The changes in cell metabolism can affect the epigenome-modifying enzymes activity during iPSCs differentiation and thus control the functional potential of the final cell. Therefore, for therapeutic applications, the restoration of a fully functional mitochondrial network specific for the cell types derived from iPSCs will be required to support the energy and other mitochondrial factors. Recently, FLIM method allows to study the metabolic changes that accompanying cell differentiation noninvasively and without additional labels. In this study, we investigated the metabolic changes in iPSCs during neural differentiation using two-photon fluorescence microscopy and FLIM. Cellular metabolism was examined by monitoring the optical redox ratio...
Two-photon excited fluorescence (TPEF) spectroscopy and imaging were used to investigate the effects...
We describe a label-free imaging method to monitor stem-cell metabolism that discriminates different...
The fluorescence of the intracellular electron donor reduced nicotinamide adenine dinucleotide (NADH...
Neurogenesis in vivo is a long and complex process, characterised by the successive generation of se...
In the stem cell field there is a lack of non invasive and fast methods to identify stem cell’s meta...
In the stem cell field there is a lack of non invasive and fast methods to identify stem cell's meta...
The differentiation of endothelial cells from human iPSC has incontestable advantages in diseases re...
<p>Two-photon fluorescence intensity images (a) and free/bound NADH FLIM maps (b) of E12 NPSCs, E16 ...
Newly generated neurons pass through a series of well-defined developmental stages, which allow them...
Newly generated neurons pass through a series of well-defined developmental stages, which allow them...
Cellular metabolism plays a critical role in human health and homeostasis and is implicated in a lar...
Energy metabolism in the adult brain consumes large quantities of glucose, but little is known to da...
Investigating cerebral metabolism in vivo at a microscopic level is essential for understanding brai...
NAD is a key determinant of cellular energy metabolism. In contrast, its phosphorylated form, NADP, ...
Investigating cerebral metabolism in vivo at a microscopic level is essential for understanding brai...
Two-photon excited fluorescence (TPEF) spectroscopy and imaging were used to investigate the effects...
We describe a label-free imaging method to monitor stem-cell metabolism that discriminates different...
The fluorescence of the intracellular electron donor reduced nicotinamide adenine dinucleotide (NADH...
Neurogenesis in vivo is a long and complex process, characterised by the successive generation of se...
In the stem cell field there is a lack of non invasive and fast methods to identify stem cell’s meta...
In the stem cell field there is a lack of non invasive and fast methods to identify stem cell's meta...
The differentiation of endothelial cells from human iPSC has incontestable advantages in diseases re...
<p>Two-photon fluorescence intensity images (a) and free/bound NADH FLIM maps (b) of E12 NPSCs, E16 ...
Newly generated neurons pass through a series of well-defined developmental stages, which allow them...
Newly generated neurons pass through a series of well-defined developmental stages, which allow them...
Cellular metabolism plays a critical role in human health and homeostasis and is implicated in a lar...
Energy metabolism in the adult brain consumes large quantities of glucose, but little is known to da...
Investigating cerebral metabolism in vivo at a microscopic level is essential for understanding brai...
NAD is a key determinant of cellular energy metabolism. In contrast, its phosphorylated form, NADP, ...
Investigating cerebral metabolism in vivo at a microscopic level is essential for understanding brai...
Two-photon excited fluorescence (TPEF) spectroscopy and imaging were used to investigate the effects...
We describe a label-free imaging method to monitor stem-cell metabolism that discriminates different...
The fluorescence of the intracellular electron donor reduced nicotinamide adenine dinucleotide (NADH...