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tag array tomography developmental biology

This image depicts the fruit fly nerve cord connectome. It highlights 930 neurons, a subset of the full set of reconstructed neurons.
The Expansion of Volume Electron Microscopy
Danielle Gerhard, PhD | Sep 8, 2023 | 6 min read
A series of technological advancements for automation and parallel imaging made volume electron microscopy more user friendly while increasing throughput.
Top 10 Innovations 2021
2021 Top 10 Innovations
The Scientist | Dec 1, 2021 | 10+ min read
The COVID-19 pandemic is still with us. Biomedical innovation has rallied to address that pressing concern while continuing to tackle broader research challenges.
The Role of Mom’s Microbes During Pregnancy
Carolyn A. Thomson and Kathy D. McCoy | Aug 1, 2021 | 10+ min read
Bacteria in the gut influence the production of antibodies and themselves secrete metabolites. In a pregnant woman, these compounds may influence immune development of her fetus.
Freeze Frame
Jeffrey M. Perkel | Feb 1, 2009 | 10 min read
How to troubleshoot sample preparation for cryo-electron microscopy, an up-and-coming structural biology technique.
Imaging Chromatin to Deduce Function from Form
Marissa Fessenden | Dec 1, 2018 | 7 min read
Researchers describe their tools for probing how the physical shape of the genome affects genes’ function.
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
Surpassing the Law of Averages
Jeffrey M. Perkel | Sep 1, 2009 | 7 min read
By Jeffrey M. Perkel Surpassing the Law of Averages How to expose the behaviors of genes, RNA, proteins, and metabolites in single cells. By necessity or convenience, almost everything we know about biochemistry and molecular biology derives from bulk behavior: From gene regulation to Michaelis-Menten kinetics, we understand biology in terms of what the “average” cell in a population does. But, as Jonathan Weissman of the University of Califo
Roll-Your-Own Microarrays
Jim Kling | Jan 6, 2002 | 3 min read
CDNA microarrays hold great promise for characterizing disease and performing genetic studies, but they're not exactly an out-of-the-box technology just yet. Often the scientists must prepare their own chips. Yet, this process is limited by the amount of space on the array itself—forcing researchers to make choices about which genes to include in their sample. Clinical microarray applications are further limited by the availability of sufficient cell numbers for testing purposes. Illumina
Editing Genomes to Record Cellular Histories
Ruth Williams | May 26, 2016 | 3 min read
Researchers harness the power of genome editing to track cell lineages throughout zebrafish development.
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.

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