App Note: Structural Characterization of RNA and Detection of RNA-ligand Binding Using Microfluidic Modulation Spectroscopy
Drive innovation in RNA therapeutic development with unparalleled MMS structural insights.
Employing Microfluidic Modulation Spectroscopy (MMS), this study delves into the structural changes of the SAM-I riboswitch upon ligand binding, offering unprecedented insights into the dynamic interplay between RNA and ligand molecules, which traditional techniques alone cannot provide.
Read the full app note to discover the utility of MMS as a powerful tool for studying structural changes in RNA-ligand complexes, and its advantages over traditional techniques for therapeutic development!
Rapid, precise, and fully automated biomolecule structural characterization is within your reach.
App Note: Structural Characterization of RNA and Detection of RNA-ligand Binding Using Microfluidic Modulation Spectroscopy
App Note: Structural Characterization of RNA and Detection of RNA-ligand Binding Using Microfluidic Modulation Spectroscopy
Drive innovation in RNA therapeutic development with unparalleled MMS structural insights.
Employing Microfluidic Modulation Spectroscopy (MMS), this study delves into the structural changes of the SAM-I riboswitch upon ligand binding, offering unprecedented insights into the dynamic interplay between RNA and ligand molecules, which traditional techniques alone cannot provide.
Read the full app note to discover the utility of MMS as a powerful tool for studying structural changes in RNA-ligand complexes, and its advantages over traditional techniques for therapeutic development!
Rapid, precise, and fully automated biomolecule structural characterization is within your reach.