Optimized Workflows for High-Efficiency Genome Editing in Stem and Primary Cell Types
CRISPR-Cas genome editing in cell culture systems is a powerful technique for disease modeling and the development of cellular therapies. Compared to work with immortalized cell lines, genome editing of stem and primary cells presents unique challenges, including issues related to efficient delivery and expression of CRISPR machinery, clonogenicity, and cytotoxicity. In this webinar, our in-house expert, Dr. Ashley Watson, discusses optimized workflows for CRISPR-Cas9 genome editing in human pluripotent stem cells and primary T cells.
David Knapp, PhD
Dr. David Knapp shares his work examining how growth factors affect the survival, proliferation, and maintenance of cells of the cord blood HSC compartment
“Laser-Based Cell Manipulation” Featuring Dr. Marinna Madrid
On this episode of the Stem Cell Podcast, Dr. Marinna Madrid from Cellino discusses how lasers and image-guided machine learning can make iPSC-derived cell therapies viable at a large scale.
“Translating Stem Cell Discoveries” Featuring Dr. Ilyas Singeç
On this episode of the Stem Cell Podcast, Dr. Ilyas Singeç from National Center for Advancing Translational Sciences discusses standardizing stem cell differentiation, high-throughput cell culture, personalized medicine, and the potential for biomanufacturing in space.
EasySep™小鼠TIL(CD45)正选试剂盒
Maturation of Culture-Expanded Erythroid Progenitor Cells Technical tip from our dedicated team of Product and Scientific Support specialists
Optimized Workflows for High-Efficiency Genome Editing in Stem and Primary Cell Types CRISPR-Cas genome editing in cell culture systems is a powerful technique for disease modeling and the development of cellular therapies. Compared to work with immortalized cell lines, genome editing of stem and primary cells presents unique challenges, including issues related to efficient delivery and expression of CRISPR machinery, clonogenicity, and cytotoxicity. In this webinar, our in-house expert, Dr. Ashley Watson, discusses optimized workflows for CRISPR-Cas9 genome editing in human pluripotent stem cells and primary T cells.
David Knapp, PhD Dr. David Knapp shares his work examining how growth factors affect the survival, proliferation, and maintenance of cells of the cord blood HSC compartment
“Laser-Based Cell Manipulation” Featuring Dr. Marinna Madrid On this episode of the Stem Cell Podcast, Dr. Marinna Madrid from Cellino discusses how lasers and image-guided machine learning can make iPSC-derived cell therapies viable at a large scale.
“Translating Stem Cell Discoveries” Featuring Dr. Ilyas Singeç On this episode of the Stem Cell Podcast, Dr. Ilyas Singeç from National Center for Advancing Translational Sciences discusses standardizing stem cell differentiation, high-throughput cell culture, personalized medicine, and the potential for biomanufacturing in space.
Courteney Lai Courteney Lai describes her work in the Humphries' lab studying leukemic stem cell function using models of acute myeloid leukemia
“ISSCR 2022: 20 Years of Excellence” Featuring Dr. Melissa Little, Keith Alm, and Dr. Amander Clark On this episode of the Stem Cell Podcast, Dr. Melissa Little, Keith Alm, and Dr. Amander Clark from the International Society for Stem Cell Research (ISSCR) discuss the ISSCR 2022 annual meeting, and the future of the organization and the stem cell research community.
How to Isolate Cells with EasySep™ Column-Free Cell Separation Technology Isolation of human CD4+ T cells by negative selection using EasySep™ to separate highly purified cells in as little as 8 minutes
