University Of Nottingham: Scientists Pioneer Ultra-High Definition Technique for RNA Structure Analysis
Scientists at the University of Nottingham have developed a ground-breaking technique to analyse the atomic-level structure of RNA molecules with exceptional precision and speed, and are the first in the world to use the method to examine structural changes in RNA when a cell gets infected with HIV.
The findings, which are published in Nature Communications, could have far-reaching implications for the treatment of various diseases where RNA plays a critical role and for development of therapeutics such as mRNA vaccines.
RNA, a close cousin of DNA, plays a critical role in various biological processes, from protein synthesis to gene regulation. However, unlike the DNA’s well-known double-helix structure, RNA folds into complex shapes that are incredibly difficult to analyse using traditional techniques.
This is where the Nottingham team, led by Dr Aditi Borkar, Assistant Professor in Molecular Biochemistry & Biophysics in the School of Veterinary Medicine and Science, has achieved a transformative feat.
Dr Borkar developed a powerful method that combines a cutting-edge mass spectrometry technology called cryogenic OrbiSIMS – a unique imaging capability of the University, with advanced computational modelling and automation. This combination enabled the team to analyse attomole quantities of RNAs and determine their 3D structures at par with industry standards, in a matter of days.
This innovative approach promises significant advancements in the scope, accuracy, and speed of RNA structural biology and will accelerate the development of RNA-based therapeutics.
RNAs are one of the most difficult molecules to study via structural biology. OrbiSIMS is at least 1000 times more sensitive for studying RNAs compared to other structural techniques typically used in our field. With our OrbiSIMS guided pipeline, we can now determine RNA structures in a matter of days, instead of months. This incredible sensitivity and speed will now help us to study previously intractable targets within narrow drug development timeframes.”
Dr Aditi Borkar, Assistant Professor in Molecular Biochemistry & Biophysics in the School of Veterinary Medicine and Science
The OrbiSIMS instrument was developed at the National Physical Laboratory, UK in consultation with GSK. Nottingham was the first University in the world to own and operate the OrbiSIMS instrument.