Basic Information

Insect: Euceroptres primus
Gene Symbol: -
Assembly: GCA_037177015.1
Location: JBAGKK010103616.1:1-9102[-]

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 30 7.4e-06 0.0026 20.3 1.0 1 23 243 265 243 265 0.98

2 30 0.033 11 8.9 1.5 1 23 288 311 288 311 0.96

3 30 3.2e-05 0.011 18.3 0.5 2 23 318 340 317 340 0.97

4 30 0.00012 0.041 16.5 0.9 1 21 360 380 360 381 0.95

5 30 0.0088 3 10.6 0.3 3 23 481 501 479 501 0.96

6 30 0.0016 0.56 12.9 0.5 1 23 507 530 507 530 0.96

7 30 0.00014 0.048 16.3 0.1 1 23 598 621 598 621 0.96

8 30 0.0095 3.3 10.5 0.4 1 23 627 650 627 650 0.96

9 30 0.14 49 6.8 1.5 1 23 663 685 663 685 0.97

10 30 4.2e-05 0.015 17.9 0.9 3 23 732 753 731 753 0.96

11 30 0.41 1.4e+02 5.4 1.3 2 23 816 839 815 839 0.93

12 30 3.7 1.3e+03 2.4 0.0 2 23 848 870 848 870 0.84

13 30 0.0048 1.6 11.5 1.1 2 23 877 899 876 899 0.95

14 30 1.5e-05 0.0053 19.3 1.2 1 23 907 929 907 929 0.98

15 30 0.011 3.6 10.4 1.6 1 23 960 984 960 984 0.97

16 30 0.00025 0.086 15.5 3.3 1 23 987 1010 987 1010 0.97

17 30 0.17 57 6.6 0.6 2 23 1017 1039 1016 1039 0.95

18 30 0.0038 1.3 11.8 5.1 1 21 1066 1086 1066 1087 0.95

19 30 0.0032 1.1 12.0 1.8 2 23 1101 1122 1100 1123 0.93

20 30 0.56 1.9e+02 5.0 2.8 1 23 1126 1148 1126 1149 0.95

21 30 0.012 4.2 10.2 1.5 2 23 1156 1179 1155 1179 0.93

22 30 3.6 1.2e+03 2.4 0.2 2 23 1187 1209 1187 1209 0.94

23 30 4.4 1.5e+03 2.2 0.0 2 23 1216 1238 1215 1238 0.87

24 30 0.27 92 6.0 2.7 2 23 1247 1269 1247 1269 0.96

25 30 0.5 1.7e+02 5.1 2.4 2 23 1275 1297 1274 1297 0.93

26 30 0.00053 0.18 14.5 1.5 1 21 1395 1415 1395 1416 0.95

27 30 0.38 1.3e+02 5.5 1.9 2 23 1514 1536 1513 1536 0.94

28 30 0.38 1.3e+02 5.5 0.2 2 23 1543 1565 1542 1565 0.94

29 30 0.2 69 6.4 1.8 1 23 1576 1598 1576 1598 0.97

30 30 0.039 13 8.6 0.4 3 19 1607 1623 1606 1625 0.94

#	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	30	7.4e-06	0.0026	20.3	1.0	1	23	243	265	243	265	0.98
2	30	0.033	11	8.9	1.5	1	23	288	311	288	311	0.96
3	30	3.2e-05	0.011	18.3	0.5	2	23	318	340	317	340	0.97
4	30	0.00012	0.041	16.5	0.9	1	21	360	380	360	381	0.95
5	30	0.0088	3	10.6	0.3	3	23	481	501	479	501	0.96
6	30	0.0016	0.56	12.9	0.5	1	23	507	530	507	530	0.96
7	30	0.00014	0.048	16.3	0.1	1	23	598	621	598	621	0.96
8	30	0.0095	3.3	10.5	0.4	1	23	627	650	627	650	0.96
9	30	0.14	49	6.8	1.5	1	23	663	685	663	685	0.97
10	30	4.2e-05	0.015	17.9	0.9	3	23	732	753	731	753	0.96
11	30	0.41	1.4e+02	5.4	1.3	2	23	816	839	815	839	0.93
12	30	3.7	1.3e+03	2.4	0.0	2	23	848	870	848	870	0.84
13	30	0.0048	1.6	11.5	1.1	2	23	877	899	876	899	0.95
14	30	1.5e-05	0.0053	19.3	1.2	1	23	907	929	907	929	0.98
15	30	0.011	3.6	10.4	1.6	1	23	960	984	960	984	0.97
16	30	0.00025	0.086	15.5	3.3	1	23	987	1010	987	1010	0.97
17	30	0.17	57	6.6	0.6	2	23	1017	1039	1016	1039	0.95
18	30	0.0038	1.3	11.8	5.1	1	21	1066	1086	1066	1087	0.95
19	30	0.0032	1.1	12.0	1.8	2	23	1101	1122	1100	1123	0.93
20	30	0.56	1.9e+02	5.0	2.8	1	23	1126	1148	1126	1149	0.95
21	30	0.012	4.2	10.2	1.5	2	23	1156	1179	1155	1179	0.93
22	30	3.6	1.2e+03	2.4	0.2	2	23	1187	1209	1187	1209	0.94
23	30	4.4	1.5e+03	2.2	0.0	2	23	1216	1238	1215	1238	0.87
24	30	0.27	92	6.0	2.7	2	23	1247	1269	1247	1269	0.96
25	30	0.5	1.7e+02	5.1	2.4	2	23	1275	1297	1274	1297	0.93
26	30	0.00053	0.18	14.5	1.5	1	21	1395	1415	1395	1416	0.95
27	30	0.38	1.3e+02	5.5	1.9	2	23	1514	1536	1513	1536	0.94
28	30	0.38	1.3e+02	5.5	0.2	2	23	1543	1565	1542	1565	0.94
29	30	0.2	69	6.4	1.8	1	23	1576	1598	1576	1598	0.97
30	30	0.039	13	8.6	0.4	3	19	1607	1623	1606	1625	0.94

Sequence Information

Coding Sequence: ATGGCAACGTTGCCTCTTGCCACCCGACTACCTGACCTGACGCTCTGCTTGCTCTTTTGCTCGATTACCTGCCTGGCTTATCGTCCCGTCCCTCTACATAAGGCACTACCTGGCCGTGTCCAGCTTGCACCTTGGGGACTGCTTCATGAAACGAAGAATCGACGAGCCTCCGCTCCCTTGCCCAGGCTCCCAatagCGGAGGATGATCGACTGCCAAAGTGTCTTTGCTATCGATGCATGtacaatttggaaaatttttacgactttagGACAGCCTGTATTAATGCAGTCGCTCTCTTGGAAAGGTGTCTACCACCTGATAACGAGGCGAGTGGTGATGGAGACAGAAGGAGTCCGCCAGAACATTATTCGGAATTTCGATCTGACCTcctcaaagaaaaagaaaatatgccAGTACTCATTCCAGAAGCCCCCGTAGTCAATCCAAATGCAGCGTTAGGAACACCACCAAGACTCAATTCTGATGGCGAAGCAGATAATGACATTGAGGAAATTCTTGAACAAAGTGGCACCGAGGAAGGAGCAGATGATGCCGAAGATAGAAAGTCAGATGAATACGAGATGGACATGGAAACGAACCCCAGTGATTTTTTGGAAATGCCACCAATGGTCACAGACGATGTAGAGGAAAACGAGGCAGCGAACGTTTCAGCACGGGCGCAAGATTCCAGACCTTTTCAACACAGATCAGAGCAGCATGAAGTTTACGTCTGCTCGCTCTGTAACAAAGCCTTCAGTTCAAAAGGCCATTTATCCCTTCACGCCAGAATACACGTTGGTGCAGGTGATGTTATCGGTGAAAAGGTTATCACCGACGATCACACTTCTTACAAAAGGCCCTATCAATGCGACCTCTGCTACAAGGCTTATTCAACCGCTAAACATCGATGGGGTCATGTCTCAACTACGCACAGAGGACATCCTGCTGTAACGTGTAGCTACTGTTCGCGCATTTATTCCACTAGGGGAAACCTGGAAGAACACATCAGATCCAGGCACGCCGGTTTGCCACTTCCACCGGAACTGCCAGTTTCCTACGTTCAACCAGAGAATAAATACCAGTGTAAAACTTGTCCCAAGATGTATACAAATACCACAGATCTTAATAGACACAGTCGGATGTGCATGGGAGCCCAACAAAAGGAATTGCCAAATAATACAATTGtagaaaagttgaagaagagTCACGTCGTCGACACTTCGGACATGTCAAGTAATGACTCGAACGACGAGTCGAAAGATTACAAGAACGCCGAGGCGAAACTCGCGAAGAATCCTCAGCTCACGATCCTCAAGCAGGCGCTCACCAAAGGAGACAACTTGAAGAGAAGCTTCGACGAGAAATACAAGACTAGTTCCAAAACCAAAAAGCAAGCGAGAACCGACAATAGTGAGACTGATGTACAGAAACGATGGTTCTGCGAGGCCTGCCCTCGGAACTTCACGTCGGTGGAGAGTTTCAAAGAACACCAACTCACGCATGAAACCGAAAAACCCTACTTTTGTTTACTATGCGAGAAAGACTTTGCGCAGAAATCTTTTCTGAGTAATCACATTGTGACGATTCACGGCGTTGATCCTAATCCAATTCTCGAGAGCGATAGATGCCTGAAAAAGTCGCTTGGGCCTCAAGGATGGAATAAAAAGCAGGAAACGAACGGCGAACCAAATTTGGTCATTAAAGAAGAATCTCCGCCTCCGTATCCCGAAACAATTTTGCAGAACGAGGAAGAAGAAAGCAACCACAAGGTGTTTGAAATCGAGACAGTCTTTGTCTGTGAAATCTGTACGAGAGATTTTAATGACAGGGCGTCTTTGTGGCTTCATATTCGAGCCACTCACAAGGAATTTGCTGCCTTTGCTTGCggagtttgtttaaaaatttgttcagacAATGCCCAGTTACTCAATCACGTGAATATGTACCACGGAGGTTCCAAGCTGCTCATGTCCGAGCAGAGACGCTACAGCTGTACAATTTGCGGAAGACAGCACGACTCGCGAAAAAAGTTGATTACGCACGTTTCAATTCACAACGTGGATCCCAGCTACGATCCTGCGAGTTTTGTTCAACTCAACAGCAATTACTACAACGAGAATCTAAACAGCAACGAAGGAAACGTTGAGCCGCCGCTGATGGATGGCGAGATCGAGGATGGAGAGAAGGTCGACTGCTACATTTGCTACAAATCATTCCCCAACGAAGATCATCTTATAAGACACCAACGAAATGCTCACAAATCCGATCCAGCGGTAGCGATTGGAGAATCCACAGCAAATGGCAGCAGTTCCGGGACTAATGGAAATGGAAACAGGGCGCAGTATCATTTATTCTTTGTCTGTGAACTTTGTGGCAGTTCTCATCCTAGCAAGTGGGAACGCTGGCTTCACGTTTCTAGTATTCATGGAAACGAACCTGCGATTAAATGCGAGAGAAAAGATTGTGCCAAGATCTTCGCGACAAAGTCTCTGCGAAACGAACACGCACAGCATCATATGATTCAGGGTAGTTCGCCAAACACCTGCGAGATCTGTGGGAAATTGTGGGGCAGTCGAGTCGATTATTGGAAGCACGTGATGGGAGTTCACTCAGACACTGTGCCTCTGATTTGTGGAGTTTGTCTCAAAGTATTCCCTAATGTTCATCATCTAAGTTCCCACGTCAGGATGAATCACTGGCCATTGACGAATGGAGATTTCAGTTGTGATATCTGCGGAAGGCCTTATTCCAACAAGTCAAAAATGTCCAGGCACAGGAAGATACATGGTCTTGATGGCGAGGGTCATGATGCCAATCCAGATCCTAGTGAATATATGAACGATTCAGGTCGACTTGACAACGGAGGTGCCGCTGATTTCAGTTGTGAAATGTGTGGAGACTTGAAGTTTTCGAGTCTGGAAGATCTCTGCAATCATCGAAGATCTTTGCACAGCCTCTTCCCTTGTGATTTGTGCAACAAGTGTTATGGAAGAACCTCGCACTTGTGGAAACATGTTAATCGGGTTCACAAAGGTCACGAGGACGTCACCTGTCGATTTTGCATGAAAACTAGCGCCTCGAGAGATCATTTAGCTGCGCACATTGCCAAGATTCACAGATATGAACCTGAGGTGAAGAACGATGTGAAAGAGTCGACAAATTACAAGATTGCAGTTGCTGAAGATGAGATTCTCCATCATTGTGAAAAGTGCAACAAAGGCTTTCACAAAAGATATTTGCTTCGACGTCACATGAAAGGCTGTCAAAATTACCGTAAGGATCCTGGAGCGCTTTTGACGCGGTGTCGCGCCTGTGAGAGGATATTCAAGGATCGAGCGAGTCTTCAGAAACACATTGAGAATCATCACAGTAGTTACACTTGTCATTTGTGCAACGAGACGATCACTTCGAAGTTGGGGATCATGACTCACAATAGGGTTCATCATATGGATCATCCGGATCTCACGTGTGATTACAGCAACTGCAAGAAGCTTTTCCGCACCAAGGAAGATCTGGAGTCTCACAAGAAGGATCACAGGTACCACACAACTCCAAATGTTTGTGATTTTTGTGGTGACACAGTGGAAAATAAACTCAAGTTGAAGATGCACGTGCTGTCCTTGCACCGAAATGAAATTGGAGTTTCATGTGGAGTCTGCCTGATTCCTATGAAAGATCCAAAGGATTTGAAGAAGCATGTAGAGGACACTCACGAAAGTGTTCTTTCAAAACCGAATACTTGTCAAGTTTGTGGAAAGCAGTACGCGTCAAAGTGGAAAGCCTTTGATCATACGAAGAAGTGTCACGGGAAGGTTTTTAAGACTTGTAAGCAATGTTTGGCTGTGTTTATTACTGAAGAGCATATGAGAAATCATTATGAACACGTCCACAATATTCCAAAAGACCAGCTAGCCACTTTTGAATACCGCTTGGAAATTGGACGCAAACGACATTATGATTCCTTGGAAATTGTGACGAAGGAAGAGCCGGAGGAATTGGAGTTTGACGAAGAACCGATCGAGGATTATTCGAATGATTATAAGAGGAGACTATCTGATTCGGAATGCGAGTATGATAATCGAGGTGATTTTTATTCGAGGGAGAGCAACGATCAGCAACGTccgacaaagaaaatgaagctgGATTCGAAtggtaaaaagaaaatcaagGACCGGGAAAACTACGAGTGCAAACATTGCAGGAAACAGTTTTACACAAAGGCTCTTTTCTGGAATCATATCAACGTCTGCACGAAGCGGAATCTGCTGAATAAGGAAAAAGTACCCAGCTTCCCTTCGTCGATTCTCGAGGcgcatttgaaaaataataaccaGATTAAGAGAGAAGAACCCGAGCAGGATCTTGACgaaaataacttaaatattCCAGATTTCAATCTCTTTGAAGACATCAACATGCAGTTGTCGGGTCAGAAGCCAGTTCCAAATCTCTCGCTGAAATCTTTTTCGAGTAATAACAAATGTTCGTCGAGGAAGGACTCGCGGAAGGTGTATGACGAATCAACCAACACTGAGTGTACTTGCGAGGTTTGCGGAAAGCAGTGGCCTGCGAAGAAACATTTGTGGCAACATTTGATTCGGTTTCATCGAACAGAAGCCGCTGTTACTTGTGGGGTTTGTCTGAAACTCTGCACGACTTATGAGGACTTGGCTGATCATCTGAAAGCTGCTCACGCAGCTCTGTTGTCCTGCGAGGGAAACAATTTCACCTGCAAGATCTGCGGAAGGTACCACAATGCTAGGAGCAAATTGTTGTTGCATATGAGCATCCATATCAACTGCAAGAACAATCCAATGTGCAACAAGTGCAAACGCAGTTTCGAGACTGACGAGAAATTGAAGGAGCATGTTGGAAATTGTGAGGGAAGACAATCAGGATTGGGAATCCGACATGACGCAGAGGAGGATGTGAAGAATGAAAATGATGAGAAGGGAAGCTTTATTGGAGATGAGGGAGAAGAGAAGGAAGCAGATTTTGAGTCTGAGGGAGAGGAGAAGGCTTCTGATAATGAGGAGAGCAGTTTGGATGATTCCGAGGATTCGGAAACTGATAGTTCCTCCTCTAGTTCCTCCAGTTCcagtgatgatgatgatgatgatgacgagaATGAGAACAATGAACAAGACAATGAAAGAGCGGCTGAATCGAGAACAACTAGTAGACTTGGAGAATTGAGTTGCACGAGTGATagcgaagaagaagaagaagaagaagagggatCAGATAATTCGCAAGACCTCGAAGATGACGTTAATAAACTTCGTGGAAAGTCTGAGGAAGAGAAAGAGGATATGCGAATGAAAGAGGTGAAAATGGAAGATGTGAGAACTGAGACTAATCTAGCGTTGTCGGAATCGGATACAAAGTACTCTGCAGCTTTTGGAGGTTTGGAGATGAAACCAGAGAAGATGGAAATGAACACTATGGATTATTCGGATGATGAAGGTCCTCCAGTTTTGAGTCCAATGATGCCCTTGTTACCATCACAAGAAGGGGAAATGACTAGTCAACTTGATGAGATGAATAAATTGAGTCCCATGGTGAATTTGGAAACTAACATGCAAAAGGATATAGAGCACTGTGAGTTTGAAGGTGTGAAGATTAATTTCTCTGGGCTTGTGGATGAGAATCAACAAGGAGGAGAGAATCCAGCAGAGACGGAAGAGTCCGAATCTGAAAGCGAGGATGAGAACAAAATGTGTATCTATGAGGAAACTGGGAATCGAGAAATCAAGCAGAAAGGTTCAAGTACGATTAGTgatgaagaggaagaagaagataTAGAGATGCAGGAAGAAGAAAcaacaaaaatccaaaaaacaaaaCTAGCCCCTGCCGAATCAGAAGAAGAAAGTGATAATGAAAACaatgatgaagaagaagaagaatctgAAGCTGAAAGCGAACAGGGTTTCGAAGAGGAGAACTCTGATCATGAAGAggttgaagaagaagaagaagaagaagaagaagaagaggaggaggaggaggaggaggaggaggaggaggaactTGAAGAAGCTGAAGAGGAAGTTCCAGTCGAAAAAAACACTGAAGTCGAAGAAGAACTAGGCGAGA
Protein Sequence: MATLPLATRLPDLTLCLLFCSITCLAYRPVPLHKALPGRVQLAPWGLLHETKNRRASAPLPRLPIAEDDRLPKCLCYRCMYNLENFYDFRTACINAVALLERCLPPDNEASGDGDRRSPPEHYSEFRSDLLKEKENMPVLIPEAPVVNPNAALGTPPRLNSDGEADNDIEEILEQSGTEEGADDAEDRKSDEYEMDMETNPSDFLEMPPMVTDDVEENEAANVSARAQDSRPFQHRSEQHEVYVCSLCNKAFSSKGHLSLHARIHVGAGDVIGEKVITDDHTSYKRPYQCDLCYKAYSTAKHRWGHVSTTHRGHPAVTCSYCSRIYSTRGNLEEHIRSRHAGLPLPPELPVSYVQPENKYQCKTCPKMYTNTTDLNRHSRMCMGAQQKELPNNTIVEKLKKSHVVDTSDMSSNDSNDESKDYKNAEAKLAKNPQLTILKQALTKGDNLKRSFDEKYKTSSKTKKQARTDNSETDVQKRWFCEACPRNFTSVESFKEHQLTHETEKPYFCLLCEKDFAQKSFLSNHIVTIHGVDPNPILESDRCLKKSLGPQGWNKKQETNGEPNLVIKEESPPPYPETILQNEEEESNHKVFEIETVFVCEICTRDFNDRASLWLHIRATHKEFAAFACGVCLKICSDNAQLLNHVNMYHGGSKLLMSEQRRYSCTICGRQHDSRKKLITHVSIHNVDPSYDPASFVQLNSNYYNENLNSNEGNVEPPLMDGEIEDGEKVDCYICYKSFPNEDHLIRHQRNAHKSDPAVAIGESTANGSSSGTNGNGNRAQYHLFFVCELCGSSHPSKWERWLHVSSIHGNEPAIKCERKDCAKIFATKSLRNEHAQHHMIQGSSPNTCEICGKLWGSRVDYWKHVMGVHSDTVPLICGVCLKVFPNVHHLSSHVRMNHWPLTNGDFSCDICGRPYSNKSKMSRHRKIHGLDGEGHDANPDPSEYMNDSGRLDNGGAADFSCEMCGDLKFSSLEDLCNHRRSLHSLFPCDLCNKCYGRTSHLWKHVNRVHKGHEDVTCRFCMKTSASRDHLAAHIAKIHRYEPEVKNDVKESTNYKIAVAEDEILHHCEKCNKGFHKRYLLRRHMKGCQNYRKDPGALLTRCRACERIFKDRASLQKHIENHHSSYTCHLCNETITSKLGIMTHNRVHHMDHPDLTCDYSNCKKLFRTKEDLESHKKDHRYHTTPNVCDFCGDTVENKLKLKMHVLSLHRNEIGVSCGVCLIPMKDPKDLKKHVEDTHESVLSKPNTCQVCGKQYASKWKAFDHTKKCHGKVFKTCKQCLAVFITEEHMRNHYEHVHNIPKDQLATFEYRLEIGRKRHYDSLEIVTKEEPEELEFDEEPIEDYSNDYKRRLSDSECEYDNRGDFYSRESNDQQRPTKKMKLDSNGKKKIKDRENYECKHCRKQFYTKALFWNHINVCTKRNLLNKEKVPSFPSSILEAHLKNNNQIKREEPEQDLDENNLNIPDFNLFEDINMQLSGQKPVPNLSLKSFSSNNKCSSRKDSRKVYDESTNTECTCEVCGKQWPAKKHLWQHLIRFHRTEAAVTCGVCLKLCTTYEDLADHLKAAHAALLSCEGNNFTCKICGRYHNARSKLLLHMSIHINCKNNPMCNKCKRSFETDEKLKEHVGNCEGRQSGLGIRHDAEEDVKNENDEKGSFIGDEGEEKEADFESEGEEKASDNEESSLDDSEDSETDSSSSSSSSSSDDDDDDDENENNEQDNERAAESRTTSRLGELSCTSDSEEEEEEEEGSDNSQDLEDDVNKLRGKSEEEKEDMRMKEVKMEDVRTETNLALSESDTKYSAAFGGLEMKPEKMEMNTMDYSDDEGPPVLSPMMPLLPSQEGEMTSQLDEMNKLSPMVNLETNMQKDIEHCEFEGVKINFSGLVDENQQGGENPAETEESESESEDENKMCIYEETGNREIKQKGSSTISDEEEEEDIEMQEEETTKIQKTKLAPAESEEESDNENNDEEEEESEAESEQGFEEENSDHEEVEEEEEEEEEEEEEEEEEEEEEELEEAEEEVPVEKNTEVEEELGE

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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