Quantum dot fluorescence characterizes the nanoscale organization of T cell receptors for antigen.

[1]  David A. Williams,et al.  Diffusion Dynamics of Glycine Receptors Revealed by Single – Quantum Dot Tracking , 2012 .

[2]  Douglas P. Shepherd,et al.  Fluorescence Intermittency and Energy Transfer in Small Clusters of Semiconductor Quantum Dots , 2010 .

[3]  J. D. Lee,et al.  Intensified blinking, continuous memory loss, and fluorescence enhancement of interacting light-emission quantum dots , 2009 .

[4]  Paul W Wiseman,et al.  Accurate measurements of protein interactions in cells via improved spatial image cross-correlation spectroscopy. , 2008, Molecular bioSystems.

[5]  Yong Chen,et al.  NSOM/QD-based nanoscale immunofluorescence imaging of antigen-specific T-cell receptor responses during an in vivo clonal Vγ2Vδ2 T-cell expansion. , 2008, Blood.

[6]  Bridget S. Wilson,et al.  Plasma membrane-associated proteins are clustered into islands attached to the cytoskeleton , 2006, Proceedings of the National Academy of Sciences.

[7]  A. Van Orden,et al.  Enhanced fluorescence intermittency of CdSe-ZnS quantum-dot clusters. , 2006, Physical review letters.

[8]  P. Wiseman,et al.  k-Space image correlation spectroscopy: a method for accurate transport measurements independent of fluorophore photophysics. , 2006, Biophysical journal.

[9]  J. Stone,et al.  CD8 T cells, like CD4 T cells, are triggered by multivalent engagement of TCRs by MHC-peptide ligands but not by monovalent engagement. , 2006, The Journal of Immunology.

[10]  J. Stone,et al.  CD8 T Cells, Like CD4 T Cells, Are Triggered by Multivalent Engagement of TCRs by MHC-Peptide Ligands but Not by Monovalent Engagement1 , 2006, The Journal of Immunology.

[11]  B. Alarcón,et al.  Coexistence of multivalent and monovalent TCRs explains high sensitivity and wide range of response , 2005, The Journal of experimental medicine.

[12]  Santiago Costantino,et al.  Spatiotemporal image correlation spectroscopy (STICS) theory, verification, and application to protein velocity mapping in living CHO cells. , 2005, Biophysical journal.

[13]  S. Gambhir,et al.  Quantum Dots for Live Cells, in Vivo Imaging, and Diagnostics , 2005, Science.

[14]  T. Fahmy,et al.  Increased TCR avidity after T cell activation: a mechanism for sensing low-density antigen. , 2001, Immunity.

[15]  Kristel Michielsen,et al.  Morphological image analysis , 2000 .