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Three-Dimensional Chromatin Structure of the EBV Genome: A Crucial Factor in Viral Infection

Lisa Beatrice Caruso, Davide Maestri, Italo Tempera

2023Viruses24 citationsDOIOpen Access PDF

Abstract

Epstein-Barr Virus (EBV) is a human gamma-herpesvirus that is widespread worldwide. To this day, about 200,000 cancer cases per year are attributed to EBV infection. EBV is capable of infecting both B cells and epithelial cells. Upon entry, viral DNA reaches the nucleus and undergoes a process of circularization and chromatinization and establishes a latent lifelong infection in host cells. There are different types of latency all characterized by different expressions of latent viral genes correlated with a different three-dimensional architecture of the viral genome. There are multiple factors involved in the regulation and maintenance of this three-dimensional organization, such as CTCF, PARP1, MYC and Nuclear Lamina, emphasizing its central role in latency maintenance.

Topics & Concepts

CTCFBiologyChromatinGenomeVirologyViral entryVirusEpstein–Barr virusVirus latencyLytic cycleGeneDNA virusGeneticsTranscription factorViral replicationEnhancerViral-associated cancers and disordersHistiocytic Disorders and TreatmentsParvovirus B19 Infection Studies