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Scientific 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.
Scientific 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.
Scientific 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.
Scientific Papers
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.
Scientific 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.
Literature - Publication Review
A breakthrough aptamer-mediated base editing platform for simultaneous knock-in and multiple gene knockout
This literature review delves into an application of gene editing that achieves simultaneous knock-in and multiple gene knockout.
Webinar
Advancing Gene Editing Efficiency and Precision with the Pin-point™ Base Editing Platform
This webinar discusses how the Pin-point™ base editing platform can achieve more efficient and precise complex multiplex edits of cell lines, while decreasing the potential of unintended consequences.
Scientific Poster
Achieving CAR-T cell generation in a single intervention using a multiplex base editing system
In this poster, we highlight an example configuration of the Pin-point technology for the streamlined generation of allogeneic CAR-T cells and hypoimmunogenic iPSCs.
Application Note
Increasing the targeting scope and precision of next-generation gene editing technology
In this application note, we demonstrate the Pin-point™ base editing system as a novel nucleaseagnostic modular platform for increasing the targeting scope and precision of next-generation gene editing technology.
Brochure
The Pin-point™ platform: A novel modular base editing system
This presentation provides an overview of the Pin-point base editing platform by describing its key benefits, how it works, and supporting data.
Other
Technical Note
Package insert for the T-SPOT.TB test
The T-SPOT.TB test is an in vitro diagnostic test for the detection of effector T cells that respond to stimulation by Mycobacterium tuberculosis antigens and is intended for use as an aid in the diagnosis of tuberculosis (TB) infection. The T-SPOT.TB test is a simplified enzyme-linked immunospot (ELISPOT) method which enumerates individual TB-specific activated effector T cells.
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