Flow cytometry in cancer stem cell analysis and separation.
about
Cancer Stem Cell Quiescence and Plasticity as Major Challenges in Cancer TherapyCurrent approaches in identification and isolation of human renal cell carcinoma cancer stem cellsThyroid tumor-initiating cells: increasing evidence and opportunities for anticancer therapy (review)Cancer stem cells--the current status of an old concept: literature review and clinical approachesOptimized Stem Cell Detection Using the DyeCycle-Triggered Side Population Phenotype.Retinoic Acid Signaling Coordinates Macrophage-Dependent Injury and Repair after AKI.Harnessing the DNA Dye-triggered Side Population Phenotype to Detect and Purify Cancer Stem Cells from Biological Samples.Cancer stem cells: a systems biology view of their role in prognosis and therapyThe side population of ovarian cancer cells defines a heterogeneous compartment exhibiting stem cell characteristicsKinetic analysis of intracellular Hoechst 33342--DNA interactions by flow cytometry: misinterpretation of side population status?Chemical inhibition of acetyl-CoA carboxylase suppresses self-renewal growth of cancer stem cells.Syndecan-1 (CD138) modulates triple-negative breast cancer stem cell properties via regulation of LRP-6 and IL-6-mediated STAT3 signaling.Coexpression analysis of CD133 and CD44 identifies proneural and mesenchymal subtypes of glioblastoma multiforme.Heterogeneity of Cancer Stem Cells: Rationale for Targeting the Stem Cell Niche.Sulforaphane improves chemotherapy efficacy by targeting cancer stem cell-like properties via the miR-124/IL-6R/STAT3 axis.Mathematical modeling of PDGF-driven glioblastoma reveals optimized radiation dosing schedulesThe hitchhikers guide to cancer stem cell theory: markers, pathways and therapy.Cancer stem-like cells in Epstein-Barr virus-associated nasopharyngeal carcinoma.Nanocarrier-mediated drugs targeting cancer stem cells: an emerging delivery approach.Classification of cancer cell lines using matrix-assisted laser desorption/ionization time‑of‑flight mass spectrometry and statistical analysis.Shed proteoglycans in tumor stroma.Influence of secreted frizzled receptor protein 1 (SFRP1) on neoadjuvant chemotherapy in triple negative breast cancer does not rely on WNT signaling.Characterization of Cancer Stem Cells.Modulation of aspect ratio for complete separation in an inertial microfluidic channel.Brief report: Mesenchymal stromal cell atrophy in coculture increases aggressiveness of transformed cells.Immunological evaluation of the entirely carbohydrate-based Thomsen-Friedenreich - PS B conjugate.Expression of Multidrug Resistance Transporter ABCB5 in a Murine Model of Human Conjunctival Melanoma.Cytometry in stem cell research and therapy.CD24, CD44 and EpCAM enrich for tumour-initiating cells in a newly established patient-derived xenograft of nasopharyngeal carcinoma.Nanoparticle Delivery of miR-34a Eradicates Long-term-cultured Breast Cancer Stem Cells via Targeting C22ORF28 Directly.Senescence-associated reprogramming promotes cancer stemness.Biomarker discovery for renal cancer stem cells.[Cancer stem cells and high-throughput screening methods].Correlative Light-Electron Microscopy Shows RGD-Targeted ZnO Nanoparticles Dissolve in the Intracellular Environment of Triple Negative Breast Cancer Cells and Cause Apoptosis with Intratumor Heterogeneity.Lung cancer stem cells-origin, characteristics and therapy.Salinomycin may inhibit the cancer stem-like populations with increased chemoradioresistance that nasopharyngeal cancer tumorspheres contain.Role of Cancer Stem Cells in MetastasisSoft Tissue Sarcoma Cancer Stem Cells: An Overview
P2860
Q26740207-4516F723-BB9E-4209-A64D-F773F55D3CA2Q26786047-BD695585-468B-4462-9714-F51826DB8A4CQ27015644-8EB0DE99-1A7F-4BC4-BB6D-8785002A5023Q27025165-A8E3649F-6232-4F60-85AB-1462F5E10C4CQ27314826-CDF765E0-08A9-47F5-9079-E8BB2BE76615Q30703127-90E0CA38-1348-499E-B378-00C8A2A32BC9Q32177089-783B2C38-76B4-438D-8141-DF3AB56565C0Q33569712-9A02427A-58AE-4979-BD05-4DE29E46F98AQ34334489-289CA93C-030D-4D48-A211-A03D2C0541BEQ34470778-21334996-3AB6-4DCC-B96A-390B71FB249BQ34483548-6AB0F451-9728-441A-908F-BE460D8B1524Q35083176-A8AA27DD-2873-45BB-9A23-346B03713059Q35573268-C870AB8C-4443-4DE7-A9FE-B328A301A11AQ36165598-1972782A-3978-4B3B-965F-EF2467708FF4Q37400105-971697CB-6DF7-40EF-A1AF-A8F2DF0ADD6CQ37581947-9CD2ADAB-32BB-4D2F-8082-A5C90E3B2AE0Q38045265-73CFBEBA-C0CB-428A-BD33-9DE5A2E557A8Q38249887-5A966E5D-A129-4FAA-8DC0-D6363B41AC14Q38324456-76703E15-3DCC-4C00-8F22-CB2F5D7548C7Q38695937-36AC601C-77F9-40B3-8950-6CD3933F1DCAQ38882752-4020C27B-F0B2-4771-BCBC-D6D0049305E4Q38974592-FA88F8E8-1A40-4D83-B107-53B1CB40AD0FQ39011862-B733C41C-E43F-4C61-93ED-61520C2188B5Q39175687-B748BC69-F6B5-4D18-A2EF-66F7C87464A4Q39195214-E6DBF07B-0928-4CC4-AEB2-5B05382C4E0AQ39935587-82E0C2A6-9522-41A8-B39C-DC25D45A555BQ40399058-F17118DC-9C18-4CF9-87AE-F3986316494FQ41837563-C47AFF6F-2F19-42ED-9CF6-A5C5236EDCC2Q42366441-0F43A7B7-764E-4466-9B64-EABB028312F6Q47139128-4CCFB169-C522-4564-B9B8-42997195AF28Q47282247-6A59F513-CC87-4C8D-8BBD-F115DF10E540Q50049701-4043FAFB-4AB5-4288-B1D9-3C6B6D9F76DDQ50794062-A8B4DF8E-65D7-42C1-B81B-8A95472E13F5Q51357931-987E2939-7BAE-43A7-98B0-BD0922BD29F0Q52571052-6AA7D98C-A76C-442C-BEE6-8C135CD54371Q55656787-02A7EF1B-B9F9-4BDA-B615-56FDEC1CDC14Q57596254-46B2D22A-5DF6-4F9A-9F7A-FE98016ABA8FQ58707604-6E6DB0C2-9711-4A77-95D3-2EEFD2E7C62C
P2860
Flow cytometry in cancer stem cell analysis and separation.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Flow cytometry in cancer stem cell analysis and separation.
@en
Flow cytometry in cancer stem cell analysis and separation.
@nl
type
label
Flow cytometry in cancer stem cell analysis and separation.
@en
Flow cytometry in cancer stem cell analysis and separation.
@nl
prefLabel
Flow cytometry in cancer stem cell analysis and separation.
@en
Flow cytometry in cancer stem cell analysis and separation.
@nl
P2093
P2860
P356
P1433
P1476
Flow cytometry in cancer stem cell analysis and separation.
@en
P2093
Burkhard Greve
Hans Theodor Eich
Kristina Spaniol
Martin Götte
Reinhard Kelsch
P2860
P304
P356
10.1002/CYTO.A.22022
P577
2012-02-06T00:00:00Z