MANUFACTURING ARTICLES
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![Business support, teamwork-GettyImages-2267605245]( "The RNA Ties That Bind: 3 Takeaways From The OPT Congress")
The RNA Ties That Bind: 3 Takeaways From The OPT CongressHere, 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.
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![Test Tubes-GettyImages-139700261]( "Rethinking ATMP Assurance When Sterility Timelines, Reality Misalign")
Rethinking ATMP Assurance When Sterility Timelines, Reality MisalignThe 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.
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![cell biology, biochemistry, cellular signaling, cell integrity-GettyImages-2196575143]( "The Potency Chains Of Events For mRNA/LNP Therapeutics")
The Potency Chains Of Events For mRNA/LNP TherapeuticsPotency in mRNA/LNP therapies depends on two chains: manufacturing/cold chain integrity and complex in vivo delivery. Breakdowns at any step — from stability to translation — can limit efficacy and safety.
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![Global health safety regulation-GettyImages-2245658628]( "How Informal FDA Feedback Is Quietly Driving RNA Capital Allocation")
How Informal FDA Feedback Is Quietly Driving RNA Capital AllocationSubtle FDA signals — especially in pre-IND talks — are quietly shaping RNA investment. Early regulatory feedback on CMC and comparability now drives how investors assess risk and allocate capital.
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![Game Strategy-GettyImages-169983235]( "Inside Alnylam's Playbook For High Volume siRNA Production")
Inside Alnylam's Playbook For High Volume siRNA ProductionAs 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.
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![Businesswoman looks through spyglass-GettyImages-931159668]( "The \"Middle Ground\" Advantage: Why Alnylam Is Betting Big On Chemoenzymatic Ligation")
The "Middle Ground" Advantage: Why Alnylam Is Betting Big On Chemoenzymatic LigationThough 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.
MANUFACTURING VIDEOS
Large scale production of plasmid DNA requires an in-depth understanding and optimization of the entire downstream process. Explore a complete solution, from harvest to bulk filtration.
Hosted by Cell & Gene Collaborative Director Anna Rose Welch, ARW on RNA puts a creative spin on the emerging mRNA + RNA therapeutics industry. Here, in Episode 5, Welch dives into the separate — but strikingly similar — worlds of fly fishing and mRNA R&D. In particular, she explains how a fly fisherman’s strategies to catch a fish relate to the work of mRNA scientists as they strive to identify the most appropriate immunogenicity profiles for their mRNA vaccines or therapeutics.
Three LNP experts from Sanofi, Hopewell Therapeutics, and BioNTech collectively discuss how far we’ve come in understanding the structure of our LNPs while also shedding light on the variables that have the greatest potential of causing shifts in our products’ structure/function.
Cytiva is just about that initial oligo synthesis right? Wrong! Find out all about the synthesis systems friends and family across the full oligo workflow.
ARTICLES, APP NOTES, CASE STUDIES, & WHITE PAPERS
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![GettyImages-1437856375-lnp-lipid-nanoparticle]( "New Hope For Neuronal Diseases With Polymer Nanoparticle-Based Gene Therapy")
A new polymer nanoparticle (PNP) system enables targeted delivery of large genetic payloads to neuronal cells, advancing gene therapies for NF1 and other nervous system disorders.
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![KNAUER - sepapure_oligo]( "A New Specialist For Oligonucleotides With Advantages")
Discover how hybrid silica technologies ensure stability and high resolution in IP-RP chromatography applications while protecting instrumentation from excessive wear and tear.
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![GettyImages-2194013442-laboratory-scientists-computer-evaluating]( "5 Key Considerations For Companies Outsourcing Process Development")
Venture capital in biotech remains strong post-pandemic, especially in cell and gene therapies. Discover five key factors to help companies choose between in-house and outsourced process development strategies.
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![Scientists In Laboratory GettyImages-1140779754]( "Defining A Process For Your Unique mRNA")
Define a process for your unique mRNA with this interactive guide to pDNA, mRNA, and LNP. Overcome challenges with solutions that can help you develop a next-generation production strategy.
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![Nanoparticles GettyImages-622777274]( "Unlocking New Possibilities For Treating Rare Genetic Diseases")
With over 7,000 rare diseases, the potential for nanomedicine to revolutionize treatment is immense. While polymer nanoparticles hold great promise, several challenges remain.
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![171026-101024_MDA_F61_12673_FINAL]( "Integrated Approach In Managing CPV And APQR")
Many companies continue to manually collect data. Utilizing digital technologies can greatly improve productivity and efficiency by enabling real-time monitoring and streamlining regulatory reporting.
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![GettyImages-1219169373 lab, research, assay, RNA, DNA]( "Purification And QC Of An RNA 21‑Mer Oligonucleotide Via LC‑MS")
Learn how buffer choice, gradient strategy, and pretreatment steps influence recovery, purity, and resolution when purifying a native RNA oligo, with analytical confirmation and practical guidance.
