Ramil R. Mintaev scite author profile

Ramil R. Mintaev

3Publications

49Citation Statements Received

78Citation Statements Given

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Affiliations

Federal Medical-Biological Agency, Research Institute of Vaccines and Sera. Mechnikov of the Russian Academy of Medical Sciences, Center for Strategic Research

Publications

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Site-specific S-Acylation of Influenza Virus Hemagglutinin

Brett

Kordyukova

Serebryakova

et al. 2014

Journal of Biological Chemistry

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Background: S-Acylation of hemagglutinin with stearate and palmitate is essential for influenza virus replication. Results: Mass spectrometry showed that shifting a cysteine from the transmembrane region to a cytoplasmic position eliminates attachment of stearate. Conclusion:The location of the acylation site is the decisive factor for site-specific acylation. Significance: Similar differential acylation might occur in cellular transmembrane proteins.

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Two Cytoplasmic Acylation Sites and an Adjacent Hydrophobic Residue, but No Other Conserved Amino Acids in the Cytoplasmic Tail of HA from Influenza A Virus Are Crucial for Virus Replication

Siche

Brett

Møller

et al. 2015

Viruses

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Recruitment of the matrix protein M1 to the assembly site of the influenza virus is thought to be mediated by interactions with the cytoplasmic tail of hemagglutinin (HA). Based on a comprehensive sequence comparison of all sequences present in the database, we analyzed the effect of mutating conserved residues in the cytosol-facing part of the transmembrane region and cytoplasmic tail of HA (A/WSN/33 (H1N1) strain) on virus replication and morphology of virions. Removal of the two cytoplasmic acylation sites and substitution of a neighboring isoleucine by glutamine prevented rescue of infectious virions. In contrast, a conservative exchange of the same isoleucine, non-conservative exchanges of glycine and glutamine, deletion of the acylation site at the end of the transmembrane region and shifting it into the tail did not affect virus morphology and had only subtle effects on virus growth and on the incorporation of M1 and Ribo-Nucleoprotein Particles (RNPs). Thus, assuming that essential amino acids are conserved between HA subtypes we suggest that, besides the two cytoplasmic acylation sites (including adjacent hydrophobic residues), no other amino acids in the cytoplasmic tail of HA are indispensable for virus assembly and budding.

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Co-evolution analysis to predict protein–protein interactions within influenza virus envelope

Mintaev

Alexeevski

Kordyukova

2014

J. Bioinform. Comput. Biol.

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Interactions between integral membrane proteins hemagglutinin (HA), neuraminidase (NA), M2 and membrane-associated matrix protein M1 of influenza A virus are thought to be crucial for assembly of functionally competent virions. We hypothesized that the amino acid residues located at the interface of two different proteins are under physical constraints and thus probably co-evolve. To predict co-evolving residue pairs, the EvFold ( http://evfold.org ) program searching the (nontransitive) Direct Information scores was applied for large samplings of amino acid sequences from Influenza Research Database ( http://www.fludb.org/ ). Having focused on the HA, NA, and M2 cytoplasmic tails as well as C-terminal domain of M1 (being the less conserved among the protein domains) we captured six pairs of correlated positions. Among them, there were one, two, and three position pairs for HA-M2, HA-M1, and M2-M1 protein pairs, respectively. As expected, no co-varying positions were found for NA-HA, NA-M1, and NA-M2 pairs obviously due to high conservation of the NA cytoplasmic tail. The sum of frequencies calculated for two major amino acid patterns observed in pairs of correlated positions was up to 0.99 meaning their high to extreme evolutionary sustainability. Based on the predictions a hypothetical model of pair-wise protein interactions within the viral envelope was proposed.

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Ramil R. Mintaev

Site-specific S-Acylation of Influenza Virus Hemagglutinin

Two Cytoplasmic Acylation Sites and an Adjacent Hydrophobic Residue, but No Other Conserved Amino Acids in the Cytoplasmic Tail of HA from Influenza A Virus Are Crucial for Virus Replication

Co-evolution analysis to predict protein–protein interactions within influenza virus envelope

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