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Scientific Poster

Revvity’s ESGCT Poster Collection

Revvity’s latest ESGCT poster collection showcases advancements in genome editing, CAR-T cell engineering, and rAAV manufacturing optimization. Our research delves into innovative methodologies in base editing, multi-gene knockouts, and high-efficiency viral vector production, all aimed at advancing therapeutic cell and gene therapies. Download these exclusive collections to gain valuable insights into our Pin-point™ base editing platform, SMARTvector™ technology, and more. Explore a comprehensive view of our latest research aimed at helping enhance therapeutic outcomes and reduce production costs.

For Research Use Only. Not for use in diagnostic procedures.

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Poster
Optimization of modular Pin-point™ Base Editing with Type V CRISPR-Cas
This poster details advancements in the Pin-point™ base editing platform, focusing on modularity and efficiency improvements with Type V CRISPR-Cas effector applications in gene therapy.
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Poster
Development of a high-efficiency RNA-guided base editing system
Presenting a high-efficiency RNA-guided base editing platform, this poster explores increased precision in gene editing applications, suitable for cell therapy advancements.
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Poster
Advancements in Pin-point™ Base Editing for targeted gene therapy
This poster showcases the latest improvements in the Pin-point™ base editing platform, emphasizing applications in targeted gene therapy for enhanced therapeutic outcomes.
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Poster
SMARTvector™ multiplex shRNA for enhanced cell therapy safety
Explore the SMARTvector™ multiplex shRNA platform for safe, multi-target gene knockdown in cell therapy applications, offering new levels of therapeutic control and safety.
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Poster
Modular Pin-point™ Base Editing for multi-target efficiency
Detailing the modular capabilities of the Pin-point™ base editing platform, this poster examines its role in multi-gene targeting for streamlined cell therapy applications.
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Poster
Custom gRNA design and efficiency prediction in Pin-point™ Editing
This poster discusses the development of custom guide RNA (gRNA) design tools and efficiency prediction models, enhancing Pin-point™ base editing accuracy in gene therapy applications.
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Poster
Multi-omic analysis of immune cells using Pin-point™ Base Editing
Presenting multi-omic analysis techniques for immune cells edited with Pin-point™, this poster uncovers insights into cell engineering outcomes in CAR-T therapies.
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Poster
Enhanced iPSC editing with minimal p53 activation via Pin-point™
Focused on improving iPSC editing, this poster discusses reduced p53 pathway activation with Pin-point™ cytidine base editing, enhancing cell viability and therapeutic outcomes.
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Poster
One-step multiplex knockout and CAR integration in CAR-T cells
This poster presents a novel approach for CAR-T cell engineering using Pin-point™ base editing, achieving simultaneous multiplex knockout and CAR insertion.
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Poster
Image-based CAR-T cell assays for apoptosis and CAR expression monitoring
This poster introduces a new image-based method to monitor CAR expression and apoptosis in CAR-T cells, offering insights into cell viability post-gene delivery.
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Poster
rAAV manufacturing optimization using design of experiments
Explore the use of design of experiments (DoE) for optimizing plasmid ratios in rAAV manufacturing, improving yields and reducing production costs.
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