Webinar: Structural characterization of RNA and the spectral changes that accompany ligand binding, detected by MMS
Discover ultra-sensitive RNA characterization methods for next-gen RNA therapeutic development
Summary:
Riboswitches are small, well-folded mRNA sequences that control the translation of specific mRNA segments for regulation of protein production. Each riboswitch has a unique small molecule that induces structural changes upon binding and results in activation of the riboswitch. In this study, we used MMS and SPR to characterize the structural change associated with ligand binding and determine the dissociation constant, Kd. The combination of techniques provides a better overall understanding of not only binding affinity, but also structural change associated with binding. This technique can be useful in the development of novel small molecular RNA regulators and can aid therapeutic RNA development.
Learning Objectives:
- Gain a deeper understanding of RNA/small molecule binding affinity
- Explore complementary, novel techniques for characterizing RNA structure change due to ligand binding
- Understand the utility of determining KD in the development of therapeutic RNA
- Overview of the fundamentals of MMS
- Discover the advantages of MMS over traditional spectroscopic techniques for new applications in next-gen biopharma development
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Webinar: Structural characterization of RNA and the spectral changes that accompany ligand binding, detected by MMS
Discover ultra-sensitive RNA characterization methods for next-gen RNA therapeutic development
Discover ultra-sensitive RNA characterization methods for next-gen RNA therapeutic development
Summary:
Riboswitches are small, well-folded mRNA sequences that control the translation of specific mRNA segments for regulation of protein production. Each riboswitch has a unique small molecule that induces structural changes upon binding and results in activation of the riboswitch. In this study, we used MMS and SPR to characterize the structural change associated with ligand binding and determine the dissociation constant, Kd. The combination of techniques provides a better overall understanding of not only binding affinity, but also structural change associated with binding. This technique can be useful in the development of novel small molecular RNA regulators and can aid therapeutic RNA development.
Learning Objectives:
- Gain a deeper understanding of RNA/small molecule binding affinity
- Explore complementary, novel techniques for characterizing RNA structure change due to ligand binding
- Understand the utility of determining KD in the development of therapeutic RNA
- Overview of the fundamentals of MMS
- Discover the advantages of MMS over traditional spectroscopic techniques for new applications in next-gen biopharma development
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