Paper Roundup: April 2016

  • Axial super-resolution using multi-angle TIRF and photobleaching [1]
  • A tool for simulating localization microscopy data [2]
  • Lattice Light Sheet plus PAINT for 3D localization microscopy of large volumes [3]
  • Monomeric streptavidin combined with enzymatic biotinylation as a labeling probe [4]
  • Massively parallel single-molecule FRET measurements with sCMOS cameras [5]
  • A microfluidic light sheet microscope [6]


  1. Y. Fu, P.W. Winter, R. Rojas, V. Wang, M. McAuliffe, and G.H. Patterson, "Axial superresolution via multiangle TIRF microscopy with sequential imaging and photobleaching", Proceedings of the National Academy of Sciences, vol. 113, pp. 4368-4373, 2016.
  2. V. Venkataramani, F. Herrmannsdörfer, M. Heilemann, and T. Kuner, "SuReSim: simulating localization microscopy experiments from ground truth models", Nature Methods, vol. 13, pp. 319-321, 2016.
  3. W.R. Legant, L. Shao, J.B. Grimm, T.A. Brown, D.E. Milkie, B.B. Avants, L.D. Lavis, and E. Betzig, "High-density three-dimensional localization microscopy across large volumes", Nature Methods, vol. 13, pp. 359-365, 2016.
  4. I. Chamma, M. Letellier, C. Butler, B. Tessier, K. Lim, I. Gauthereau, D. Choquet, J. Sibarita, S. Park, M. Sainlos, and O. Thoumine, "Mapping the dynamics and nanoscale organization of synaptic adhesion proteins using monomeric streptavidin", Nature Communications, vol. 7, 2016.
  5. M.F. Juette, D.S. Terry, M.R. Wasserman, R.B. Altman, Z. Zhou, H. Zhao, and S.C. Blanchard, "Single-molecule imaging of non-equilibrium molecular ensembles on the millisecond timescale", Nature Methods, vol. 13, pp. 341-344, 2016.
  6. P. Paiè, F. Bragheri, A. Bassi, and R. Osellame, "Selective plane illumination microscopy on a chip", Lab on a Chip, vol. 16, pp. 1556-1560, 2016.