Self-organization based on a feedback loop between cell geometry and division plane positioning plays a central role in the building of tissue architectures in Arabidopsis thaliana embryo through both stereotyped and variable division patterns.

Bigger bumblebee eyes have better vision, yet their field of view, sensitivity, and resolution do not all simply scale up with eye size, being improved locally instead.

The fidelity of 3D visual object representations, choice-related activity, and experience-dependent sensorimotor associations are functionally linked in the caudal intraparietal area.

Based on 3D visualization of fluorescently labeled cytoskeletal networks, an imaging platform is provided, which allows 3D network reconstruction, immersive visualization and quantification of local network properties serving as blueprints for functional modeling.

A one-photon three-dimensional light sculpture technique has been developed and demonstrated for high spatio-temporal resolution photostimulation and imaging of dozens of neurons in the intact mouse brain in vivo.

Modulation of division plane rotation in proliferating chondrocytes determines the ratio of clusters and columns, which may support the multifunctional design of the growth plate.

FlyBrainLab is an open-source computing platform that integrates 3D exploration and visualization of diverse Drosophila connectomic/synaptomic datasets with interactive exploration of the functional logic of modeled executable brain circuits.

A lineage-based intersectional genetic approach reveals brain-wide distribution and input connectivity of axo-axonic interneuron cells and establishes experimental access to study the circuit function of a ground truth cell type.

DeepFly3D, a deep learning-based software, measures limb and appendage movements in tethered, behaving Drosophila and enables precise behavioral measurements during neural recordings, stimulation, and other biological experiments.

Information exchange between the sensory cortex (hMT+) and cognition core (BA46), coupled with hMT+ GABA levels, predicts performance in 3D visuo-spatial ability.