MiRNA has distinct physiological functions at various cellular locations. However, few effective computational methods for predicting the subcellular location of miRNA exist, thereby leaving ...

Learning Objectives: 1. Explain the principles of super-resolution microscopy (nanoscopy) and its use in studying subcellular structures at the nanoscale level within intact cells. 2.

Researchers have revealed the structural underpinnings of memory formation across a broad network of neurons in the mouse brain. This work sheds light on the fundamentally flexible nature of how ...

Beyond cancer detection, these signatures offer insight into subcellular structures, including chromatin packing and organelle organization. Since nanoscale nuclear changes drive genetic alterations ...

Our biceps and brain cells might have more in common than we believed. According to a new study from the Lippincott-Schwartz Lab, a network of subcellular structures similar to those responsible for ...

Our biceps and our brain cells may have more in common than previously thought. New research led by the ...

A project at Rice University has developed a novel approach to nanoscale cellular imaging, one that could lead to improved knowledge of subcellular structures. Reported in Nature Communications, the ...

An MIT-based team developed a technique to create high-quality images of human brains from the gross morphological level to subcellular components.

Just as healthy organs are vital to our well-being, healthy organelles are vital to the proper functioning of the cell. These subcellular structures carry out specific jobs within the cell; for ...

The Syncell's Microscoop enables hypothesis-free subcellular spatial discovery, providing users with a list of known and novel proteins.