Full-length three-dimensional structure of the influenza A virus M1 protein and its organization into a matrix layer

Matrix proteins are encoded by many enveloped viruses, including influenza viruses, herpes viruses, and coronaviruses. Underneath the viral envelope of influenza virus, matrix protein 1 (M1) forms an oligomeric layer critical for particle stability and pH-dependent RNA genome release. However, high-...

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Veröffentlicht in:	PLoS biology 2020-09, Vol.18 (9), p.e3000827
Hauptverfasser:	Selzer, Lisa, Su, Zhaoming, Pintilie, Grigore D, Chiu, Wah, Kirkegaard, Karla
Format:	Artikel
Sprache:	eng
Schlagworte:	Amino Acid Sequence Amino acids Assembly Bioengineering Biology and Life Sciences Coronaviruses Cross-Linking Reagents - chemistry Drug resistance Electron microscopy Funding Genomes Hydrogen-Ion Concentration Imaging, Three-Dimensional Immunology Influenza Influenza A Influenza viruses Interfaces Matrix protein Medicine Medicine and health sciences Microscopy Models, Molecular Molecular structure Mutagenesis Mutation Mutation - genetics Oligomers Orthomyxoviridae pH effects Physical Sciences Physiological aspects Protein Multimerization Protein purification Protein Structure, Secondary Protein Subunits - chemistry Proteins Recombination, Genetic - genetics Research and Analysis Methods Ribonucleic acid RNA Structural analysis Structure Viral Matrix Proteins - chemistry Viral Matrix Proteins - genetics Viral proteins Virion - ultrastructure Virions Viruses
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description	Matrix proteins are encoded by many enveloped viruses, including influenza viruses, herpes viruses, and coronaviruses. Underneath the viral envelope of influenza virus, matrix protein 1 (M1) forms an oligomeric layer critical for particle stability and pH-dependent RNA genome release. However, high-resolution structures of full-length monomeric M1 and the matrix layer have not been available, impeding antiviral targeting and understanding of the pH-dependent transitions involved in cell entry. Here, purification and extensive mutagenesis revealed protein-protein interfaces required for the formation of multilayered helical M1 oligomers similar to those observed in virions exposed to the low pH of cell entry. However, single-layered helical oligomers with biochemical and ultrastructural similarity to those found in infectious virions before cell entry were observed upon mutation of a single amino acid. The highly ordered structure of the single-layered oligomers and their likeness to the matrix layer of intact virions prompted structural analysis by cryo-electron microscopy (cryo-EM). The resulting 3.4-Å-resolution structure revealed the molecular details of M1 folding and its organization within the single-shelled matrix. The solution of the full-length M1 structure, the identification of critical assembly interfaces, and the development of M1 assembly assays with purified proteins are crucial advances for antiviral targeting of influenza viruses.
doi_str_mv	10.1371/journal.pbio.3000827
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The resulting 3.4-Å-resolution structure revealed the molecular details of M1 folding and its organization within the single-shelled matrix. 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subjects	Amino Acid Sequence Amino acids Assembly Bioengineering Biology and Life Sciences Coronaviruses Cross-Linking Reagents - chemistry Drug resistance Electron microscopy Funding Genomes Hydrogen-Ion Concentration Imaging, Three-Dimensional Immunology Influenza Influenza A Influenza viruses Interfaces Matrix protein Medicine Medicine and health sciences Microscopy Models, Molecular Molecular structure Mutagenesis Mutation Mutation - genetics Oligomers Orthomyxoviridae pH effects Physical Sciences Physiological aspects Protein Multimerization Protein purification Protein Structure, Secondary Protein Subunits - chemistry Proteins Recombination, Genetic - genetics Research and Analysis Methods Ribonucleic acid RNA Structural analysis Structure Viral Matrix Proteins - chemistry Viral Matrix Proteins - genetics Viral proteins Virion - ultrastructure Virions Viruses
title	Full-length three-dimensional structure of the influenza A virus M1 protein and its organization into a matrix layer
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