Structured RNAs play an essential role in chromosome maintenance, RNA processing, protein biosynthesis, and protein transport. To understand RNA function in these diverse biological systems, the rules for RNA folding and recognition must be learned. Recent crystal structures of hammerhead ribozymes, a group I intron domain, and RNA duplexes provide new insights into the principles of RNA foldin...

Ribonucleoproteins (RNPs) consisting of derivatives of a ribozyme and an RNA-binding protein were designed and constructed based upon high-resolution structures of the corresponding prototype molecules, the Tetrahymena group I self-splicing intron RNA and two proteins (bacteriophage lambdaN and HIV Rev proteins) containing RNA-binding motifs. The splicing reaction proceeds efficiently only when...

Group II intron RNAs self-splice in vitro but only at high salt and/or Mg2+ concentrations and have been thought to require proteins to stabilize their active structure for efficient splicing in vivo. Here, we show that a DEAD-box protein, CYT-19, can by itself promote the splicing and reverse splicing of the yeast aI5gamma and bI1 group II introns under near-physiological conditions by acting ...

Background: Group I introns are valuable for studying RNA folding and chaperone proteins. Results: A catalytic activity assay was developed and used to demonstrate two prominent phases for Azoarcus ribozyme folding. The slow phase displays hallmarks of a misfolded intermediate. Conclusion: This RNA accumulates a misfolded intermediate and interacts productively with RNA chaperones. Significance...

We discuss the physics of RNA as described by its secondary structure. We examine the static properties of a homogeneous RNA model that includes pairing and base stacking energies as well as entropic costs for internal loops. For large enough loop costs the model exhibits a thermal denaturation transition which we analyze in terms of the radius of gyration. We point out an inconsistency in the ...

Helices are an essential element in defining the three-dimensional architecture of structured RNAs. While internal basepairs in a canonical helix stack on both sides, the ends of the helix stack on only one side and are exposed to the loop side, thus susceptible to fraying unless they are protected. While coaxial stacking has long been known to stabilize helix ends by directly stacking two cano...

Loops are abundant in native RNA structures and proliferate close to the unfolding transition. By including a statistical weight approximately l(-c) for loops of length l in the recursion relation for the partition function, we show that the heat capacity depends sensitively on the presence and value of the exponent c, even for a short explicit tRNA sequence. For long homo-RNA, we analytically ...

Group I introns constitute excellent systems for analyzing the relationship between RNA tertiary folding and catalysis. Within a hierarchical framework interpretation of RNA folding, secondary structure motifs subtend RNA three-dimensional (3D) architecture. Thus, mutations in two-dimensional motifs are expected to have effects different from those disrupting 3D contacts. Using UV spectroscopy,...