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Cell reports (Cambridge), ISSN 2211-1247, 2016, Volume 16, Issue 10, pp. 2576 - 2592
.... Here, we describe the derivation and characterization, including single-cell RNA-seq, of neocortical and spinal cord neuroepithelial stem (NES... 
NEURAL PROGENITORS | LONG-TERM | HUMAN BRAIN | ADAPTER | CENTRAL-NERVOUS-SYSTEM | INFECTION | MICE | BINDING KINASE 1 | ORGANOIDS | INNATE IMMUNITY | CELL BIOLOGY | Neocortex - pathology | Neurons - pathology | Transcription, Genetic - drug effects | Brain - embryology | Neuroglia - ultrastructure | Neuroglia - pathology | Humans | Brain - virology | Centrosome - drug effects | Gene Expression Profiling | Microcephaly - virology | Neural Stem Cells - ultrastructure | Zika Virus Infection - virology | Neural Stem Cells - immunology | Neuroepithelial Cells - immunology | Neuroprotective Agents - pharmacology | Spinal Cord - pathology | Microcephaly - pathology | Neuroepithelial Cells - virology | Nucleosides - pharmacology | Fetus - virology | Cell Death - drug effects | Phosphorylation - drug effects | Neurons - drug effects | Protein-Serine-Threonine Kinases - metabolism | Zika Virus - pathogenicity | Proto-Oncogene Proteins - metabolism | Zika Virus - ultrastructure | Neurons - virology | Virus Replication - drug effects | Neuroepithelial Cells - ultrastructure | Immunity, Innate - drug effects | Zika Virus Infection - pathology | Neural Stem Cells - virology | Zika Virus - physiology | Zika Virus - drug effects | Mitochondria - metabolism | Mitochondria - drug effects | Receptor Protein-Tyrosine Kinases - metabolism | Neural Stem Cells - enzymology | Centrosome - metabolism | Mitosis - drug effects | Brain - pathology | Protein Kinase Inhibitors - pharmacology | Neuroglia - virology | Neuroepithelial Cells - drug effects | Neurons/pathology | Zika Virus/pathogenicity | Mitochondria/metabolism | Virus Replication/drug effects | Microcephaly/pathology | Neurons/drug effects | Protein-Serine-Threonine Kinases/metabolism | Neural Stem Cells/immunology | Neuroglia/ultrastructure | Neuroepithelial Cells/drug effects | Neuroepithelial Cells/virology | Life Sciences | Brain/pathology | Zika Virus/drug effects | Brain/embryology | Mitochondria/drug effects | Fetus/virology | Neocortex/pathology | Neuroglia/pathology | Cell Death/drug effects | Mitosis/drug effects | Transcription, Genetic/drug effects | Nucleosides/pharmacology | Neural Stem Cells/enzymology | Neural Stem Cells/ultrastructure | Neuroepithelial Cells/ultrastructure | Receptor Protein-Tyrosine Kinases/metabolism | Microcephaly/virology | Proto-Oncogene Proteins/metabolism | Neuroprotective Agents/pharmacology | Zika Virus/ultrastructure | Neuroepithelial Cells/immunology | Brain/virology | Immunity, Innate/drug effects | Spinal Cord/pathology | Zika Virus/physiology | Neuroglia/virology | Microbiology and Parasitology | Zika Virus Infection/pathology | Neurons/virology | Zika Virus Infection/virology | Neural Stem Cells/virology | Centrosome/drug effects | Protein Kinase Inhibitors/pharmacology | Centrosome/metabolism | Phosphorylation/drug effects
Journal Article
Bioimpacts, ISSN 2228-5660, 12/2018, Volume 8, Issue Suppl 1, pp. S1 - S129
Journal Article
Nature (London), ISSN 1476-4687, 2010, Volume 466, Issue 7308, pp. 829 - 834
The cellular constituents forming the haematopoietic stem cell (HSC) niche in the bone marrow are unclear, with studies implicating osteoblasts, endothelial and perivascular cells... 
PROGENITOR CELLS | OSTEOBLAST | OSTEOPONTIN | MICROENVIRONMENT | MULTIDISCIPLINARY SCIENCES | SELF-RENEWAL | RECEPTOR | DIFFERENTIATION | NEURAL CREST | COOPERATION | EXPRESSION | Chondrocytes - cytology | Nestin | Multipotent Stem Cells - metabolism | Parathyroid Hormone - pharmacology | Cell Lineage - drug effects | Chondrocytes - drug effects | Mesenchymal Stromal Cells - cytology | Multipotent Stem Cells - drug effects | Sympathetic Nervous System - physiology | Cell Division | Stromal Cells - drug effects | Osteoblasts - cytology | Hematopoietic Stem Cells - drug effects | Mesenchymal Stromal Cells - drug effects | Gene Expression Regulation - genetics | Osteoblasts - drug effects | Stromal Cells - metabolism | Cells, Cultured | Mesenchymal Stromal Cells - metabolism | Mice, Transgenic | Hematopoietic Stem Cells - metabolism | Stem Cell Niche - cytology | Nerve Tissue Proteins - metabolism | Granulocyte Colony-Stimulating Factor - pharmacology | Animals | Chemokine CXCL12 - metabolism | Cell Differentiation - drug effects | Multipotent Stem Cells - cytology | Hematopoietic Stem Cells - cytology | Stem Cell Niche - metabolism | Mice | Stem Cell Niche - drug effects | Osteoblasts - metabolism | Intermediate Filament Proteins - metabolism | Mesenchymal Stem Cell Transplantation | Stromal Cells - cytology | Cell Movement | Physiological aspects | Genetic aspects | Research | Bone marrow cells | Gene expression | Osteoblasts | Hematopoietic stem cells | Studies | Proteins | Bone marrow | Rodents | Stem cells
Journal Article
PloS one, ISSN 1932-6203, 2011, Volume 6, Issue 4, p. e18784
.... Melanoma comprises multi-subpopulations of cancer cells some of which may possess stem cell-like properties... 
INITIATING CELLS | IN-VITRO | ACTIVATION | METASTASIS | MULTIDISCIPLINARY SCIENCES | B-16 MELANOMA | PHENOTYPE | LIGAND | EXPRESSION | CANCER STEM-CELLS | MHC CLASS-II | Embryonic Stem Cells - metabolism | Immunomodulation - drug effects | Transcription, Genetic - drug effects | Neoplastic Stem Cells - drug effects | Genes, Neoplasm | Humans | Neural Crest - pathology | Spheroids, Cellular - pathology | Gene Expression Profiling | Cell Lineage - drug effects | Neural Crest - metabolism | Neoplastic Stem Cells - metabolism | Melanoma - genetics | Neoplastic Stem Cells - pathology | Spheroids, Cellular - drug effects | Gene Expression Regulation, Neoplastic - drug effects | Tumor Cells, Cultured | Neoplasm Invasiveness | Spheroids, Cellular - metabolism | Melanoma - pathology | Neural Crest - drug effects | Pluripotent Stem Cells - metabolism | Transcription Factors - metabolism | Cell Movement - drug effects | Phenotype | Embryonic Stem Cells - drug effects | Cell Differentiation - drug effects | Melanoma - immunology | Pluripotent Stem Cells - drug effects | Culture Media - pharmacology | Cell Proliferation - drug effects | Metastasis | T cells | Gene expression | Analysis | Stem cells | Cancer | Cell proliferation | Transcription factors | Mesenchyme | Oct-4 protein | Lymphocytes T | Activation | Assaying | Immunity | Metastases | Skin cancer | Heterogeneity | Genotype & phenotype | Cell activation | KLF4 protein | Lymphocytes | Mathematical models | Immune system | Subpopulations | Antigens | Aggressive behavior | Cytokines | Immunomodulation | Tumor cells | Invasiveness | Melanoma | Tumorigenicity | Neural crest | Embryos | Spheroids | Studies | Ligands | Prostate cancer | Cell migration | Chemokines | Tumors | Apoptosis | Cell Proliferation | Gene Expression Regulation, Neoplastic | Neoplastic Stem Cells | Cellular Biology | Neural Crest | Life Sciences | Cell Lineage | Pluripotent Stem Cells | Culture Media | Transcription, Genetic | Cell Differentiation | Transcription Factors | Embryonic Stem Cells | Spheroids, Cellular | Cell Movement
Journal Article
Cell reports (Cambridge), ISSN 2211-1247, 2012, Volume 1, Issue 6, pp. 703 - 714
To model human neural-cell-fate specification and to provide cells for regenerative therapies, we have developed a method to generate human neural progenitors and neurons from human embryonic stem... 
HUMAN ES | IN-VITRO | VENTRAL MESENCEPHALON | FLOOR PLATE | MIDBRAIN DOPAMINE NEURONS | SUBSTANTIA-NIGRA | RAT MODEL | LINES | PARKINSONS-DISEASE | IPS CELLS | CELL BIOLOGY | Body Patterning - drug effects | Organ Specificity - drug effects | Embryonic Stem Cells - metabolism | Embryonic Stem Cells - cytology | Humans | Cell Survival - genetics | Motor Activity - drug effects | Neurons - cytology | Neural Stem Cells - cytology | Cell Culture Techniques - methods | Cell Lineage - drug effects | Neural Tube - drug effects | Cell Differentiation - genetics | Organ Specificity - genetics | Dopamine - secretion | Dopaminergic Neurons - metabolism | Telencephalon - drug effects | Dopaminergic Neurons - drug effects | Neural Stem Cells - transplantation | Neurons - metabolism | Neurons - drug effects | Cell Lineage - genetics | Cell Survival - drug effects | Telencephalon - metabolism | Telencephalon - cytology | Glycogen Synthase Kinase 3 - antagonists & inhibitors | Cells, Cultured | Neural Stem Cells - drug effects | Rats | Glycogen Synthase Kinase 3 - metabolism | Aging - pathology | Gene Expression Regulation - drug effects | Phenotype | Animals | Wnt Signaling Pathway - drug effects | Embryonic Stem Cells - drug effects | Wnt Signaling Pathway - genetics | Cell Differentiation - drug effects | Cell Proliferation - drug effects | Protein Kinase Inhibitors - pharmacology | Neural Tube - embryology | Body Patterning - genetics | Neural Stem Cells - metabolism | Electrophysiological Phenomena - drug effects | Biological Sciences | Biologi | Naturvetenskap | Cellbiologi | Natural Sciences | Cell Biology
Journal Article
Proceedings of the National Academy of Sciences - PNAS, ISSN 1091-6490, 2015, Volume 112, Issue 40, pp. 12516 - 12521
Human pluripotent stem cell-based in vitro models that reflect human physiology have the potential to reduce the number of drug failures in clinical trials and offer a cost-effective approach... 
Organoid | Toxicology | Differentiation | Tissue engineering | Machine learning | toxicology | HUMAN NEOCORTEX | tissue engineering | DEVELOPMENTAL NEUROTOXICITY | differentiation | HUMAN BRAIN | MULTIDISCIPLINARY SCIENCES | CLASSIFICATION | FATTY-ACIDS | machine learning | CANCER | organoid | IN-VITRO | HUMAN CEREBRAL-CORTEX | MICROGLIA | GENE-EXPRESSION | Embryonic Stem Cells - metabolism | Microglia - metabolism | Embryonic Stem Cells - cytology | Humans | Brain - growth & development | Support Vector Machine | Neural Stem Cells - cytology | Xenobiotics - pharmacology | Brain - metabolism | Neurogenesis - genetics | Mesenchymal Stromal Cells - cytology | Xenobiotics - classification | Gene Expression Regulation, Developmental | Cell Differentiation | Neurogenesis - drug effects | Culture Media, Serum-Free - pharmacology | Gene Ontology | Polyethylene Glycols - pharmacology | Microglia - cytology | Mesenchymal Stromal Cells - drug effects | Brain - cytology | Pluripotent Stem Cells - cytology | Tissue Engineering - methods | Microglia - drug effects | Endothelial Cells - metabolism | Cells, Cultured | Neural Stem Cells - drug effects | Mesenchymal Stromal Cells - metabolism | Cell Communication - genetics | Macrophages - cytology | Pluripotent Stem Cells - metabolism | Macrophages - metabolism | Embryonic Stem Cells - drug effects | Endothelial Cells - cytology | Models, Biological | Pluripotent Stem Cells - drug effects | Cell Communication - drug effects | Macrophages - drug effects | Hydrogels - pharmacology | Neural Stem Cells - metabolism | Endothelial Cells - drug effects | Biological Sciences
Journal Article
PloS one, ISSN 1932-6203, 02/2013, Volume 8, Issue 2, p. e56289
Journal Article
Nature (London), ISSN 1476-4687, 2012, Volume 489, Issue 7414, pp. 150 - 154
Journal Article
Development (Cambridge), ISSN 0950-1991, 11/2013, Volume 140, Issue 22, pp. 4510 - 4521
Muller glia function as retinal stem cells in adult zebrafish. In response to loss of retinal neurons, Muller glia partially dedifferentiate, re-express neuroepithelial markers and re-enter the cell cycle... 
Müller glia | N-cadherin | Retinal regeneration | Alcama | Muller glia | STEM-CELLS | DEDIFFERENTIATION | PROLIFERATION | DEVELOPMENTAL BIOLOGY | GOLDFISH RETINA | ADULT ZEBRAFISH | VERTEBRATE RETINA | ROD PHOTORECEPTORS | SIGNALING PATHWAY | NEUROGENESIS | LINEAGE | Cadherins - metabolism | Multipotent Stem Cells - metabolism | Photoreceptor Cells, Vertebrate - drug effects | Ependymoglial Cells - metabolism | Neural Stem Cells - cytology | Neuroepithelial Cells - cytology | Retinal Ganglion Cells - metabolism | Retinal Neurons - cytology | Retinal Ganglion Cells - cytology | Neurogenesis - drug effects | Retinal Neurons - drug effects | Asymmetric Cell Division - drug effects | Ouabain - pharmacology | Biomarkers - metabolism | Cell Dedifferentiation - drug effects | Zebrafish Proteins - metabolism | Neural Stem Cells - drug effects | Photoreceptor Cells, Vertebrate - cytology | Cell Adhesion - drug effects | Ependymoglial Cells - drug effects | Regeneration - drug effects | Animals | Retinal Neurons - metabolism | Models, Biological | Multipotent Stem Cells - cytology | Zebrafish - metabolism | Ependymoglial Cells - cytology | Heterozygote | Neuroepithelial Cells - metabolism | Photoreceptor Cells, Vertebrate - metabolism | Cell Cycle - drug effects | Neural Stem Cells - metabolism | Retinal Ganglion Cells - drug effects | Stem Cells and Regeneration
Journal Article
PloS one, ISSN 1932-6203, 2012, Volume 7, Issue 1, p. e29597
Human embryonic stem cells (hESC) and induced pluripotent stem cells (iPSC) provide new prospects for studying human neurodevelopment and modeling neurological disease... 
HUMAN ES | INHIBITION | FGF | MULTIDISCIPLINARY SCIENCES | CENTRAL-NERVOUS-SYSTEM | DIFFERENTIATION CAPACITY | PRECURSORS | Oligonucleotide Array Sequence Analysis | Humans | Fibroblast Growth Factor 2 - pharmacology | Neurons - cytology | Gene Expression Profiling | Neural Stem Cells - cytology | Neuroepithelial Cells - cytology | Neuroglia - cytology | Neurons - metabolism | Induced Pluripotent Stem Cells - cytology | Induced Pluripotent Stem Cells - metabolism | Cell Line | Pluripotent Stem Cells - cytology | Transcription Factors - genetics | Reverse Transcriptase Polymerase Chain Reaction | Pluripotent Stem Cells - metabolism | Transcription Factors - metabolism | Cell Differentiation - drug effects | Fluorescent Antibody Technique | Neuroglia - metabolism | Cell Proliferation - drug effects | Neuroepithelial Cells - metabolism | Epidermal Growth Factor - pharmacology | Neural Stem Cells - metabolism | Cluster Analysis | Medical research | Nervous system diseases | Epidermal growth factor | Neurons | Medicine, Experimental | Fibroblast growth factors | Comparative analysis | Embryonic stem cells | Neurophysiology | Neurosciences | Laboratories | Neurobiology | Embryo cells | Radial glial cells | Nervous system | Biochemistry | Neurodevelopmental disorders | Neuronal-glial interactions | Genotype & phenotype | Fibroblasts | Physiology | Growth factors | Fibroblast growth factor 2 | Fetuses | Embryos | Brain research | Stem cells | Comparative studies | Hindbrain | Bayesian analysis | Pluripotency
Journal Article