Characterization of the structure, function, and mechanism of B2 RNA, an ncRNA repressor of RNA polymerase II transcription

Abstract

We previously found that the SINE-encoded mouse B2 RNA binds RNA polymerase II and represses mRNA transcription during the cellular heat-shock response. In vitro B2 RNA assembles into preinitiation complexes on promoter DNA via its interaction with the polymerase, thus rendering the complexes inactive. With the goal of understanding which regions of B2 RNA are important for high-affinity binding to RNA polymerase II and repression of transcription, we performed a structural and deletion analysis of a 178 nucleotide (nt) B2 RNA. We describe an experimentally derived secondary structure model for B2 RNA, and show that RNA polymerase II protects a specific region from RNase digestion. Deletion studies revealed that a 51-nt region of B2 RNA is sufficient for high-affinity binding to RNA polymerase II, association with preinitiation complexes, and repression of transcription in vitro, the latter of which involves a large predominately single-stranded region within the RNA. In addition, this piece of B2 RNA blocked the polymerase from properly associating with template DNA during the assembly of elongation complexes. Further deletion revealed that a 33-nt piece of B2 RNA binds RNA polymerase II, associates with preinitiation complexes, but cannot repress transcription. These results support a model in which RNA polymerase II contains a high-affinity ncRNA docking site to which a distinct region of B2 RNA binds, thereby allowing another region of the RNA to repress transcription. Moreover, the mechanism of transcriptional repression by B2 RNA likely involves disrupting critical contacts between RNA polymerase II and the promoter DNA.

Keywords

• ncRNA
• short interspersed elements
• RNA polymerase II
• transcription
• repression
• B2 RNA