The RNA Ties That Bind: 3 Takeaways From The OPT Congress

Here, I unpack three takeaways I had from the OPT Congress, each of which I’d argue are indicative of the interconnectedness across the genetic medicines field.

Rethinking ATMP Assurance When Sterility Timelines, Reality Misalign

The compendial 14-day sterility testing window exposes product and patient to numerous risks, but settling on a rapid alternative also presents its own set of challenges.

MicroRNA Therapeutics In Metabolic Liver Disease: Context-Driven Drug Discovery

Realizing the therapeutic potential of miRNAs in liver disease requires confronting a problem the field has not fully reckoned with.

Inside Alnylam's Playbook For High Volume siRNA Production

As one of the first companies to establish a chemoenzymatic ligation platform, Alnylam's Maines and Nechev are in the perfect position to espouse wisdom on the practical aspects and remaining challenges of implementing enzymatic ligation at a large scale. Here in this installment, Maines and Nechev outline what they’ve learned thus far about the science of enzymatic ligation, while also paying credence to the unknowns and existing barriers that, as a frontrunner, Alnylam will inevitably (but willingly) be tasked with facing in the future.

Proteomics Tools: A Resurrection

For decades, the evolution of proteomics has lagged. Now, a resurrection is underway. New tools are dismantling limitations, signifying a maturation of systems biology.

The "Middle Ground" Advantage: Why Alnylam Is Betting Big On Chemoenzymatic Ligation

Though conversations are picking up around this hybrid approach, we aren’t exactly known as an industry that embraces risk no-holds barred. While there are a handful of manufacturers and CDMOs who are embracing the hybrid model today, there are many more that are likely to hold out for the next-next gen approach: Fully enzymatic oligo production. However, as Alynlam’s CTO and Chief Quality Officer Tim Maines argued, embarking into the “middle ground” of enzymatic ligation is essential for garnering the step-by-step learnings needed to help us unlock even bigger manufacturing wins in the future. 

Novel Plasmid DNA-Encoded Poly(A) Tails For mRNA Synthesis

Here, we evaluate the stability of these variant poly(A) regions and the biological activity of the mRNA containing the variant poly(A) tails made from these templates.

Expression Analysis Of CTLA-4, PD-1, And PD-L1

Advance personalized immunotherapy in NSCLC by leveraging qPCR-based analysis of CTLA-4, PD-1, and PD-L1 expression to identify predictive biomarkers and guide more effective treatment strategies.

Exploring The Spatial Distribution Of mRNA-Lipid Nanoparticles Using MALDI MSI

Learn how leveraging high-resolution MALDI-MSI can advance the development of lipid nanoparticle-based therapies, uncovering spatial biodistribution, pharmacokinetics, and organ-specific variability.

Stick With Me: The Cool Chemistry Of HILIC Oligonucleotide Analysis

Discover a powerful alternative for analyzing polar sequences without ion-pairing reagents. By leveraging hydrophilic partitioning, you can achieve sharper separation and improved mass spectrometry compatibility.

Best Practices For Analysis Of IVT mRNA

Discover how an automated capillary electrophoresis system provides robust and precise integrity, concentration, and size analysis for IVT mRNA.

Extending The Lower Limits Of Quantification Of A Therapeutic Oligonucleotide Through Microflow LC-MS/MS

Here a solution is presented to widely recognized challenges with ionpairing reversed phase liquid chromatography (IP-RP LC) through a novel microflow LC-MS strategy.

Detection Of Adapter Dimers In NGS Libraries

Accurately identifying low‑level adapter dimers is key. Compare electrophoresis methods to show how different kits detect and resolve small fragments, helping researchers choose the best QC approach.