Passaging Naive PSC Colonies Derived and Maintained in RSeT™
How to passage naive colonies derived in RSeT™ without transferring irradiated mouse embryonic fibroblasts (iMEFs) to the next passage, and what you can expect during the early stages of reversion
Limitless Potential: Do More with TeSR™
mTeSR™1 is a highly specialized and defined, serum-free and complete cell culture medium, with established protocols for applications ranging from gene editing, bioreactor expansion, to lineage-specific differentiation
RoboSep™-16 Introduction
Introduction of the the RoboSep™-16 instrument, a fully automated cell isolation platform that performs cell isolations from up to 16 samples
Madeline Lancaster on Brain Organoids: Modeling Human Brain Development in a Dish
In this webinar, Dr. Madeline Lancaster, who has done groundbreaking work in the development of cerebral organoid technology, discusses the latest developments in cerebral organoids and provides a comparison of different 3D model systems being used for neurological research.
Research in the Lancaster lab focuses on human brain development using cerebral organoids, a new in vitro model system for neurological development and disease research. The laboratory uses these ‘mini-brains’ to study the most fundamental differences between human and other mammalian species’ brain development - essentially, what makes us human. The lab is also studying cellular mechanisms of, and potential therapeutic avenues for, neurodevelopmental disorders such as autism and intellectual disability.
This webinar is just one of the educational resources on neural organoids that we’ve developed to help you navigate this exciting field. Visit the Neural Organoid Information Hub to learn more.
EasySep™小鼠TIL(CD45)正选试剂盒
Passaging Naive PSC Colonies Derived and Maintained in RSeT™ How to passage naive colonies derived in RSeT™ without transferring irradiated mouse embryonic fibroblasts (iMEFs) to the next passage, and what you can expect during the early stages of reversion
Limitless Potential: Do More with TeSR™ mTeSR™1 is a highly specialized and defined, serum-free and complete cell culture medium, with established protocols for applications ranging from gene editing, bioreactor expansion, to lineage-specific differentiation
How ALDEFLUOR™ ALDH Assay Kit Detects Normal and Cancer Progenitor Cells How the ALDEFLUOR™ assay works to detect aldehyde dehydrogenase (ALDH)-bright cells
How to Set Up Hematopoietic Colony-Forming Unit (CFU) Assays Procedure for setting up hematopoietic colony-forming unit (CFU) assays using semi-solid methylcellulose-based MethoCult™ medium
RoboSep™-16 Introduction Introduction of the the RoboSep™-16 instrument, a fully automated cell isolation platform that performs cell isolations from up to 16 samples
Madeline Lancaster on Brain Organoids: Modeling Human Brain Development in a Dish In this webinar, Dr. Madeline Lancaster, who has done groundbreaking work in the development of cerebral organoid technology, discusses the latest developments in cerebral organoids and provides a comparison of different 3D model systems being used for neurological research. Research in the Lancaster lab focuses on human brain development using cerebral organoids, a new in vitro model system for neurological development and disease research. The laboratory uses these ‘mini-brains’ to study the most fundamental differences between human and other mammalian species’ brain development - essentially, what makes us human. The lab is also studying cellular mechanisms of, and potential therapeutic avenues for, neurodevelopmental disorders such as autism and intellectual disability. This webinar is just one of the educational resources on neural organoids that we’ve developed to help you navigate this exciting field. Visit the Neural Organoid Information Hub to learn more.
Automate Cell Isolation for Up to 16 Samples with the RoboSep™-16 Cell Separation Instrument Features and benefits of using the fully automated cell isolation platform RoboSep™-16 which allows you to efficiently isolate cells from up to 16 samples simultaneously
How to Passage hPSC Aggregates in mTeSR™3D Suspension Culture with a Clump Passaging Method Two-stage clump passaging protocol using the mTeSR™3D suspension culture system to minimize the risk of karyotype abnormalities that can be associated with single cell passaging
