Unraveling cell populations in tumors by single-cell mass cytometry.
暂无分享,去创建一个
[1] S. Tanner,et al. A sensitive and quantitative element-tagged immunoassay with ICPMS detection. , 2002, Analytical chemistry.
[2] Garry P Nolan,et al. Fluorescent cell barcoding in flow cytometry allows high-throughput drug screening and signaling profiling , 2006, Nature Methods.
[3] O. Ornatsky,et al. Multiple cellular antigen detection by ICP-MS. , 2006, Journal of immunological methods.
[4] Guohua Zhang,et al. Polymer-based elemental tags for sensitive bioassays. , 2007, Angewandte Chemie.
[5] Markus Ringnér,et al. What is principal component analysis? , 2008, Nature Biotechnology.
[6] O. Ornatsky,et al. Element-tagged immunoassay with ICP-MS detection: evaluation and comparison to conventional immunoassays. , 2008, Journal of immunological methods.
[7] O. Ornatsky,et al. Study of cell antigens and intracellular DNA by identification of element-containing labels and metallointercalators using inductively coupled plasma mass spectrometry. , 2008, Analytical chemistry.
[8] Stuart C. Thickett,et al. Lanthanide-containing polymer microspheres by multiple-stage dispersion polymerization for highly multiplexed bioassays. , 2009, Journal of the American Chemical Society.
[9] Raphael Gottardo,et al. flowClust: a Bioconductor package for automated gating of flow cytometry data , 2009, BMC Bioinformatics.
[10] O. Ornatsky,et al. Mass cytometry: technique for real time single cell multitarget immunoassay based on inductively coupled plasma time-of-flight mass spectrometry. , 2009, Analytical chemistry.
[11] Arvind Gupta,et al. Data reduction for spectral clustering to analyze high throughput flow cytometry data , 2010, BMC Bioinformatics.
[12] Greg Finak,et al. Merging Mixture Components for Cell Population Identification in Flow Cytometry , 2009, Adv. Bioinformatics.
[13] Stuart C. Thickett,et al. Metal-Containing Polystyrene Beads as Standards for Mass Cytometry. , 2010, Journal of analytical atomic spectrometry.
[14] K. Polyak,et al. Tumor heterogeneity: causes and consequences. , 2010, Biochimica et biophysica acta.
[15] S. Bodovitz,et al. Single cell analysis: the new frontier in 'omics'. , 2010, Trends in biotechnology.
[16] Mohsen Soleimani,et al. Synthesis of a functional metal-chelating polymer and steps toward quantitative mass cytometry bioassays. , 2010, Analytical chemistry.
[17] Dmitry Bandura,et al. Highly multiparametric analysis by mass cytometry. , 2010, Journal of immunological methods.
[18] Rebecca Nugent,et al. An overview of clustering applied to molecular biology. , 2010, Methods in molecular biology.
[19] Jill P. Mesirov,et al. Automated High-Dimensional Flow Cytometric Data Analysis , 2010, RECOMB.
[20] O. Ornatsky,et al. Curious results with palladium- and platinum-carrying polymers in mass cytometry bioassays and an unexpected application as a dead cell stain. , 2011, Biomacromolecules.
[21] Sean C. Bendall,et al. Single-Cell Mass Cytometry of Differential Immune and Drug Responses Across a Human Hematopoietic Continuum , 2011, Science.
[22] Sean C. Bendall,et al. Extracting a Cellular Hierarchy from High-dimensional Cytometry Data with SPADE , 2011, Nature Biotechnology.
[23] A. Singh,et al. Single-cell protein analysis. , 2012, Current opinion in biotechnology.
[24] Sean C. Bendall,et al. From single cells to deep phenotypes in cancer , 2012, Nature Biotechnology.
[25] M. Roizen,et al. Hallmarks of Cancer: The Next Generation , 2012 .
[26] Erin F. Simonds,et al. A platinum‐based covalent viability reagent for single‐cell mass cytometry , 2012, Cytometry. Part A : the journal of the International Society for Analytical Cytology.
[27] M. Vincent. Cancer: a de-repression of a default survival program common to all cells?: a life-history perspective on the nature of cancer. , 2012, BioEssays : news and reviews in molecular, cellular and developmental biology.
[28] Carlo C. Maley,et al. Clonal evolution in cancer , 2012, Nature.
[29] Matthew R Clutter,et al. Single‐cell mass cytometry adapted to measurements of the cell cycle , 2012, Cytometry. Part A : the journal of the International Society for Analytical Cytology.
[30] Teresa H. Y. Meng,et al. CytoSPADE: high-performance analysis and visualization of high-dimensional cytometry data , 2012, Bioinform..
[31] Karen Sachs,et al. Multiplexed mass cytometry profiling of cellular states perturbed by small-molecule regulators , 2012, Nature Biotechnology.
[32] Sean C. Bendall,et al. Cytometry by time-of-flight shows combinatorial cytokine expression and virus-specific cell niches within a continuum of CD8+ T cell phenotypes. , 2012, Immunity.
[33] Sean C. Bendall,et al. A deep profiler's guide to cytometry. , 2012, Trends in immunology.
[34] Sean C. Bendall,et al. Normalization of mass cytometry data with bead standards , 2013, Cytometry. Part A : the journal of the International Society for Analytical Cytology.
[35] Daniel Grolimund,et al. Fast chemical imaging at high spatial resolution by laser ablation inductively coupled plasma mass spectrometry. , 2013, Analytical chemistry.
[36] Garry P Nolan,et al. Single-cell Mass Cytometry for Analysis of Immune System Functional States This Review Comes from a Themed Issue on Host Pathogens Basic Concepts of Mass Cytometry , 2022 .
[37] O. Ornatsky,et al. An introduction to mass cytometry: fundamentals and applications , 2013, Cancer Immunology, Immunotherapy.
[38] Mark M Davis,et al. Combinatorial tetramer staining and mass cytometry analysis facilitate T-cell epitope mapping and characterization , 2013, Nature Biotechnology.
[39] Sean C. Bendall,et al. viSNE enables visualization of high dimensional single-cell data and reveals phenotypic heterogeneity of leukemia , 2013, Nature Biotechnology.
[40] Sean C. Bendall,et al. Single-Cell Trajectory Detection Uncovers Progression and Regulatory Coordination in Human B Cell Development , 2014, Cell.
[41] Sean C. Bendall,et al. Multiplexed ion beam imaging of human breast tumors , 2014, Nature Medicine.
[42] J. Buhmann,et al. Highly multiplexed imaging of tumor tissues with subcellular resolution by mass cytometry , 2014, Nature Methods.
[43] G. Nolan,et al. Mass cytometry to decipher the mechanism of nongenetic drug resistance in cancer. , 2014, Current Topics in Microbiology and Immunology.
[44] Manfred Claassen,et al. Shooting movies of signaling network dynamics with multiparametric cytometry. , 2014, Current topics in microbiology and immunology.
[45] Jonathan M Irish,et al. High-dimensional single-cell cancer biology. , 2014, Current topics in microbiology and immunology.
[46] R. Tibshirani,et al. Automated identification of stratifying signatures in cellular subpopulations , 2014, Proceedings of the National Academy of Sciences.
[47] Bernd Bodenmiller,et al. A practical guide to multiplexed mass cytometry. , 2014, Current topics in microbiology and immunology.
[48] G. Nolan,et al. Antigen-Dependent Integration of Opposing Proximal TCR-Signaling Cascades Determines the Functional Fate of T Lymphocytes , 2014, The Journal of Immunology.