MANUFACTURING ARTICLES
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![Molecular biology, mRNA strands, genetics-GettyImages-2198118160]( "Engineering RNA Payload Distribution In LNPs To Unlock Higher In Vivo Gene Editing Efficiency")
Engineering RNA Payload Distribution In LNPs To Unlock Higher In Vivo Gene Editing EfficiencyNew research shows RNA payload distribution inside LNPs — not just encapsulation efficiency — may be key to unlocking stronger in vivo gene editing performance.
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![Virus, pathogen, bacteria, biotechnology, bacterium, biolaboratory, new X disease, brain illness-GettyImages-1955429813]( "RNA Modification-Mediated Translational Control In Immune Cells")
RNA Modification-Mediated Translational Control In Immune CellsExploring how m6A RNA modifications control immune cell translation, influencing inflammation, tumor immunity, T cell activation, and future immunotherapies.
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![BPO-Modulus-IMG_1]( "Repeating Sanofi's Ballroom Design On Two Continents")
Repeating Sanofi's Ballroom Design On Two ContinentsMoveable walls and a stunning number of robotics at its sites in France and Singapore, among other features, has earned Sanofi international recognition for innovation.
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![DNA abstract-GettyImages-2223439582]( "Suppressor tRNA Therapeutics: A New Frontier In Treating Genetic Disease")
Suppressor tRNA Therapeutics: A New Frontier In Treating Genetic DiseaseSuppressor tRNAs could unlock a scalable new way to treat genetic diseases caused by nonsense mutations, restoring full-length proteins across multiple indications.
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![Virus, microscopy, vaccine, covid-GettyImages-1439691672]( "Engineering Transient In Vivo CAR-T: Extending Expression, Expanding Access, And Rethinking Immune Reset")
Engineering Transient In Vivo CAR-T: Extending Expression, Expanding Access, And Rethinking Immune ResetIn this Q&A, Michael Lam, Ph.D., explores how circular RNA and targeted delivery extend transient CAR expression to enable deep B-cell depletion and controllable immune reset.
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![Pipetting samples-GettyImages-525440703]( "Bridging The Manufacturing Chemistries Between Drug Research And Development For Morpholino Oligos")
Bridging The Manufacturing Chemistries Between Drug Research And Development For Morpholino OligosStandardizing Morpholino chemistry could streamline development and FDA pathways, improving consistency, scalability, and delivery performance across antisense therapeutics.
MANUFACTURING VIDEOS
Innovation and invention are often limited by challenges in deployment. Here, Cell & Gene Live’s panelists, Nathaniel Wang, CEO and Co-Founder, Replicate Bioscience and Sam Deutch, EVP of Research and Early Development at Nutcracker Therapeutics detail how is the field solving these issues. They cover how evolution in the scale up production of novel engineering technologies impacts their near term and long-term deployment.
Master the essential strategies for cost-effective and robust mRNA capping at industrial scale. Learn how to successfully evaluate new materials and optimize your synthesis process for maximum efficiency and yield.
Learn how flexible facility design and process innovation are accelerating pDNA manufacturing, as well as key strategies to avoid scale-up pitfalls and meet growing therapeutic demand.
High Throughput Screening (HTS) chromatography tools can accelerate process development and reduce material usage. Learn about a solution that addresses challenges with their use in new modalities.
ARTICLES, APP NOTES, CASE STUDIES, & WHITE PAPERS
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![laboratory DNA GettyImages-1158419934]( "Effectively Scaling Up The Oligonucleotide Manufacturing Process")
Learn how purpose-driven decisions backed by a thorough process that reaps you the largest profit potential over time can result in successful scale up.
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![GettyImages-525440891-lab-research-development]( "Avoiding The Pitfalls Of LNPs And Complex Formulations")
Explore the necessary components of a smooth tech transfer for LNP-based drugs, including the variables that impact LNP formulation and the outsourcing strategies needed to avoid common pitfalls.
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![Scientist In Lab GettyImages-1354172647]( "Boost LNP Drug Potency With Optimized Delivery Formulations")
Lipid nanoparticles (LNPs) function as a drug delivery system for nucleic acids. Learn about the biomedical applications of LNPs as well as the anatomy, formulation optimization, and safety of LNPs.
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![Molecule mRNA-GettyImages-1428646288]( "Getting IVT Right: Improving Capping Efficiency")
Discover how Codex® HiCap RNA Polymerase can enhance mRNA capping efficiency, reduce costs, and streamline your IVT manufacturing process.
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![Lipid nanoparticle mRNA vaccine-GettyImages-1418152448]( "Advancing A LNP Formulation To Clinical And Commercial Manufacturing")
Lipid selection impacts the final LNP drug product and the LNP process. Review critical quality considerations for lipids and the process requirements for successful commercial-scale manufacturing.
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![mRNA iStock-1295693748]( "Efficient, Scalable Purification Of mRNA By Affinity Chromatography")
Increasing demand for mRNA as a therapeutic product requires efficient, scalable purification methods. Here, a monolithic stationary phase is used to purify mRNA from a capping mix of Luc2 RNA.
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![GettyImages-1327624070-lab-research-development]( "mRNA Manufacturing: Overcoming CMC Development Challenges")
A lack of standardization and cost-effective techniques for manufacturing and analytics for product characterization create CMC challenges for mRNA-based products.
