Visualization of scientific data is crucial not only for scientific discovery but also to communicate science and medicine to both experts and a general audience. Until recently, we have been limited to visualizing the three-dimensional (3D) world of biology in 2 dimensions. Renderings of 3D cells are still traditionally displayed using two-dimensional (2D) media, such as on a computer screen or paper. However, the advent of consumer grade virtual reality (VR) headsets such as Oculus Rift and HTC Vive means it is now possible to visualize and interact with scientific data in a 3D virtual world. In addition, new microscopic methods provide an unprecedented opportunity to obtain new 3D data sets. In this perspective article, we highlight how ...
International audienceVirtual reality (VR) has recently become an affordable technology. A wide rang...
Single-cell RNAseq is a routinely used method to explore heterogeneity within cell populations. Data...
For more than three centuries we have been watching and studying microscopic phenomena behind a micr...
Visualization of scientific data is crucial not only for scientific discovery but also to communicat...
Our understanding of cellular and structural biology has reached unprecedented levels of detail, and...
Advances in the application of electron microscopy (EM) to serial imaging are opening doors to new w...
Can virtual reality be useful for visualizing and analyzing molecular structures and three-dimension...
International audienceMicroscopy image observation is commonly performed on 2D screens, which limits...
Can virtual reality be useful for visualizing and analyzing molecular structures and three-dimension...
One of the major forces driving the birth of the field of cell biology was the appli-cation of elect...
<div><p>The cell biology discipline constitutes a highly dynamic field whose concepts take a long ti...
Cells are central to the study of biology, yet many learners have difficulties understanding the abs...
When electron microscopy (EM) was introduced in the 1930s it gave scientists their first look into t...
International audiencevLUME is a virtual reality software package designed to render large three-dim...
Super-Resolution (SR) Microscopy based on 3D Single-Molecule Localization Microscopy (SMLM) is now w...
International audienceVirtual reality (VR) has recently become an affordable technology. A wide rang...
Single-cell RNAseq is a routinely used method to explore heterogeneity within cell populations. Data...
For more than three centuries we have been watching and studying microscopic phenomena behind a micr...
Visualization of scientific data is crucial not only for scientific discovery but also to communicat...
Our understanding of cellular and structural biology has reached unprecedented levels of detail, and...
Advances in the application of electron microscopy (EM) to serial imaging are opening doors to new w...
Can virtual reality be useful for visualizing and analyzing molecular structures and three-dimension...
International audienceMicroscopy image observation is commonly performed on 2D screens, which limits...
Can virtual reality be useful for visualizing and analyzing molecular structures and three-dimension...
One of the major forces driving the birth of the field of cell biology was the appli-cation of elect...
<div><p>The cell biology discipline constitutes a highly dynamic field whose concepts take a long ti...
Cells are central to the study of biology, yet many learners have difficulties understanding the abs...
When electron microscopy (EM) was introduced in the 1930s it gave scientists their first look into t...
International audiencevLUME is a virtual reality software package designed to render large three-dim...
Super-Resolution (SR) Microscopy based on 3D Single-Molecule Localization Microscopy (SMLM) is now w...
International audienceVirtual reality (VR) has recently become an affordable technology. A wide rang...
Single-cell RNAseq is a routinely used method to explore heterogeneity within cell populations. Data...
For more than three centuries we have been watching and studying microscopic phenomena behind a micr...