Basic Information

Insect: Melinopterus prodromus
Gene Symbol: -
Assembly: GCA_964023965.1
Location: OZ030395.1:2430085-2435448[-]

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 35 0.069 6.9 9.0 2.1 1 20 27 46 27 48 0.93

2 35 9.8 9.8e+02 2.2 0.8 1 23 168 190 168 190 0.89

3 35 0.0021 0.21 13.7 1.2 2 23 197 218 196 218 0.97

4 35 0.00075 0.075 15.2 2.4 1 23 224 246 224 246 0.99

5 35 0.00011 0.011 17.7 3.7 1 23 252 274 252 274 0.99

6 35 0.0005 0.05 15.7 2.0 2 23 281 303 280 303 0.95

7 35 0.0017 0.17 14.1 4.0 1 23 306 328 306 328 0.99

8 35 0.00077 0.077 15.1 2.7 1 23 334 356 334 356 0.99

9 35 0.0095 0.96 11.7 1.9 1 23 362 384 362 384 0.97

10 35 0.038 3.8 9.8 3.6 1 23 390 412 390 412 0.98

11 35 0.014 1.4 11.2 2.3 1 23 418 440 418 440 0.99

12 35 2.8 2.8e+02 3.9 6.2 1 23 446 468 446 468 0.96

13 35 0.00022 0.022 16.8 0.5 1 23 474 496 474 496 0.99

14 35 0.0069 0.69 12.1 0.1 1 23 502 524 502 524 0.95

15 35 0.00053 0.054 15.6 1.9 1 23 530 552 530 552 0.99

16 35 6.7e-06 0.00067 21.6 0.2 1 23 558 580 558 580 0.99

17 35 8.9e-06 0.00089 21.2 1.8 1 23 586 608 586 608 0.99

18 35 0.0015 0.15 14.2 2.6 1 23 614 636 614 636 0.98

19 35 0.00012 0.012 17.7 5.8 1 23 642 664 642 664 0.99

20 35 2.7e-05 0.0027 19.7 0.7 1 23 670 692 670 692 0.99

21 35 0.2 20 7.5 4.3 1 23 815 837 815 837 0.99

22 35 0.0047 0.47 12.6 0.9 1 23 843 865 843 865 0.97

23 35 0.00064 0.064 15.4 3.5 1 23 871 893 871 893 0.99

24 35 0.00055 0.055 15.6 0.9 1 23 899 921 899 921 0.98

25 35 0.031 3.1 10.1 1.1 1 23 927 949 927 949 0.96

26 35 0.00089 0.089 14.9 0.5 1 23 955 977 955 977 0.99

27 35 0.0026 0.26 13.4 0.3 3 23 985 1005 983 1005 0.96

28 35 0.00036 0.036 16.1 0.2 1 23 1011 1033 1011 1033 0.99

29 35 0.00042 0.042 15.9 0.9 1 23 1039 1061 1039 1061 0.99

30 35 0.00013 0.013 17.5 0.3 2 23 1068 1089 1067 1089 0.97

31 35 0.0038 0.38 12.9 0.1 1 23 1095 1117 1095 1117 0.99

32 35 0.00023 0.023 16.8 0.3 1 23 1123 1145 1123 1145 0.99

33 35 1.7e-05 0.0017 20.3 1.4 1 23 1151 1173 1151 1173 0.99

34 35 0.011 1.1 11.4 1.8 1 23 1179 1201 1179 1201 0.98

35 35 4.5e-05 0.0045 19.0 1.7 1 23 1207 1229 1207 1229 0.98

#	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	35	0.069	6.9	9.0	2.1	1	20	27	46	27	48	0.93
2	35	9.8	9.8e+02	2.2	0.8	1	23	168	190	168	190	0.89
3	35	0.0021	0.21	13.7	1.2	2	23	197	218	196	218	0.97
4	35	0.00075	0.075	15.2	2.4	1	23	224	246	224	246	0.99
5	35	0.00011	0.011	17.7	3.7	1	23	252	274	252	274	0.99
6	35	0.0005	0.05	15.7	2.0	2	23	281	303	280	303	0.95
7	35	0.0017	0.17	14.1	4.0	1	23	306	328	306	328	0.99
8	35	0.00077	0.077	15.1	2.7	1	23	334	356	334	356	0.99
9	35	0.0095	0.96	11.7	1.9	1	23	362	384	362	384	0.97
10	35	0.038	3.8	9.8	3.6	1	23	390	412	390	412	0.98
11	35	0.014	1.4	11.2	2.3	1	23	418	440	418	440	0.99
12	35	2.8	2.8e+02	3.9	6.2	1	23	446	468	446	468	0.96
13	35	0.00022	0.022	16.8	0.5	1	23	474	496	474	496	0.99
14	35	0.0069	0.69	12.1	0.1	1	23	502	524	502	524	0.95
15	35	0.00053	0.054	15.6	1.9	1	23	530	552	530	552	0.99
16	35	6.7e-06	0.00067	21.6	0.2	1	23	558	580	558	580	0.99
17	35	8.9e-06	0.00089	21.2	1.8	1	23	586	608	586	608	0.99
18	35	0.0015	0.15	14.2	2.6	1	23	614	636	614	636	0.98
19	35	0.00012	0.012	17.7	5.8	1	23	642	664	642	664	0.99
20	35	2.7e-05	0.0027	19.7	0.7	1	23	670	692	670	692	0.99
21	35	0.2	20	7.5	4.3	1	23	815	837	815	837	0.99
22	35	0.0047	0.47	12.6	0.9	1	23	843	865	843	865	0.97
23	35	0.00064	0.064	15.4	3.5	1	23	871	893	871	893	0.99
24	35	0.00055	0.055	15.6	0.9	1	23	899	921	899	921	0.98
25	35	0.031	3.1	10.1	1.1	1	23	927	949	927	949	0.96
26	35	0.00089	0.089	14.9	0.5	1	23	955	977	955	977	0.99
27	35	0.0026	0.26	13.4	0.3	3	23	985	1005	983	1005	0.96
28	35	0.00036	0.036	16.1	0.2	1	23	1011	1033	1011	1033	0.99
29	35	0.00042	0.042	15.9	0.9	1	23	1039	1061	1039	1061	0.99
30	35	0.00013	0.013	17.5	0.3	2	23	1068	1089	1067	1089	0.97
31	35	0.0038	0.38	12.9	0.1	1	23	1095	1117	1095	1117	0.99
32	35	0.00023	0.023	16.8	0.3	1	23	1123	1145	1123	1145	0.99
33	35	1.7e-05	0.0017	20.3	1.4	1	23	1151	1173	1151	1173	0.99
34	35	0.011	1.1	11.4	1.8	1	23	1179	1201	1179	1201	0.98
35	35	4.5e-05	0.0045	19.0	1.7	1	23	1207	1229	1207	1229	0.98

Sequence Information

Coding Sequence: ATGGCAACGATTCAGCAACATTCATCACTGGAACATGAAGGAACTGATGAAAATAAGGAAGTTCCTCCAGTCGAGCAATTTAATTGCAGTCTCTGCGGGTTCCACTTTAGCAATGAACAATTTCTAACGAATCATTTCAATTTGTGCAAAGACGTTGAGAATCCCACTCATAGGTTGGGTGCGGACATAAtCGCTATTAAAAATGAGCCTTGCAAGGAGGAGACCACTGAATTACTTGATGTACCCCAAACATTGAAACAAACATTCGACAAAACAATCGAAACTTTGGAATTGACTGAATCTGGTATCTCTGCGACCACTTGTCGTCCACTGGCTGGAGAATCTGTTAAAAGTCCGAAGACTTTGACACAAGACAAACTACTCAAGTGTAGCGAATACGACTACACAACCACACAAGTAACGCAACTCGAAGAGCATGCAAGCGTACACAAGAAAAACGGTAGTACGCGTGCGAAGGCTGCGCACTCTAAGCAGAAAGTATACAAATGCGGTGTATGTCATTATCTTAGTGGAAGCAGAGCTATTGTTAGAAAGCATATGGCACGGCACAGAGCTGATAATCCACTAAAATGTACCAGGTGCGATCGTGTTTGTGCATCAATTGATGCTCTTACGCTGCATCTAAGAAAACATACAGGCGACAAACCGTTTAAGTGCGATCAATGCGACTTTTCTACTACGCAGCGTACTGTTTTTACGGCGCATATGCGTCGGCATACAGGCGAGAAGCCTTACAAGTGTACCGTTtgtgactatgcttgtgcaGTGAAACATGCTCTCAATCGCCATATGAAACGCCATAGCGGAGAGGAAGCGTTGAAATGTCATCGATGTGGCTATGCTTTTACGAAGAGCGATGATGTTAAACTGCATATGCAGCAGCAGCATTATATATATAAGTGTACCTTTTGCAGTTACGCTTGTGCGTTAGAATCGTCGCTTAAACGCCATATGAAACGCCATCCCGGAGCGAAACGATTTAAATGTGGTCGATGTGACTATGCTTGTACGGATAGTCGTGATTTTAAAGCGCATATTCAGAAGCATACGGAACAGAAACGGTATAAGTGTACCTTCTGTGAGTACACTTGTGCGCTACAATCTGCGTTTAAAGCCCATATAAGTTGGCATACGGAAGACAGACGACATAAGTGCACCGTGTGTGACTACGCTTCTCCGTCACGATCTCTCCTGCAATGCCATATGAGGCAGCATACCGGCGAGAAGCCGTATAAATGCACACTTTGCGACTACGCTTCTGCAACGCGATATCGCCTCAGTGGCCATATGCGACACCACACGGGAAACAAACCGTTTTTGTGCAACGTATGCGGACATACTGCTATATCGACGCATAGTCTTAAATGCCATATGAGAAGGCATTCGGCGGATAAGACGTTTAAGTGTAGTAAATGTGACTTTGCTAGTGTAAGACGTGGTGGTCTCGCGCAGCATATGAAGACTCACACCGGAGAGAAGCGATTCTTATGCACCTTATGTGGCTACGCTGGCGCACAACGAATTGCCCTTACGCAACATATGCGggcgcatacaggagaaaagccGTTTAAATGCAGCCTTtgtgactatgcttgtgcaATGAAAGGTTCCCTCAAAGGCCATATGAGGAAGCATACCGGAGAAAAGCCTTTCAAGTGTACGCTATGCGACTACGCGTACGCACAAAGTTCTGGCCTCGCTgtgcatatgagaaagcatacaggtgAATTGCCGTTCAAGTGTACGCTATGCGACTACGCGTGCGCACAAAGCTCTAATCTCGCTCTGCATATGAGGAAGCATACTGGTAAAAAGCCATTCCAATGTTCCCTTTGTAGCTATGCCTGTGCATCATCTAGTTTTCTTACGCGCCATATGGGGAAGCACGGAGGAGAGAAGCGTTTTAAGTGCACCGTTTGCGACTGTGCTTTCTCACAAAAACACGTTCTTACAAGCCATATGAGGAAGCATACCGGTGAGAAGCCGTTCAAATGTACCCTTTGTGACTATGCTGGTGCACAATCCGCTCATCTGACAGTCCATATGAGGACGCATACCGCTTTGAGCAAACTACTCGTGAAAATGACGACAATTCAGCAACTTCCCGCTGATAAGTTGGGTGCAGCTATAAccaCTATTGTATATGAACCTTGTGAAGAGGTGAATAGAAGAACAGGTGAAGAGGAATTACTTCATGTACCGCAAACATCCAAACAAACaattaacaaaaaaatcgaaGATTTTGAATTTACTGAAAATACGGTTTCTGGCCCCACTTGTCCACAGGCTGGGCAATCTGTCAAAGACCAGACGACAGAAGCACAAGATGAACTATTAAAGTGCAGCAAACGCGACTACTCCGCTGCAGGAGCAGCGCAACTTGAAGAACACGTAAAACTACATCAAAAACAGGTCAAAATGTATCGGTGCCAGATATGTGACTATACTAGTGCACACCATAATATTCTTAAACAGCACGTCAGAAGACATATCGGACAGAACGTATTTAAATGCGCCGTCTGTGGCTATCTCACTGGCAACTGCGAGAATCTTACGAAGCATATGGCACAGCATGCAGCAGAGAACCCATTTAAATGTCCTCAGtgtgactatgcttgtgcaACAAGTGTTGCTCTTACACATCACTTTAGAAAACACACAGGAGAAAAACCGTTTAAATGTGATCGATGTGACTATGCTTCTACAGATCGTGGTAGGCTTAAAGTGCATATGCGGCAGCATACGGGAGACAAACCGTATTTATGCAGCGTTTGTGGACACGGTTCTACGTCGGGACCTGCTTTTATACACCACATGCGGACACATTCGAAAGATAAGAAGTTTAAGTGTAGtgtatgtgactatgctagtgtaCTGAATTCTAGTCTTTCCGAGCACATGAAGAAGCATACCGGAGTAAAACCACACTTATGCTCTATATGTGGCTATGCTGGTGCAAAATTGGCTTATCTCAACATGCATATGAGAACCCATACCGGTGAAAAACCTTTTAAGTGTACCCtctgtgactatgctagtgcagCAAAATCAGCCCTTAAAGCCCATGTGAGAACGCATACCGGTGAGCGGCCGTTCAAATGCGAAATCTGCGACTATACGAGTACGCAACGTTGGGGTATCAaactgcatatgagaaagcaCACAGATGAGGCCCCACTGAAGTGCAccgtttgtgattatgctagtgcagaCAAATATGCTCTTCAATCGCATATGAagaagcatacaggagagacgCCTTTTAAATGCTTAGTATGTTCCTACCCCGCTAGATCTGCTGGTTATCTTGCGATCcacatgagaaagcatacaCGAGAAAAGCCATATAAGTGCACCGTTtgtgactatgcttgtgcaGCACAAGGTGCACTTAAATCCCATATGATAACGCACACAGGCGAGAAGACGTTTAAATGTGACCGTTGTGACTATGCTTCTGCACGATCTGCTCATCTTACAGTCCATATGAGGACGCATACCGGTGAAAAACCGTTCAAGTGCACCGTTTGTGACTATGCTACTACAGTGCAATCTACTCTTGTATGCCATATGAGGCTGCATTCAGGAGAAAAACCGTTTGAATGTGCGttttgtgactatgctagtgcacaCAGTTCAAATCTTAAAAAGCATATCAGAAGGCATAAAGAGGAAGAAGATACTTAA
Protein Sequence: MATIQQHSSLEHEGTDENKEVPPVEQFNCSLCGFHFSNEQFLTNHFNLCKDVENPTHRLGADIIAIKNEPCKEETTELLDVPQTLKQTFDKTIETLELTESGISATTCRPLAGESVKSPKTLTQDKLLKCSEYDYTTTQVTQLEEHASVHKKNGSTRAKAAHSKQKVYKCGVCHYLSGSRAIVRKHMARHRADNPLKCTRCDRVCASIDALTLHLRKHTGDKPFKCDQCDFSTTQRTVFTAHMRRHTGEKPYKCTVCDYACAVKHALNRHMKRHSGEEALKCHRCGYAFTKSDDVKLHMQQQHYIYKCTFCSYACALESSLKRHMKRHPGAKRFKCGRCDYACTDSRDFKAHIQKHTEQKRYKCTFCEYTCALQSAFKAHISWHTEDRRHKCTVCDYASPSRSLLQCHMRQHTGEKPYKCTLCDYASATRYRLSGHMRHHTGNKPFLCNVCGHTAISTHSLKCHMRRHSADKTFKCSKCDFASVRRGGLAQHMKTHTGEKRFLCTLCGYAGAQRIALTQHMRAHTGEKPFKCSLCDYACAMKGSLKGHMRKHTGEKPFKCTLCDYAYAQSSGLAVHMRKHTGELPFKCTLCDYACAQSSNLALHMRKHTGKKPFQCSLCSYACASSSFLTRHMGKHGGEKRFKCTVCDCAFSQKHVLTSHMRKHTGEKPFKCTLCDYAGAQSAHLTVHMRTHTALSKLLVKMTTIQQLPADKLGAAITTIVYEPCEEVNRRTGEEELLHVPQTSKQTINKKIEDFEFTENTVSGPTCPQAGQSVKDQTTEAQDELLKCSKRDYSAAGAAQLEEHVKLHQKQVKMYRCQICDYTSAHHNILKQHVRRHIGQNVFKCAVCGYLTGNCENLTKHMAQHAAENPFKCPQCDYACATSVALTHHFRKHTGEKPFKCDRCDYASTDRGRLKVHMRQHTGDKPYLCSVCGHGSTSGPAFIHHMRTHSKDKKFKCSVCDYASVLNSSLSEHMKKHTGVKPHLCSICGYAGAKLAYLNMHMRTHTGEKPFKCTLCDYASAAKSALKAHVRTHTGERPFKCEICDYTSTQRWGIKLHMRKHTDEAPLKCTVCDYASADKYALQSHMKKHTGETPFKCLVCSYPARSAGYLAIHMRKHTREKPYKCTVCDYACAAQGALKSHMITHTGEKTFKCDRCDYASARSAHLTVHMRTHTGEKPFKCTVCDYATTVQSTLVCHMRLHSGEKPFECAFCDYASAHSSNLKKHIRRHKEEEDT

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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