Basic Information

Insect: Chelonus insularis
Gene Symbol: -
Assembly: GCA_013357705.1
Location: NW:27120-38040[+]

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 31 4.4e-06 0.0003 20.3 1.0 1 23 222 244 222 244 0.98

2 31 0.0019 0.13 12.0 1.9 1 23 267 290 267 290 0.96

3 31 0.00016 0.011 15.4 1.0 2 23 297 319 296 319 0.96

4 31 0.00017 0.011 15.3 0.5 1 21 339 359 339 360 0.95

5 31 0.014 0.98 9.2 0.1 3 23 456 476 454 476 0.96

6 31 0.01 0.7 9.7 0.3 1 23 482 505 482 505 0.91

7 31 8.3e-05 0.0056 16.3 0.1 1 23 572 595 572 595 0.96

8 31 0.015 0.99 9.2 0.2 1 23 601 624 601 624 0.96

9 31 0.1 7 6.5 1.9 1 23 637 659 637 659 0.97

10 31 2.9e-05 0.0019 17.8 1.1 3 23 703 724 702 724 0.96

11 31 0.008 0.54 10.1 0.8 2 23 786 809 785 809 0.93

12 31 2.2 1.5e+02 2.4 0.0 2 23 818 840 818 840 0.84

13 31 0.013 0.85 9.4 0.1 2 23 847 869 846 869 0.95

14 31 9.1e-06 0.00062 19.3 1.2 1 23 877 899 877 899 0.98

15 31 0.025 1.7 8.5 2.7 2 23 928 951 927 951 0.93

16 31 0.00015 0.01 15.5 3.3 1 23 954 977 954 977 0.97

17 31 0.013 0.87 9.4 0.5 2 23 984 1006 983 1006 0.95

18 31 0.0011 0.074 12.8 5.0 1 21 1032 1052 1032 1053 0.95

19 31 0.0019 0.13 12.0 1.8 2 23 1067 1088 1066 1089 0.93

20 31 0.25 17 5.3 1.1 1 23 1092 1115 1092 1115 0.94

21 31 0.023 1.6 8.6 3.2 2 23 1122 1145 1121 1145 0.92

22 31 0.68 46 4.0 0.2 2 23 1153 1175 1153 1175 0.95

23 31 7.5 5.1e+02 0.7 0.0 2 23 1182 1204 1181 1204 0.89

24 31 0.16 11 6.0 2.7 2 23 1213 1235 1213 1235 0.96

25 31 5.9 4e+02 1.0 1.9 2 23 1241 1263 1241 1263 0.92

26 31 0.0059 0.4 10.5 0.3 1 23 1326 1349 1326 1349 0.97

27 31 0.00088 0.06 13.1 3.1 1 21 1375 1395 1375 1396 0.95

28 31 0.35 24 4.9 1.3 2 23 1495 1517 1494 1517 0.94

29 31 0.48 33 4.5 0.9 2 23 1524 1546 1523 1546 0.95

30 31 0.49 33 4.4 2.5 1 23 1557 1579 1557 1579 0.97

31 31 0.62 42 4.1 0.1 3 20 1588 1605 1588 1607 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	31	4.4e-06	0.0003	20.3	1.0	1	23	222	244	222	244	0.98
2	31	0.0019	0.13	12.0	1.9	1	23	267	290	267	290	0.96
3	31	0.00016	0.011	15.4	1.0	2	23	297	319	296	319	0.96
4	31	0.00017	0.011	15.3	0.5	1	21	339	359	339	360	0.95
5	31	0.014	0.98	9.2	0.1	3	23	456	476	454	476	0.96
6	31	0.01	0.7	9.7	0.3	1	23	482	505	482	505	0.91
7	31	8.3e-05	0.0056	16.3	0.1	1	23	572	595	572	595	0.96
8	31	0.015	0.99	9.2	0.2	1	23	601	624	601	624	0.96
9	31	0.1	7	6.5	1.9	1	23	637	659	637	659	0.97
10	31	2.9e-05	0.0019	17.8	1.1	3	23	703	724	702	724	0.96
11	31	0.008	0.54	10.1	0.8	2	23	786	809	785	809	0.93
12	31	2.2	1.5e+02	2.4	0.0	2	23	818	840	818	840	0.84
13	31	0.013	0.85	9.4	0.1	2	23	847	869	846	869	0.95
14	31	9.1e-06	0.00062	19.3	1.2	1	23	877	899	877	899	0.98
15	31	0.025	1.7	8.5	2.7	2	23	928	951	927	951	0.93
16	31	0.00015	0.01	15.5	3.3	1	23	954	977	954	977	0.97
17	31	0.013	0.87	9.4	0.5	2	23	984	1006	983	1006	0.95
18	31	0.0011	0.074	12.8	5.0	1	21	1032	1052	1032	1053	0.95
19	31	0.0019	0.13	12.0	1.8	2	23	1067	1088	1066	1089	0.93
20	31	0.25	17	5.3	1.1	1	23	1092	1115	1092	1115	0.94
21	31	0.023	1.6	8.6	3.2	2	23	1122	1145	1121	1145	0.92
22	31	0.68	46	4.0	0.2	2	23	1153	1175	1153	1175	0.95
23	31	7.5	5.1e+02	0.7	0.0	2	23	1182	1204	1181	1204	0.89
24	31	0.16	11	6.0	2.7	2	23	1213	1235	1213	1235	0.96
25	31	5.9	4e+02	1.0	1.9	2	23	1241	1263	1241	1263	0.92
26	31	0.0059	0.4	10.5	0.3	1	23	1326	1349	1326	1349	0.97
27	31	0.00088	0.06	13.1	3.1	1	21	1375	1395	1375	1396	0.95
28	31	0.35	24	4.9	1.3	2	23	1495	1517	1494	1517	0.94
29	31	0.48	33	4.5	0.9	2	23	1524	1546	1523	1546	0.95
30	31	0.49	33	4.4	2.5	1	23	1557	1579	1557	1579	0.97
31	31	0.62	42	4.1	0.1	3	20	1588	1605	1588	1607	0.95

Sequence Information

Coding Sequence: ATGGAGTCGAGGGAACGTTACGACGAACTTTGTAGGCTGTGTGCTTCATATGACGCTGTAAAAATGGACATATTCGGCCAGGAAGGGAAAAATCGTCAGCTAGTGGACAAGATTCAGACTTGTCTACCATTCAAGattgcTGAAGATGATAGACTTCCCAAGTGTTTATGCTACAGATGCATGTACAATCTTGagaatttttatgactttaGAACGGCATGTGTTAATGCTGTAGCATTACTTGAAAGATCTCTTCCACCAAAGGCACCAtcaaATGGTGGTACTTATAATGACATGGAAAAGCATTCTGAATTACGTTCAGAATTGCttaaagaaaaggaaaaaatgcCAATCTTGATACCTGAAGCACCAATAGTGAATCCAAATGCTGCATTAGGCACACCACCAAGACTTAATTCAGATGGTGAGGCAGATCAAGAAATTGAAGAGATTCTTGAACACAGTGGTACTGATGAAGgATTGGATGATGGAGAGGACAGAAAATCAGATGAGTACGAGATGGATATGGAGACGAATCCAAGTGACTTTCTAGAAATGCCACCGATGGTCACTGAAGATCCGGAAGAAACAGATGGAAATCTTTTACAAGTTAACTCTCAATCATCTAGTGTCTTCCAACATACATCAGAGCAACATGAAGTCTATGTATGTTCATTGTGTAATAAGGCGTTCAGTTCAAAAGGACACCTATCCCTTCACGCGAGAATTCACGTAGGTGCAGGTGACGTGATAGGCGAGAAAGTCATCACAGACGATCATACATCATACAAACGTCCTTACCAATGTGATCTCTGTAACAAATCGTACTCTACTGCTAAACATAGGTGGGGACATGTATCAACGACACATCGGGGTCATCCGGCTGTAACATGTAGATATTGTTCaagaatttattcaactcGAACTAACTTAGAAGAGCACATTAAATCTAGACATACAGGTTTACCACCTCCTCCAGAGACTACAGTTCCTTATATTCAACAAGATACACGATATCAATGTAAAACATGTCCTAAAATGTATACTAACATTactgatttaaataaacatagtCGAATATGCCTTGGAGATCGTCTCAAAGAAAcatcaaaatcaaatattcaacCAGTTCTACAAAAGGGAAAAAGTCTTATGGATACTTCTGAGGCATCTAGTGTAGATTCTGATGAAGATAGTAAAGATTATAGAAATGCTGAAgcaaaattatctaaaaatccacaattaactattttaaaacaaGCCTTAACAAGAGGAGAAAGTTCAAAGCGAGATGCTGATGGAAGAAATGCGTATAAATCATTAAgagttgataataatgaaggTGATGGACAAAAACGATGGTTTTGCGAGACATGTCCGCAGTCATTTACCTCAATAGAAGTATTGAAAGAACATGAAATGAGCCATGAAGGGGATAAACCTTACATCTGCATTCTTTGTGAGAAAGATTTTGTCCTAAAGTCTTCCTTAAGCCGACATATATTGTCTTCTCATGGTGTTGATCCTGTGCCAATCGTTGACAGTGATAAGTGTTTAAAAAAGACAGTGATGGCTCAATTGAATGCTAAACATAGTAGAGACGAACtcaaaattaaaagagaacCGTCTGAATCTTCCTTTTCTCCAGAATCTcgtgaaaatgatgaagaaggAGTGAGTGGTCATGATAATATGATTGAAATTGAAACTGTTTTTGTTTGCGAAATATGTACGCGTGATTTTAACGATCGTGCATCATTATGGCTTCATATTCGCGCCACACACAAAGAATATGCAGCATTTGCTTGTGGAGTTTGCTTAAAAATTTGTCCAGATaatgaacaattattaaatcatgtAAATATGTATCATGGAGGATCAAAGTTGCTAGTCTCGGAACAACGGAGATACAGTTGCACTATTTGCGGAAGACAGCATGACtcaaggaaaaaattaatgactcATGTTTCTATTCACAACGTAGACCCAAGTTACGATCCAGCTGCTTTTGTCCAACTTAATAGCAATTATTACAACGAAAACATCAACAGCAATGAAGGTCATGAACAAGGTGATTTTGATGCTGAAGATGGTGAAAAAGTTGACTGTTTTATATGCTACAAATCATTTCCTAATGAAGATCATCTTATTCGTCATCAACGAAACGCACACAAATCCGAACCAATATCTTTAAACAACGATTTCAATAATTCCAATGGCTCCGGAGTCAATCCGAATGGTAATAAAGCCCAATATCATCTTTTCTTTGTTTGTGAACTTTGCGGTAGTTCACATCCAAGCAAATGGGAACGTTGGCTTCATGTGAGTAGCGTTCATAGTGAAGAACCTTTGATAAGATGCGAGCGTGAAGATTGTGGAAAGATTTTTGCTACAAAGTCTCTGAAGAATGAACATGCTCAACATCATATGATTCAAGGTGTGTCTCCTAATACTTGTGAAATTTGTGGGAAACTTTGGGGTAGCCGGGTTGATTATTGGAAACATGTAATGGGTGTTCATTCGGATACAGTTCCATTAATATGTGGAGTATGTCTAAAAGTATTCCCTGATGTGATACAACTCAGTAACCATGTTAAAACCAAGCATTGGCCATTAACGAATGGTGATTTTAGCTGTGATATTTGTGGACGTccttattcaaataaatctaaaatgtCACGGCACAGAAAGATTCATGGATTGGAAGCTGAAGGATATAATGGCATGAGCGAATCAGCAAATGAACCAGCACACTTAGAATCAAATCCAGAAGTTGATTTGACGTGTGAACTTTGTACAGACATGGTATTTACCAGTTGGGAAGATCTTTGTCATCATCGAAGAATGACTCACGGTTTGTTTCCTTGCGATTTATGTAACAAATGTTATGGACGCACGTCACACCTATGGAAACACGTTAATAGAGTCCACAAAGGACATAAAGATGTTACTTGTAGATACTGTATGAAAACAAGCGCATCTAAAGATCATTTAGCTGCGCATATTGCCAAGATACATCGATATGAGCCTGACACTAAACAAACATTAAAAGACGCCAATTATAAATTACctaataatgaagaagaagcTGTTCATCATTGTGAAAAGTGCAATAAAGCTTTTCACAAACGTTATTTACTTAGACGTCACATGAAAGGCTGTCAAAATTATAGAAAAGATCCAGGAGCACTTTTAACACGTTGTCGAGCatgtgaaagaatttttaaagatcGTGCAAGTCTTCAAAAACATATTGAAAATCATCACAGTAGTTATACGTGCCATTTATGTAATGAAACTATTACTTCGAAGCTTGGAATTATGACTCATAATCGAGTTAATCATATGAACCATCCAGATCTTACTTGTGATCATAATAATTGTAAGAAATTATTTAGGACTAAGGAAGATTTGGAATCTCATAAAAAAgatcataaatatcataattctCCTAATGTTTGCGATTTTTGTGGTGATACAGTcgaaaataaacttaaattaaaaatgcatattttatcattacatCGAAATGAGATTGGAGTTTCTTGTGGAGTCTGCTTGATTCCTATGAAAGATCCTCAAGACTTAAAGAGTCATGTAGAAAACGTTCATCCGGGCATTCTTTTAAAGCCAAACACTTGTCAAGTTTGTGGAAAACAATATGCATCTAAATGGAAAGCTTTTGACCACACTAAAAAATGTCATGGGAAAGTTTTCAGAACATGTAAACAATGTTTAGCAGTTTTCATAACAGATACAGACATAAAACATCATTATGAACATGTTCACAATGTTCCTAAAGATCAACTTGCTGGTTTCGAAAATCACATGGATTTATCAGGGAaagttgatgataatgaaCAATCAACTATTACAATTAAAGAAGAACCTGAAGATATAGAATACGAAGATGGTCTTTACGATGATATGCCTCGTATCAAATCTTCTAAAAGAAAACGATCTCCTCACGATACTTACGATTGTGAAATTTGtccagaaatatttttaaattgtgatACTTTAGCTGAACATTATCGAACTATTCATAATACAGATccagaaaaaatgtttaaaaaatctaaattaaataatgcaaaGAGAAAGATGAGAAATCGAGAAaattttgaatgtaaaaattgtaaaaagcAGTTTTGtacaaaaacattattttggAATCATATCAATGTAtgtacaagaaaaaattcattacgaGATGatcaattaactaattataatACTTCAATACTTGAATCacacttaaaaaataataatcaaatcaaGAAAGAGCCGTTAGATTCCATTTTAAATGAGAATTTGAATATACCGGATTTTAACTTGTTTGAGGGAATAAACTTACAGCTGTCGGGTCAAAAACCGGTACCAAATTTGATGCCATTGTCTCATATGAAAATGTCTCAAGGTATTAAATGCTATAGAAAAGATTCAAGAAAGGTCTATGACGAATCAACAAATACAGTGTGTGCCTGTGAGGTTTGTGGTAAACAATGGCCAgctaaaaaacatttatggCAACATTTAATTCGTTTTCATCGAGCAGAAGCTGCAGTAACATGTGGAGTCTGTTTAAAGCTTTGTACAACATATAAAGGACTTTCGCAACATCTTAAAGAAGCACATGAAGCACTTTTGTCATGTGAAGGTAATAATTTCACCTGCAAAACTTGTGGAAGATATCACAATGCTCGGAGCAAGTTGTTGCTTCATATGAGTATTcatattaacaataatgagCACATCTGGTGTCAGAAGTGTGCAGCAAGTTTCGATTCTGAGGAAAAATTAAAGCAACATGTGGCTAACTGTGTAATAAAACGACGAGGTGAAGAGTTTGAAGAGCAGAGTATAGATCCAGAAGATGTTAAGCTTGAAGGCGATGAAGATAAGGGTAGTTTAATTGGAGATAGTGCTTCGTTACTCGGAGAAGGTGAAGAAGTAGAATTCGATTCTGAAGTTGAGGATGCTTCAGAGAATGGAGAAGAACACAGTAATGATACTGATCACTCCGAAGATTCTGAAGATAGTACTAATGGGAGCGCTACTGAAGGCGAAAATGAAGGAGAATCTCGAACTGACAGCAGAACTATTGAAGAAAGAAATTGTCAGACAGATAGTGAAGAACAAGAGATGAATGAATCTGAAGTTGAAGATGAAACTACTGGTCGAGATTTAACTACAATTGTGGAAAATAAAGACATGGAAAAATCAGAAAATGATAATGTTTCGAAGAACaatgataatgaagaaaatgaagaagaagaagaagacgatgataatagtaataatcataatgaaaaagagaaagaaagtcATAGAAGTGAAAAAGAAGATTATGattatgaagatgatgatgggCCACCAATATTAAGTCCTATAATGCCTATAGTTATTTCGGATGAAGGTGAAGAGAGAAAAGATAAGGCTGACGATGATtcaaatcatcaattaaactCTGAAAAATCACcaaatattgaagaagaaaatgaagaagaaatccCTGAGCTAGACGGTGTAGAAAATACagaaaaggaaattttatcaatgaattcaaATACAATGGATTATTATGAGGACTCATTAACTGTTAAATCGAATGCAAGTGTTGTAGATGAATTAGTAGAGTCGGAAGGTGAAGGAAAGGATACGGAAATGGAAGATGATGATAGTAGATTACAAATTGAACAGAGTAATGGGGATTCTTCATTAATGAAGATGTCTGAACAGGAAGAAAACTTGAGAGATGATGAAGATGTTGGTGATGAAATGTATGAAGAAGATATTGATGCTGGTGAAGGAGACAATGACATGCAACTCGATGATTTAGATGGAACAGTTTTGATGGTTGAAGGACTTGACGTTGAaggaaatgaaatattgattcaACAAAGTGTTGCGGAAGTGGATAACGAAGATTCCATACAAGAGGTCACaggttttatttatcaagatgAGAATGATGGGGAAAATTATGACGATGGACAAGAACTTGAAAGTCAAGAAGTTGAAATGGATATGGACAAAGATGATCAAGAAATGGAAATTCagtatgaaaatgataatgataaacatACAGATGAAGAAATTAACGATAGTGATTTGGAGATTAATTTGAGTGCCAAAAATGATGTGTCAAGGACGtag
Protein Sequence: MESRERYDELCRLCASYDAVKMDIFGQEGKNRQLVDKIQTCLPFKIAEDDRLPKCLCYRCMYNLENFYDFRTACVNAVALLERSLPPKAPSNGGTYNDMEKHSELRSELLKEKEKMPILIPEAPIVNPNAALGTPPRLNSDGEADQEIEEILEHSGTDEGLDDGEDRKSDEYEMDMETNPSDFLEMPPMVTEDPEETDGNLLQVNSQSSSVFQHTSEQHEVYVCSLCNKAFSSKGHLSLHARIHVGAGDVIGEKVITDDHTSYKRPYQCDLCNKSYSTAKHRWGHVSTTHRGHPAVTCRYCSRIYSTRTNLEEHIKSRHTGLPPPPETTVPYIQQDTRYQCKTCPKMYTNITDLNKHSRICLGDRLKETSKSNIQPVLQKGKSLMDTSEASSVDSDEDSKDYRNAEAKLSKNPQLTILKQALTRGESSKRDADGRNAYKSLRVDNNEGDGQKRWFCETCPQSFTSIEVLKEHEMSHEGDKPYICILCEKDFVLKSSLSRHILSSHGVDPVPIVDSDKCLKKTVMAQLNAKHSRDELKIKREPSESSFSPESRENDEEGVSGHDNMIEIETVFVCEICTRDFNDRASLWLHIRATHKEYAAFACGVCLKICPDNEQLLNHVNMYHGGSKLLVSEQRRYSCTICGRQHDSRKKLMTHVSIHNVDPSYDPAAFVQLNSNYYNENINSNEGHEQGDFDAEDGEKVDCFICYKSFPNEDHLIRHQRNAHKSEPISLNNDFNNSNGSGVNPNGNKAQYHLFFVCELCGSSHPSKWERWLHVSSVHSEEPLIRCEREDCGKIFATKSLKNEHAQHHMIQGVSPNTCEICGKLWGSRVDYWKHVMGVHSDTVPLICGVCLKVFPDVIQLSNHVKTKHWPLTNGDFSCDICGRPYSNKSKMSRHRKIHGLEAEGYNGMSESANEPAHLESNPEVDLTCELCTDMVFTSWEDLCHHRRMTHGLFPCDLCNKCYGRTSHLWKHVNRVHKGHKDVTCRYCMKTSASKDHLAAHIAKIHRYEPDTKQTLKDANYKLPNNEEEAVHHCEKCNKAFHKRYLLRRHMKGCQNYRKDPGALLTRCRACERIFKDRASLQKHIENHHSSYTCHLCNETITSKLGIMTHNRVNHMNHPDLTCDHNNCKKLFRTKEDLESHKKDHKYHNSPNVCDFCGDTVENKLKLKMHILSLHRNEIGVSCGVCLIPMKDPQDLKSHVENVHPGILLKPNTCQVCGKQYASKWKAFDHTKKCHGKVFRTCKQCLAVFITDTDIKHHYEHVHNVPKDQLAGFENHMDLSGKVDDNEQSTITIKEEPEDIEYEDGLYDDMPRIKSSKRKRSPHDTYDCEICPEIFLNCDTLAEHYRTIHNTDPEKMFKKSKLNNAKRKMRNRENFECKNCKKQFCTKTLFWNHINVCTRKNSLRDDQLTNYNTSILESHLKNNNQIKKEPLDSILNENLNIPDFNLFEGINLQLSGQKPVPNLMPLSHMKMSQGIKCYRKDSRKVYDESTNTVCACEVCGKQWPAKKHLWQHLIRFHRAEAAVTCGVCLKLCTTYKGLSQHLKEAHEALLSCEGNNFTCKTCGRYHNARSKLLLHMSIHINNNEHIWCQKCAASFDSEEKLKQHVANCVIKRRGEEFEEQSIDPEDVKLEGDEDKGSLIGDSASLLGEGEEVEFDSEVEDASENGEEHSNDTDHSEDSEDSTNGSATEGENEGESRTDSRTIEERNCQTDSEEQEMNESEVEDETTGRDLTTIVENKDMEKSENDNVSKNNDNEENEEEEEDDDNSNNHNEKEKESHRSEKEDYDYEDDDGPPILSPIMPIVISDEGEERKDKADDDSNHQLNSEKSPNIEEENEEEIPELDGVENTEKEILSMNSNTMDYYEDSLTVKSNASVVDELVESEGEGKDTEMEDDDSRLQIEQSNGDSSLMKMSEQEENLRDDEDVGDEMYEEDIDAGEGDNDMQLDDLDGTVLMVEGLDVEGNEILIQQSVAEVDNEDSIQEVTGFIYQDENDGENYDDGQELESQEVEMDMDKDDQEMEIQYENDNDKHTDEEINDSDLEINLSAKNDVSRT

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00316960;
90% Identity: iTF_00316960;
80% Identity: -