Browse our Tools and Resources

Engineered anion-conducting channelrhodopsins with enhanced red-light sensitivity and accelerated kinetics enable precise, low-intensity optical silencing of neurons, advancing optogenetic control in neuroscience research.

Over 2.8 million tissue-specific gene regulatory sequences are predicted for 33 insect genomes, using a simple computational workflow with only the genome sequence and a basic gene annotation as input.

An interdisciplinary research platform reveals that the transcriptional identity of metazoan male germ cells is built around a small network of deeply conserved gene interactions with an overarching functional impact.

A new imaging tool to record γ-secretase activity in vivo.

I-Spin enables researchers to decode motor unit firings from surface and intramuscular electromyographic signals in real time.

HILARy is a new algorithm for grouping B-cell receptor sequences into distinct lineages, a crucial task to analyze immune response and memory through repertoire sequencing.

Deep Learning Artificial Intelligence tools can be developed to accurately identify cell divisions during development and wound repair of epithelial tissue.

Neuronal loss can be studied by passing electrical current through the same electrodes used for neuron measurement without disrupting recording ability.

ImmCellTyper enhances CyTOF data analysis by combining expert biological knowledge with advanced clustering tools to provide an accurate, comprehensive, and user-friendly solution for high-dimensional immune profiling.

Detecting neural oscillations in time and frequency domains enables the detailed study of spatiotemporal dynamics of oscillations throughout the brain and the investigation of biomarkers that index functional brain areas.