Assessing mitochondrial and cellular bioenergetics in human pluripotent stem cells Alessandro Prigione and James Adjaye Department of Vertebrate Genomics, Molecular Embryology and Aging group, Max Planck Institute for Mo - Biotechnology Institute - Document - PDFSEARCH.IO

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	Assessing mitochondrial and cellular bioenergetics in human pluripotent stem cells Alessandro Prigione and James Adjaye Department of Vertebrate Genomics, Molecular Embryology and Aging group, Max Planck Institute for Mo Add to Reading List Document Date: 2011-04-07 11:50:46 Open Document File Size: 458,47 KB Share Result on Facebook City Berlin / / Company Thomson / / Facility Max Planck Institute / / IndustryTerm unbuffered media / energy stress pathway / feeder-conditioned media / media temperature / energy / / MedicalCondition complex disorders / MS / / Organization James Adjaye Department of Vertebrate Genomics / Molecular Embryology and Aging / Max Planck Society / Max Planck Institute for Molecular Genetics / / Person James Adjaye / Alessandro Prigione / Jay Dunn / / Position Mattson MP / / Technology Genomics / OCR / transplantation / stem cells / regenerative medicine / gene expression / / SocialTag Developmental biology Cell biology Induced pluripotent stem cell Transcription factors Cellular differentiation Embryonic stem cell Adult stem cell Oct-4 Mitochondrion Biology

Assessing mitochondrial and cellular bioenergetics in human pluripotent stem cells Alessandro Prigione and James Adjaye Department of Vertebrate Genomics, Molecular Embryology and Aging group, Max Planck Institute for MoAdd to Reading List