3D image reconstruction of large cellular volumes by electron tomography (ET) at high (≤ 5 nm) resolution can now routinely resolve organellar and compartmental membrane structures, protein coats, cytoskeletal filaments, and macromolecules. However, current image analysis methods for identifying in situ macromolecular structures within the crowded 3D ultrastructural landscape of a cell remain labor-intensive, time-consuming, and prone to user-bias and/or error. This paper demonstrates the development and application of a parameter-free, 3D implementation of the bilateral edge-detection (BLE) algorithm for the rapid and accurate segmentation of cellular tomograms. The performance of the 3D BLE filter has been tested on a range of synthetic a...
We report the outcomes of the discussion initiated at the workshop entitled A 3D Cellular Context fo...
A template-free image processing approach automatically detects and classifies membrane-bound protei...
Different imaging techniques allow us to study the organization of life at different scales. Cryo-el...
3D image reconstruction of large cellular volumes by electron tomography (ET) at high (≤5 nm) resolu...
Electron tomography allows determination of the three-dimensional structures of cells and tissues at...
Electron tomography enables three-dimensional (3D) visualization and analysis of the subcellular arc...
After a general introduction to three-dimensional electron microscopy and particularly to electron t...
Cellular electron cryo-tomography enables the 3D visualization of cellular organization in the near-...
Cellular organelles and biological macromolecules such as proteins play a fundamental role in almost...
Advances in three-dimensional (313) electron microscopy (EM) and image processing are providing cons...
Electron microscopy (EM) facilitates analysis of the form, distribution, and functional status of ke...
<p>Application of the 3D BLE, 3D recursive and 3D Canny filters to a subvolume of an experimentally-...
Cells are organized in a highly complex manner. And while there are many different types of cells - ...
Electron tomography is the only technique available that allows us to visualize the three-dimensiona...
Microscopy has provided crucial insights into the fundamental features and architecture of mammalian...
We report the outcomes of the discussion initiated at the workshop entitled A 3D Cellular Context fo...
A template-free image processing approach automatically detects and classifies membrane-bound protei...
Different imaging techniques allow us to study the organization of life at different scales. Cryo-el...
3D image reconstruction of large cellular volumes by electron tomography (ET) at high (≤5 nm) resolu...
Electron tomography allows determination of the three-dimensional structures of cells and tissues at...
Electron tomography enables three-dimensional (3D) visualization and analysis of the subcellular arc...
After a general introduction to three-dimensional electron microscopy and particularly to electron t...
Cellular electron cryo-tomography enables the 3D visualization of cellular organization in the near-...
Cellular organelles and biological macromolecules such as proteins play a fundamental role in almost...
Advances in three-dimensional (313) electron microscopy (EM) and image processing are providing cons...
Electron microscopy (EM) facilitates analysis of the form, distribution, and functional status of ke...
<p>Application of the 3D BLE, 3D recursive and 3D Canny filters to a subvolume of an experimentally-...
Cells are organized in a highly complex manner. And while there are many different types of cells - ...
Electron tomography is the only technique available that allows us to visualize the three-dimensiona...
Microscopy has provided crucial insights into the fundamental features and architecture of mammalian...
We report the outcomes of the discussion initiated at the workshop entitled A 3D Cellular Context fo...
A template-free image processing approach automatically detects and classifies membrane-bound protei...
Different imaging techniques allow us to study the organization of life at different scales. Cryo-el...