Development of a Flow Through-Based Limited Digestion Approach for High-Throughput and High-Sequence Coverage Mapping of Therapeutic mRNAs.

Messenger RNAs (mRNAs) have rapidly emerged as a pivotal class of biotherapeutics with great promise in the prevention and treatment of various diseases. As with other biotherapeutics, the sequence accuracy and integrity of mRNAs are critical quality attributes (CQAs), influencing the translation efficiency and protein expression fidelity of mRNAs. Due to the generation of short and repetitive oligonucleotides, traditional sequence mapping methods, which utilize in-solution RNase T1 digestion followed by LC-MS/MS analysis, face challenges in achieving high sequence coverage. In this study, we developed a novel flow through (FT)-based strategy to achieve the limited RNase T1 digestion of therapeutic mRNAs, leading to improved mRNA sequence mapping by LC-MS/MS analysis. Compared with the traditional in-solution digestion methods, the FT-based digestion method could consistently generate an increased number of unique oligonucleotides with miscleavages, which significantly boosted the overall sequence coverage (over 93%) of therapeutic mRNAs of varying sizes. Moreover, the automated digestion workflow using the AssayMAP platform offers significant advantages in method reproducibility and throughput. The high throughput and high sequence coverage features of this method could facilitate its wide application in the development of mRNA-based therapeutics.