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Gene Editing Basics Learning Center |
Genome editing has emerged as one of humanity’s most powerful technologies in the pursuit of a greater understanding of human health and disease. Less expensive and relatively easy to design, the next generation of gene editing tools is now allowing researchers to target almost any gene for modification in a highly specific and reliable way.
In this educational web hub, you will find a variety of tools and resources to fully support your understanding of gene editing techniques and methods. Learn all you need to know in order to overcome existing hurdles and design successful gene editing experiments, whether for TALEN or CRISPR applications.
Explore free downloads, watch how-to tutorials, gain insights from expert interviews and scientific articles, watch gene editing videos and webinars—and more.
Handbook
Step-by-step guide to help eliminate the trial-and-error of gene editing, allowing you to get answers fast and with little effort.
Application eBook
Explore our innovative suite of CRISPR-based editing tools designed to support both basic and applied research applications.
Infographic
This infographic will serve as your guide with best practices, pro tips and troubleshooting advice for CRISPR-Cas9.
Infographic
Discover how your CRISPR gene editing experiments can benefit from Cas9 proteins.
Infographic
Discover how CRISPR-Cas9 is driving a new generation of cell engineering for cell-based therapies and key considerations for selecting Cas9 reagents and suppliers.
Training module
A complete guide for gene editing in PSCs, including all the tools and protocols needed to design, deliver, and screen for preferred gene edits.
Video
In this tutorial video, we demonstrate the process of conducting a HPRT gene knock-out experiment in a HEK293 adherent cell line.
Video
In this tutorial video, we demonstrate the process of conducting a beta actin gene knock-in in a HEK293 adherent cell line.
Video
In this tutorial video, we demonstrate the process of conducting a gene knock-out experiment in induced pluripotent stem cells.
Video
In this tutorial video, we demonstrate the process of conducting a PDCD1 gene knock-out in T cells.
Video
Dr. Evangelos Kiskinis, Assistant Professor of Neurology and Neuroscience at Northwestern University
Video
Dr. Sergio Casas-Tintó, Head of Drosophila Models, Human Disease Unit, Institute for Rare Diseases Research (IIER)
Article
Dr. Panos Zalmas, Head of the Open Targets Validation Lab, Wellcome Sanger Institute
Article
Dr. Krishanu Saha, Associate Professor at the University of Wisconsin-Madison
Article
Dr. Yu Holly Chen, Assistant Professor at the University of Alabama, and Dr. Rinki Ratnapriya, Assistant Professor at the Baylor College of Medicine
Article
Dr. Sergio Casas-Tintó, Head of Drosophila Models, Human Disease Unit, Institute for Rare Diseases Research (IIER)
Article
Dr. Jason Potter, R&D Director at Thermo Fisher Scientific
Article
Robert Horton, Senior Product Manager at Thermo Fisher Scientific
Webinar
Featuring Grazia Iannello, José Inacio, Pia Johansson and Kailash Mangalhara
Webinar
Meisam Naeimi Kararoudi, Director of CRISPR/Gene Editing Core at Ohio State University
Webinar
Justin Quinn, Director of Product Research at Colossal Biosciences
Webinar
Hemanta Sarmah, Postdoctoral Research Scholar at Columbia Stem Cell Initiative
Webinar
Kevin Pridham, Field Application Scientist at Thermo Fisher Scientific
Webinar
Pandhita Pochanard, Product Manager at Thermo Fisher Scientific
Webinar
Pandhita Pochanard, Product Manager at Thermo Fisher Scientific
Webinar
Thermo Fisher Scientific
Webinar
Thermo Fisher Scientific
For Research Use Only. Not for use in diagnostic procedures.