The imaging of cellular dynamics in three dimensions using a standard microscope is severely limited due to the fact that only one focal plane can be imaged at a given point in time. Here we present a modification of the classical microscope design with which two or more focal planes can be imaged simultaneously. This is achieved by a modification of the emission pathway of a standard microscope. The efficacy of the design is shown by imaging bead samples and an FcRn-green fluorescent protein expressing tubule that leaves a sorting endosome and subsequently exocytoses at the plasma membrane.</p
Super-resolution optical fluctuation imaging (SOFI) provides an elegant way of overcoming the diffra...
Three-dimensional information is important for studying cellular organization and function, and many...
Due to the classical conflict between spatial and temporal resolution, microscopy studies of fast ev...
Cellular events are accomplished by the coordinated interactions of cellular components within the t...
The conventional optical microscope is an inherently two-dimensional (2D) imaging tool. The objectiv...
We developed a multiple light-sheet microscopy (MLSM) system capable of 3D fluorescence imaging. Emp...
We developed a multiple light-sheet microscopy (MLSM) system capable of 3D fluorescence imaging. Emp...
Quantitative three dimensional maps of cellular structure, activity and function provide the key to ...
Fluorescence microscopy provides an unparalleled tool for imaging biological samples. However, produ...
Most methods to observe three-dimensional processes in living samples are based on imaging a single ...
Super-resolution optical fluctuation imaging (SOFI) provides an elegant way of overcoming the diffra...
Fluorescent observation of cells generally suffers from the limited axial resolution due to the elon...
Super-resolution optical fluctuation imaging (SOFI) provides an elegant way of overcoming the diffra...
Using single molecule microscopy, biological interactions can be imaged and studied at the level of ...
A new method of fluorescence microscopy for cell imaging has been developed that takes advantage of ...
Super-resolution optical fluctuation imaging (SOFI) provides an elegant way of overcoming the diffra...
Three-dimensional information is important for studying cellular organization and function, and many...
Due to the classical conflict between spatial and temporal resolution, microscopy studies of fast ev...
Cellular events are accomplished by the coordinated interactions of cellular components within the t...
The conventional optical microscope is an inherently two-dimensional (2D) imaging tool. The objectiv...
We developed a multiple light-sheet microscopy (MLSM) system capable of 3D fluorescence imaging. Emp...
We developed a multiple light-sheet microscopy (MLSM) system capable of 3D fluorescence imaging. Emp...
Quantitative three dimensional maps of cellular structure, activity and function provide the key to ...
Fluorescence microscopy provides an unparalleled tool for imaging biological samples. However, produ...
Most methods to observe three-dimensional processes in living samples are based on imaging a single ...
Super-resolution optical fluctuation imaging (SOFI) provides an elegant way of overcoming the diffra...
Fluorescent observation of cells generally suffers from the limited axial resolution due to the elon...
Super-resolution optical fluctuation imaging (SOFI) provides an elegant way of overcoming the diffra...
Using single molecule microscopy, biological interactions can be imaged and studied at the level of ...
A new method of fluorescence microscopy for cell imaging has been developed that takes advantage of ...
Super-resolution optical fluctuation imaging (SOFI) provides an elegant way of overcoming the diffra...
Three-dimensional information is important for studying cellular organization and function, and many...
Due to the classical conflict between spatial and temporal resolution, microscopy studies of fast ev...