Add to ORKGEmrE from Escherichia coli is a member of the small multidrug resistance protein family that oligomerizes to export hydrophobic cationic antimicrobials by utilizing the proton motive force. We studied the helix-helix interactions of the four transmembrane (TM) segments of EmrE to determine how this protein might assemble into its oligomeric forms. Using a combination of biochemical and biophysical techniques, we assessed the oligomerization propensities of Lys-tagged EmrE TM peptides in membrane-mimetic environments. Our results established that each of the TMs of EmrE display detergent-sensitive self-association, but in particular, TM2 had the greatest dimerization capability that was not completely abolished even by scrambling the native ...
Analysis of the genomes of 29 Escherichia coli strains revealed two different versions of the EmrE p...
AbstractEmrE protein transports positively charged aromatic drugs (xenobiotics) in exchange for two ...
Bacteria evade the effects of cytotoxic compounds through the efflux activity of membrane-bound tran...
AbstractEscherichia coli multidrug resistance protein E (EmrE) is a four transmembrane α-helix prote...
As one of the mechanisms of antibiotic resistance, bacteria use several families of membrane-embedde...
Secondary active transporters undergo large conformational changes to facilitate the efflux of subst...
AbstractEscherichia coli EmrE is a small multidrug resistance protein encompassing four transmembran...
EmrE, a multidrug resistance protein from Escherichia coli, renders the bacterium resistant to a var...
AbstractEmrE is a small multidrug transporter that contains 110 amino acid residues that form four t...
EmrE, a multidrug resistance protein from Escherichia coli, renders the bacterium resistant to a var...
Transport proteins exhibiting broad substrate specificities are major determinants for the phenomeno...
AbstractUsing a recently reported computational method, we describe an approach to model the structu...
EmrE is a bacterial multidrug transporter of the small multidrug resistance family, which extrudes l...
ABSTRACT Using a recently reported computational method, we describe an approach to model the struct...
EmrE is a small multidrug resistance (SMR) pump of antiparallel topology that confers resistance to ...
Analysis of the genomes of 29 Escherichia coli strains revealed two different versions of the EmrE p...
AbstractEmrE protein transports positively charged aromatic drugs (xenobiotics) in exchange for two ...
Bacteria evade the effects of cytotoxic compounds through the efflux activity of membrane-bound tran...
AbstractEscherichia coli multidrug resistance protein E (EmrE) is a four transmembrane α-helix prote...
As one of the mechanisms of antibiotic resistance, bacteria use several families of membrane-embedde...
Secondary active transporters undergo large conformational changes to facilitate the efflux of subst...
AbstractEscherichia coli EmrE is a small multidrug resistance protein encompassing four transmembran...
EmrE, a multidrug resistance protein from Escherichia coli, renders the bacterium resistant to a var...
AbstractEmrE is a small multidrug transporter that contains 110 amino acid residues that form four t...
EmrE, a multidrug resistance protein from Escherichia coli, renders the bacterium resistant to a var...
Transport proteins exhibiting broad substrate specificities are major determinants for the phenomeno...
AbstractUsing a recently reported computational method, we describe an approach to model the structu...
EmrE is a bacterial multidrug transporter of the small multidrug resistance family, which extrudes l...
ABSTRACT Using a recently reported computational method, we describe an approach to model the struct...
EmrE is a small multidrug resistance (SMR) pump of antiparallel topology that confers resistance to ...
Analysis of the genomes of 29 Escherichia coli strains revealed two different versions of the EmrE p...
AbstractEmrE protein transports positively charged aromatic drugs (xenobiotics) in exchange for two ...
Bacteria evade the effects of cytotoxic compounds through the efflux activity of membrane-bound tran...