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The Apollo implant, an open-source device tested in eight laboratories, can be used to reversibly implant Neuropixels probes and track the activity of populations of neurons across days.

A method for genetically barcoding Drosophila is developed and used to tag defined cell populations in vivo for single-cell transcriptomics experiments and to enable multiplexed behavioral analysis.

An MTF2-containing subcomplex of Polycomb Repressive Complex 2 promotes cell cycle progression through repression of D-type cyclin expression in certain cellular contexts.

With the new Ankyrin-G-GFP reporter line, researchers can visualize and study neuronal compartments critical for signal transduction without affecting neuronal activity and subcellular integrity of the cells under investigation.

Volumetric trans-scale imaging with a subcellular resolution across a wide field-of-view of 1.5 × 1.0 cm² has been realized, facilitating the analysis of cellular dynamics during embryogenesis and brain function.

The HMM-Fisher kernel approach leverages individual signatures of brain dynamics for prediction, which can be used, for example, to search for brain dynamics-informed biomarkers of neuropsychiatric disease or predict treatment response.

A new collection of driver lines enables experimental manipulation of over 300 cell types centered around the mushroom body in Drosophila.

CausalXtract is a computational tool to discover causal effects, beyond classical Granger and Schreiber causality approaches, from live-cell imaging data for a range of fundamental and translational research applications.

Significant technical improvement in single-nucleus RNA-seq reveals distinct adipocyte subpopulations that respond differently to obesity, including those undergoing adaptive healthy expansion and others displaying severe dysfunction.

The NeuroML model description language, with its extensive software ecosystem, supports researchers in the development of FAIR, data-driven, biologically detailed models of neural systems.