A user-interactive algorithm quantifying nuclear pore complex distribution within the nuclear lamina network in single molecular localization microscopic image.

[1]  Robert D. Goldman,et al.  The molecular architecture of lamins in somatic cells , 2017, Nature.

[2]  C. Stewart,et al.  A-type Lamins Form Distinct Filamentous Networks with Differential Nuclear Pore Complex Associations , 2016, Current Biology.

[3]  Weidong Yang,et al.  The selective permeability barrier in the nuclear pore complex , 2016, Nucleus.

[4]  W. Xie,et al.  Lamins , 2016, Current Biology.

[5]  Yixian Zheng,et al.  Structural organization of nuclear lamins A, C, B1, and B2 revealed by superresolution microscopy , 2015, Molecular biology of the cell.

[6]  John Lim,et al.  Using dSTORM to probe the molecular architecture of filopodia , 2014, Photonics West - Biomedical Optics.

[7]  N. Daigle,et al.  Nuclear Pore Scaffold Structure Analyzed by Super-Resolution Microscopy and Particle Averaging , 2013, Science.

[8]  Johannes E. Schindelin,et al.  Fiji: an open-source platform for biological-image analysis , 2012, Nature Methods.

[9]  Bernd Rieger,et al.  Super-resolution imaging visualizes the eightfold symmetry of gp210 proteins around the nuclear pore complex and resolves the central channel with nanometer resolution , 2012, Journal of Cell Science.

[10]  K. Wilson,et al.  Functional evolution of nuclear structure , 2011, The Journal of cell biology.

[11]  M. Heilemann,et al.  Subdiffraction-resolution fluorescence imaging with conventional fluorescent probes. , 2008, Angewandte Chemie.

[12]  M. Gustafsson,et al.  Three-dimensional resolution doubling in wide-field fluorescence microscopy by structured illumination. , 2008, Biophysical journal.

[13]  M. Gustafsson,et al.  Subdiffraction Multicolor Imaging of the Nuclear Periphery with 3D Structured Illumination Microscopy , 2008, Science.

[14]  Michael J Rust,et al.  Sub-diffraction-limit imaging by stochastic optical reconstruction microscopy (STORM) , 2006, Nature Methods.

[15]  J. Lippincott-Schwartz,et al.  Imaging Intracellular Fluorescent Proteins at Nanometer Resolution , 2006, Science.

[16]  M. Gustafsson Surpassing the lateral resolution limit by a factor of two using structured illumination microscopy , 2000, Journal of microscopy.

[17]  U. Aebi,et al.  Interactions and three-dimensional localization of a group of nuclear pore complex proteins , 1994, The Journal of cell biology.

[18]  U. Aebi,et al.  The nuclear lamina is a meshwork of intermediate-type filaments , 1986, Nature.

[19]  E. Abbe Beiträge zur Theorie des Mikroskops und der mikroskopischen Wahrnehmung , 1873 .

[20]  H. F. Horn,et al.  Superresolution Microscopy of the Nuclear Envelope and Associated Proteins. , 2016, Methods in molecular biology.

[21]  L. Gerace,et al.  Nuclear lamina at the crossroads of the cytoplasm and nucleus. , 2012, Journal of structural biology.