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We report the use of self-assembled peptide (F2/S) hydrogels and cellular metabolomics to identify a number of innate molecules that are integral to the metabolic processes which drive cellular differentiation… Click to show full abstract
We report the use of self-assembled peptide (F2/S) hydrogels and cellular metabolomics to identify a number of innate molecules that are integral to the metabolic processes which drive cellular differentiation of multipotent pericyte stem cells. The culture system relies solely on substrate mechanics to induce differentiation in the absence of traditional differentiation media and therefore is a non-invasive approach to assessing cellular behavior at the molecular level and identifying key metabolites in this process. This novel approach demonstrates that simple metabolites can provide an alternative means to direct stem cell differentiation and that biomaterials can be used to identify them simply and quickly.
Journal Title: Methods in molecular biology
Year Published: 2021
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