It is well established that the RNA-binding protein La has RNA chaperone activity. Recent work suggests that the La protein has two distinct RNA chaperone domains (RCD-A and RCD-B) assisting structural changes in diverse groups of RNA molecules such as RNA polymerase III transcripts (e.g., pre-tRNA, U6 snRNA), cellular messenger, and viral RNAs. In this protocol we focus on the RNA chaperone domain RCD-B, which is located in the carboxy-terminal domain of La. It has been shown that this RNA chaperone domain assists structural changes in predicted RNA hairpins folded in the 5'-untranslated regions of cyclin D1 and Bcl2 mRNAs. Besides RNA helicases, which are implicated in melting RNA hairpin structures in an ATP-dependent manner, RNA chaperones fulfil a similar function in an ATP-independent manner. Aiming to study the RNA chaperon activity of La, we established a La-dependent molecular beacon-based RNA chaperone assay and systematically tested the various salt conditions. Herein we describe the assay format and design to study the salt dependency of RNA chaperones. This protocol can be easily adapted to test the RNA chaperone activity of other RNA-binding proteins and to optimize assay conditions.
Keywords: Intrinsic disordered region; RNA binding; RNA chaperone; RNA structure; SSB.