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tag light sheet microscopy ecology developmental biology neuroscience

The mouse peripheral nervous system with nerve cells farther away from the camera represented in yellow and pink, while nerves closer to the camera are shown in blue tones.
A Glowing Mouse Map
Mariella Bodemeier Loayza Careaga, PhD | Feb 1, 2024 | 2 min read
A whole-body immunostaining method allowed researchers to achieve cellular resolution at the whole-organism level.
A scanning electron micrograph of a coculture of E. coli and Acinetobacter baylyi. Nanotubes can be seen extending from the E. coli.
What’s the Deal with Bacterial Nanotubes?
Sruthi S. Balakrishnan | Jun 1, 2021 | 10+ min read
Several labs have reported the formation of bacterial nanotubes under different, often contrasting conditions. What are these structures and why are they so hard to reproduce?
Mental Map
Abdul-Kareem Ahmed | Nov 13, 2013 | 5 min read
From determining structures to figuring out functions, brain-mapping scientists are applying new technologies to understand the hub of the central nervous system.
Into the Limelight
Kate Yandell | Oct 1, 2015 | 8 min read
Glial cells were once considered neurons’ supporting actors, but new methods and model organisms are revealing their true importance in brain function.
Brains in Action
The Scientist | Feb 1, 2014 | 10+ min read
Neuroscientists are automating neural imaging and recording, allowing them to monitor increasingly large swaths of the brain in living, behaving animals.
 
Beyond Film: Laboratory Imagers
Jorge Cortese | Apr 1, 2002 | 9 min read
Years ago, researchers had only one data-imaging option: autoradiography. These scientists tagged samples—whether nucleic acid, protein, cell, or tissue—with radioactive labels, and captured images on film. Safety concerns, convenience, and sensitivity, spurred the development of alternative techniques, and today, researchers can choose from a range of options, including fluorescence, chemifluorescence, and chemiluminescence, in addition to autoradiography. Fluorescence occurs when
ZEISS and arivis AG partner to provide leading 3D imaging systems
Zeiss | Oct 28, 2015 | 3 min read
Solutions for the Visualization and Analysis of Big Image Data in Life Sciences.
Untangling Neuronal Calcium Signaling
Amy Adams | Jan 20, 2002 | 10 min read
From the very moment of conception, calcium plays a pivotal role in fetal development. It rushes in as a wave around the egg to herald the sperm's arrival, binding to proteins that help kick off the whole developmental process. From this first influx, calcium continues to play a critical role in how the body's cells respond to outside signals. Calcium tells muscles to contract and nerves to release neurotransmitters, and is at least part of the signal that helps people form and retain memories.
Cutting the Wire
Jeffrey M. Perkel | Dec 1, 2014 | 8 min read
Optical techniques for monitoring action potentials
Sorting out the Science of Stickiness
Ricki Lewis | Feb 3, 2002 | 6 min read
For many animals, to stick is to survive. Nature's varied adhesive structures and substances enable animals to stick to inert substrates, to each other, and even to parts of themselves. An octopus uses its suckers to grab food, a gecko coordinates its highly specialized feet to ascend a wall, and a mussel emits strings of proteinaceous goo to hold fast to a rock in times of turbulence. Insects coordinate their jumping motions by choreographing contact of leg parts. Some species can even multitas

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