Distribution of CD133 reveals glioma stem cells self-renew through symmetric and asymmetric cell divisions - CD133 - Document - PDFSEARCH.IO - Document Search Engine

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	Distribution of CD133 reveals glioma stem cells self-renew through symmetric and asymmetric cell divisions Add to Reading List Document Date: 2011-09-01 06:00:36 Open Document File Size: 1,10 MB Share Result on Facebook City Dresden / Erbach / Downingtown / Pittsburgh / Wetzlar / Cleveland / Durham / San Jose / St. Louis / Rochester / Charlottesville / Minneapolis / Chicago / / Company Prior Scientific Inc. / MetaMorph Software / Millipore / Leica Microsystems GmbH / Chenn2 AB / Vincent Associates / BD Biosciences / IgG / Adobe / PeCon GmbH / Beckman Coulter / Pearson / Roper / 8Tissue Engineering Laboratories / Macmillan Publishers Limited / acquired using a Leica / / Country Germany / United States / / / Event Product Issues / FDA Phase / Product Recall / / Facility Scale bar / Cleveland Clinic / University of Virginia / Lerner Research Institute / National Institute of Neurological Disorders / SAS Institute / Duke University Medical Center / University of Pittsburgh Cancer Institute / / / IndustryTerm culture media / imaging / similar algorithm / oil immersion objective / cell division machinery / search algorithm / polygon tool / neurobasal media / time-lapse imaging / / MedicalCondition intracranial tumor / glioma stem cells / glioma cells / different gliomas / unsorted tumor / bulk tumor / xenograft dissociation / tumor / cancer / Tumors / IV tumors / Papain dissociation / human glioma specimens / tumorigenic stem-like cancer / glioma stem cell / Experimental Medicine Malignant gliomas / glioma / gliomas / bulk tumors / poorly defined tumor / efficiently formed tumors / EHS sarcoma / several central nervous system tumors / necrosis / glioma surgical tissues / glioma specimens / Disease / Intracranial tumors / Discussion Malignant gliomas / glioma stem cell division mode JD Lathia et al / aggressive tumors / Malignant gliomas / / MedicalTreatment radiation / Neurological Surgery / chemotherapy / / Organization World Health Organization / Northwestern University Medical School / Department of Pharmacology and Cancer Biology / National Institute of Neurological Disorders and Stroke / University of Virginia / University of Pittsburgh / Department of Stem Cell Biology and Regenerative Medicine / US Federal Reserve / Duke University Medical Center Institutional Review Board / National Institute of Health / Pittsburgh Cancer Institute / SAS Institute / Duke University Medical Center / Lerner Research Institute / / Person Aria II / Silver Spring / Pixel / / / Position linearly encoded controller / Representative / temperature controller / / Product pseudo / EGF / FGF / conditions / Growth factor / T4302 / / ProgrammingLanguage visual basic / / ProvinceOrState Ohio / Virginia / Maryland / Illinois / Pennsylvania / North Carolina / / Technology radiation / search algorithm / stem cells / apoptosis / chemotherapy / similar algorithm / antibodies / Regenerative Medicine / observed using various anti-CD133 antibodies / / URL www.nature.com/cddis / / SocialTag Developmental biology Biotechnology Cellular processes Hematopoietic stem cell CD133 Asymmetric cell division Stem cell NUMB Cell growth Biology