Embryonic stem (ES) and induced pluripotent stem (iPS) cells have the capacity to self-renew and differentiate into all cell types. Unraveling the molecular mechanisms that shape their development is a significant challenge faced by scientists. To help researchers answer these questions we offer a range of powerful tools for cell isolation, culture, reprogramming, differentiation, and analysis of ES and iPS cells.
Stem Cell Products – Quick Guide
Get your stem cell experiment off to a good start
From removal of dead cells and cellular debris to the gentle and efficient dissociation of embryoid bodies, Miltenyi Biotec provides you with unique solutions to overcome these challenges.
Easily get the cell population you need
Discover, how to effectively eliminate feeder cells or isolate pluripotent stem cells under your own hood, improve cell reprogramming, and use MACS® Technology to optimize cell differentiation protocols.
Flow cytometry of ES and iPS cells
Advance your ES and iPS cell research with a comprehensive portfolio of antibodies and kits, including novel antibodies for mouse feeder cells, live cell staining to assist in reprogramming protocols, and cell characterization kits to standardize your analysis.
Comprehensive solutions for ES and iPS cell culture
From new technologies for reprogramming through media, cytokines, and small molecules for expansion or differentiation cultures: benefit from a comprehensive portfolio of cell culture products.
Non-integrating mRNA reprogramming technology
Miltenyi Biotec’s reprogramming portfolio offers you a range of reagents to support your reprogramming needs. The StemMACS mRNA Reprogramming Kit completely eliminates the risk of genomic integration and mutagenesis inherent to DNA and viral-based technologies while offering fast and efficient reprogramming. Reagents for fibroblasts or iPS cell isolation guarantee an optimal start and finish of your reprogramming experiment.
Proven technologies for your molecular analyses
Benefit from innovative products for sensitive molecular analyses, such as gene expression profiling, protein or mRNA isolation, and cDNA synthesis for RT-PCR, as well as specialized systems to boost transfection rates.