scholarly article | Q13442814 |
P50 | author | Susan C. Baker | Q19865464 |
Benjamin W. Neuman | Q30503948 | ||
Stuart G Siddell | Q56427211 | ||
Volker Thiel | Q56871923 | ||
Surendranath Baliji | Q114448722 | ||
P2093 | author name string | Roland Züst | |
Nicola M Smith | |||
Luke Payne | |||
Hawaa M N Al-Mulla | |||
Lauren Turrell | |||
P2860 | cites work | Functional and genetic analysis of coronavirus replicase-transcriptase proteins | Q24814670 |
SARS-coronavirus replication is supported by a reticulovesicular network of modified endoplasmic reticulum | Q27332392 | ||
Localization of mouse hepatitis virus nonstructural proteins and RNA synthesis indicates a role for late endosomes in viral replication | Q27469368 | ||
Localization and Membrane Topology of Coronavirus Nonstructural Protein 4: Involvement of the Early Secretory Pathway in Replication | Q27485022 | ||
Relative quantitation of virus population size in mixed genotype infections using sequencing chromatograms | Q27485397 | ||
Mouse Hepatitis Coronavirus RNA Replication Depends on GBF1-Mediated ARF1 Activation | Q27486170 | ||
Functional screen reveals SARS coronavirus nonstructural protein nsp14 as a novel cap N7 methyltransferase | Q27487986 | ||
Murine Hepatitis Virus Nonstructural Protein 4 Regulates Virus-Induced Membrane Modifications and Replication Complex Function | Q27490532 | ||
Dynamics of coronavirus replication-transcription complexes. | Q27490851 | ||
Coronavirus main proteinase (3CLpro) structure: basis for design of anti-SARS drugs | Q27641252 | ||
SARS Coronavirus Unique Domain: Three-Domain Molecular Architecture in Solution and RNA Binding | Q27661782 | ||
Crystal Structure and Functional Analysis of the SARS-Coronavirus RNA Cap 2′-O-Methyltransferase nsp10/nsp16 Complex | Q27668161 | ||
EMAN: semiautomated software for high-resolution single-particle reconstructions | Q27860772 | ||
In vitro reconstitution of SARS-coronavirus mRNA cap methylation | Q28473757 | ||
The putative helicase of the coronavirus mouse hepatitis virus is processed from the replicase gene polyprotein and localizes in complexes that are active in viral RNA synthesis. | Q33178648 | ||
Analysis of murine hepatitis virus strain A59 temperature-sensitive mutant TS-LA6 suggests that nsp10 plays a critical role in polyprotein processing | Q33281855 | ||
SARS-coronavirus replication/transcription complexes are membrane-protected and need a host factor for activity in vitro | Q33331393 | ||
Coronavirus transcription early in infection | Q33785177 | ||
Colocalization and membrane association of murine hepatitis virus gene 1 products and De novo-synthesized viral RNA in infected cells. | Q33815837 | ||
Molecular model of SARS coronavirus polymerase: implications for biochemical functions and drug design | Q34053804 | ||
RNA replication of mouse hepatitis virus takes place at double-membrane vesicles | Q34336367 | ||
MERS-coronavirus replication induces severe in vitro cytopathology and is strongly inhibited by cyclosporin A or interferon-α treatment | Q34650943 | ||
Ultrastructure and origin of membrane vesicles associated with the severe acute respiratory syndrome coronavirus replication complex | Q34651545 | ||
Human coronavirus 229E papain-like proteases have overlapping specificities but distinct functions in viral replication | Q35785423 | ||
Temperature-sensitive mutants and revertants in the coronavirus nonstructural protein 5 protease (3CLpro) define residues involved in long-distance communication and regulation of protease activity | Q35943856 | ||
Proteomics analysis unravels the functional repertoire of coronavirus nonstructural protein 3. | Q36673320 | ||
Coronavirus minus-strand RNA synthesis and effect of cycloheximide on coronavirus RNA synthesis | Q36856530 | ||
Severe acute respiratory syndrome coronavirus nonstructural proteins 3, 4, and 6 induce double-membrane vesicles | Q37105681 | ||
Modification of intracellular membrane structures for virus replication | Q37139313 | ||
Murine hepatitis virus nsp4 N258T mutants are not temperature-sensitive | Q37245164 | ||
Cytoplasmic viral replication complexes | Q37773687 | ||
Visualizing coronavirus RNA synthesis in time by using click chemistry | Q39375644 | ||
Coronavirus nsp6 proteins generate autophagosomes from the endoplasmic reticulum via an omegasome intermediate | Q39498858 | ||
Construction and genetic analysis of murine hepatitis virus strain A59 Nsp16 temperature sensitive mutant and the revertant virus. | Q39589907 | ||
A new cistron in the murine hepatitis virus replicase gene | Q39674266 | ||
Functional and genetic studies of the substrate specificity of coronavirus infectious bronchitis virus 3C-like proteinase | Q39707305 | ||
Qualitative and quantitative ultrastructural analysis of the membrane rearrangements induced by coronavirus | Q39749967 | ||
Coronavirus JHM: nucleotide sequence of the mRNA that encodes nucleocapsid protein | Q40492906 | ||
Mouse hepatitis virus minus-strand templates are unstable and turnover during viral replication. | Q40759442 | ||
Processing of open reading frame 1a replicase proteins nsp7 to nsp10 in murine hepatitis virus strain A59 replication | Q42626461 | ||
Temperature-sensitive mutants of MHV-A59. | Q44013050 | ||
Effective amplification of 20-kb DNA by reverse transcription PCR. | Q44024282 | ||
Coronaviruses Hijack the LC3-I-positive EDEMosomes, ER-derived vesicles exporting short-lived ERAD regulators, for replication | Q44986570 | ||
Genetic analysis of murine hepatitis virus non-structural protein 16. | Q45372416 | ||
The in vitro RNA synthesizing activity of the isolated arterivirus replication/transcription complex is dependent on a host factor | Q45842419 | ||
The intracellular sites of early replication and budding of SARS-coronavirus | Q56877432 | ||
P433 | issue | 2 | |
P304 | page(s) | e01107-13 | |
P577 | publication date | 2014-04-01 | |
P1433 | published in | mBio | Q15817061 |
P1476 | title | Competitive fitness in coronaviruses is not correlated with size or number of double-membrane vesicles under reduced-temperature growth conditions | |
P478 | volume | 5 |