MANUFACTURING ARTICLES
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![Pharmaceutical factory-GettyImages-186614852]( "The Evolution Of Oligonucleotide Manufacturing: Engineering Considerations For Scale, Efficiency, And Facility Design")
The Evolution Of Oligonucleotide Manufacturing: Engineering Considerations For Scale, Efficiency, And Facility DesignAs oligos move toward larger indications, manufacturing shifts from chemistry alone to facility design—balancing scale, solvent safety, cost, and flexibility as SPOS, slurry, and enzymatic paths converge.
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![Investment in medical and pharma business GettyImages-1299804755]( "2026 RNA Investment Landscape: Recent Deals, IPOs, And Venture Trends")
2026 RNA Investment Landscape: Recent Deals, IPOs, And Venture TrendsAs RNA investing matures, capital is flowing toward delivery, durability, and regulatory credibility. This column breaks down the deals, IPO signals, and venture theses shaping RNA’s 2026 winners—and why.
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![biotechnology, Global Networking, Research, Development, Innovation, Advancing Smart Solutions-GettyImages-2123154659]( "Innovations In The Oligonucleotide Supply Chain: Regulatory Considerations For Materials, Manufacturing, And Lifecycle Control")
Innovations In The Oligonucleotide Supply Chain: Regulatory Considerations For Materials, Manufacturing, And Lifecycle ControlOligonucleotide therapeutics have rapidly advanced into late-stage and commercial development, shifting regulatory focus toward the maturity of manufacturing and supply chain control rather than therapeutic novelty. Regulatory success now depends on how effectively sponsors translate innovative chemistries into well-characterized, scalable, and sustainable materials and processes.
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![GettyImages-1459917555-lab-research-development-gene-genetic]( "The mRNA Supply Chain Revolution: Materials, Methods, And Momentum")
The mRNA Supply Chain Revolution: Materials, Methods, And MomentummRNA innovation now hinges as much on manufacturing materials as on molecular design, with novel inputs shaping performance, cost, and scalability. As these less-mature materials move rapidly into production, strategic material selection and supplier alignment are becoming critical to manufacturing resilience and long-term success.
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![genetic research, biotechnology, molecular biology, innovation, healthcare solutions-GettyImages-2234236209]( "A Year Of Separation: Which Advanced Modalities Are Built For Commercial Scale In 2026?")
A Year Of Separation: Which Advanced Modalities Are Built For Commercial Scale In 2026?In 2026, advanced therapies diverge: winners pair proven biology with scalable manufacturing, delivery, and workflow fit, while others advance more slowly under operational and economic limits.
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![Scientist virus research laboratory-GettyImages-1493597834]( "2026 Outlook: How Modality Maturity, Delivery, And Data Will Reshape RNA Therapeutics")
2026 Outlook: How Modality Maturity, Delivery, And Data Will Reshape RNA TherapeuticsAs RNA therapeutics mature, 2026 will reward execution over novelty. Delivery, data-driven design, and modality specialization will determine which RNA platforms scale clinically and commercially.
MANUFACTURING VIDEOS
In this segment of the Bioprocess Online Live event mRNA Manufacturing: Bright Future, Big Challenges, we get to know leaders at three organizations bringing mRNA technology to bear in a variety of prophylactic and therapeutic capacities. Tune in and get to know Roberta Duncan, VP of the mRNA program at Seqirus; Duke Human Vaccine Institute Associate Director of Upstream and Downstream Process Development Jason Dickens, Ph.D.; and Jin Zhou, Executive Director of Process Development for mRNA and Protein Biologics at Ultragenyx.
The NanoAssemblr® Spark™ uses proprietary microfluidics technology for the controlled and reproducible manufacturing of nanoparticles in small volumes in less than 10 seconds.
Primer Support™ 5G solid support is the fifth-generation solid support for oligonucleotide synthesis from Cytiva. By using Cytiva consumables, you can better leverage the whole family knowledge and expertise to efficiently optimize your molecule’s development.
Optimize your lipid nanoparticle (LNP) production with KNAUER's modular systems. Maximize flexibility, scalability, and control to meet the needs of your project.
ARTICLES, APP NOTES, CASE STUDIES, & WHITE PAPERS
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![Scientist Laboratory sample pipette GettyImages-1354172647]( "Sequencing Of Synthetic Oligonucleotides And Their Impurities")
We demonstrate an automated, compliance-ready liquid chromatography-mass spectrometry (LC-MS) workflow for sequence confirmation of oligonucleotides and their impurities.
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![Genomic sequencing, molecular biology, and genetic data analysis-GettyImages-2153790378]( "The Paradigm Shift: From Scale-Up To Scale-Out In Genetic Medicine")
The shift from "scale-up" to "scale-out" in genetic medicine enhances production speed, revolutionizing pharmaceutical manufacturing and accelerating life-saving therapies for global patient populations.
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Breaking down the implementation of continuous manufacturing into the following four steps may provide some much-needed guidance as you prepare your network for the future of biomanufacturing.
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![Gene Therapy iStock-1291142726]( "Key Challenges for CRISPR In Clinical Development")
Learn how to approach CRISPR cell and gene therapy development challenges, such as regulatory hurdles, ensuring consistency, finding qualified and experienced staff, and obtaining GMP-Grade reagents.
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See how the different unit operations in a laboratory-scale monoclonal antibody (mAb) process can be connected and integrated into a semi-continuous process.
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![DNA molecules 450x300]( "Data Processing For Mass Confirmation, Impurities Analysis Of Oligos")
Explore an automated, compliance-ready LC-MS workflow for intact mass confirmation and purity analysis of synthetic oligonucleotides including siRNA and large single guide RNA oligonucleotides.
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Exploring the use of automation in cell therapy and advanced therapeutic medicinal product manufacturing to improve safety, quality, and compliance is a key factor in advancing patient care.
