Mechanisms and enzymes involved in SARS coronavirus genome expression

Publication

Mechanisms and enzymes involved in SARS coronavirus genome expression

Journal Paper/Review - Sep 1, 2003

Thiel Volker, Gorbalenya Alexander E, Doerr Hans Wilhelm, Rabenau Holger, Snijder Eric J, Weissbrich Benedikt, Bayer Sonja, Schelle Barbara, Hertzig Tobias, Putics Akos, Ivanov Konstantin A, Ziebuhr John

Units

Institute of Immunobiology

PubMed

12917450

Citation

Thiel V, Gorbalenya A, Doerr H, Rabenau H, Snijder E, Weissbrich B, Bayer S, Schelle B, Hertzig T, Putics A, Ivanov K, Ziebuhr J. Mechanisms and enzymes involved in SARS coronavirus genome expression. The Journal of general virology 2003; 84:2305-15.

Type

Journal Paper/Review (English)

Journal

The Journal of general virology 2003; 84

Publication Date

Sep 1, 2003

Issn Print

0022-1317

Pages

2305-15

Brief description/objective

A novel coronavirus is the causative agent of the current epidemic of severe acute respiratory syndrome (SARS). Coronaviruses are exceptionally large RNA viruses and employ complex regulatory mechanisms to express their genomes. Here, we determined the sequence of SARS coronavirus (SARS-CoV), isolate Frankfurt 1, and characterized key RNA elements and protein functions involved in viral genome expression. Important regulatory mechanisms, such as the (discontinuous) synthesis of eight subgenomic mRNAs, ribosomal frameshifting and post-translational proteolytic processing, were addressed. Activities of three SARS coronavirus enzymes, the helicase and two cysteine proteinases, which are known to be critically involved in replication, transcription and/or post-translational polyprotein processing, were characterized. The availability of recombinant forms of key replicative enzymes of SARS coronavirus should pave the way for high-throughput screening approaches to identify candidate inhibitors in compound libraries.