Morphogenesis and functional organization of viral inclusion bodies
Cell Insight, 2023 Eukaryotic viruses are obligate intracellular parasites that rely on the host cell machinery to carry out their replication cycle. This complex process involves a series of steps, starting with virus entry, followed by genome replication, and ending with
Zhifei Li +4 more
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Cytomegalovirus-associated esophageal ulcer in an immunocompetent infant: When should ganciclovir be administered? [PDF]
Korean Journal of Pediatrics, 2012 Cytomegalovirus (CMV)-associated esophageal ulcer is rare in immunocompetent infants. The presence of inclusion bodies and immunohistochemical staining for CMV in biopsy specimens obtained during esophagogastroduodenoscopy (EGD) indicate that such ulcers
Hyo-Jeong Jang +2 more
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New Perspectives on the Biogenesis of Viral Inclusion Bodies in Negative-Sense RNA Virus Infections [PDF]
Cells, 2021 Infections by negative strand RNA viruses (NSVs) induce the formation of viral inclusion bodies (IBs) in the host cell that segregate viral as well as cellular proteins to enable efficient viral replication.
Olga Dolnik +2 more
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Aquareovirus NS80 Initiates Efficient Viral Replication by Retaining Core Proteins within Replication-Associated Viral Inclusion Bodies. [PDF]
PLoS ONE, 2015 Viral inclusion bodies (VIBs) are specific intracellular compartments for reoviruses replication and assembly. Aquareovirus nonstructural protein NS80 has been identified to be the major constituent for forming globular VIBs in our previous study.
Liming Yan +6 more
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Ebola virus sequesters IRF3 in viral inclusion bodies to evade host antiviral immunity
eLife, 2023 Viral inclusion bodies (IBs) commonly form during the replication of Ebola virus (EBOV) in infected cells, but their role in viral immune evasion has rarely been explored.
Lin Zhu +12 more
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Involvement of L polymerase and heat shock proteins in the biogenesis of viral circular RNAs derived from respiratory syncytial virus [PDF]
mBioCircular RNAs (circRNAs) are new members of noncoding RNAs that have gained increased attention, and reports on viral circRNAs and their functions continue to emerge in recent years.
Mingzhen Lin +11 more
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Grass carp reovirus VP35 hijacks DHX15 into phase-separated inclusion bodies to evade host antiviral immunity [PDF]
Cell Communication and SignalingMany viral proteins undergo liquid-liquid phase separation (LLPS) to form biomolecular condensates known as viral inclusion bodies (VIBs), which are utilized for genome replication and virion assembly, thus serving as potential targets for antiviral ...
Chu Zhang +4 more
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Grass carp reovirus VP56 and VP35 induce formation of viral inclusion bodies for replication
iScienceSummary: Viral inclusion bodies (VIBs) are subcellular structures required for efficient viral replication. How type II grass carp reovirus (GCRV-II), the mainly prevalent strain, forms VIBs is unknown.
Chu Zhang +4 more
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Participation of host cell proteins in inclusion bodies of non-segmented RNA virus infected cells: a molecular insight [PDF]
Virology JournalNegative-sense RNA viruses (NSVs) carrying a non-segmented genome encompass a broad group of viruses responsible for numerous human diseases such as rabies, mumps, measles, respiratory illness and encephalitis.
Sharmistha Sarkar +8 more
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N6 -Methyladenosine Negatively Regulates Human Respiratory Syncytial Virus Replication
Frontiers in Cell and Developmental Biology, 2021 N6-methyladenosine (m6A) is the most abundant internal modification described in eukaryotic mRNA and several viral RNA including human respiratory syncytial virus (HRSV).
Fabian Figueroa +15 more
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