Edem044164.2


Basic Information
Transcription Factor Domain
Sequence Information
Similer Transcription Factors

Basic Information

Insect
Epinotia demarniana
Gene Symbol
LZTR1
Assembly
GCA_945869435.1
Location
CAMBUM010001163.1:1-10203[+]

Transcription Factor Domain

TF Family
BTB
Domain
zf-C2H2|ZBTB
PFAM
PF00651
TF Group
Zinc-Coordinating Group
Description
The BTB (for BR-C, ttk and bab) [6] or POZ (for Pox virus and Zinc finger) [1] domain is present near the N-terminus of a fraction of zinc finger (Pfam:PF00096) proteins and in proteins that contain the Pfam:PF01344 motif such as Kelch and a family of pox virus proteins. The BTB/POZ domain mediates homomeric dimerisation and in some instances heteromeric dimerisation [1]. The structure of the dimerised PLZF BTB/POZ domain has been solved and consists of a tightly intertwined homodimer. The central scaffolding of the protein is made up of a cluster of alpha-helices flanked by short beta-sheets at both the top and bottom of the molecule [2]. POZ domains from several zinc finger proteins have been shown to mediate transcriptional repression and to interact with components of histone deacetylase co-repressor complexes including N-CoR and SMRT [5, 3, 4]. The POZ or BTB domain is also known as BR-C/Ttk or ZiN.
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 19 6e-09 3.3e-06 28.7 0.0 9 51 49 89 45 103 0.81
2 19 6e-09 3.3e-06 28.7 0.0 9 51 122 162 118 176 0.81
3 19 6e-09 3.3e-06 28.7 0.0 9 51 195 235 191 249 0.81
4 19 6e-09 3.3e-06 28.7 0.0 9 51 268 308 264 322 0.81
5 19 6e-09 3.3e-06 28.7 0.0 9 51 341 381 337 395 0.81
6 19 6e-09 3.3e-06 28.7 0.0 9 51 414 454 410 468 0.81
7 19 6e-09 3.3e-06 28.7 0.0 9 51 487 527 483 541 0.81
8 19 6e-09 3.3e-06 28.7 0.0 9 51 560 600 556 614 0.81
9 19 6e-09 3.3e-06 28.7 0.0 9 51 633 673 629 687 0.81
10 19 6e-09 3.3e-06 28.7 0.0 9 51 706 746 702 760 0.81
11 19 6e-09 3.3e-06 28.7 0.0 9 51 779 819 775 833 0.81
12 19 6e-09 3.3e-06 28.7 0.0 9 51 852 892 848 906 0.81
13 19 6e-09 3.3e-06 28.7 0.0 9 51 925 965 921 979 0.81
14 19 6e-09 3.3e-06 28.7 0.0 9 51 998 1038 994 1052 0.81
15 19 6e-09 3.3e-06 28.7 0.0 9 51 1071 1111 1067 1125 0.81
16 19 6e-09 3.3e-06 28.7 0.0 9 51 1144 1184 1140 1198 0.81
17 19 6e-09 3.3e-06 28.7 0.0 9 51 1217 1257 1213 1271 0.81
18 19 2.3e-16 1.2e-13 52.6 0.0 9 96 1290 1377 1286 1393 0.84
19 19 6.7 3.6e+03 -0.4 0.0 77 106 1392 1421 1381 1424 0.79

Sequence Information

Coding Sequence
GCCTACTTCGAGGCCATGTTCCGCTCCTTCTCGCCGCAGGACAACACCGTCAACGTGAGTGTAGCAGTGGCTTGTGTCTCTGTCTCCCTCGCACGCACGACGCTCGAGCAGGACATGTGCGTGTTcgtgagcggcgcgggcgcggagctgAGCGACGTGCGCCTGCGCGTGGGCGCCGCGTCCCGCCCCGCGCACCGCTCCAtcctcgccgcgcgcgccgcctactTCGAGGCCATGTTCCGCTCCTTCTCGCCGCAGGACAACACCGTCAACGTGAGTGTAGCAGTGGCTTGTGTCTCTGTCTCCCTCGCACGCACGACGCTCGAGCAGGACATGTGCGTGTTcgtgagcggcgcgggcgcggagctgAGCGACGTGCGCCTGCGCGTGGGCGCCGCGTCCCGCCCCGCGCACCGCTCCAtcctcgccgcgcgcgccgcctactTCGAGGCCATGTTCCGCTCCTTCTCGCCGCAGGACAACACCGTCAACGTGAGTGTAGCAGTGGCTTGTGTCTCTGTCTCCCTCGCACGCACGACGCTCGAGCAGGACATGTGCGTGTTcgtgagcggcgcgggcgcggagctgAGCGACGTGCGCCTGCGCGTGGGCGCCGCGTCCCGCCCCGCGCACCGCTCCAtcctcgccgcgcgcgccgcctactTCGAGGCCATGTTCCGCTCCTTCTCGCCGCAGGACAACACCGTCAACGTGAGTGTAGCAGTGGCTTGTGTCTCTGTCTCCCTCGCACGCACGACGCTCGAGCAGGACATGTGCGTGTTcgtgagcggcgcgggcgcggagctgAGCGACGTGCGCCTGCGCGTGGGCGCCGCGTCCCGCCCCGCGCACCGCTCCAtcctcgccgcgcgcgccgcctactTCGAGGCCATGTTCCGCTCCTTCTCGCCGCAGGACAACACCGTCAACGTGAGTGTAGCAGTGGCTTGTGTCTCTGTCTCCCTCGCACGCACGACGCTCGAGCAGGACATGTGCGTGTTcgtgagcggcgcgggcgcggagctgAGCGACGTGCGCCTGCGCGTGGGCGCCGCGTCCCGCCCCGCGCACCGCTCCAtcctcgccgcgcgcgccgcctactTCGAGGCCATGTTCCGCTCCTTCTCGCCGCAGGACAACACCGTCAACGTGAGTGTAGCAGTGGCTTGTGTCTCTGTCTCCCTCGCACGCACGACGCTCGAGCAGGACATGTGCGTGTTcgtgagcggcgcgggcgcggagctgAGCGACGTGCGCCTGCGCGTGGGCGCCGCGTCCCGCCCCGCGCACCGCTCCAtcctcgccgcgcgcgccgcctactTCGAGGCCATGTTCCGCTCCTTCTCGCCGCAGGACAACACCGTCAACGTGAGTGTAGCAGTGGCTTGTGTCTCTGTCTCCCTCGCACGCACGACGCTCGAGCAGGACATGTGCGTGTTcgtgagcggcgcgggcgcggagctgAGCGACGTGCGCCTGCGCGTGGGCGCCGCGTCCCGCCCCGCGCACCGCTCCAtcctcgccgcgcgcgccgcctactTCGAGGCCATGTTCCGCTCCTTCTCGCCGCAGGACAACACCGTCAACGTGAGTGTAGCAGTGGCTTGTGTCTCTGTCTCCCTCGCACGCACGACGCTCGAGCAGGACATGTGCGTGTTcgtgagcggcgcgggcgcggagctgAGCGACGTGCGCCTGCGCGTGGGCGCCGCGTCCCGCCCCGCGCACCGCTCCAtcctcgccgcgcgcgccgcctactTCGAGGCCATGTTCCGCTCCTTCTCGCCGCAGGACAACACCGTCAACGTGAGTGTAGCAGTGGCTTGTGTCTCTGTCTCCCTCGCACGCACGACGCTCGAGCAGGACATGTGCGTGTTcgtgagcggcgcgggcgcggagctgAGCGACGTGCGCCTGCGCGTGGGCGCCGCGTCCCGCCCCGCGCACCGCTCCAtcctcgccgcgcgcgccgcctactTCGAGGCCATGTTCCGCTCCTTCTCGCCGCAGGACAACACCGTCAACGTGAGTGTAGCAGTGGCTTGTGTCTCTGTCTCCCTCGCACGCACGACGCTCGAGCAGGACATGTGCGTGTTcgtgagcggcgcgggcgcggagctgAGCGACGTGCGCCTGCGCGTGGGCGCCGCGTCCCGCCCCGCGCACCGCTCCAtcctcgccgcgcgcgccgcctactTCGAGGCCATGTTCCGCTCCTTCTCGCCGCAGGACAACACCGTCAACGTGAGTGTAGCAGTGGCTTGTGTCTCTGTCTCCCTCGCACGCACGACGCTCGAGCAGGACATGTGCGTGTTcgtgagcggcgcgggcgcggagctgAGCGACGTGCGCCTGCGCGTGGGCGCCGCGTCCCGCCCCGCGCACCGCTCCAtcctcgccgcgcgcgccgcctactTCGAGGCCATGTTCCGCTCCTTCTCGCCGCAGGACAACACCGTCAACGTGAGTGTAGCAGTGGCTTGTGTCTCTGTCTCCCTCGCACGCACGACGCTCGAGCAGGACATGTGCGTGTTcgtgagcggcgcgggcgcggagctgAGCGACGTGCGCCTGCGCGTGGGCGCCGCGTCCCGCCCCGCGCACCGCTCCAtcctcgccgcgcgcgccgcctactTCGAGGCCATGTTCCGCTCCTTCTCGCCGCAGGACAACACCGTCAACGTGAGTGTAGCAGTGGCTTGTGTCTCTGTCTCCCTCGCACGCACGACGCTCGAGCAGGACATGTGCGTGTTcgtgagcggcgcgggcgcggagctgAGCGACGTGCGCCTGCGCGTGGGCGCCGCGTCCCGCCCCGCGCACCGCTCCAtcctcgccgcgcgcgccgcctactTCGAGGCCATGTTCCGCTCCTTCTCGCCGCAGGACAACACCGTCAACGTGAGTGTAGCAGTGGCTTGTGTCTCTGTCTCCCTCGCACGCACGACGCTCGAGCAGGACATGTGCGTGTTcgtgagcggcgcgggcgcggagctgAGCGACGTGCGCCTGCGCGTGGGCGCCGCGTCCCGCCCCGCGCACCGCTCCAtcctcgccgcgcgcgccgcctactTCGAGGCCATGTTCCGCTCCTTCTCGCCGCAGGACAACACCGTCAACGTGAGTGTAGCAGTGGCTTGTGTCTCTGTCTCCCTCGCACGCACGACGCTCGAGCAGGACATGTGCGTGTTcgtgagcggcgcgggcgcggagctgAGCGACGTGCGCCTGCGCGTGGGCGCCGCGTCCCGCCCCGCGCACCGCTCCAtcctcgccgcgcgcgccgcctactTCGAGGCCATGTTCCGCTCCTTCTCGCCGCAGGACAACACCGTCAACGTGAGTGTAGCAGTGGCTTGTGTCTCTGTCTCCCTCGCACGCACGACGCTCGAGCAGGACATGTGCGTGTTcgtgagcggcgcgggcgcggagctgAGCGACGTGCGCCTGCGCGTGGGCGCCGCGTCCCGCCCCGCGCACCGCTCCAtcctcgccgcgcgcgccgcctactTCGAGGCCATGTTCCGCTCCTTCTCGCCGCAGGACAACACCGTCAACGTGAGTGTAGCAGTGGCTTGTGTCTCTGTCTCCCTCGCACGCACGACGCTCGAGCAGGACATGTGCGTGTTcgtgagcggcgcgggcgcggagctgAGCGACGTGCGCCTGCGCGTGGGCGCCGCGTCCCGCCCCGCGCACCGCTCCAtcctcgccgcgcgcgccgcctactTCGAGGCCATGTTCCGCTCCTTCTCGCCGCAGGACAACACCGTCAACGTGAGTGTAGCAGTGGCTTGTGTCTCTGTCTCCCTCGCACGCACGACGCTCGACCAGGACATGTGCGTGTTcgtgagcggcgcgggcgcggagctgAGCGACGTGCGCCTGCGCGTGGGCGCCGCGTCCCGCCCCGCGCACCGCTCCAtcctcgccgcgcgcgccgcctactTCGAGGCCATGTTCCGCTCCTTCTCGCCGCAGGACAACACCGTCAACATCCAAATATGCGACACGGTGCCTTCAGAAGAGGCCTTCGACTCGCTGCTACGCTATGTGTACTACGGTGACACCAACATGCCCACCGAAGACTCGCTGTATCTGTTCCAGGCGCCCATTTATTACGGCTTCACCAACAACCGGCTGCAAGTGTTCTGCAAGCACAACCTGCAGAGCAACGTGACGCCGGACAACGTGCTGGCCATCCTGCAGGCCGCGGACCGCATGCGCGCGGCCGACATCAAGGAGTACGCGCTGAAGATGATCGTGCACAACTTCTACCAGCTGGCCCACCAGGAGTCGATCAAGTCGCTCCCGCAGCCCCTGCTGGTGGACATCGTGGTGGcgctggcgcgggcgcggcgcgcggactccccgctgccgccgcgcgcgcgcccgcgctccGCCGGCCCGGGCGCCGACGACGAGCCGCGCCGCAGGCCCGGAGACAACCATCACAACTACTGGTAA
Protein Sequence
AYFEAMFRSFSPQDNTVNVSVAVACVSVSLARTTLEQDMCVFVSGAGAELSDVRLRVGAASRPAHRSILAARAAYFEAMFRSFSPQDNTVNVSVAVACVSVSLARTTLEQDMCVFVSGAGAELSDVRLRVGAASRPAHRSILAARAAYFEAMFRSFSPQDNTVNVSVAVACVSVSLARTTLEQDMCVFVSGAGAELSDVRLRVGAASRPAHRSILAARAAYFEAMFRSFSPQDNTVNVSVAVACVSVSLARTTLEQDMCVFVSGAGAELSDVRLRVGAASRPAHRSILAARAAYFEAMFRSFSPQDNTVNVSVAVACVSVSLARTTLEQDMCVFVSGAGAELSDVRLRVGAASRPAHRSILAARAAYFEAMFRSFSPQDNTVNVSVAVACVSVSLARTTLEQDMCVFVSGAGAELSDVRLRVGAASRPAHRSILAARAAYFEAMFRSFSPQDNTVNVSVAVACVSVSLARTTLEQDMCVFVSGAGAELSDVRLRVGAASRPAHRSILAARAAYFEAMFRSFSPQDNTVNVSVAVACVSVSLARTTLEQDMCVFVSGAGAELSDVRLRVGAASRPAHRSILAARAAYFEAMFRSFSPQDNTVNVSVAVACVSVSLARTTLEQDMCVFVSGAGAELSDVRLRVGAASRPAHRSILAARAAYFEAMFRSFSPQDNTVNVSVAVACVSVSLARTTLEQDMCVFVSGAGAELSDVRLRVGAASRPAHRSILAARAAYFEAMFRSFSPQDNTVNVSVAVACVSVSLARTTLEQDMCVFVSGAGAELSDVRLRVGAASRPAHRSILAARAAYFEAMFRSFSPQDNTVNVSVAVACVSVSLARTTLEQDMCVFVSGAGAELSDVRLRVGAASRPAHRSILAARAAYFEAMFRSFSPQDNTVNVSVAVACVSVSLARTTLEQDMCVFVSGAGAELSDVRLRVGAASRPAHRSILAARAAYFEAMFRSFSPQDNTVNVSVAVACVSVSLARTTLEQDMCVFVSGAGAELSDVRLRVGAASRPAHRSILAARAAYFEAMFRSFSPQDNTVNVSVAVACVSVSLARTTLEQDMCVFVSGAGAELSDVRLRVGAASRPAHRSILAARAAYFEAMFRSFSPQDNTVNVSVAVACVSVSLARTTLEQDMCVFVSGAGAELSDVRLRVGAASRPAHRSILAARAAYFEAMFRSFSPQDNTVNVSVAVACVSVSLARTTLEQDMCVFVSGAGAELSDVRLRVGAASRPAHRSILAARAAYFEAMFRSFSPQDNTVNVSVAVACVSVSLARTTLDQDMCVFVSGAGAELSDVRLRVGAASRPAHRSILAARAAYFEAMFRSFSPQDNTVNIQICDTVPSEEAFDSLLRYVYYGDTNMPTEDSLYLFQAPIYYGFTNNRLQVFCKHNLQSNVTPDNVLAILQAADRMRAADIKEYALKMIVHNFYQLAHQESIKSLPQPLLVDIVVALARARRADSPLPPRARPRSAGPGADDEPRRRPGDNHHNYW

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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