Biochemistry Commons^™

Termination-Independent Role Of Rat1 In Cotranscriptional Splicing In Budding Yeast, Zuzer Hakimuddin Dhoondia

Wayne State University Dissertations

Rat1 is a 5′→3′ exoribonuclease in budding yeast belonging to the XRN-family of nucleases. It is a highly conserved protein with homologs being present in fission yeast, flies, worms, mice and humans. Rat1 and its homolog in metazoan have been shown to function in multiple facets of RNA metabolism. In this study, we report a novel role of Rat1 in splicing of pre-mRNA in budding yeast. In the absence of the functional Rat1 in the nucleus, an increase in the level of unspliced transcripts was observed in yeast cells. Strand-specific TRO analysis revealed that the accumulation of unspliced transcripts upon …

Spliceosomal Prp24 Unwinds A Minimal U2/U6 Complex From Yeast, Chandani Manoja Warnasooriya

Wayne State University Theses

Splicing plays a major role in eukaryotic gene expression by processing pre-mRNA to form mature mRNA. Pre-mRNAs undergo splicing to remove introns, non–protein coding regions, and religate exons, protein coding regions. This process is catalyzed by the spliceosome, which consists of five small nuclear ribonucleoprotein particles (snRNPs: U1, U2, U4, U5 and U6) and numerous protein factors. Proper assembly of spliceosomal components is critical for function, and thus, defects in assembly can be lethal. Several spliceosomal proteins facilitate structural rearrangements important for spliceosomal assembly and function. Prp24 is an essential factor in U6 snRNP assembly, and it has been proposed …

The Spliceosomal Protein Prp8 Stabilizes A Compact Conformation Of The U2-U6 Complex, Subasinghe Appuhamilage Lemintha Imali Subasinghe

Wayne State University Theses

The spliceosome is a large, RNA-protein complex that catalyzes pre-mRNA splicing during mRNA maturation. The RNA components (small nuclear RNA; snRNAs) of the spliceosome have been well studied and are believed to be involved in the splicing catalysis. Although proteins are essential for splicing, they may not be directly involved in catalysis. Among hundreds of proteins, Prp8 is the only protein that interacts with all of the catalytically important snRNAs. Therefore, it is hypothesized that Prp8 may catalyze splicing either by directly participating in catalysis or by stabilizing the conformation of the catalytically active spliceosome. In order to test whether …

Study Of Protein-Rna Interactions Using Fluorescence Resonance Energy Transfer (Fret) And Single-Molecule Fret, Rajan Lamichhane

Wayne State University Dissertations

In the cell, RNA and protein, interact to form ribonucleoprotein complexes (RNPs) that have vital structural, catalytic and regulatory roles. Despite their functional importance, the mechanistic details and dynamics of RNPs are poorly understood. Single-molecule Fluorescence Resonance Energy Transfer (smFRET) techniques that provide information about heterogeneity and dynamic behaviors of molecules have been developed to investigate inter- and intra-molecular interactions. Here we have used FRET in combination with smFRET to study three very different RNP systems.

Alternative splicing is a highly regulated biological process that plays a crucial role in proteomic diversity in eukaryotes. One splicing regulator, PTB, has been …