Xavier Subirats scite author profile

Upon infection, many RNA viruses reorganize their capsid for release of the genome into the host cell cytosol for replication. Often, this process is triggered by receptor binding and/or by the acidic environment in endosomes. In the genus Enterovirus, which includes more than 150 human rhinovirus (HRV) serotypes causing the common cold, there is persuasive evidence that the viral RNA exits single-stranded through channels formed in the protein shell. We have determined the time-dependent emergence of the RNA ends from HRV2 on incubation of virions at 56°C using hybridization with specific oligonucleotides and detection by fluorescence correlation spectroscopy. We report that psoralen UV crosslinking prevents complete RNA release, allowing for identification of the sequences remaining inside the capsid. We also present the structure of uncoating intermediates in which parts of the RNA are condensed and take the form of a rod that is directed roughly towards a two-fold icosahedral axis, the presumed RNA exit point. Taken together, in contrast to schemes frequently depicted in textbooks and reviews, our findings demonstrate that exit of the RNA starts from the 3′-end. This suggests that packaging also occurs in an ordered manner resulting in the 3′-poly-(A) tail becoming located close to a position of pore formation during conversion of the virion into a subviral particle. This directional genome release may be common to many icosahedral non-enveloped single-stranded RNA viruses.

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On the Effect of Organic Solvent Composition on the pH of Buffered HPLC Mobile Phases and the pK_aof Analytes—A Review

Subirats

Rosés

Bosch

2007

Separation & Purification Reviews

111

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Octanol-Water Partition Constant

Amézqueta

Subirats

Fuguet

et al. 2020

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Characterization of rhinovirus subviral A particles via capillary electrophoresis, electron microscopy and gas‐phase electrophoretic mobility molecular analysis: Part I

et al. 2012

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During infection, enteroviruses, such as human rhinoviruses (HRVs), convert from the native, infective form with a sedimentation coefficient of 150S to empty subviral particles sedimenting at 80S (B particles). B particles lack viral capsid protein 4 (VP4) and the single‐stranded RNA genome. On the way to this end stage, a metastable intermediate particle is observed in the cell early after infection. This subviral A particle still contains the RNA but lacks VP4 and sediments at 135S. Native (150S) HRV serotype 2 (HRV2) as well as its empty (80S) capsid have been well characterized by capillary electrophoresis. In the present paper, we demonstrate separation of at least two forms of subviral A particles on the midway between native virions and empty 80S capsids by CE. For one of these intermediates, we established a reproducible way for its preparation and characterized this particle in terms of its electrophoretic mobility and its appearance in transmission electron microscopy (TEM). Furthermore, the conversion of this intermediate to 80S particles was investigated. Gas‐phase electrophoretic mobility molecular analysis (GEMMA) yielded additional insights into sample composition. More data on particle characterization including its protein composition and RNA content (for unambiguous identification of the detected intermediate as subviral A particle) will be presented in the second part of the publication.

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Xavier Subirats

Viral Uncoating Is Directional: Exit of the Genomic RNA in a Common Cold Virus Starts with the Poly-(A) Tail at the 3′-End

On the Effect of Organic Solvent Composition on the pH of Buffered HPLC Mobile Phases and the pK_aof Analytes—A Review

Octanol-Water Partition Constant

Characterization of rhinovirus subviral A particles via capillary electrophoresis, electron microscopy and gas‐phase electrophoretic mobility molecular analysis: Part I

Contact Info

Product

Resources

About

Xavier Subirats

Viral Uncoating Is Directional: Exit of the Genomic RNA in a Common Cold Virus Starts with the Poly-(A) Tail at the 3′-End

On the Effect of Organic Solvent Composition on the pH of Buffered HPLC Mobile Phases and the pKaof Analytes—A Review

Octanol-Water Partition Constant

Characterization of rhinovirus subviral A particles via capillary electrophoresis, electron microscopy and gas‐phase electrophoretic mobility molecular analysis: Part I

Contact Info

Product

Resources

About

On the Effect of Organic Solvent Composition on the pH of Buffered HPLC Mobile Phases and the pK_aof Analytes—A Review