Pmet011384.1


Basic Information
Transcription Factor Domain
Sequence Information
Similer Transcription Factors

Basic Information

Insect
Phlogophora meticulosa
Gene Symbol
-
Assembly
GCA_905147745.1
Location
LR990527.1:6594543-6608939[-]

Transcription Factor Domain

TF Family
ETS
Domain
Ets domain
PFAM
PF00178
TF Group
Helix-turn-helix
Description
Transcription factors are protein molecules that bind to specific DNA sequences in the genome, resulting in the induction or inhibition of gene transcription [3]. The ets oncogene is such a factor, possessing a region of 85-90 amino acids known as the ETS (erythroblast transformation specific) domain [3, 5, 4]. This domain is rich in positively-charged and aromatic residues, and binds to purine-rich segments of DNA. The ETS domain has been identified in other transcription factors such as PU.1, human erg, human elf-1, human elk-1, GA binding protein, and a number of others [3, 5, 2]. It is generally localized at the C terminus of the protein, with the exception of ELF-1, ELK-1, ELK-3, ELK-4 and ERF where it is found at the N terminus. NMR-analysis of the structure of the Ets domains revealed that it contains three α-helices (1-3) and four-stranded β-sheets (1-4) arranged in the order α1-β1-β2-α2-α3-β3-β4 forming a winged helix-turn-helix (wHTH) topology [1]. The third α-helix is responsive to contact to the major groove of the DNA. Different members of the Ets family proteins display distinct DNA binding specificities. The Ets domains and the flanking amino acid sequences of the proteins influence the binding affinity, and the alteration of a single amino acid in the Ets domain can change its DNA binding specificities.
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 4 0.016 53 4.9 0.0 25 80 101 154 96 155 0.78
2 4 0.016 53 4.9 0.0 25 80 258 311 253 312 0.78
3 4 0.016 53 4.9 0.0 25 80 489 542 484 543 0.78
4 4 0.016 53 4.9 0.0 25 80 646 699 641 700 0.78

Sequence Information

Coding Sequence
ATGTTGCCTAAGGCATTATTAGTTTTTCTTGTTGTGTACTTTTTATCGGATTTCTCACATGGACAAAGAAATGAAACGTCTTTCCGGAAAGACTACAGTTATATAGAAGTAGGGAACAGTTACTACAAGTTCCACGCGGCACCAAAGAATTGGCGTGATGCCAAGCAAGTGTGTGCTCAGGAAGGAGCCAGGCTGTTCTACCCAGAAAGCGGCGATGAGACCAACGCTGTGTTATCGTTTTGGAAACAGTATGAAGTGTCTAATTATACTTGGGTGTATGTGGGCATATCGGATTTAACAACTGAAGGAGTATTTGAGACCATTGACGGTAAACCAGTTTCTGAGGTGTACAACACCTGGAAGCCAAATAACCCCGATAATTATGAAGACAAAGAGGACTGTGTGCACTTACACCAATCAGGCATTTTAAATGATATCAATTGTGAGGAACAGTATAAATTTATTTGTAAGAGGAGCCTTCCACCAAAAGAGCGGAATTACAGCTCCAACAATCAGGATTCCATTTTAGATGGACAAAGAAATGAAACGTCTTTCCGGAAAGACTACAGTTATATAGAAGTAGGGAACAGTTACTACAAGTTCCACGCGGCACCAAAGAATTGGCGTGATGCCAAGGAAGTGTGTGCTCAGGAAGGAGCCAGGCTGTTCTACCCAGAAAGCGGCGATGAGACCAACGCTGTGTTATCGTTTTGGAAACAGTATGAAGTGTCTAATTATACTTGGGTATATGTGGGCATATCGGATTTAACAACTGAAGGAGTATTTGAGACCATTGACGGTAAACCAGTTTCTGAGGTGTACAACACCTGGAAGCCAAATAACCCCGATAATTATGAAGACAAAGAGGACTGTGTGCACTTACACCAATCAGGCATTTTAAATGATATCAATTGTGAGGAACAGTATAAATTTATTTGTAAGAGGAGCCTTCCACCAAAAGAGCGGAATTACAGCTCCAACAATCAGGATTCCAGTTTAGGCGCGGTCTTGCGGACGGCGAGCAATGGGTGGCTCGTCGTTCGACCGTCCGGTAACCATCCGGACCGAGCCCAAGTGGTCGACGGCGCGTATTGTTCCACGCGCGCCTCAAGGAGATGTCAGCAACTGTCCCTACAGTTGCTGACCCTGCTGGGTCCCTACCCAGCAGGGTCGAAGCCTACTGGGGCCAAGGGTCTGATTCTGAAAGGAAGACTCGGCCCTGATGAACAAAGAAATGAAACGTCTTTCCGGAAAGACTACAGTTATATAGAAGTAGGGGACAGTTACTACAAGTTCCACGCAGAATCAAAGAATTGGCGTGATGCCAAGCAAGTGTGTGCTCAGGAAGGAGCCAGGCTGTTCTACCCAGAAAGCGGCGATGAGACCAACGCTGTGTTATCGTTTTGGAAACAGTATGAAGTGTCTAATTATACTTGGGTGTATGTGGGCATATCGGATTTAACAACTGAAGGAGTATTTGAGACCATTGACGGTAAACCAGTTTCTGAGGTGTACAACACCTGGAAGCCAAATAACCCCGATAATTATGAAGACAAAGAGGACTGCGTGCACTTACACCAATCAGGCATTTTAAATGATATCAATTGTGAGGAACAGTATAAATTTATTTGTAAGAGGAGCCTTCCACCAAAAGAGCGGAATTACAGCTCCAACAATCAGGATTCCATTTTAGATGGACAAAGTAATGAAACGTATTTGCGGAAAGAATATAGTTATATAGAAGCAGGGAACAGTTACTACAAGTTCCACGCGGAATCAAAGAATTGGCGCGATGCCAAGGAAGTGTGTGCTCAGGAAGGAGCCAGGCTGTTCTACCCAGAAAGCGGCGATGAGACCAACGCTGTGTTATCGTTTTGGAAACAGTATGAAGTGTCTAATTATACTTGGGTGTATGTGGGCATATCAGATTTAACAACTGAAGGAGTATTTGAGACCATTGACGGTAAACCAGTTTCTGAGGTGTACAACACCTGGAAGCCAAATAACCCCGATAATTATGAAGACAAAGAGGACTGTGTGCACTTACACCAATCAGGCATTTTAAATGATATCAATTGTGAGGAACAGTATAAATTTATTTGTAAGAGGAGCCTTCCACCAAAAGAGCGGAATTACAGCTCCAACAATCAGGATTCCAATTTAGATAACAAACAAAGAGATAAACAGTTTTTCCGGAAAGACTACGATTATATAGAAGCAGTAGAGAGTTTCTATAAGATCCACACGACACCACAGACTTGGGATGAGGCTAAGCGAGTGTGTGCTCTGGAAGGAGCCACTTTCTGGCACCCAGACAACGACAATGAGGCACACGCAGTGATATCGTTTTGGAATACTACCCAGCCTCATATCGGGAAGGTGTATGTGGGTATGTCTGACAAGATGCTAAAAGGACTGTTTGAAACTATTGATGGCAAGTTAGTCTCTGAAGTGTACAACAACTGGCAGCCAAGGCAACCAGATCTTAGTGGCGGTACACACTGCTGTGTGTACATGAACAAAGATGGCCACCTGGACGATTACGGATGTCACCATAAGTATTCTTTTGTTTGCAAGAAGAGTCTCCAGTCACTAAAGTGGAATAGTCGGTGCAATATGCCTAATTTAGATTACACTTTCAATGAGGATACTAGCAAGTGCTACAAGTTCCACACAACTCCAATGAGCTGGATCGATGCATATGCCGTGTGCCGACTGGAACAATCCAACCTGGCGGTGATCAGCAGCCGGCAGGAAGCGGATTACCTTGTTAATTTAACGGAATCCACACCAAAGCCTAGGGTCAAAGAAAACTACCAAAGAGGAATATATCACGTGGGCTTTCATAACAGATTCAACGAGGGCTGGCAGACAGTTAAAGGTACACCGATGGATGTAGACACCGACATCTGGTGGGACAACTATAAACCGGCGGAAGACCGTGACCAGTGCGGCTCCATGTTCTTCACCGGTCGTCTGATCAACACAGACTGTGATATGAAGAGCTTCTTCATTTGTGAACATGAAAAATTCATGTTCACAAATGAAGATCTCCCGATATCATCCCAAAAGCTGCAAAATGGAGAAAAAAATAAAAATAAATAA
Protein Sequence
MLPKALLVFLVVYFLSDFSHGQRNETSFRKDYSYIEVGNSYYKFHAAPKNWRDAKQVCAQEGARLFYPESGDETNAVLSFWKQYEVSNYTWVYVGISDLTTEGVFETIDGKPVSEVYNTWKPNNPDNYEDKEDCVHLHQSGILNDINCEEQYKFICKRSLPPKERNYSSNNQDSILDGQRNETSFRKDYSYIEVGNSYYKFHAAPKNWRDAKEVCAQEGARLFYPESGDETNAVLSFWKQYEVSNYTWVYVGISDLTTEGVFETIDGKPVSEVYNTWKPNNPDNYEDKEDCVHLHQSGILNDINCEEQYKFICKRSLPPKERNYSSNNQDSSLGAVLRTASNGWLVVRPSGNHPDRAQVVDGAYCSTRASRRCQQLSLQLLTLLGPYPAGSKPTGAKGLILKGRLGPDEQRNETSFRKDYSYIEVGDSYYKFHAESKNWRDAKQVCAQEGARLFYPESGDETNAVLSFWKQYEVSNYTWVYVGISDLTTEGVFETIDGKPVSEVYNTWKPNNPDNYEDKEDCVHLHQSGILNDINCEEQYKFICKRSLPPKERNYSSNNQDSILDGQSNETYLRKEYSYIEAGNSYYKFHAESKNWRDAKEVCAQEGARLFYPESGDETNAVLSFWKQYEVSNYTWVYVGISDLTTEGVFETIDGKPVSEVYNTWKPNNPDNYEDKEDCVHLHQSGILNDINCEEQYKFICKRSLPPKERNYSSNNQDSNLDNKQRDKQFFRKDYDYIEAVESFYKIHTTPQTWDEAKRVCALEGATFWHPDNDNEAHAVISFWNTTQPHIGKVYVGMSDKMLKGLFETIDGKLVSEVYNNWQPRQPDLSGGTHCCVYMNKDGHLDDYGCHHKYSFVCKKSLQSLKWNSRCNMPNLDYTFNEDTSKCYKFHTTPMSWIDAYAVCRLEQSNLAVISSRQEADYLVNLTESTPKPRVKENYQRGIYHVGFHNRFNEGWQTVKGTPMDVDTDIWWDNYKPAEDRDQCGSMFFTGRLINTDCDMKSFFICEHEKFMFTNEDLPISSQKLQNGEKNKNK

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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