-
Generation of a CHIP isogenic human iPSC-derived cortical neuron model for functional proteomics
Generation of a CHIP isogenic human iPSC-derived cortical neuron model for functional proteomics Catarina Dias, Erisa Nita. Jakub Faktor, Lenka […]
-
Methods for Automated Single Cell Isolation and Sub-Cloning of Human Pluripotent Stem Cells
Methods for Automated Single Cell Isolation and Sub-Cloning of Human Pluripotent Stem Cells Valeria Fernandez Vallone, Narasimha Swamy Telugu, Iris […]
-
Chemically defined and xeno-free culture condition for human extended pluripotent stem cells
Chemically defined and xeno-free culture condition for human extended pluripotent stem cells Bei Liu, Shi Chen, Yaxing Xu, Yulin Lyu, […]
-
Application overview: Cost-effective stem cell culturing
Save time and money with the Biolaminin 521 Cell Culture Matrix
-
Laminin as a Potent Substrate for Large-Scale Expansion of Human Induced Pluripotent Stem Cells in a Closed Cell Expansion System
Laminin as a Potent Substrate for Large-Scale Expansion of Human Induced Pluripotent Stem Cells in a Closed Cell Expansion System […]
-
Guide: Stem cell culture matrices
Stem cell culture matrices A practical guide Selecting the right cell culture substrate can be a painstaking and time-consuming task, […]
-
Instructions 010: Embryoid body formation from human pluripotent stem cells
Protocol for a standardized, serum-free EB formation of hPSCs cultured on Biolaminin
-
Instructions 003: Culturing human ES and iPS cells
Protocol for the transition of human PSCs to Biolaminin cell culture matrices (LN, MX, and CTG)
-
Video: Watch as cells grow – culture ES and iPS cells on Biolaminin
Watch as cells grow – culture ES and iPS cells on Biolaminin
-
Video: hPSC transition to Biolaminin 521
hPSC transition to Biolaminin 521