RNA interference--2001.

In the few years since the discovery of RNA interference (RNAi; Fire et al. 1998), it has become clear that this process is ancient. RNAi, the oldest and most ubiquitous antiviral system, appeared before the divergence of plants and animals. Because aspects of RNAi, known as cosuppression, also control the expression of transposable elements and repetitive sequences (Ketting et al. 1999; Tabara et al. 1999), the interplay of RNAi and transposon activities have almost certainly shaped the structure of the genome of most organisms. Surprisingly, we are only now beginning to explore the molecular processes responsible for RNAi and to appreciate the breadth of its function in biology. Practical applications of this knowledge have allowed rapid surveys of gene functions (see Fraser et al. 2000 and Gönczey et al. 2000 for RNAi analysis of genes on chromosome I and III of Caenorhabditis elegans) and will possibly result in new therapeutic interventions. Genetic studies have expanded the biology of RNAi to cosuppression, transposon silencing, and the first hints of relationships to regulation of translation and development. The possible roles of RNA-dependent RNA polymerase (RdRp) in RNAi have been expanded. Many experiments indicate that dsRNA directs gene-specific methylation of DNA and, thus, regulation at the stage of transcription in plants. Cosuppression may involve regulation by polycomb complexes at the level of transcription in C. elegans and Drosophila. This article will review these topics and primarily summarize advances in the study of RNAi over the past year.