Crosstalk between Hepatitis B Virus and the 3D Genome Structure.

Viruses that transcribe their DNA within the nucleus have to adapt to the existing cellular mechanisms that govern transcriptional regulation. Recent technological breakthroughs have highlighted the highly hierarchical organization of the cellular genome and its role in the regulation of gene expression. This review provides an updated overview on the current knowledge on how the hepatitis B virus interacts with the cellular 3D genome and its consequences on viral and cellular gene expression.

Early Steps of Hepatitis B Life Cycle: From Capsid Nuclear Import to cccDNA Formation.

Hepatitis B virus (HBV) remains a major public health concern, with more than 250 million chronically infected people who are at high risk of developing liver diseases, including cirrhosis and hepatocellular carcinoma. Although antiviral treatments efficiently control virus replication and improve liver function, they cannot cure HBV infection. Viral persistence is due to the maintenance of the viral circular episomal DNA, called covalently closed circular DNA (cccDNA), in the nuclei of infected cells.

Mobilization of IMEs Integrated in the of ICEs Involves Their Own Relaxase Belonging to the Rep-Trans Family of Proteins.

Integrative mobilizable elements (IMEs) are widespread but very poorly studied integrated elements that can excise and hijack the transfer apparatus of co-resident conjugative elements to promote their own spreading. Sixty-four putative IMEs, harboring closely related mobilization and recombination modules, were found in 14 species and in . Fifty-three are integrated into the origin of transfer () of a host integrative conjugative element (ICE), encoding a MobT relaxase and belonging to three distant families: ICE, Tn, and ICE.