Basic Information

Insect: Pieris macdunnoughii
Gene Symbol: ZBTB11
Assembly: GCA_905332375.1
Location: CAJOBZ010000031.1:686328-693750[-]

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 42 0.00012 0.0072 16.6 1.3 2 23 17 39 16 39 0.94

2 42 0.0039 0.24 11.9 0.6 2 21 54 73 53 74 0.92

3 42 0.019 1.1 9.7 3.3 1 23 108 131 108 131 0.91

4 42 1.7 1.1e+02 3.5 0.0 2 23 159 181 158 181 0.89

5 42 2.2 1.4e+02 3.2 0.3 2 23 203 225 202 225 0.94

6 42 1.6e-05 0.001 19.3 0.6 1 23 230 253 230 253 0.97

7 42 0.095 5.9 7.5 1.2 2 23 259 281 258 281 0.94

8 42 0.0039 0.24 11.8 0.6 1 23 286 309 286 309 0.93

9 42 0.00014 0.0084 16.4 5.3 1 23 313 336 313 336 0.97

10 42 0.00052 0.032 14.6 0.7 1 23 342 364 342 364 0.97

11 42 0.016 0.99 9.9 1.4 1 23 402 424 402 424 0.95

12 42 0.0067 0.41 11.1 0.0 2 23 452 474 451 474 0.91

13 42 0.00035 0.021 15.1 1.2 2 23 495 517 494 517 0.96

14 42 0.008 0.49 10.9 1.3 1 23 522 545 522 545 0.89

15 42 0.043 2.7 8.5 0.2 1 23 550 573 550 573 0.97

16 42 0.021 1.3 9.6 0.5 3 23 577 598 576 598 0.91

17 42 0.0026 0.16 12.4 1.4 1 23 677 700 677 700 0.95

18 42 4.9 3e+02 2.1 0.0 2 23 728 750 727 750 0.91

19 42 9.1e-05 0.0056 17.0 1.9 1 23 799 822 799 822 0.93

20 42 0.088 5.4 7.6 5.7 2 23 827 849 826 849 0.91

21 42 0.00086 0.053 13.9 0.6 1 23 854 877 854 877 0.97

22 42 1.7e-05 0.0011 19.2 4.7 1 23 881 904 881 904 0.97

23 42 0.00017 0.01 16.1 1.2 2 23 911 932 910 932 0.96

24 42 0.0086 0.53 10.7 0.8 1 20 938 957 938 958 0.97

25 42 0.78 48 4.6 0.2 1 23 999 1021 999 1021 0.98

26 42 0.0027 0.16 12.4 0.1 2 23 1052 1074 1051 1074 0.95

27 42 0.0079 0.49 10.9 2.0 2 23 1097 1118 1097 1119 0.95

28 42 0.019 1.2 9.6 1.5 1 23 1124 1147 1124 1147 0.95

29 42 0.25 15 6.1 0.6 1 23 1152 1175 1152 1175 0.89

30 42 0.21 13 6.4 0.4 2 23 1181 1203 1180 1203 0.91

31 42 8.4e-07 5.2e-05 23.4 0.2 2 23 1211 1233 1210 1233 0.97

32 42 0.00031 0.019 15.3 0.1 2 23 1240 1261 1239 1261 0.97

33 42 6.3e-06 0.00039 20.6 0.3 1 23 1267 1289 1267 1289 0.93

34 42 3.1e-05 0.0019 18.5 2.4 1 23 1295 1318 1295 1318 0.97

35 42 0.062 3.8 8.0 2.8 1 23 1379 1401 1379 1401 0.97

36 42 0.026 1.6 9.3 1.5 2 23 1472 1494 1471 1494 0.95

37 42 0.00099 0.061 13.7 0.1 3 23 1502 1523 1501 1523 0.95

38 42 0.00022 0.014 15.7 1.4 3 23 1530 1551 1529 1551 0.97

39 42 0.005 0.31 11.5 2.4 1 23 1558 1581 1558 1581 0.93

40 42 0.00079 0.049 14.0 1.5 2 23 1588 1610 1587 1610 0.95

41 42 0.045 2.8 8.5 3.8 1 23 1616 1638 1616 1638 0.95

42 42 0.0052 0.32 11.4 1.5 1 23 1644 1667 1644 1667 0.90

#	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	42	0.00012	0.0072	16.6	1.3	2	23	17	39	16	39	0.94
2	42	0.0039	0.24	11.9	0.6	2	21	54	73	53	74	0.92
3	42	0.019	1.1	9.7	3.3	1	23	108	131	108	131	0.91
4	42	1.7	1.1e+02	3.5	0.0	2	23	159	181	158	181	0.89
5	42	2.2	1.4e+02	3.2	0.3	2	23	203	225	202	225	0.94
6	42	1.6e-05	0.001	19.3	0.6	1	23	230	253	230	253	0.97
7	42	0.095	5.9	7.5	1.2	2	23	259	281	258	281	0.94
8	42	0.0039	0.24	11.8	0.6	1	23	286	309	286	309	0.93
9	42	0.00014	0.0084	16.4	5.3	1	23	313	336	313	336	0.97
10	42	0.00052	0.032	14.6	0.7	1	23	342	364	342	364	0.97
11	42	0.016	0.99	9.9	1.4	1	23	402	424	402	424	0.95
12	42	0.0067	0.41	11.1	0.0	2	23	452	474	451	474	0.91
13	42	0.00035	0.021	15.1	1.2	2	23	495	517	494	517	0.96
14	42	0.008	0.49	10.9	1.3	1	23	522	545	522	545	0.89
15	42	0.043	2.7	8.5	0.2	1	23	550	573	550	573	0.97
16	42	0.021	1.3	9.6	0.5	3	23	577	598	576	598	0.91
17	42	0.0026	0.16	12.4	1.4	1	23	677	700	677	700	0.95
18	42	4.9	3e+02	2.1	0.0	2	23	728	750	727	750	0.91
19	42	9.1e-05	0.0056	17.0	1.9	1	23	799	822	799	822	0.93
20	42	0.088	5.4	7.6	5.7	2	23	827	849	826	849	0.91
21	42	0.00086	0.053	13.9	0.6	1	23	854	877	854	877	0.97
22	42	1.7e-05	0.0011	19.2	4.7	1	23	881	904	881	904	0.97
23	42	0.00017	0.01	16.1	1.2	2	23	911	932	910	932	0.96
24	42	0.0086	0.53	10.7	0.8	1	20	938	957	938	958	0.97
25	42	0.78	48	4.6	0.2	1	23	999	1021	999	1021	0.98
26	42	0.0027	0.16	12.4	0.1	2	23	1052	1074	1051	1074	0.95
27	42	0.0079	0.49	10.9	2.0	2	23	1097	1118	1097	1119	0.95
28	42	0.019	1.2	9.6	1.5	1	23	1124	1147	1124	1147	0.95
29	42	0.25	15	6.1	0.6	1	23	1152	1175	1152	1175	0.89
30	42	0.21	13	6.4	0.4	2	23	1181	1203	1180	1203	0.91
31	42	8.4e-07	5.2e-05	23.4	0.2	2	23	1211	1233	1210	1233	0.97
32	42	0.00031	0.019	15.3	0.1	2	23	1240	1261	1239	1261	0.97
33	42	6.3e-06	0.00039	20.6	0.3	1	23	1267	1289	1267	1289	0.93
34	42	3.1e-05	0.0019	18.5	2.4	1	23	1295	1318	1295	1318	0.97
35	42	0.062	3.8	8.0	2.8	1	23	1379	1401	1379	1401	0.97
36	42	0.026	1.6	9.3	1.5	2	23	1472	1494	1471	1494	0.95
37	42	0.00099	0.061	13.7	0.1	3	23	1502	1523	1501	1523	0.95
38	42	0.00022	0.014	15.7	1.4	3	23	1530	1551	1529	1551	0.97
39	42	0.005	0.31	11.5	2.4	1	23	1558	1581	1558	1581	0.93
40	42	0.00079	0.049	14.0	1.5	2	23	1588	1610	1587	1610	0.95
41	42	0.045	2.8	8.5	3.8	1	23	1616	1638	1616	1638	0.95
42	42	0.0052	0.32	11.4	1.5	1	23	1644	1667	1644	1667	0.90

Sequence Information

Coding Sequence: ATGAATGCAAACATACCCGATGAAGTTAAAATAGATGTTTCAGTAACAGTTTGTGAGAAATGCAATATTGTTTTCAAAAATTACGATAATCTCCGACAACATTTGCTTCATGAGCATGCGTTTGTTGATTTTAACGTGAAGCCGGTTATGTTGACTTTAAGTTGCGATAACTGTAAGAAAGTTTTCACGTCTAAGTTAGGCTTGAAGTATCATCTAAGTAGGTGCAAAGATTCCTCTAATAGAACAAAAGtgattaaacaaaatatcgcTATCCTCCTTAACATGTCCACGGCGCTtccttttaaatactttatgaATCGTTTTCGATGCTTTCACTGTTCTAAAGATTTCGTACAATTTGATTCACTCAAAGAACATTCTGTCAAAGAGCATCCGCATTGCGACTTGAAATCCAAATCtatgaaatttcttaaaggACGTGATATTAGTTTGAAAATTGATGTATCTAATTTGTCCTGCAAAGTATGTTCAGAAAACTACTCAGACGTACCACCCCTAATTGATCACTTAATAGCTAAACATAAAGCGACCTATGATAAAACTGTAGAATATTTGCAATCGTTTAAAATTGCAAAGGATAGTATAACATGTCCATTTTGCTCGGACGTGTTCCAGTATTTCAGAAAACTGCTGGAGCATATTAATTTGTTACATTCTGTGGAGAATTTTGTTTGCGCTTACTGCGGTCAGACTTTTGGCAATAATTATAACTACCGCGCACACATATCGCGCTACCACAGACAAGATAGTGTCAAGTGTATGGAGTGCTCTACTGAGTTTCCTACCGTCCACAAACTATCCCGTCACAAAGCCAGAGTACATGGTGAGAAAATTTACCAGTGTCAACAATGTGACGATAAATTCGGGACGCAATATCTACTTAAAAAGCACGCAATACAAGCGCACAGTTCTGGCCATAAATGCATGTACTGTAACCGGGTCTTCACTATAAATTCTCATTTGAGAAATCATGTACGACGTCTGCACTTGAAGGAGAAGAATTTCGAGTGTAATATTTGTTCTGAGAGGTTTTTTGATAAGCCGCTATTAAAAACGCATCTAGTCAAACATATTGatgaAAATCCGGAAGGCCTAGAGCCTTATACGTCTGAGAAGAGAAGGAAAAACTTGCAAATACTCTTCAACAACACAACGATTATACCGTTTAAATGGCGAGGGAAATATCTGTGTTTCTATTGTGCTAATGACTATACGGAATACTCAGATTTAAAGAAACACATGAAATCGCACGGCCAATGCACAACACGGGACTACTCGCTCAAAGCAATCAAAGGAAATAGTATAGAAATTAAACTAGATATATCGGCTATTGAATGCGAAATCTGCAACGAACCTTTTACGAGTCGAAGTGAAATAGTCGATCACTTGATAGGAAAACACGATTTGGATTACGATAAAACAGTTGAAACGCCAATCTCAGAATTTCGGTTGGTGGATATGAAGTGCCAGTATTGTGAAAAGGATTTTTCGTACTTCGTCTATTTAAGGAGACATTTGAAGCTTGCCCACtcgcaaaataattttgtttgcgACGACTGTGGAGCCACGTTCAATAGTAAACGGGATTTGGCATTCCACCTTCACAATTTCCACAAATATGGAGGGTACCCGTGCGACGTGTGCGCAGATGTCTTCGATTCCAAAAACGCTTTGAAAagtcacaaaaacaaaaatcatttcaGAAAGTGCATATATTGCAATGGTAGCTTCGCGTCCTTTTCCTTGTTACAAAAGCATATCCAGAACGATCATTCCCAGTTTAATAGTAATAAGTGTCCATTTTGTTCAAAAAAATGTCATTCAAAGCAAGGTGTCGGGCTGCAcataaaaaactgtaaaatGAATATACTACAAAAGACTCCAGCTATGCTACCTTCGGAAAACGCTATAGAGCCGAAGAAAAAGCAAAATTTAACCCAAATTAGacgaaatataattaacgTATTAAATATGACATCGGTAGTTCCTTTTAAATTCTTTGCCAAGTTTTCCTGCTTCTATTGCTCGTTACGGTTCACGGACTTTGAGGAACTCAAACAACATACGGCGTCCGAACATCCGTTTTGCGATTTAAACACGCCCAGTATTAAGAAATGTAAAGGCGAACGGACAACTGTCAAAATTGACATTTCCTCCCTCTCGTGTAGAATTTGCAGTCAACCAGCTGAACAATTCGAAGAACTGATCGATCATATTATAGCTAAACATAGTGCGTCCTACGATAAATCTGTTATTAGCTTTGAGCCGTTTCGAATTTATATCGACAAATGCTCTTGCACGCATTGTTCTAGCGTTTTTCGATATTTCACAACTTTACTGCGGCACTGCAACTCTGAGCATAGCAATACGTGCCACGTGTGTGATTCTTGCGGGAGAAGTTTTAAAAAGGTATCAAATTTAACAGCGCACATTGCGCATACGCATAAAGGCGCTTGCGAGTGTTCTATATGCGGTATTCAGTATAGGAACCAATGGTGTTTGAATCGGCATAACGCTAAATGCCACAATGCGAAGGATTTTAAGTGTCCCAACTGCCCTGAGCAATTTCAGTCGCCGTATCAAAGACAAAAGCATCTGATAAAAGTTCATGATATAGGGCATAAGTGTAGCTACTGTGGTAGAATGTTTACGAGGAATTCGTTCATGAGGGATCACATTAGACGGACCCATTTGAAGGAGAAAAATATGGAATGCTCAATTTGTGGGGAGAAATTTTTTGATAATCATCTGTTGAAGCTTCATATGGTGAAACATGAAGGTGTTAGGAAGTTCAGTTGCGCTGTATGTTGTAAATCGTTTATGAGACGTAGTAATTTGGCATCGCACATGGGAGACGTCGAAGACAGTCAAAAGAAAAACGAAATGGTGCAAAAACACTCGATCAAGAGACGAAACATCGAATATATATTGCAATACAGCAATGCCACACCATTTCTCTTttataaaggaaaatataGGTGTTTCTTTTGCACTGAACCTATCAAAGATCCAGATATTTTAAGGGAACATACAAAAATCCACAAATTTGCTAATTTAGAGTTAATCATTTTTGATCGTACTAAAAGTAATAGAAATCGCGATGCAGCCGTCAAAATCGATATAACTAACCTGACTTGCGAGCTTTGTACTCAAATATTTGCCACGCTAGAACAACTCATTCACCACCTGATAATCGCGCACGACGCCGAATATGATATGAGCGTCCCAAACTGTTTTCTTCCCTTCAAGCTAGACAGAGATCAACCTACATGCTCGATATGCGACATGAAGTTCGTCTTCTTTGAATACCTCCTACGTCACGCTAACAAACATCATTTGTCCCACGATTATATATGCGATGTTTGCGGGACGAGTTTTCAGGGGGACAATCATTTGAGAATGCACAATCGTTATTATCACAGAGATGGCGGGTACACGTGTAATTATTGTGGGATACGTCTGGAGACTCTATCGAAGAAGTCGCTTCACGAAAAGAACGTGCATTTGGCGAATCTTCTAACGTGCCAATTCTGTCCGGAGATTTTCAAAAGTCCGTATTTTAAAAAGCTGCATCTGGCGAATGTTCACGGTGTGGCGGAAATGAGAATCCAATGTCCATATTGTCCGAAAATATTCCCACAACAGAGTCTTATGTCCCGGCACATGCGGCGCGTTCATTTTCGGGAGAAAAATGTTGAGTGTCCAATATGTGGGGAAAGATTTTTTGGACCGTACGACGTGAAGTTGCATTTGCGTAAACATAATGGcgataagaattttatttgtacGGTGTGCGGGAAGAAATTCGCTAAAAAGTCTAATTTGAATGCGCATTCAGTGGTCCATACTGGCAGAAAAGACCATACTTGTGGCGTTTGTGGGAAAGAATTTGCGCATAGGCCGAATTTGAGGTTGCATTATAAGACCCTCCATCCGGAGTACGTAGAAGAGAAGGTTGAAGCAAAACAAGAGGAGATACCGACATTTCAAGATTTTAAAATCGAAAAACCGGAAAGGTTGACATCGAAGGAGAAACGCAATATAAtgagaaataatgtgctacaAGTTCTAATAAAGTCTACAGTTATGCCATTCCGATGGTTGAAAAGCTGCTACCGATGTTTTTACTGCTACGACATATTCACAGAACCATCTGAACTGAAAATGCACCAACACCAACACACAGGAGACGAAATAAAGGAGTCCACCATGAACAAATACTGGGAACAGGTCGTCTACATAGACATCTCAACGCTATCGTGTAAACTGTGCTCAGATGATATACCAGATTTATACGACCTAATTAATCATTTAGTGGAGAAACATGGTGTTCTTTACAATAAAGATGTGGGTATCTGCATGATACCGTTCAAATTGGACAATTATTCCTTGAATTGTCTCACTTGTGGTGCCACGTTTTACACATTCGGAACATTGTTGCACCACACGAATAAAGATCACAAAGGCACTTCGGCGACGCTGTGCGAAATTTGCGGGCAGAATTTCAAAGATGCCAATCTTTTGCGTCTCCACGTGAAAGCGATACACGATAATAGTAGTTTGTTGTGTCAGGAGTGTGGGGAGAAGTTCGAGAGTCGATACAAATTGAAGAATCATCAGAAATATCAGCATGAGCTGGATAAGAAGAGATATAAGTGTCTTGTTTGTGATGAAACGTTTCGGTCGCATTACAAACGTTCGCGACATATGGTTGAGGAGCATAAGAATAGGGAGGTGATTAAATGCCTTCATTGTCCGAAAACCTTTGTGTTTCGAAGTATGATGATGACGCATTTACGGGACGCGCACTTGAAGGTCCGGAATCACGTTTGCAGCGTCTGTGGTTGGAAAGCGTTCACGAGTCACAGACTAAAGAATCACATGTATAAACATAGCGGGGAGAAGAATTTCAGATGTGATGGTTGTGATAAGATGTTTACGACGAGAAAAATTATGAAAGCGCACTTTTCGAGAATGCATAAGGGCGTCCCGCTTAAGAATGTGTATGAAGAACCGTATCAGTACTGA
Protein Sequence: MNANIPDEVKIDVSVTVCEKCNIVFKNYDNLRQHLLHEHAFVDFNVKPVMLTLSCDNCKKVFTSKLGLKYHLSRCKDSSNRTKVIKQNIAILLNMSTALPFKYFMNRFRCFHCSKDFVQFDSLKEHSVKEHPHCDLKSKSMKFLKGRDISLKIDVSNLSCKVCSENYSDVPPLIDHLIAKHKATYDKTVEYLQSFKIAKDSITCPFCSDVFQYFRKLLEHINLLHSVENFVCAYCGQTFGNNYNYRAHISRYHRQDSVKCMECSTEFPTVHKLSRHKARVHGEKIYQCQQCDDKFGTQYLLKKHAIQAHSSGHKCMYCNRVFTINSHLRNHVRRLHLKEKNFECNICSERFFDKPLLKTHLVKHIDENPEGLEPYTSEKRRKNLQILFNNTTIIPFKWRGKYLCFYCANDYTEYSDLKKHMKSHGQCTTRDYSLKAIKGNSIEIKLDISAIECEICNEPFTSRSEIVDHLIGKHDLDYDKTVETPISEFRLVDMKCQYCEKDFSYFVYLRRHLKLAHSQNNFVCDDCGATFNSKRDLAFHLHNFHKYGGYPCDVCADVFDSKNALKSHKNKNHFRKCIYCNGSFASFSLLQKHIQNDHSQFNSNKCPFCSKKCHSKQGVGLHIKNCKMNILQKTPAMLPSENAIEPKKKQNLTQIRRNIINVLNMTSVVPFKFFAKFSCFYCSLRFTDFEELKQHTASEHPFCDLNTPSIKKCKGERTTVKIDISSLSCRICSQPAEQFEELIDHIIAKHSASYDKSVISFEPFRIYIDKCSCTHCSSVFRYFTTLLRHCNSEHSNTCHVCDSCGRSFKKVSNLTAHIAHTHKGACECSICGIQYRNQWCLNRHNAKCHNAKDFKCPNCPEQFQSPYQRQKHLIKVHDIGHKCSYCGRMFTRNSFMRDHIRRTHLKEKNMECSICGEKFFDNHLLKLHMVKHEGVRKFSCAVCCKSFMRRSNLASHMGDVEDSQKKNEMVQKHSIKRRNIEYILQYSNATPFLFYKGKYRCFFCTEPIKDPDILREHTKIHKFANLELIIFDRTKSNRNRDAAVKIDITNLTCELCTQIFATLEQLIHHLIIAHDAEYDMSVPNCFLPFKLDRDQPTCSICDMKFVFFEYLLRHANKHHLSHDYICDVCGTSFQGDNHLRMHNRYYHRDGGYTCNYCGIRLETLSKKSLHEKNVHLANLLTCQFCPEIFKSPYFKKLHLANVHGVAEMRIQCPYCPKIFPQQSLMSRHMRRVHFREKNVECPICGERFFGPYDVKLHLRKHNGDKNFICTVCGKKFAKKSNLNAHSVVHTGRKDHTCGVCGKEFAHRPNLRLHYKTLHPEYVEEKVEAKQEEIPTFQDFKIEKPERLTSKEKRNIMRNNVLQVLIKSTVMPFRWLKSCYRCFYCYDIFTEPSELKMHQHQHTGDEIKESTMNKYWEQVVYIDISTLSCKLCSDDIPDLYDLINHLVEKHGVLYNKDVGICMIPFKLDNYSLNCLTCGATFYTFGTLLHHTNKDHKGTSATLCEICGQNFKDANLLRLHVKAIHDNSSLLCQECGEKFESRYKLKNHQKYQHELDKKRYKCLVCDETFRSHYKRSRHMVEEHKNREVIKCLHCPKTFVFRSMMMTHLRDAHLKVRNHVCSVCGWKAFTSHRLKNHMYKHSGEKNFRCDGCDKMFTTRKIMKAHFSRMHKGVPLKNVYEEPYQY

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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