Melissa Pryce scite author profile

To facilitate investigations of replication and host cell interactions in the hepadnavirus system, we have developed cell lines permitting the conditional replication of duck hepatitis B virus (DHBV). With the help of this system, we devised conditions for core particle isolation that preserve replicase activity, which was not found in previous preparations. Investigations of the stability of viral DNA intermediates indicated that both encapsidated DNA and covalently closed circular DNA (cccDNA) were turned over independently of cell division. Moreover, we showed that alpha interferon reduced the accumulation of RNA-containing viral particles. The availability of a synchronized replication system will permit the biochemical analysis of individual steps of the viral replication cycle, including the mechanism and regulation of cccDNA formation.Hepadnaviruses are small DNA viruses that contain a relaxed circular DNA (rcDNA) genome with modified 5Ј ends. The 5Ј end of minus strand DNA is covalently attached to the viral reverse transcriptase (RT), whereas the 5Ј end of the plus strand is linked to an 18-nucleotide-long capped RNA oligomer. After infection, the rcDNA is converted into covalently closed circular DNA (cccDNA), which is the template for the transcription of at least three viral RNA species. The longest transcript, termed pregenomic RNA (pgRNA

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Transcription affects formation and processing of intermediates in oligonucleotide-mediated gene alteration

Igoucheva

Alexeev

Pryce

et al. 2003

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The role of transcription in oligonucleotide (ODN)-directed gene modification has been investigated in mammalian cells. The importance of transcription is demonstrated using mammalian cell lines with varying degrees of transcription of the mutant LacZ reporter gene, residing in both episome and chromosome. Gene correction occurs more efficiently when the target gene is actively transcribed and antisense ODN is more active than sense ODN. Using an approach that combines biochemical studies with a cell-based assay to measure the functional activity of intermediates it is shown that a joint molecule, consisting of supercoiled DNA and homologous ODN targeted to correct the mutated base, is a functional intermediate in the gene repair process. Furthermore, this approach showed that a resected joint molecule is a downstream intermediate of the D-loop. These results indicate that the primary reason for efficient gene repair exhibited by the antisense ODN is its increased accessibility to the non-transcribed strand, and as a consequence an increased formation of intermediate during active transcription. Moreover, the processing of intermediates was also affected by transcription, suggesting that ODN-directed gene repair may be linked to transcription-coupled repair. Thus, transcription plays an important role in ODN-directed gene repair by affecting the formation and processing of key intermediates.

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Melissa Pryce

Conditional Replication of Duck Hepatitis B Virus in Hepatoma Cells

Transcription affects formation and processing of intermediates in oligonucleotide-mediated gene alteration

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