Paper roundup – July 2015

  • A set of oxidation resistant fluorescent proteins that have also been carefully assessed for monomeric behavior [1]
  • Single molecule super-resolution imaging by transient binding of fluorescently labeled probes [2]
  • Speckle imaging with a single photon avalanche diode (SPAD) array. This is interesting not so much for the imaging, but for the SPAD array which looks like it may be a interesting new type of camera giving quantitative photon counts at very high speed. [3]
  • A monomeric infrared fluorescent protein [4]
  • Imaging of RNA-protein binding in vivo [5].
  • A nice review of tissue clearing methods [6]
  • BigNeuron: a community effort to develop algorithms to reconstruct neurons from image data [7]
  • Combining light sheet microscopy and optical trapping [8]
  • Using 488nm light and infrared light simultaneously to get photoconversion of Dendra2 and mEos2 [9]
  • A hyperspectral imaging microscope based on wavelength dispersion of focused spots on the sample [10]
  • A nice review on image transforms, compression, and denoising [11]
  • A long fluorescence lifetime GFP variant [12]
  • Construction of an iSIM (instant SIM) microscope [13]
  • Using neural networks for tomographic reconstruction [14] (News & Views in Nature [15]
  • A model-based approach to deconvolution [16]
  • Two photon adaptive optics by placing the defomable mirror outside of the pupil plane [17]
  • A comparison of objective lens performance for two-photon microscopy in scattering samples [18]


  1. L.M. Costantini, M. Baloban, M.L. Markwardt, M. Rizzo, F. Guo, V.V. Verkhusha, and E.L. Snapp, "A palette of fluorescent proteins optimized for diverse cellular environments", Nature Communications, vol. 6, 2015.
  2. T. Kiuchi, M. Higuchi, A. Takamura, M. Maruoka, and N. Watanabe, "Multitarget super-resolution microscopy with high-density labeling by exchangeable probes", Nature Methods, vol. 12, pp. 743-746, 2015.
  3. T. Dragojević, D. Bronzi, H.M. Varma, C.P. Valdes, C. Castellvi, F. Villa, A. Tosi, C. Justicia, F. Zappa, and T. Durduran, "High-speed multi-exposure laser speckle contrast imaging with a single-photon counting camera", Biomedical Optics Express, vol. 6, pp. 2865, 2015.
  4. D. Yu, M.A. Baird, J.R. Allen, E.S. Howe, M.P. Klassen, A. Reade, K. Makhijani, Y. Song, S. Liu, Z. Murthy, S. Zhang, O.D. Weiner, T.B. Kornberg, Y. Jan, M.W. Davidson, and X. Shu, "A naturally monomeric infrared fluorescent protein for protein labeling in vivo", Nature Methods, vol. 12, pp. 763-765, 2015.
  5. B. Wu, A. Buxbaum, Z. Katz, Y. Yoon, and R. Singer, "Quantifying Protein-mRNA Interactions in Single Live Cells", Cell, vol. 162, pp. 211-220, 2015.
  6. D.S. Richardson, and J.W. Lichtman, "Clarifying Tissue Clearing", Cell, vol. 162, pp. 246-257, 2015.
  7. H. Peng, M. Hawrylycz, J. Roskams, S. Hill, N. Spruston, E. Meijering, and G. Ascoli, "BigNeuron: Large-Scale 3D Neuron Reconstruction from Optical Microscopy Images", Neuron, vol. 87, pp. 252-256, 2015.
  8. Z. Yang, P. Piksarv, D.E. Ferrier, F.J. Gunn-Moore, and K. Dholakia, "Macro-optical trapping for sample confinement in light sheet microscopy", Biomedical Optics Express, vol. 6, pp. 2778, 2015.
  9. W.P. Dempsey, L. Georgieva, P.M. Helbling, A.Y. Sonay, T.V. Truong, M. Haffner, and P. Pantazis, "In vivo single-cell labeling by confined primed conversion", Nature Methods, vol. 12, pp. 645-648, 2015.
  10. A. Orth, M.J. Tomaszewski, R.N. Ghosh, and E. Schonbrun, "Gigapixel multispectral microscopy", Optica, vol. 2, pp. 654, 2015.
  11. L.P. Yaroslavsky, "Compression, restoration, resampling, ‘compressive sensing’: fast transforms in digital imaging", Journal of Optics, vol. 17, pp. 073001, 2015.
  12. K. Sarkisyan, A. Goryashchenko, P. Lidsky, D. Gorbachev, N. Bozhanova, A. Gorokhovatsky, A. Pereverzeva, A. Ryumina, V. Zherdeva, A. Savitsky, K. Solntsev, A. Bommarius, G. Sharonov, J. Lindquist, M. Drobizhev, T. Hughes, A. Rebane, K. Lukyanov, and A. Mishin, "Green Fluorescent Protein with Anionic Tryptophan-Based Chromophore and Long Fluorescence Lifetime", Biophysical Journal, vol. 109, pp. 380-389, 2015.
  13. A. Curd, A. Cleasby, K. Makowska, A. York, H. Shroff, and M. Peckham, "Construction of an instant structured illumination microscope", Methods, vol. 88, pp. 37-47, 2015.
  14. U.S. Kamilov, I.N. Papadopoulos, M.H. Shoreh, A. Goy, C. Vonesch, M. Unser, and D. Psaltis, "Learning approach to optical tomography", Optica, vol. 2, pp. 517, 2015.
  15. L. Waller, and L. Tian, "Machine learning for 3D microscopy", Nature, vol. 523, pp. 416-417, 2015.
  16. L. DAO, B. GLANCY, B. LUCOTTE, L. CHANG, R.S. BALABAN, and L. HSU, "A Model-based approach for microvasculature structure distortion correction in two-photon fluorescence microscopy images", Journal of Microscopy, vol. 260, pp. 180-193, 2015.
  17. J. Park, W. Sun, and M. Cui, "High-resolution in vivo imaging of mouse brain through the intact skull", Proceedings of the National Academy of Sciences, vol. 112, pp. 9236-9241, 2015.
  18. A. Singh, J.D. McMullen, E.A. Doris, and W.R. Zipfel, "Comparison of objective lenses for multiphoton microscopy in turbid samples", Biomedical Optics Express, vol. 6, pp. 3113, 2015.