Title page for ETD etd-11082011-165455


Type of Document Dissertation
Author Boyapati, Vamsi Krishna
Author's Email Address vboyap1@tigers.lsu.edu
URN etd-11082011-165455
Title Study of Complex RNA Function Modulated by Small Molecules: The Development of RNA Directed Small Molecule Library and Probing the S-Adenosyl Methionine Discrimination between On and Off Conformational States of the SAM-I Riboswitch.
Degree Doctor of Philosophy (Ph.D.)
Department Biochemistry (Biological Sciences)
Advisory Committee
Advisor Name Title
Aboul-Ela, Fareed Committee Chair
Grove, Anne Committee Member
Newcomer, Marcia Committee Member
Vicente, Graca Committee Member
Benton, Michael Dean's Representative
Keywords
  • RIBOSWITCH
  • SAM
  • AT
  • APTAMER
  • SMALL MOLECULE
Date of Defense 2011-10-28
Availability restricted
Abstract
RNA recently remained unexploited and is now drawing interest as a potential drug target. The methodology and available drug libraries for RNA targeting/screening are in rudimentary stages. The interactions made by ligands with RNA can be explored for RNA based drug development. The dissertation is composed of 4 chapters. The first chapter focuses on the structural features of RNA and the attempts made to target RNA previously. The second chapter focuses on the development of a small molecule library enriched with substructures derived from RNA binding ligands. For this study a fragment-based approach (fragment based approach is detailed in chapter 2) is used in order to accommodate the conformational flexibility of RNA. The library molecules are used for screening against suitable RNA targets using NMR. We identified at least 5 ligands out of which 2 are novel ligands binding to the ribosomal 16s rRNA.

The third chapter is focused on the role of small molecules in inducing conformational changes in an RNA genetic regulatory element called the S-Adenosyl methionine (SAM) SAM-I riboswitch. The mechanistic features of the SAM-I riboswitch to understand the basis for specificity and discrimination and its gene regulation mechanism are reported. To address the conformational dynamics Bacillus subtilis and Thermoanearobacter tencongenesis SAM-I riboswitches in response to SAM binding several conformer mimics are designed, synthesized and characterized using NMR, equilibrium dialysis, and inline probing. The study shows that apart from the conserved residues of the binding pocket, residues downstream of the binding pocket are involved in detecting SAM and assist the binding of SAM to the riboswitch with weak affinity.

Our data highlights the capacity of a so-called antiterminator helix from the expression platform to assist the formation of a partial P1 helix of the aptamer domain. A stable P1 is involved in recognition and tight binding of SAM. Our in vitro experiments suggest that the riboswitch could switch from an unbound conformation to tightly SAM bound structure through weakly binding intermediate structures in the presence of the small molecule SAM. The future directions are included in the fourth chapter along with the conclusions.

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