CRISPR Gene Editing in Primary T Cells: A Case Study in the Fight Against HIV
Get practical insight into CRISPR-Cas9 gene editing in primary immune cells and how it can be applied to study drug action in a physiologically relevant model.
Next-Generation Cell Isolation Solutions for T Cell Therapy Research
Get expert insights on efficient T cell isolation for therapy research with Drs. Durkin and Antignano in this Q&A Report.
Arrayed CRISPR screening for phenotypic discovery at the MRC-AstraZeneca-University of Cambridge Joint Functional Genomics Screening Laboratory (FGSL)
The FGSL aims to form collaborations to advance our understanding of development and disease mechanism through functional interrogation of the genome at scale.
A New Approach to Vector-Free CRISPR Editing Starting From Single Cells
Join us to learn how CellEDIT can be used for targeted gene editing.
Translational T Cell Talks: Scaling for the Future
Join STEMCELL's Translational T Cell Talks on June 11, 2024 for a half-day event featuring presentations on CAR T cell research, new protocols, educational content, and special promotions.
Advancing Disease Modeling for Drug Discovery by Modulating iPSCs with CRISPR and Neuronal Differentiation
Explore applications of CRISPR and iPSCs in disease modeling and drug discovery in our upcoming webinar with Synthego and BrainXell.
How to Create CRISPR-Edited T Cells More Efficiently for Tomorrow’s Cell Therapies
Explore future gene-editing trends, CRISPR challenges, and solutions with experts from Artisan Bio and STEMCELL Technologies.
#ExpertAnswers: Steven Loo-Yong-Kee on CRISPR-Edited T Cells
Steven Loo-Yong-Kee highlights Artisan Bio’s STAR-CRISPR system for optimized gene editing in cell therapy, with a focus on the genetic modification of T cells for cancer immunotherapy.
How to Create CRISPR-Edited T Cells More Efficiently for Tomorrow’s Cell Therapies
Steven Loo-Yong-Kee presents Artisan Bio's STAR-CRISPR™ system for optimized gene editing in cell therapy, with a focus on the genetifc modification of T cells for cancer immunotherapy.
#ExpertAnswers: Oscar Perez Leal and Jon Weidanz on Gene Editing
Oscar Perez Leal and Jon Weidanz discuss the basis of the FAST-HDR gene-editing system to create custom cell lines, and present case studies highlighting several applications.
The Cancer-Immunity Cycle: Methods, Challenges, and Opportunities
In this series, experts provide an overview of technologies, techniques, challenges, and emerging research questions along each step of the cancer immunity cycle.
Creating Better Gene-Edited Cell Lines with the FAST-HDR System
Dr. Oscar Perez and Dr. Jon Weidanz discuss the basis of the FAST-HDR gene-editing system and present case studies highlighting several applications.
#ExpertAnswers: Marta Walasek and Danielle Nguyen Truong on Stem Cells
Marta Walasek and Danielle Nguyen Truong provide tips and tricks to lock down effective genome editing conditions for CD34+ cells, methods to evaluate genome editing efficiency, and optimal culture conditions to maintain Hematopoeitic stem cell function and long-term editing effects.
Optimizing Cell Therapy Research Workflows
A 2-part mini series from STEMCELL Technologies highlighting optimized products, protocols, and workflows for cell therapy research.
Optimizing CD34+ Cell Genome Editing for Efficiency and HSPC Maintenance
Experts provide tips and tricks to lock down effective genome editing conditions for CD34+ cells, methods to evaluate genome editing efficiency, and optimal culture conditions to maintain HSPC function and long-term editing effects.
#ExpertAnswers: Michael Czech on CRISPR-Enhanced Adipocyte Browning
In this episode of Expert Answers, Dr. Michael Czech discusses a novel CRISPR-based cell therapy which enhances adipose tissue "browning" as a treatment for metabolic disease.
CRISPR-Enhanced Adipocyte Browning: A Cell Therapy Approach to Treat Metabolic Disease
Michael Czech, PhD discusses adipose tissue "browning" as a treatment for metabolic disease, and presents recent data using light sheet microscopy to visualize functional changes in adipose tissue depots.
