Add to ORKGThe cytoplasmic C-terminal tail of the matrix protein 2 (M2) from influenza A virus has a well conserved sequence and is involved in interactions with several host proteins as well as the influenza matrix protein 1 (M1). Whereas the transmembrane domain of M2 has been well characterised structurally and functionally, high resolution information about the distal cytoplasmic tail is lacking. Here we report the chemical shifts of the cytoplasmic tail of M2 and the chemical shift perturbations at low pH and in the presence of membrane mimetics. The cytoplasmic tail residues are mostly disordered but an extended backbone conformation is adopted by the LC3 binding motif and the putative M1 interaction site has partial helical content with a small...
The M2 protein from influenza A is a pH-activated proton channel that plays an essential role in the...
Influenza matrix protein 1 (M1) is the most abundant protein in the virus and forms the matrix layer...
AbstractMembrane proteins change their conformations to respond to environmental cues, thus conforma...
The influenza A M2 protein is a multifunctional membrane-associated homotetramer that orchestrates s...
Influenza A virus matrix protein M1 plays an essential role in the virus lifecycle, but its function...
Influenza A virus encodes M2, a proton channel that has been shown to be important during virus entr...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemistry, 2017.Cataloged from ...
The M2 protein from influenza A virus is a 97-amino-acid protein with a single transmembrane helix t...
Solid-state NMR-based structure determination of membrane proteins and large protein complexes faces...
<div><p>Influenza A virus matrix protein M1 is one of the most important and abundant proteins in th...
Matrix protein 1 (M1) of the influenza A virus plays multiple roles in virion assembly and infection...
Influenza A virus matrix protein M1 is one of the most important and abundant proteins in the virus ...
The influenza A virus M2 protein is a 70kDa transmembrane protein which forms an ion permeable chann...
The cytoplasmic tail of the influenza A virus M2 proton-selective ion channel has been shown to be i...
Influenza A/M2 is a minimalistic integral membrane protein that mediates proton transport across the...
The M2 protein from influenza A is a pH-activated proton channel that plays an essential role in the...
Influenza matrix protein 1 (M1) is the most abundant protein in the virus and forms the matrix layer...
AbstractMembrane proteins change their conformations to respond to environmental cues, thus conforma...
The influenza A M2 protein is a multifunctional membrane-associated homotetramer that orchestrates s...
Influenza A virus matrix protein M1 plays an essential role in the virus lifecycle, but its function...
Influenza A virus encodes M2, a proton channel that has been shown to be important during virus entr...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemistry, 2017.Cataloged from ...
The M2 protein from influenza A virus is a 97-amino-acid protein with a single transmembrane helix t...
Solid-state NMR-based structure determination of membrane proteins and large protein complexes faces...
<div><p>Influenza A virus matrix protein M1 is one of the most important and abundant proteins in th...
Matrix protein 1 (M1) of the influenza A virus plays multiple roles in virion assembly and infection...
Influenza A virus matrix protein M1 is one of the most important and abundant proteins in the virus ...
The influenza A virus M2 protein is a 70kDa transmembrane protein which forms an ion permeable chann...
The cytoplasmic tail of the influenza A virus M2 proton-selective ion channel has been shown to be i...
Influenza A/M2 is a minimalistic integral membrane protein that mediates proton transport across the...
The M2 protein from influenza A is a pH-activated proton channel that plays an essential role in the...
Influenza matrix protein 1 (M1) is the most abundant protein in the virus and forms the matrix layer...
AbstractMembrane proteins change their conformations to respond to environmental cues, thus conforma...