Overview of our Research
We focus on how central nervous system myelin develops and adapts to the environment. The major questions we are addressing are:
Development. How do oligodendrocytes target their myelin sheaths to only certain subsets of nerve axons, while leaving other axon types unmyelinated? Which genes are required for sheath targeting?
Plasticity. Do experiences or changes to neural activity cause oligodendrocytes to shift myelin onto, away from, or between circuits? Which genes regulate the extent that individual axons are myelinated in an activity-dependent manner?
Evolution. When and how did the oligodendrocyte cell type, myelinating phenotype, and adaptive myelination program first evolve?
Our primary research organism is the embryonic and larval zebrafish, due to its transparency and ease of genetic manipulation.
A singly-labeled pre-myelinating oligodendrocyte in the 3 dpf zebrafish spinal cord. Color represents z-depth.
A singly-labeled pre-myelinating oligodendrocyte in the 3 dpf zebrafish spinal cord. Color changes represent movements during a 15-min time-lapse imaging movie.
A single myelinating oligodendrocyte in the zebrafish spinal cord.
The Neural Development Lab is housed within the Department of Biology and College of Science & Engineering at Winona, State University.
Sept 2020. Lab alum A.J. Treichel began his Ph.D. studies at Stowers Institute (see feature article here)
Sept 2020 Congrats Heather Nelson and all co-authors. Our paper titled "Individual neuronal subtypes control initial myelin sheath growth and stabilization" has been improved by the peer-review process and is now officially accepted for publication in the journal Neural Development.
Aug 2020. James Gronseth started graduate school and his graduate fellowship in the lab.
For archived lab news & events, click here.