In a wide range of biological studies, it is highly desirable to visualize and analyze three-dimensional (3D) microscopic images. In this primer, we first introduce several major methods for visualizing typical 3D images and related multi-scale, multi-time-point, multi-color data sets. Then, we discuss three key categories of image analysis tasks, namely segmentation, registration, and annotation. We demonstrate how to pipeline these visualization and analysis modules using examples of profiling the single-cell gene-expression of C. elegans and constructing a map of stereotyped neurite tracts in a fruit fly brain. © 2012 Long et al
Recent advances in microscopy technologies such as high-throughput imaging, super-resolution, and 3D...
<div><p>Understanding the structure–function relationship of cells and organelles in their natural c...
Understanding the structure-function relationship of cells and organelles in their natural context r...
Abstract: In a wide range of biological studies, it is highly desir-able to visualize and analyze th...
Recent advances in optical-sectioning microscopy, along with novel fluorescent proteins and probes, ...
<p>(a) The hierarchical (multi-scale) 3D visualization of a fluorescent confocal image of fruit fly ...
The V3D system provides three-dimensional (3D) visualization of gigabyte-sized microscopy image stac...
<p>(a) A confocal image of kinetochores (EGFP labeled) and chromosomes (histone-mCherry labeled) use...
Understanding the structure-function relationship of cells and organelles in their natural context r...
Although modern fluorescence microscopy produces detailed three-dimensional (3D) datasets, colocaliz...
Although modern fluorescence microscopy produces detailed three-dimensional (3D) datasets, colocaliz...
As an essential and powerful tool to observe living organisms, three-dimensional fluorescence micros...
Brain organoids grown from human pluripotent stem cells self-organize into cytoarchitectures resembl...
Three-dimensional (3D) bioimaging, visualization and data analysis are in strong need of powerful 3D...
In this paper we present a volume visualization method for multi-parameter images of three dimension...
Recent advances in microscopy technologies such as high-throughput imaging, super-resolution, and 3D...
<div><p>Understanding the structure–function relationship of cells and organelles in their natural c...
Understanding the structure-function relationship of cells and organelles in their natural context r...
Abstract: In a wide range of biological studies, it is highly desir-able to visualize and analyze th...
Recent advances in optical-sectioning microscopy, along with novel fluorescent proteins and probes, ...
<p>(a) The hierarchical (multi-scale) 3D visualization of a fluorescent confocal image of fruit fly ...
The V3D system provides three-dimensional (3D) visualization of gigabyte-sized microscopy image stac...
<p>(a) A confocal image of kinetochores (EGFP labeled) and chromosomes (histone-mCherry labeled) use...
Understanding the structure-function relationship of cells and organelles in their natural context r...
Although modern fluorescence microscopy produces detailed three-dimensional (3D) datasets, colocaliz...
Although modern fluorescence microscopy produces detailed three-dimensional (3D) datasets, colocaliz...
As an essential and powerful tool to observe living organisms, three-dimensional fluorescence micros...
Brain organoids grown from human pluripotent stem cells self-organize into cytoarchitectures resembl...
Three-dimensional (3D) bioimaging, visualization and data analysis are in strong need of powerful 3D...
In this paper we present a volume visualization method for multi-parameter images of three dimension...
Recent advances in microscopy technologies such as high-throughput imaging, super-resolution, and 3D...
<div><p>Understanding the structure–function relationship of cells and organelles in their natural c...
Understanding the structure-function relationship of cells and organelles in their natural context r...