDRLASARRNITTVLRYARIIPFNWNTKGFRCFYCAKLMKDCNILKEHTLKHNPVDLDEFVNKRIITKDIPIKVEISDITCKVCNIPLTNLDDMIKHIGEYHFEEYDDTVGVCFFPFVLNKEDMQCVLCDNQYDNFSGMIGHMYKQHVNHLFMCQMCGLSFKDQIRLKRHITTSHIGHKCNVCAKSFDAFHKLEKHKQRFHGQVKLYECNLCSDKFLNDYQLKVHMGKVHNVEKYRIKCDHCPKVCTTKGAMLLHVQSLHSDIRYKCDLCDYTAGIKWSIKLHKRKHFGLKEYCCSICDRRFGRSSNLRTHMKVHTGSFGRVCRFCRKGFTDLKSLEKHELEIHYYDNY

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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