Stem cell culturing of human ES and iPS cells on recombinant
laminin matrices is easy and efficient.
Not exact matches
We now demonstrate that B. burgdorferi adheres to the extracellular
matrix component
laminin.
Next - generation «designer
matrices» such as hybrid polyethylene glycol hydrogels or microengineered collagen scaffolds, combined with a well - defined set of
laminins, may better fulfill the niche requirements of organoids and may be customized for a specific type of tissue / organoid (2,6).
Our
laminin cell culture
matrices allow you to imitate the natural, cell - specific cell -
matrix interaction in vitro, leading to improved cell functionality
Laminin cell culture
matrices — The key to efficient derivation and reliable culture of stem cells and specialized cells lies within these extracellular
matrix proteins
Our
laminin cell culture
matrices allow you to imitate the natural cell -
matrix interaction in vitro, leading to improved cell functionality
We offer defined and xeno - free
laminin cell culture
matrices for reliable expansion of pluripotent cell and differentiation and maintenance of specialized cell types
Laminin - 521 human stem cell
matrix makes pluripotent stem cell culture easy in a defined, xeno - free and biologically relevant cell culture system.
The
laminin - 521
matrix is biologically relevant and allows low density seeding of single cells without need of ROCKi.
The
laminin - 521 stem cell
matrix is a feeder - free, chemically defined and xeno - free cell culture system that support high cell survival and fast proliferation of hESC and iPSC.
Laminin - 511 is a major component of the basement membrane, which is expressed in early development of the embryo and can be used as a
matrix for pluripotent (ES / iPS) stem cells, as it binds to integrin on cell surfaces.