Computational Systems Biology Methods and Protocols.7z

13-parameter flow cytometry: identification

of human naive T cells by phenotype, func-

tion, and T-cell receptor diversity. Nat Med 7

(2):245–248. https://doi.org/10.1038/

84701

45. Perfetto SP, Chattopadhyay PK, Roederer M
    (2004) Seventeen-colour flow cytometry:
    unravelling the immune system. Nat Rev
    Immunol 4(8):648–655. https://doi.org/
    10.1038/nri1416


46. Herzenberg LA, Parks D, Sahaf B, Perez O,
    Roederer M, Herzenberg LA (2002) The his-
    tory and future of the fluorescence activated
    cell sorter and flow cytometry: a view from
    stanford. Clin Chem 48(10):1819–1827


47. Zenger VE, Vogt R, Mandy F, Schwartz A,
    Marti GE (1998) Quantitative flow cytome-
    try: inter-laboratory variation. Cytometry 33
    (2):138–145. https://doi.org/10.1002/(
    SICI)1097-0320(19981001)33:2<138::
    AID-CYTO8>3.0.CO;2-F


48. Schwartz A, Fernandez-Repollet E (2001)
    Quantitative flow cytometry. Clin Lab Med
    21(4):743–761


49. Marti GE, Zenger VE, Vogt R, Gaigalas A
    (2002) Quantitative flow cytometry: history,
    practice, theory, consensus, inter-laboratory
    variation and present status. Cytotherapy 4
    (1):97–98. https://doi.org/10.1080/
    146532402317251626


50. Maher KJ, Fletcher MA (2005) Quantitative
    flow cytometry in the clinical laboratory. Clin
    Appl Immunol Rev 5(6):353–372.https://
    doi.org/10.1016/j.cair.2005.10.001


51. Atkuri KR, Stevens JC, Neubert H (2015)
    Mass cytometry: a highly multiplexed single-
    cell technology for advancing drug develop-
    ment. Drug Metab Dispos 43(2):227–233.
    https://doi.org/10.1124/dmd.114.060798


52. Spitzer Matthew H, Nolan Garry P (2016)
    Mass cytometry: single cells, many features.
    Cell 165(4):780–791. https://doi.org/10.
    1016/j.cell.2016.04.019


53. Comi TJ, Do TD (2017) Categorizing cells
    on the basis of their chemical profiles: prog-
    ress in single-cell mass spectrometry. J Am
    Chem Soc 139(11):3920–3929.https://doi.
    org/10.1021/jacs.6b12822


54. Bendall SC, Nolan GP, Roederer M, Chatto-
    padhyay PK (2012) A deep profiler’s guide to
    cytometry. Trends Immunol 33(7):323–332.
    https://doi.org/10.1016/j.it.2012.02.010


55. Bjornson ZB, Nolan GP, Fantl WJ (2013)
    Single-cell mass cytometry for analysis of
    immune system functional states. Curr Opin
    Immunol 25(4):484–494.https://doi.org/
    10.1016/j.coi.2013.07.004
    56. Ornatsky OI, Kinach R, Bandura DR, Lou X,
    Tanner SD, Baranov VI, Nitz M, Winnik MA
    (2008) Development of analytical methods
    for multiplex bio-assay with inductively cou-
    pled plasma mass spectrometry. J Anal At
    Spectrom 23(4):463–469. https://doi.org/
    10.1039/b710510j
    57. Ornatsky OI, Lou X, Nitz M, Schafer S, Shel-
    drick WS, Baranov VI, Bandura DR, Tanner
    SD (2008) Study of cell antigens and intracel-
    lular DNA by identification of element-
    containing labels and metallointercalators
    using inductively coupled plasma mass spec-
    trometry. Anal Chem 80(7):2539–2547.
    https://doi.org/10.1021/ac702128m
    58. Bandura DR, Baranov VI, Ornatsky OI,
    Antonov A, Kinach R, Lou X, Pavlov S,
    Vorobiev S, Dick JE, Tanner SD (2009)
    Mass cytometry: technique for real time single
    cell multitarget immunoassay based on induc-
    tively coupled plasma time-of-flight mass
    spectrometry. Anal Chem 81
    (16):6813–6822.https://doi.org/10.1021/
    ac901049w
    59. Bendall SC, Simonds EF, Qiu P, Amir el AD,
    Krutzik PO, Finck R, Bruggner RV,
    Melamed R, Trejo A, Ornatsky OI, Balderas
    RS, Plevritis SK, Sachs K, Pe’er D, Tanner SD,
    Nolan GP (2011) Single-cell mass cytometry
    of differential immune and drug responses
    across a human hematopoietic continuum.
    Science 332(6030):687–696. https://doi.
    org/10.1126/science.1198704
    60. Newell Evan W, Sigal N, Bendall Sean C,
    Nolan Garry P, Davis Mark M (2012) Cyto-
    metry by time-of-flight shows combinatorial
    cytokine expression and virus-specific cell
    niches within a continuum of CD8+ T cell
    phenotypes. Immunity 36(1):142–152.
    https://doi.org/10.1016/j.immuni.2012.
    01.002
    61. Horowitz A, Strauss-Albee DM, Leipold M,
    Kubo J, Nemat-Gorgani N, Dogan OC, Dek-
    ker CL, Mackey S, Maecker H, Swan GE,
    Davis MM, Norman PJ, Guethlein LA,
    Desai M, Parham P, Blish CA (2013) Genetic
    and environmental determinants of human
    NK cell diversity revealed by mass cytometry.
    Sci Transl Med 5(208):208ra145. https://
    doi.org/10.1126/scitranslmed.3006702
    62. Newell EW, Sigal N, Nair N, Kidd BA, Green-
    berg HB, Davis MM (2013) Combinatorial
    tetramer staining and mass cytometry analysis
    facilitate T-cell epitope mapping and charac-
    terization. Nat Biotechnol 31(7):623–629.
    https://doi.org/10.1038/nbt.2593
    63. Tanner SD, Baranov VI, Ornatsky OI, Ban-
    dura DR, George TC (2013) An introduction

Single-Cell Protein Assays: A Review 305