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M2 protein

Flu_M2
PDB 1nyj EBI.jpg
the closed state structure of m2 protein h+ channel by solid state nmr spectroscopy
Identifiers
Symbol Flu_M2
Pfam PF00599
InterPro IPR002089
SCOP 1mp6
SUPERFAMILY 1mp6
TCDB 1.A.19
OPM superfamily 206
OPM protein 2kqt

The Matrix-2 (M2) protein is a proton-selective ion channel protein, integral in the viral envelope of the influenza A virus. The channel itself is a homotetramer (consists of four identical M2 units), where the units are helices stabilized by two disulfide bonds, and is activated by low pH. The M2 protein is encoded on the seventh RNA segment together with the M1 protein. Proton conductance by the M2 protein in influenza A is essential for viral replication.

In influenza A virus, M2 protein unit consists of three protein segments comprising 97 amino acid residues: (i) an extracellular N-terminal domain (residues 1–23); (ii) a transmembrane segment (TMS) (residues 24–46); (iii) an intracellular C-terminal domain (residues 47–97). The TMS forms the pore of the ion channel. The important residues are the imidazole of His37 (pH sensor) and the indole of Trp41 (gate). This domain is the target of the anti influenza drugs, amantadine and its ethyl derivative rimantadine, and probably also the methyl derivative of rimantadine, adapromine. The first 17 residues of the M2 cytoplasmic tail form a highly conserved amphipathic helix.

The amphipathic helix residues (46–62) within the cytoplasmic tail play role in virus budding and assembly. The influenza virus utilizes these amphipathic helices in M2 to alter membrane curvature at the budding neck of the virus in a cholesterol dependent manner. The residues 70–77 of cytoplasmic tail are important for binding to M1 and for the efficient production of infectious virus particles. This region also contains a caveolin binding domain (CBD). The C-terminal end of the channel extends into a loop (residues 47–50) that connects the trans membrane domain to the C-terminal amphipathic helix. (46–62). Two different high-resolution structures of truncated forms of M2 have been reported: the crystal structure of a mutated form of the M2 transmembrane region (residues 22–46), as well as a longer version of the protein (residues 18–60) containing the transmembrane region and a segment of the C-terminal domain as studied by nuclear magnetic resonance (NMR).


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