Basic Information

Insect: Xestobium rufovillosum
Gene Symbol: CRZ2
Assembly: GCA_963966045.2
Location: OZ014502.1:26962193-26978129[+]

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 37 0.02 1.6 10.8 1.7 2 23 25 47 25 47 0.96

2 37 0.017 1.4 11.1 2.5 1 19 86 104 86 108 0.91

3 37 9.8e-05 0.0079 18.1 0.6 1 23 114 136 114 136 0.97

4 37 0.00025 0.02 16.9 0.6 2 20 177 195 176 197 0.93

5 37 0.042 3.4 9.8 2.0 2 23 205 226 204 226 0.96

6 37 0.0017 0.14 14.2 2.3 1 23 232 254 232 254 0.97

7 37 0.00064 0.052 15.6 1.1 1 23 260 282 260 282 0.97

8 37 0.37 30 6.9 0.2 5 23 290 308 289 308 0.91

9 37 7.7e-05 0.0062 18.5 0.8 3 23 316 336 314 336 0.97

10 37 2.7e-05 0.0022 19.9 0.6 1 23 342 364 342 364 0.99

11 37 6.1e-05 0.0049 18.8 1.1 1 23 377 399 377 399 0.98

12 37 0.73 59 6.0 6.3 1 23 405 428 405 428 0.97

13 37 2.7 2.2e+02 4.2 0.6 2 23 466 485 465 485 0.85

14 37 9.7e-06 0.00078 21.3 6.2 1 23 593 615 593 615 0.99

15 37 8.6e-06 0.00069 21.5 1.3 1 23 621 643 621 643 0.98

16 37 0.0005 0.04 15.9 1.0 1 23 654 676 654 676 0.96

17 37 6.5e-08 5.3e-06 28.1 2.0 1 23 682 704 682 704 0.99

18 37 0.0056 0.45 12.6 2.4 1 23 710 732 710 732 0.98

19 37 0.0054 0.44 12.6 0.1 2 23 745 766 744 766 0.96

20 37 8.3e-06 0.00067 21.5 5.6 1 23 878 900 878 900 0.98

21 37 8.6e-06 0.00069 21.5 1.3 1 23 906 928 906 928 0.98

22 37 0.0005 0.04 15.9 1.0 1 23 939 961 939 961 0.96

23 37 4.9e-07 3.9e-05 25.4 3.6 1 23 967 989 967 989 0.98

24 37 0.0028 0.23 13.5 2.7 1 23 995 1017 995 1017 0.98

25 37 0.00023 0.019 17.0 0.2 2 23 1030 1051 1029 1051 0.96

26 37 8.3e-06 0.00067 21.5 5.6 1 23 1163 1185 1163 1185 0.98

27 37 8.6e-06 0.00069 21.5 1.3 1 23 1191 1213 1191 1213 0.98

28 37 0.00049 0.039 15.9 0.5 1 23 1224 1246 1224 1246 0.96

29 37 4.9e-07 3.9e-05 25.4 3.6 1 23 1252 1274 1252 1274 0.98

30 37 0.0028 0.23 13.5 2.7 1 23 1280 1302 1280 1302 0.98

31 37 0.0054 0.44 12.6 0.1 2 23 1315 1336 1314 1336 0.96

32 37 6.2e-06 0.0005 21.9 6.6 1 23 1443 1465 1443 1465 0.99

33 37 8.6e-06 0.00069 21.5 1.3 1 23 1471 1493 1471 1493 0.98

34 37 0.00081 0.065 15.2 0.9 1 23 1504 1526 1504 1526 0.96

35 37 4.9e-07 3.9e-05 25.4 3.6 1 23 1532 1554 1532 1554 0.98

36 37 0.0028 0.23 13.5 2.7 1 23 1560 1582 1560 1582 0.98

37 37 0.0054 0.44 12.6 0.1 2 23 1595 1616 1594 1616 0.96

#	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	37	0.02	1.6	10.8	1.7	2	23	25	47	25	47	0.96
2	37	0.017	1.4	11.1	2.5	1	19	86	104	86	108	0.91
3	37	9.8e-05	0.0079	18.1	0.6	1	23	114	136	114	136	0.97
4	37	0.00025	0.02	16.9	0.6	2	20	177	195	176	197	0.93
5	37	0.042	3.4	9.8	2.0	2	23	205	226	204	226	0.96
6	37	0.0017	0.14	14.2	2.3	1	23	232	254	232	254	0.97
7	37	0.00064	0.052	15.6	1.1	1	23	260	282	260	282	0.97
8	37	0.37	30	6.9	0.2	5	23	290	308	289	308	0.91
9	37	7.7e-05	0.0062	18.5	0.8	3	23	316	336	314	336	0.97
10	37	2.7e-05	0.0022	19.9	0.6	1	23	342	364	342	364	0.99
11	37	6.1e-05	0.0049	18.8	1.1	1	23	377	399	377	399	0.98
12	37	0.73	59	6.0	6.3	1	23	405	428	405	428	0.97
13	37	2.7	2.2e+02	4.2	0.6	2	23	466	485	465	485	0.85
14	37	9.7e-06	0.00078	21.3	6.2	1	23	593	615	593	615	0.99
15	37	8.6e-06	0.00069	21.5	1.3	1	23	621	643	621	643	0.98
16	37	0.0005	0.04	15.9	1.0	1	23	654	676	654	676	0.96
17	37	6.5e-08	5.3e-06	28.1	2.0	1	23	682	704	682	704	0.99
18	37	0.0056	0.45	12.6	2.4	1	23	710	732	710	732	0.98
19	37	0.0054	0.44	12.6	0.1	2	23	745	766	744	766	0.96
20	37	8.3e-06	0.00067	21.5	5.6	1	23	878	900	878	900	0.98
21	37	8.6e-06	0.00069	21.5	1.3	1	23	906	928	906	928	0.98
22	37	0.0005	0.04	15.9	1.0	1	23	939	961	939	961	0.96
23	37	4.9e-07	3.9e-05	25.4	3.6	1	23	967	989	967	989	0.98
24	37	0.0028	0.23	13.5	2.7	1	23	995	1017	995	1017	0.98
25	37	0.00023	0.019	17.0	0.2	2	23	1030	1051	1029	1051	0.96
26	37	8.3e-06	0.00067	21.5	5.6	1	23	1163	1185	1163	1185	0.98
27	37	8.6e-06	0.00069	21.5	1.3	1	23	1191	1213	1191	1213	0.98
28	37	0.00049	0.039	15.9	0.5	1	23	1224	1246	1224	1246	0.96
29	37	4.9e-07	3.9e-05	25.4	3.6	1	23	1252	1274	1252	1274	0.98
30	37	0.0028	0.23	13.5	2.7	1	23	1280	1302	1280	1302	0.98
31	37	0.0054	0.44	12.6	0.1	2	23	1315	1336	1314	1336	0.96
32	37	6.2e-06	0.0005	21.9	6.6	1	23	1443	1465	1443	1465	0.99
33	37	8.6e-06	0.00069	21.5	1.3	1	23	1471	1493	1471	1493	0.98
34	37	0.00081	0.065	15.2	0.9	1	23	1504	1526	1504	1526	0.96
35	37	4.9e-07	3.9e-05	25.4	3.6	1	23	1532	1554	1532	1554	0.98
36	37	0.0028	0.23	13.5	2.7	1	23	1560	1582	1560	1582	0.98
37	37	0.0054	0.44	12.6	0.1	2	23	1595	1616	1594	1616	0.96

Sequence Information

Coding Sequence: ATGGACAGAACCGAAGTAAAAACGGAAGACGCACAAGTGCTGAAGAATAGTACTTCAAAAATGAGATCTGAGACGTGTCAAATTTGTTTAAAACAGTTTACTTCTTCAAAGGTTTTAAAACACCATGTTAACATCGCACATTCTGAGAAACCTTATGCAGACGCAGAGTTTCCAAAAACGTTACAGTTGCGTACTAAACCTGGACGGCACATTAATGAGGTTGACAATGAAAGATGGAAGAGGAGGTCGCAGTGGCACGAATGTCCAATTTGTTCGAAGAAATATACTGAGAAATGGAATTTAAACATTCACTGTTTACTTCACACGAATGAGAAACCCCACGAGTgtccgatatgcaaggaaagtttTCGTTTAAAGGTGCAGTTAATTGCGCATCTTAAAAACCATGCTGTTCTAGAAACTGAACGCTTGCAGACTACGATTTCTCATAATGAAAATGTGGATGAGATAATACGCAAACCGATGCAAACTGTTGAAAAGATGAGACGAAAGTCCATGATGGAATTAAAATGCCCTCATTGTCCGAAGATCTTTTATCACAGGAATGCTCTAGAACGCCATCTGTTATTGGATAAGGATGAAAGACCTTGCAAGTGTGCGATATGTGGGAAAGGATTCCTTTTCCCCCATCAATTGCGGGGTCATTTGATGTCCCACACGGACGAGAGGCCCCACAAATGCCAGGTGTGCCTGCGAGGATTCCGGAACTCTAATACCCTTAAGGATCACATGCTGCTTCATACAGGAGAGAAACCGTTTGAGTGCGAATTTTGCGGAAGACGCATTCGGACAAAAAGTTATTTGGCGAAACACCGCCTGCTTCATACGAGGAAGGAAAAGTCGGAACAGTGTCCAGTCTGTCTGGGAAGCTACAAGAATTTAAGGCAGCACATGCTGACCCACACGGACCGATATCGTTACGGGTGTGAAGTGTGCAAAAAAGGTTTTCGAAATCCTGCGCACCTGGAAAGACACACGTTGTCTCATACCGGGGAAAAACCATTTAAATGTCACTTGTGCGGAAAAGCTAGCGCCAGCAAACCTGACCTGTTGAAACACATGCAGGTCCATGGAGAGGAGGGCCGGGACAAGTACGAGACGAAGCCGCACGTTTGTCCCAATTGTTCAAAGGGATTCCGCACCCCCTTCGGTTTAAAGTCACACCTTTTGACTCACACGAATGATAAACCTTATCAGTGTCAGATTTGCAAGTTGCGCTTTCAGCAGAAATTCAGGCTCACCCTGCACTTTAATAGATGTCATAAGGCTGGCGATGTAAATAAAAAGTCGGATATGCCAAGAGTGGAATCAAATACTGCTGAATTAGTAGAAGCAGAAATTCAAATTGAGAACACTTCAGAAAGCGGTCCTTCCCAGTGTCCAATCTGCCTGAAAATGTTCATGAATGTAACACGGCATATAAAGAACTCCCATACTACTGAAGAACCACAACTACTCTCCAGACATCATAAAACTGGGAACATTGAAGTTGATGTACCATCGAGAACTGAATCAGATGCAGCTGTATTGACAGGAGCAATTGGGGATGAGACAATTCAAACTGGTGATGACATGAAAAAAGAGGGCAACCCTGAAATAGAGTTGAATGTAAACAGTTGTGTTGTTGGTACTCCTGATTCGAGAGAATCGTTTAAAGTTGAGGAAATTCAAATTGAAGATTGCAATCCTGAAATACAATGTGAAGAGCAAGTTGGGGACTCTCCAAAGACAATTCCAATCTGTCTGGAAAGACCTTATGAATGCGGAGTGTGCGAGAAATGTTTCAAACAACCCCACCACCTCAAACAGCACATGTTGACTCATACTGGTGAAAAACCTTTCGAATGTCACTTGTGCGGAAGAGCCTCCCGTTCCAAAGGCGACTTGACCAAACACATGAAGATCCATGACATAAAAAATGGGGACGAAATAAAATTGCACGCTTGTTCAATTTGTTCGACACGTTTTCGAAGTATCGAGAATTTAAAGTCGCATATTTTGATTCATACAGATGAGAAACCCTATCAGTGTCAGATATGCCAGAGGAGTTTTCGCCAAAAAGCAAACCTCACAAGACACATGTTGACTCATAGTGGGTTAAAGCCTTTCATATGTCCCGTGTGCAGAAAAAGTACCTCTTGCAAATCCTCTTTGCTGACACACATGAAGATTCATGAAGAAGATGGCATCGAGGACATGACAAAATCACTCGTTTGTTTGATGTGTTCAGAAGGATTTGGTAGCTATTCCGATTTAAAGGAACACATTTTGACTCATACTAGCAAGGAACGGCTCTCCCAGCATTTAAGTGATCATCATAAAATTGAGAATGTCGAAGTTGATGTACCAGATGTATCAAGAACTGAATCAGGTGTAGCTGCATTAACAGGAGCAATTGGGGATGAGATAATTCAAACTGACGGTGATGTGAAAAAAGAGGGCAACCCTGAAATAGAGTTGAATGTAAACAGTTGTGTTGTTGGTACTCCTGATTCGAGAGAAGCGTTTAAAGTTGAGGAAATTCAAATTGAAGATTGCAATCCTGAAATACAATGTGAAGAGCAAGTTGGGGACTTCCCAAAGACAATTCCAATCTGTCTGGAAAGACCTTATGAATGCGAAGTGTGCGAGAAATGTTTCAAACAACCCCACCACCTCAAACAGCACATGTTGATTCATACTGGTGAAAAACCTTTCGAATGTCACTTGTGCGGAAGAGCCTCCCGTTCCAAAGGCGACTTGACCAAACACATGAAGATCCATGACATAAAAAATGGGGACGAAATAAAATTGCACGCTTGTTCAATTTGTTCGACACGTTTTCGAAGTATCGAGAATTTAAAGTCGCATATTTTGATTCATACAGATGAGAAACCCCATCAGTGTCAGATATGCCAGAGGAGTTTTCGCCAAAAAGCAAACCTCACAAGACACATGTTGACTCATAGTGGGTTAAAGCCTTTCATATGTCCCGTGTGCAGAAAAAGTACCTCTTGCAAATCCTCTTTGCTGAAACACATGAAGATTCATGAAGAAGATGGCATCGAGGACATGACGAAATCACTCGTTTGTTTGATGTGTTCAGAACGATTTAGTAGCTATTCCGCTTTAAAGGCACATATTTTGACTCATACTAGCAAGGAACGGCTCTCCCAGCATTTAAGTGATCATCATAAAACTGGAAATGTCGAAGTTGATGTACCGGATGTATCAAGAACTGAACCAGGTGCAGCTGCATTAACAGGAGCAATTGGAGATGAGATAATTCAAACTGACGGTGATGTGAAAAAAGAGGGCAACCCTGAAATAGAGTTGAATGTAAACAGTTGTGTTGTTGGTACTCCTGATTCGGGAGAAGCGTTTAAAGTTGAGGAAATTCAAATTGAAGATTGCAATCCTGAAATACAATATGAAGAGCAAGTTGGGGACTTCCCAAAGACAATTCCAATCTGTCTGGAAAGACCTTATGAATGCGAAGTGTGCGAGAAATGTTTCAAACAACCCCACCACCTCAAACAGCACATGTTGATTCATACTGGTGAAAAACCTTTCGAATGTCACTTGTGCGGAAGAGCCTCCCGTTCCAAAGGCGACTTGACCAAACACATGAAGATCCATGACATAAAAAATGGGGACGAAATAAAATTGCACGCTTGTCCAGTTTGTTCGACACGTTTTCGAAGTATCGTGAATTTAAAGTCGCATATTTTGATTCATACAGATGAGAAACCCCATCAGTGTCAGATATGCCAGAGGAGTTTTCGCCAAAAAGCAAACCTCACAAGACACATGTTGACTCATAGTGGGTTAAAGCCTTTCATATGTCCTGTGTGCAGAAAAAGTACCTCTTGCAAATCCTCTTTGCTGAAACACATGAAGATTCATGAAGAAGATGGCATCGAGGACATGACGAAATCACTCGTTTGTTTGATGTGTTCAGAAGGATTTGGTAGCTATTCCGATTTAAAGGAACACATTTTGACTCATACTAGCAAGGAACGACTGTCCCAGCATTTAAGTGATCATCATAAAATTGAGAAGGTCGAAGTTGATGTACCAGATGTATCAAGAACTGAATCAGGTGTAGCTGCATTAACAGGAGCAATTGGGGATGAGATAATTCAAACTGACGGTGATGTGAAAAAAGAGGGCAACCCTGAAATCAGTTGTGTTGTTGGTACTCCTGATTCGGGAGAAGCGTTTAAagttgaagaaattcaaattgaaGATTACAATCCTGAAATACAATATGAAGAGCAAGTTGGGGACTCTCCAAAGACAAGTGCAATCTGTCTGGAAAGACCTTATGAATGCGAAGTGTGCGAGAAATGTTTCAAACAACCCCACCACCTCAAACAGCACATGTTGACTCATACTGGTGAAAAACCTTTCGAATGTCACTTGTGCGGAAGAGCCTCCCGTTCCAAAGGCGACTTGACCAAACACATGAAGATCCATGACATAAAAAATGGGGACGAAATAAAATTGCACGCTTGTTCAATTTGTTCGACACGTTTTCGAAGTATCGTGAATTTAAAGACGCATATTTTGATTCATACAGATGAGAAACCCCATCAGTGTCAGATATGCCAGAGGAGTTTTCGCCAAAAAGCAAACCTCACAAGACACATGTTGACTCATAGTGGGTTAAAGCCTTTCATATGTCCTGTGTGCAGAAAAAGTACCTCTTGCAAATCCTCTTTGCTGAAACACATGAAGATTCATGAAGAAGATGGCATCGAGGACATGACGAAATCACTCGTTTGTTTGATGTGTTCAGAAGGATTTGGTAGCTATTCCGATTTAAAGGAACACATTTTGACTCATACTAGCAAGGAACGGCTCTCCCAGCATTTAAGTGATCATCATAAAACTGGAAACGTCGAAGTTGATGTACCAGATGTATCAAGAACTGAACCAGCTGCAGCTGCATTAACAGGAGCAATTGGGGATGAGACAATTCAAACTGATGATGACTTGAAGAAAGAAGGCAGCCCTGAAATAGAGTTGGATGTAAACAGTTGTGTTGTTGATACTGCTGAGTCAGAAGCAGCATTTAAGGCGGAGGAAATTCAAATTGACGAATGTGTGATAAAAAACGATCctgaaTTATCTAATCTTCCACCAAGTGCAACGGCTCATCAACATATCAACCGTGTTTACTATCAAATTCAAACTTGGTTAGGGAATGATTTAGAACCCCAGGAATGGGGTTGGGTGCTGCAAAATGAACTCCTGGAACCGATAACGACAAAATTACCACCAGCTCCAGATGAACTACTGAACACGATATTTTGCAACTGCAAGAATGGTTGTGGTTCACCCTGCGGATGCAGAAAAATGGGGTTGTGGCCAGTGTAA
Protein Sequence: MDRTEVKTEDAQVLKNSTSKMRSETCQICLKQFTSSKVLKHHVNIAHSEKPYADAEFPKTLQLRTKPGRHINEVDNERWKRRSQWHECPICSKKYTEKWNLNIHCLLHTNEKPHECPICKESFRLKVQLIAHLKNHAVLETERLQTTISHNENVDEIIRKPMQTVEKMRRKSMMELKCPHCPKIFYHRNALERHLLLDKDERPCKCAICGKGFLFPHQLRGHLMSHTDERPHKCQVCLRGFRNSNTLKDHMLLHTGEKPFECEFCGRRIRTKSYLAKHRLLHTRKEKSEQCPVCLGSYKNLRQHMLTHTDRYRYGCEVCKKGFRNPAHLERHTLSHTGEKPFKCHLCGKASASKPDLLKHMQVHGEEGRDKYETKPHVCPNCSKGFRTPFGLKSHLLTHTNDKPYQCQICKLRFQQKFRLTLHFNRCHKAGDVNKKSDMPRVESNTAELVEAEIQIENTSESGPSQCPICLKMFMNVTRHIKNSHTTEEPQLLSRHHKTGNIEVDVPSRTESDAAVLTGAIGDETIQTGDDMKKEGNPEIELNVNSCVVGTPDSRESFKVEEIQIEDCNPEIQCEEQVGDSPKTIPICLERPYECGVCEKCFKQPHHLKQHMLTHTGEKPFECHLCGRASRSKGDLTKHMKIHDIKNGDEIKLHACSICSTRFRSIENLKSHILIHTDEKPYQCQICQRSFRQKANLTRHMLTHSGLKPFICPVCRKSTSCKSSLLTHMKIHEEDGIEDMTKSLVCLMCSEGFGSYSDLKEHILTHTSKERLSQHLSDHHKIENVEVDVPDVSRTESGVAALTGAIGDEIIQTDGDVKKEGNPEIELNVNSCVVGTPDSREAFKVEEIQIEDCNPEIQCEEQVGDFPKTIPICLERPYECEVCEKCFKQPHHLKQHMLIHTGEKPFECHLCGRASRSKGDLTKHMKIHDIKNGDEIKLHACSICSTRFRSIENLKSHILIHTDEKPHQCQICQRSFRQKANLTRHMLTHSGLKPFICPVCRKSTSCKSSLLKHMKIHEEDGIEDMTKSLVCLMCSERFSSYSALKAHILTHTSKERLSQHLSDHHKTGNVEVDVPDVSRTEPGAAALTGAIGDEIIQTDGDVKKEGNPEIELNVNSCVVGTPDSGEAFKVEEIQIEDCNPEIQYEEQVGDFPKTIPICLERPYECEVCEKCFKQPHHLKQHMLIHTGEKPFECHLCGRASRSKGDLTKHMKIHDIKNGDEIKLHACPVCSTRFRSIVNLKSHILIHTDEKPHQCQICQRSFRQKANLTRHMLTHSGLKPFICPVCRKSTSCKSSLLKHMKIHEEDGIEDMTKSLVCLMCSEGFGSYSDLKEHILTHTSKERLSQHLSDHHKIEKVEVDVPDVSRTESGVAALTGAIGDEIIQTDGDVKKEGNPEISCVVGTPDSGEAFKVEEIQIEDYNPEIQYEEQVGDSPKTSAICLERPYECEVCEKCFKQPHHLKQHMLTHTGEKPFECHLCGRASRSKGDLTKHMKIHDIKNGDEIKLHACSICSTRFRSIVNLKTHILIHTDEKPHQCQICQRSFRQKANLTRHMLTHSGLKPFICPVCRKSTSCKSSLLKHMKIHEEDGIEDMTKSLVCLMCSEGFGSYSDLKEHILTHTSKERLSQHLSDHHKTGNVEVDVPDVSRTEPAAAALTGAIGDETIQTDDDLKKEGSPEIELDVNSCVVDTAESEAAFKAEEIQIDECVIKNDPELSNLPPSATAHQHINRVYYQIQTWLGNDLEPQEWGWVLQNELLEPITTKLPPAPDELLNTIFCNCKNGCGSPCGCRKMGLWPV

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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