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tag proteins culture neuroscience

A rendering of a human brain in blue on a dark background with blue and white lines surrounding the brain to represent the construction of new connections in the brain.
Defying Dogma: Decentralized Translation in Neurons
Danielle Gerhard, PhD | Sep 8, 2023 | 10+ min read
To understand how memories are formed and maintained, neuroscientists travel far beyond the cell body in search of answers.
Brain cell in purple on a black background. Arc mRNAs are labeled green and are mainly localized in the cell nucleus and in the dendrites.
Short-lived Molecules Support Long-term Memory 
Alejandra Manjarrez, PhD | Jun 6, 2023 | 3 min read
A gene essential for information storage in the brain engages an autoregulatory feedback loop to consolidate memory.
Neurons (green) fire differently depending on whether the astrocytes (red) they are grown with are cultivated from people with or without fragile X.
Astrocytes Fuel Erratic Firing in Fragile X Neurons
Lauren Schenkman, Spectrum | May 30, 2023 | 4 min read
This new understanding could one day lead to targeted treatments. 
Mapping Brain Proteins
Devika G. Bansal | Feb 1, 2018 | 7 min read
Researchers are using souped-up mass spectrometry to localize proteins within brain cells.
A mutated cell with a spiky membrane
Mutations in Autism-Linked Gene Cause Membrane Mischief
Holly Barker, PhD, Spectrum | Jan 26, 2023 | 4 min read
Inactivating TAOK1 prompts tentacle-like protrusions to form all over a neuron’s surface, revealing the gene’s role in molding the membrane.
Capsule Reviews
Bob Grant | May 1, 2014 | 3 min read
Madness and Memory, Promoting the Planck Club, The Carnivore Way, and The Tale of the Dueling Neurosurgeons
Summer Science, British Style
Jef Akst and Richard P. Grant | Jul 8, 2011 | 7 min read
The Royal Society's annual science extravaganza packs some interesting stuff into 5 days of love and research.
Microscopy image showing patches of magenta and green
Three Autism-Linked Genes Converge on Tweaks to Cells’ Timing
Angie Voyles Askham, Spectrum | Feb 3, 2022 | 3 min read
The genes are involved in pacing the development of inhibitory and excitatory neurons. An imbalance in these two types of signaling is thought to play a role in autism.
SYNGAP1 helps neurons eliminate old synapses and form new ones after a novel experience (left and center left)—a process weakened in mice missing a copy of the gene (center right and right).
Autism-Linked Gene SYNGAP1 Molds Synaptic Plasticity, Learning
Angie Voyles Askham, Spectrum | Oct 26, 2021 | 4 min read
The finding may help to explain why people with SYNGAP1 mutations tend to have learning difficulties and a high tolerance for pain.
Week in Review: March 17–21
Tracy Vence | Mar 20, 2014 | 3 min read
Protein appears to protect stressed neurons; vitamin A’s lifelong effects on immunity; stem cells influenced by substrates; supercharged photosynthesis through nanotechnology

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