Basic Information

Insect: Microplitis manilae
Gene Symbol: -
Assembly: GCA_030273425.1
Location: CP092725.1:421085-429802[+]

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 7.3e-06 0.0011 20.3 1.0 1 23 222 244 222 244 0.98

2 31 0.0057 0.87 11.2 1.7 1 23 267 290 267 290 0.94

3 31 0.0027 0.41 12.3 0.5 2 23 297 319 296 319 0.96

4 31 0.00035 0.054 15.1 0.6 1 21 338 358 338 359 0.95

5 31 0.0057 0.88 11.2 0.0 3 23 451 471 449 471 0.93

6 31 0.001 0.16 13.6 1.9 1 23 477 500 477 500 0.93

7 31 0.00014 0.021 16.3 0.1 1 23 580 603 580 603 0.96

8 31 0.0057 0.88 11.2 0.5 1 23 609 632 609 632 0.96

9 31 0.17 27 6.6 1.9 1 23 645 667 645 667 0.97

10 31 4.8e-05 0.0074 17.8 1.1 3 23 720 741 719 741 0.96

11 31 1.1 1.7e+02 4.0 1.2 2 23 807 830 806 830 0.91

12 31 3.7 5.6e+02 2.4 0.0 2 23 839 861 839 861 0.84

13 31 0.027 4.2 9.1 0.0 2 23 868 890 867 890 0.95

14 31 1.5e-05 0.0024 19.3 1.2 1 23 898 920 898 920 0.98

15 31 0.69 1.1e+02 4.7 1.5 2 23 969 992 968 992 0.88

16 31 0.00025 0.038 15.5 3.3 1 23 995 1018 995 1018 0.97

17 31 0.00055 0.085 14.4 0.8 2 23 1025 1047 1024 1047 0.95

18 31 0.0019 0.29 12.8 5.2 1 21 1073 1093 1073 1094 0.95

19 31 0.0032 0.49 12.0 1.8 2 23 1108 1129 1107 1130 0.93

20 31 0.42 65 5.4 1.1 1 23 1133 1156 1133 1156 0.94

21 31 0.0089 1.4 10.6 1.8 2 23 1163 1186 1162 1186 0.94

22 31 1.1 1.7e+02 4.0 0.2 2 23 1193 1215 1193 1215 0.95

23 31 6.1 9.4e+02 1.7 0.0 2 23 1222 1244 1221 1244 0.91

24 31 0.27 41 6.0 2.7 2 23 1253 1275 1253 1275 0.96

25 31 4.4 6.8e+02 2.1 0.6 2 23 1281 1303 1281 1303 0.90

26 31 0.14 22 6.8 0.0 1 23 1361 1384 1361 1384 0.94

27 31 0.0038 0.58 11.8 2.8 1 20 1411 1430 1411 1432 0.95

28 31 0.58 90 4.9 1.3 2 23 1534 1556 1533 1556 0.94

29 31 1 1.5e+02 4.2 0.8 2 23 1563 1585 1562 1585 0.95

30 31 0.82 1.3e+02 4.5 2.5 1 23 1596 1618 1596 1618 0.97

31 31 0.074 11 7.7 0.1 3 20 1627 1644 1627 1646 0.97

#	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	7.3e-06	0.0011	20.3	1.0	1	23	222	244	222	244	0.98
2	31	0.0057	0.87	11.2	1.7	1	23	267	290	267	290	0.94
3	31	0.0027	0.41	12.3	0.5	2	23	297	319	296	319	0.96
4	31	0.00035	0.054	15.1	0.6	1	21	338	358	338	359	0.95
5	31	0.0057	0.88	11.2	0.0	3	23	451	471	449	471	0.93
6	31	0.001	0.16	13.6	1.9	1	23	477	500	477	500	0.93
7	31	0.00014	0.021	16.3	0.1	1	23	580	603	580	603	0.96
8	31	0.0057	0.88	11.2	0.5	1	23	609	632	609	632	0.96
9	31	0.17	27	6.6	1.9	1	23	645	667	645	667	0.97
10	31	4.8e-05	0.0074	17.8	1.1	3	23	720	741	719	741	0.96
11	31	1.1	1.7e+02	4.0	1.2	2	23	807	830	806	830	0.91
12	31	3.7	5.6e+02	2.4	0.0	2	23	839	861	839	861	0.84
13	31	0.027	4.2	9.1	0.0	2	23	868	890	867	890	0.95
14	31	1.5e-05	0.0024	19.3	1.2	1	23	898	920	898	920	0.98
15	31	0.69	1.1e+02	4.7	1.5	2	23	969	992	968	992	0.88
16	31	0.00025	0.038	15.5	3.3	1	23	995	1018	995	1018	0.97
17	31	0.00055	0.085	14.4	0.8	2	23	1025	1047	1024	1047	0.95
18	31	0.0019	0.29	12.8	5.2	1	21	1073	1093	1073	1094	0.95
19	31	0.0032	0.49	12.0	1.8	2	23	1108	1129	1107	1130	0.93
20	31	0.42	65	5.4	1.1	1	23	1133	1156	1133	1156	0.94
21	31	0.0089	1.4	10.6	1.8	2	23	1163	1186	1162	1186	0.94
22	31	1.1	1.7e+02	4.0	0.2	2	23	1193	1215	1193	1215	0.95
23	31	6.1	9.4e+02	1.7	0.0	2	23	1222	1244	1221	1244	0.91
24	31	0.27	41	6.0	2.7	2	23	1253	1275	1253	1275	0.96
25	31	4.4	6.8e+02	2.1	0.6	2	23	1281	1303	1281	1303	0.90
26	31	0.14	22	6.8	0.0	1	23	1361	1384	1361	1384	0.94
27	31	0.0038	0.58	11.8	2.8	1	20	1411	1430	1411	1432	0.95
28	31	0.58	90	4.9	1.3	2	23	1534	1556	1533	1556	0.94
29	31	1	1.5e+02	4.2	0.8	2	23	1563	1585	1562	1585	0.95
30	31	0.82	1.3e+02	4.5	2.5	1	23	1596	1618	1596	1618	0.97
31	31	0.074	11	7.7	0.1	3	20	1627	1644	1627	1646	0.97

Sequence Information

Coding Sequence: ATGGAGTCGAGAGAACGTTACGACGAGTTGTGTCGCCTGTGTGCATCTTACGATGCGGTTAAAATGGATATATTCGGACAAGAAGGAAAAAATCGTCAGCTAGTTGATAAAATACAGACTTGTCTACCATTCAagatTGCTGAAGATGATAGATTACCAAAATGTTTATGTTACCGTTGTATGTAtaatcttgaaaatttttatgattttcgaACGGCTTGTGTTAATGCCGTTGCGTTGCTTGAAAGAAAATTACCACTAAAAGAATcttcaAACGATGGATTGCATAATGATATGGAAAAACATTCGGAATTACGTTCAGAATTACTTAAGGAGAAGGAAAAAATGCCAATTCTTATACCTGAAGCTCCGATAGTTAATCCAAATGCCGCGCTGGGCACTCCGCCGAGATTAAATTCTGACGGGGAAGCTGATCAGGAGATTGAAGAAATTCTTGAACACAGTGGTACTGAAGAGGGGTTAGAGGATGGCGAGGACAGAAAATACGATGACGAGTACGAGATGGACATGGAGACAAATCCTAGTGATTTTTTGGAAATGCCACCGATGGTAACAGAGGACACGGAAGAAAACGACGGCAGCCAATTAAATTCAGTCCGTTCTCCAGTTCTATTTCAACACAAATCCGAGCATCATGAAGTTTATGTTTGCTCGTTGTGTAACAAAGCATTCAGCTCTAAAGGACACCTGTCATTGCACGCGCGAATTCACGCTGGTGCTGGCGATGTCGTGGGTGAAAAAGTTATTACCGACGATCACACATCCTTCAAACGTTTGTACCAATGTGACCTCTGTAACAAATCTTACTCGACAGCTAAACACCGTTGGGGTCACGTGTCCTCAAATCATCGTGGACATCCAGCAGTTACGTGTCAATACTGCGCACGTTTATACTCGACACGTGGTAATCTCATGGATCATATTAAATCACGGCACACTGGACAACCTCCACCTCCAAAACTCGGTATCTATGTACCAACGGATAACCGTTTTCAATGTAATACCTGTCCTAAGATGTACACCAACATCACGGACTtgaataaacataaaaaagtttgtacGGGTACTAGGGAATCGTTAAGTCAGCAGCTAAAGAAGAGGGGAAAGAGTTTGATGGACACATCAGAAGCATCGAGCTTTGAATCAGATGAAGACAGCAAAGATTATCGTACAGCAGAAGCTAAACTGTCAAAAAATCCTCAGCTtactattttaaaacaagCACTGACCCGCGGTGTCGAAGTATTGAAACGCGATGACCGTGACCCCTACAAATCATTGCGTGTACCTCAGATTGATCATGCTGACGCTGAAGGCAAAAGATGGTTTTGTGAAATCTGCCCACAGTCATTCACTTCCATCGAAGCTCTGAAAGATCACGAGGTAGTGCATGAATCTGATAAACCATTCATTTgtcttttatgtaaaaaacatTTCACTTTAAAATCATCACTGAGTCGGCATATCATTGCGACACATGGTGTCGATCCAGGTCCAATGATCGACGACGACAAGTGCCATAAAAGAAAATCATTCTCATCGTCAACGGTATTGTCAATTATAAATGACAAGCAGCATCACTCAACACgtgatgatttaaaaataaaacgtgAACCTTCTGAATTATCATTTTCACCAGAACCACGAACCAACGCCGACGACGAAGAGGATCCTGACAATAATCAACAGCACGATATGATTGAAATAGAAACTGTATTTGTATGTGAAATATGTACTCGTGACTTTAATGATCGCGCTTCACTGTGGCTCCATATACGAGCAACGCACAAAGAGTACGCGGCATTTGCGTGCGGTGTTTGTTTGAAGATATGTACAGACAATGATCAATTGTTGAATCACGTAAATATGTATCACGGGGCTTCGAAATTACAGATATCTGAACAACGACGGTACAGCTGTACAATTTGCGGCAGACAGCATGACTcacgtaaaaaattaatgacacATGTGTCAATACACAACATTGATCCTTCATACGATCCAGCAAATTTTGTCCAACTAAACAGCGGCTATTATAGCAacgaaaacataaatataaacaacgATGGTCATAATAATCAAGATCTTTCGACATCGGCAATTGACTTTGATCACGAAGACGGTGAAAAAGTTGACTGTTTTATTTGCTACAAATCATTTCCCAATGAAGATCACTTGATACGTCATCAACGTAACGCTCACAAGTCTGATCATGTGACGACACACGCGGCAGATCATCATCTTGTTGCTGCAAACACAAATGGGCCAGCAAATCCGAATGGCAACAAAGCCcagtatcatttattttttgtttgcgAAATTTGTGGGAGCTCACATCCAAGCAAATGGGAACGTTGGTTACACGTAAGCAGCGTTCACAGCACAGAGACACAGATAAGATGCGAGCGTGAGGATTGTGCTAAAATATTTGCAACAAAGTCATTGAAAAATGAACACAATCAGCATCACGTGCTGCAAGGCGCGTCACCCAATACCTGTGAAATTTGTGGTAAATTGTGGGGTAGCCGTGTTGATTATTGGAAACACGTCATGGGCGTTCATTCAGACACAGTACCGTTGATTTGTGGTGTCTGTTTGAAAGTATTTCCCGATGTTGTTCAACTTAGCGCTCACGTTAAAAGTAAACACTGGCCATTGACCAACGGTGACTTTAGTTGTGATATTTGTGGACGTccttattcaaataaatcaaaaatgtCACGGCATAGAAAAATACATGGGCTAGAATTAGAGAGCTACAGCAATGGTATCAACGATACAATTAATGATTCCGCTGGTGCTGGTCCTAATGCTAATGCTGGTGCTGTGTCTACTGCTGCTGTTAATAATTACGAAACAAACGCTGCCACAGAAGTGGATTTGACTTGTGAGATGTGTACAGATTTGTTATTCCCAAGCTGGGAAGATTTGTGTCATCATAGACGAATGATTCACGGTCTATTTCCATGTGATTTGTGTAACAAATGTTATGGACGCACATCCCACTTGTGGAAACACGTCAATCGGGTCCACAAAGGCCACAAAGACGTTACCTGCAAGTACTGCTTGAAGACTAGCGCTTCCAAGGATCATTTGACTGCTCACATTGCCAAAATTCACCGGTACGAGCCAGAAACAAAGCAGATACTTAAAGACGCAAATTATAAAACCCAGTCGGTGGAAGAGGACACGATTCATCACTgtgaaaaatgtaataaagCATTCCACAAACGTTATTTGTTGAAGAGACACATGAAAGGCTGCCAGAATTATCGTAAAGATCCGGGAGCTCTGCTGACGCGATGCCGTGCCTgcgaaagaatttttaaagacCGCGCCAGTTTGCAGAAACACATTGAAAATCATCACAGCAGCTACACGTGCCATTTGTGCAATGAAACAATAACTTCGAAACTCGGTATCATGACCCACAATCGTGTCAATCATATGAATCATCCAGATCTTACTTGTGATCACgcaaactgtaaaaaattattccggACTAAAGAAGATCTTGAAGTGCATCGTAAAGATCACAAATATCATTCACCAAATGTATGTGATTTTTGTGGTGATACTgtggaaaataaattgaaattaaaaatgcataTTTTGTCACTACATCGAAATGAAATTGGTGTTTCCTGTGGTGTCTGTTTGATACCAATGAAAGATCCTCAGGAGTTAAAAAATCATGTTGAAAGTGTTCATCCAGGTGTATTATTAAAACCAAACACTTGTCAGGTATGTGGTAAGCAGTACGCATCAAAGTGGAAGGCTTTTGATCACACGAAAAAATGTCACGGTAAAGTTTTCCGTACATGCAAACAGTGTCTTGCTGTTTTTACGACAGACGCTGACATTAGATACCACTACGAGCATATTCATAATGTACCGAAAGATCAGTTGGCAGgctttgaaaataattcagaCGCCGGAGGTAAAGGCGCCGGTCATGATGACGGGATTAAAGAAGAGCCAGATGATCTGGAGTATGATGATGGCGTTTATGATGACATACCACGGGTTAAATCATCAAAACGAAAGCCACATGACACTTATGACTGTGAAATATGTCccgagatatttttaaattacgataCACTTGCTGATCACTATCAGCTGATACACAATACTGATCCGGAgagaatgtttaaaaaaatgaagaccAATAGTGGGGGTAAACGACGAATGCGTAAtcgtgaaaattttgaatgtgaaaattgtaaaaaacaattttgtacaaaaacattattttgGAATCATATCAGTAATTGTAcacgtaaaaataattatatgtcacgtaataataatgataataatacaaCATCTACCTCGATACTTGAaacgcatttaaaaaataataatcttatTAAAAAGGAACCTAATGATGTATTGAATgagtcaaatttaaatatacctgattttaatttatttgaagatATCAATTTACAGTTGTCTGGACATAAACCAGTGCCAAATTTAATGCCATTGTCTTCATCCCACAGAATGTCACCGATGAAATGCAATCGCAAGGATTCACGTAAAGTTTATGATGAATCGACCAATACTGTGTGCGCTTGTGAGGTCTGCGGTAAGCAATGGCCAGCTAAGAAACATCTATGGCAGCATTTGATAAGATTTCATCGGGCGGAAGCGGCTGTTACCTGCGGCGTATGTTTGAAATTGTGCACAACTTACCGCGGATTGTCCCAACACTTGAAGGAAGCTCATGAGGCTATTTTGTCGTGCGAGGGAAATAATTTTACCTGCAAGACTTGTGGTAGGTATCACAATGCACGCAGTAAATTATTGCTACACATGAGCATTCATATCAATAATAATGAGCACATTTGGTGTTCTAAGTGCGCGGTAAGTTTTGAAACTGAGGATAAACTTAAAGCGCATATGGTCAATTGTGCTGTTAATAAACAGAGACGTGATGAAGATGAAgacaatgataatgataacgaCAATGAtcatgacaatgacaatgatgATGAGCATGATAATGATCATGATCATGAACAAGATGATGAACATGACGAGAGAAGTGTTGATGGAGAAGATGTTAAGATGGACACTGAAGACAAGGGCAGTTTGATTGGTGATGGTGCTTCTTTGTTGGgtgaagatgatgatgatgatgatgatgagggTGAAGGTGAAGGTGAAGGTGAAGAAGAAGCagaggaagaagaagaagatggtgaagaagaagaagaaattgAAGTTGAAGGTGAAGGTGAGGAAGGTGAAGAAGGTGATTTTGATTCTGAAGGTTTAGTCAATGGTGAACATACTGAAGAATCTGCTTGCGAGAGTGATAGTGAGGAGCATGAtcatgataatgataatgataatgaaaatgaaaatgaaacgATTGACAAAGAAGATAATTCTGACAGTGAAGAACATGATGAGTCAGATGTTGAAAAGGATGAAGAAGATAAAGAATCTAAAGAACCAGAAGATGTAAGAGATAATGATACAGATGATGATGGACCACCTGTACTAAGTCCGATGATGCCGATTCACGAGGACGATGACAAAGTTGAAGAATTGAAAACTAAAGAAGATATTCCGGAGTTAGATGGAATTGATAAAGAATTATTGGAAGGCAATTCTGGTTACTATGATGAGTTTAAAGATGAGTCGGAGGCAGACGACGACAGACTGCTGATTGAGCAGAACACCTCGGACTCGATAATCGCTGAGACAGATGCTGAGGCTGGTGAGGATGCTGATGGGTACGTGGAACAAGAAATGCAGATTAATGATCTGGATGGTACTGTTCTGATGGTTACCAACGACGCTGACGGTAATCAGATACTGGTACAGCAGAATGTCGAAGAAATAAATGAAGACGATGACGGTGAGTCGATACAAGACGTCGCTGATTTTATTTACCAAGTTGATAATGATAACTATGACGGCGATGCCCAGATGGAGATCCAAGAGGTCCAGGACGAGGAAGATGATGCTGAGGAACAGGAAGATATTGATGAGGCTAATTCTAGTGCCAAAAAACGTGTCTCGAGGACGTAG
Protein Sequence: MESRERYDELCRLCASYDAVKMDIFGQEGKNRQLVDKIQTCLPFKIAEDDRLPKCLCYRCMYNLENFYDFRTACVNAVALLERKLPLKESSNDGLHNDMEKHSELRSELLKEKEKMPILIPEAPIVNPNAALGTPPRLNSDGEADQEIEEILEHSGTEEGLEDGEDRKYDDEYEMDMETNPSDFLEMPPMVTEDTEENDGSQLNSVRSPVLFQHKSEHHEVYVCSLCNKAFSSKGHLSLHARIHAGAGDVVGEKVITDDHTSFKRLYQCDLCNKSYSTAKHRWGHVSSNHRGHPAVTCQYCARLYSTRGNLMDHIKSRHTGQPPPPKLGIYVPTDNRFQCNTCPKMYTNITDLNKHKKVCTGTRESLSQQLKKRGKSLMDTSEASSFESDEDSKDYRTAEAKLSKNPQLTILKQALTRGVEVLKRDDRDPYKSLRVPQIDHADAEGKRWFCEICPQSFTSIEALKDHEVVHESDKPFICLLCKKHFTLKSSLSRHIIATHGVDPGPMIDDDKCHKRKSFSSSTVLSIINDKQHHSTRDDLKIKREPSELSFSPEPRTNADDEEDPDNNQQHDMIEIETVFVCEICTRDFNDRASLWLHIRATHKEYAAFACGVCLKICTDNDQLLNHVNMYHGASKLQISEQRRYSCTICGRQHDSRKKLMTHVSIHNIDPSYDPANFVQLNSGYYSNENININNDGHNNQDLSTSAIDFDHEDGEKVDCFICYKSFPNEDHLIRHQRNAHKSDHVTTHAADHHLVAANTNGPANPNGNKAQYHLFFVCEICGSSHPSKWERWLHVSSVHSTETQIRCEREDCAKIFATKSLKNEHNQHHVLQGASPNTCEICGKLWGSRVDYWKHVMGVHSDTVPLICGVCLKVFPDVVQLSAHVKSKHWPLTNGDFSCDICGRPYSNKSKMSRHRKIHGLELESYSNGINDTINDSAGAGPNANAGAVSTAAVNNYETNAATEVDLTCEMCTDLLFPSWEDLCHHRRMIHGLFPCDLCNKCYGRTSHLWKHVNRVHKGHKDVTCKYCLKTSASKDHLTAHIAKIHRYEPETKQILKDANYKTQSVEEDTIHHCEKCNKAFHKRYLLKRHMKGCQNYRKDPGALLTRCRACERIFKDRASLQKHIENHHSSYTCHLCNETITSKLGIMTHNRVNHMNHPDLTCDHANCKKLFRTKEDLEVHRKDHKYHSPNVCDFCGDTVENKLKLKMHILSLHRNEIGVSCGVCLIPMKDPQELKNHVESVHPGVLLKPNTCQVCGKQYASKWKAFDHTKKCHGKVFRTCKQCLAVFTTDADIRYHYEHIHNVPKDQLAGFENNSDAGGKGAGHDDGIKEEPDDLEYDDGVYDDIPRVKSSKRKPHDTYDCEICPEIFLNYDTLADHYQLIHNTDPERMFKKMKTNSGGKRRMRNRENFECENCKKQFCTKTLFWNHISNCTRKNNYMSRNNNDNNTTSTSILETHLKNNNLIKKEPNDVLNESNLNIPDFNLFEDINLQLSGHKPVPNLMPLSSSHRMSPMKCNRKDSRKVYDESTNTVCACEVCGKQWPAKKHLWQHLIRFHRAEAAVTCGVCLKLCTTYRGLSQHLKEAHEAILSCEGNNFTCKTCGRYHNARSKLLLHMSIHINNNEHIWCSKCAVSFETEDKLKAHMVNCAVNKQRRDEDEDNDNDNDNDHDNDNDDEHDNDHDHEQDDEHDERSVDGEDVKMDTEDKGSLIGDGASLLGEDDDDDDDEGEGEGEGEEEAEEEEEDGEEEEEIEVEGEGEEGEEGDFDSEGLVNGEHTEESACESDSEEHDHDNDNDNENENETIDKEDNSDSEEHDESDVEKDEEDKESKEPEDVRDNDTDDDGPPVLSPMMPIHEDDDKVEELKTKEDIPELDGIDKELLEGNSGYYDEFKDESEADDDRLLIEQNTSDSIIAETDAEAGEDADGYVEQEMQINDLDGTVLMVTNDADGNQILVQQNVEEINEDDDGESIQDVADFIYQVDNDNYDGDAQMEIQEVQDEEDDAEEQEDIDEANSSAKKRVSRT

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_01006486;
90% Identity: iTF_01004521;
80% Identity: -