Английская Википедия:Coronavirus membrane protein

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Шаблон:Short description Шаблон:Infobox protein family

The membrane (M) protein (previously called E1, sometimes also matrix protein[1]) is an integral membrane protein that is the most abundant of the four major structural proteins found in coronaviruses.[2][3][4] The M protein organizes the assembly of coronavirus virions through protein-protein interactions with other M protein molecules as well as with the other three structural proteins, the envelope (E), spike (S), and nucleocapsid (N) proteins.[3][5][6][7]

Structure

The M protein is a transmembrane protein with three transmembrane domains and is around 230 amino acid residues long.[7][8] In SARS-CoV-2, the causative agent of COVID-19, the M protein is 222 residues long.[9] Its membrane topology orients the C-terminus toward the cytosolic face of the membrane and thus into the interior of the virion. It has a short N-terminal segment and a larger C-terminal domain. Although the protein sequence is not well conserved across all coronavirus groups, there is a conserved amphipathic region near the C-terminal end of the third transmembrane segment.[7][8]

M functions as a homodimer.[3][4] Studies of the M protein in multiple coronaviruses by cryo-electron microscopy have identified two distinct functional protein conformations, thought to have different roles in forming protein-protein interactions with other structural proteins.[4] M protein of SARS-CoV-2 is homologous to the prokaryotic sugar transport protein SemiSWEET.[10]

Post-translational modifications

M is a glycoprotein whose glycosylation varies according to coronavirus subgroup; N-linked glycosylation is typically found in the alpha and gamma groups while O-linked glycosylation is typically found in the beta group.[7][8] There are some exceptions; for example, in SARS-CoV, a betacoronavirus, the M protein has one N-glycosylation site.[7][5] Glycosylation state does not appear to have a measurable effect on viral growth.[5][8][11] No other post-translational modifications have been described for the M protein.[3]

Expression and localization

Шаблон:Infobox genome

The gene encoding the M protein is located toward the 3' end of the virus's positive-sense RNA genome, along with the genes for the other three structural proteins and various virus-specific accessory proteins.[5][7] M is translated by membrane-bound polysomes[5] to be inserted into the endoplasmic reticulum (ER) and trafficked to the endoplasmic reticulum-Golgi intermediate compartment (ERGIC), the intracellular compartment that gives rise to the coronavirus viral envelope, or to the Golgi apparatus.[7][6][5] The exact localization is dependent on the specific virus protein.[12] Investigations of the subcellular localization of the MERS-CoV M protein found C-terminal sequence signals associated with trafficking to the Golgi.[13]

Function

Файл:Pbio.3000815.g001.PNG L.png
Illustration of a coronavirus virion in the respiratory mucosa, showing the positions of the four structural proteins and components of the extracellular environment.[14]

The M protein is the most abundant protein in coronavirus virions.[7][4][3] It is essential for viral replication.[3]

Viral assembly

The primary function of the M protein is organizing assembly of new virions.[3] It is involved in establishing viral shape and morphology. Individual M molecules interact with each other to form the viral envelope[6][8][7] and may be able to exclude host cell proteins from the viral membrane.[4] Studies of the SARS-CoV M protein suggest that M-M interactions involve both the N- and C-termini.[5] Coronaviruses are moderately pleomorphic and conformational variations of M appear to be associated with virion size.[4]

M forms protein-protein interactions with all three other major structural proteins.[3][6] M is necessary but not sufficient for viral assembly; M and the E protein expressed together are reportedly sufficient to form virus-like particles,[6] though some reports vary depending on experimental conditions and the specific virus studied.[5][12] In some reports M appears to be capable of inducing membrane curvature,[4] though others report M alone is insufficient for this and E is required.[6] Although the E protein is not necessarily essential, it appears to be required for normal viral morphology and may be responsible for establishing curvature or initiating viral budding.[6] M also appears to have functional roles in the later stages of viral maturation, secretion, and budding.[3]

Incorporation of the spike protein (S) - which is required for assembly of infectious virions - is reported to occur though M interactions and may depend on specific conformations of M.[4][12] The conserved amphipathic region C-terminal to the third transmembrane segment is important for spike interactions.[12] Interactions with M appear to be required for correct subcellular localization of S at the viral budding site.[11] M interacts directly with the nucleocapsid (N) protein without requiring the presence of RNA.[5] This interaction appears to occur primarily through both proteins' C-termini.[3]

Interactions with the immune system

Файл:3i6g chainABC.png
The human HLA-A*0201 (red) and beta-2 microglobulin (green) in complex with a peptide derived from the M protein of SARS-CoV (yellow, shown as surface). From Шаблон:PDB.[15]

The M protein in MERS-CoV, SARS-CoV, and SARS-CoV-2 has been described as an antagonist of interferon response.[3][16]

The M protein is immunogenic and has been reported to be a determinant of humoral immunity.[3] Cytotoxic T cell responses to M have been described.[15] Antibodies to epitopes found in the M protein have been identified in patients recovered from severe acute respiratory syndrome (SARS).[17]

Host cell entry

It has been reported that human coronavirus NL63 relies on the M protein as well as the S protein to mediate host cell interactions preceding viral entry. M is thought to bind heparan sulfate proteoglycans exposed on the cell surface.[18]

Evolution and conservation

A study of SARS-CoV-2 sequences collected during the COVID-19 pandemic found that missense mutations in the M gene were relatively uncommon and suggested it was under purifying selection.[19] Similar results have been described for broader population genetics analyses over a wider range of related viruses, finding that the sequences of M and several non-structural proteins in the coronavirus genome are most subject to evolutionary constraints.[20]

References

Шаблон:Reflist

Шаблон:Coronavirus genomes Шаблон:Viral proteins