Characterization of human iPSC-derived neurons by transcriptomics and proteomics for drug discovery

Characterization of human iPSC-derived neurons by transcriptomics and proteomics for drug discovery

IPSC-Derived Human Neurons: Introduction and ApplicationПодробнее

IPSC-Derived Human Neurons: Introduction and Application

iPSC Derived Human Neurons: Introduction and ApplicationПодробнее

iPSC Derived Human Neurons: Introduction and Application

Simplified imaging for quantifying biological complexity of iPSC-derived cardiomyocytes and neuronsПодробнее

Simplified imaging for quantifying biological complexity of iPSC-derived cardiomyocytes and neurons

The Use of Human iPSC-derived Motor Neurons for Translational ResearchПодробнее

The Use of Human iPSC-derived Motor Neurons for Translational Research

Anatomic Time Course Directed Differentiation of Motor Neurons from Human iPSCsПодробнее

Anatomic Time Course Directed Differentiation of Motor Neurons from Human iPSCs

Vera Gorbunova at ARDD2023: Transcriptomic and proteomic signatures of longevityПодробнее

Vera Gorbunova at ARDD2023: Transcriptomic and proteomic signatures of longevity

Using Human iPSC-derived Cell-Types in Novel Functional Assays, Disease Modeling and Drug DiscoveryПодробнее

Using Human iPSC-derived Cell-Types in Novel Functional Assays, Disease Modeling and Drug Discovery

Webinar: APC & iPSC: iPSC-derived human neurons and glia for disease modeling and drug discoveryПодробнее

Webinar: APC & iPSC: iPSC-derived human neurons and glia for disease modeling and drug discovery

Neuroservice USA proposes human iPSC-derived neurons electrophysiological recordingsПодробнее

Neuroservice USA proposes human iPSC-derived neurons electrophysiological recordings

Human Inducible Pluripotent Stem Cells in Drug Discovery & DevelopmentПодробнее

Human Inducible Pluripotent Stem Cells in Drug Discovery & Development

Human iPS Cell-derived Neurons: A New Physiologically Relevant Model for Drug Discovery...Подробнее

Human iPS Cell-derived Neurons: A New Physiologically Relevant Model for Drug Discovery...

Using iPS cell technology to model human neurodegenerative diseasesПодробнее

Using iPS cell technology to model human neurodegenerative diseases

Human iPSC-based disease modeling and therapeutic developmentПодробнее

Human iPSC-based disease modeling and therapeutic development

Human Induced Pluripotent Stem Cell-Derived Cortical & Dopaminergic Neurons l Protocol PreviewПодробнее

Human Induced Pluripotent Stem Cell-Derived Cortical & Dopaminergic Neurons l Protocol Preview

Human iPSC-derived Midbrain Dopaminergic Neurons for Parkinson’s Disease Modeling and Cell TherapyПодробнее

Human iPSC-derived Midbrain Dopaminergic Neurons for Parkinson’s Disease Modeling and Cell Therapy

Addressing the scalability of human iPSC-derived neurons for HTS implementationПодробнее

Addressing the scalability of human iPSC-derived neurons for HTS implementation

Generating human sensory neurons from induced pluripotent stem cellsПодробнее

Generating human sensory neurons from induced pluripotent stem cells

Björn Knollmann - Optical pacing and ML for improved electrophys. characterization of human iPSC-CMПодробнее

Björn Knollmann - Optical pacing and ML for improved electrophys. characterization of human iPSC-CM