-
large populations of neurons perform complex computations. We collect and analyze recordings of 50,000+ neurons, developing machine learning tools to extract computational principles from these large
-
of visuo-acoustic sensory feedback during vocal behaviors. Memory and learning during offline periods (sleep). Long-range neuronal communication and stroke. Brain-machine interfaces to enhance learning and
-
and hear within normal parameters; ability to move about workspace. The position requires mobility, including the ability to move materials weighing up to several pounds (such as a laptop computer or
-
evolution, genetics, or related field. Ability to learn quickly and to work both independently and as part of a team. High level of research integrity. Positive attitude with a problem-solving, resilient
-
to several pounds (such as a laptop computer or tablet). Persons with disabilities may be able to perform the essential duties of this position with reasonable accommodation. Requests for reasonable
-
using cryoET. We now plan to expand this technology to further explore chromatin itself, as well as the structures of various chromatin machines working within condensates. Additionally, we will apply
-
normal parameters; ability to move about workspace. The position requires mobility, including the ability to move materials weighing up to several pounds (such as a laptop computer or tablet). Persons with
-
large populations of neurons perform complex computations. We collect and analyze recordings of 50,000+ neurons, developing machine learning tools to extract computational principles from these large
-
influence these mechanisms. His lab uses both worm and mouse models to understand conserved and divergent mechanisms of neuronal maturation across the animal kingdom. To learn more about the lab, visit
-
parameters; ability to move about workspace. The position requires mobility, including the ability to move materials weighing up to several pounds (such as a laptop computer or tablet). Persons with