Snapshot: Z. Zheng et al., Cell, doi:10.1016/j.cell.2018.06.019, 2018. Visualization by Philipp Schlegel (Drosophila connectomics group, Cambridge); Revival: A.X.
Sun et al., PNAS, doi:10.1073/pnas.1803780115, 2018. Courtesy of Thomas P. Lozito; Hide and Seek: M.Z. Ozair et al., Cell Stem Cell, doi:10.1016/j.stem.2018.05.024,
- Courtesy of the Laboratory of Stem Cell Biology and Molecular Embryology at the Rockefeller University; Throw the Switch: A. Drinnernberg et al., Neuron,
doi:10.1016/j.neuron.2018.06.001, 2018.; The Five Percent: J.R. Klug et al., eLife, 10.7554/eLife.35657, 2018. Courtesy of the Salk Institute;
Ocean Wonder: A.N. Kvetkina et al., Russ J Bioorg Chem+, doi:10.1134/S106816201804012X, 2018. Courtesy of Neville Wootton
OCEAN WONDER
Synthetic molecules similar to those produced by
sea anemones, such as this Heteractis magnifi ca,
are neuroprotective in a mouse cell model of
Alzheimer’s disease.
Posted: September 4, 2018
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THROW THE SWITCH
A computer model of the mouse retina can predict the consequences
of altering the function of neurons, such as these horizontal cells.
Posted: June 2 7, 2018
THE FIVE PERCENT
A recently published map of neural networks in the striatum (green dots in
center) of the mouse brain reveals previously underappreciated connections.
Posted: May 7, 2018
»
»
HIDE AND SEEK
Scientists reported this year that the subplate, a predominant layer
(bright blue region above the orange cells) of the developing brain,
does not disappear in adults, as previously thought.
Posted: June 26, 2018
»
OCEAN WONDER
Synthetic molecules similar to those produced by
sea anemones, such as this
are neuroprotective in a mouse cell model of
Alzheimer’s disease.
Posted: