Weissbourd Lab

Weissbourd Lab uses the jellyfish, Clytia hemisphaerica, to investigate nervous system evolution, development, regeneration, and function.

Systems Neuroscience: We use diverse approaches to understand the neural basis of behavior, with particular interests in: (1) how animal behavior is modulated by the internal state of the organism over time, (2) how these states - and switches between them - are implemented, (3) how distinct regions and subnetworks of nervous systems communicate & coordinate to give concerted behavioral output, and (4) the roles of neuromodulation in these processes. As Clytia are tiny (1mm-1cm) and transparent, we use optical approaches to examine and perturb the whole nervous system in awake, behaving animals.

Nervous System Evolution: From a evolutionary perspective, we are interested in: (1) the origins and early evolution of nervous systems, (2) identifying principles and innovations in neural systems across phylogeny, and (3) understanding the co-evolution of neural, morphological, and behavioral novelty. Through comparisons across the Clytia life cycle and with other organisms, Clytia present exceptional opportunities to address these questions.

Neural Development and Regeneration: Clytia are constantly integrating newborn neurons into their nervous system without disrupting network function, and have incredible abilities to heal and regenerate, including recovery of genetically ablated neurons. We aim to understand these remarkable capabilities at their interface with network function.