An algorithm for analysing brain connectivity data identifies cell types and connections in simple (C. elegans) and complex (mouse) nervous systems, and can even resolve structure and connectivity in a man-made microprocessor.
A high-throughput behavioral paradigm and computational modeling are used to decompose olfactory navigation in walking Drosophila melanogaster into a set of quantitative relationships between sensory input and motor output.
The LINC complex, that couples the interphase cytoskeleton to the nucleus, regulates the processing of a cluster of miRNAs required for muscle regeneration by recruiting and interacting directly with Drosha.
The Real-Time Experimental Control with Graphical User Interface (REC-GUI) framework can facilitate cutting-edge neuroscience research by providing precise experimental control using high-level programming environments familiar to many experimentalists.
The structure of the catalytic core of the N6-methyladenosine RNA methyltransferase complex METTL3-METTL14 reveals that METTL3 is the catalytic subunit, while METTL14 plays non-catalytic roles in substrate recognition and in maintaining complex integrity.