MAJORS
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- John S. Toll Summer Research Fellow
- Beta Beta Beta
EXTRACURRICULAR ACTIVITIES
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Exploring Cellular Pathways
Kaitlyn Marino
Class of 2019MAJORS
LEARN BY DOING
- Beta Beta Beta
EXTRACURRICULAR ACTIVITIES
- Women's Volleyball
SUPPORT FROM DONOR PROGRAM
A John Toll Fellow who conducted neuroscientific research on campus, Kaitlyn Marino
鈥19 used a zebrafish model to test memory after stroke.
A zebrafish egg looks like nothing more than a tiny bubble of carbonated water, but
this translucent organism contains a world of hope for the scientific research community
investigating how to treat stroke in human patients.
Kaitlyn Marino 鈥19, a dual major in biology and psychology with a concentration in
behavioral neuroscience, is part of that community. In the lab of her faculty adviser,
Assistant Professor of Biology Jim Windelborn, she carefully collected fertilized
eggs from the bottom of a narrow fish tank she and Windelborn built specifically for
this summer research project meant to establish that, in fish, hypoxia affects memory.
Working under a microscope and using a microinjector, Marino inserteda single strand
of DNA into the embryo and returned the eggs to the tank, where they then grew into
adult zebrafish whose cells have been genetically altered to express a specific protein.
As part of the experiment, she and Windelborn introduced their subjects to hypoxia鈥攎imicking
the oxygen deficiency that stroke victims experience when a blocked artery disrupts
the flow of blood and oxygen to the brain. Then they ran a series of behavioral assays
to look at memory and how it is affected by ischemic stroke. Using a novel object
recognition test, Marino introduced an object into the tank鈥攊n this case, toy Smurfs鈥攔ight
before the fish have hypoxia. A day later, in fully oxygenated water, the fish were
introduced to that object again, along with a new object.
鈥淭he idea is, we鈥檙e seeing how much time they spend with the novel object versus what
is considered a familiar object,鈥 Kaitlyn explained. 鈥淲e鈥檙e also looking at how brain
tissue is affected 24 hours post-hypoxia.鈥
It鈥檚 part of a long-term project that can help identify different protein targets
and drugs that can bind with those proteins, Windelborn says.
鈥淲e are generally bad at treating strokes. There isn鈥檛 a whole lot to do after the
fact,鈥 says Windelborn, who studied the cellular and molecular bases of neurological
traumas and neurological diseases as a doctoral student at University of Wisconsin,
Madison. 鈥淲hat鈥檚 important is to identify new targets.
Right now, we鈥檙e pretty far away from the clinic, but we鈥檙e finding that zebrafish
offer a good model for identifying possible therapeutic targets.鈥
For Marino, this was her second summer in the Windelborn lab working on a zebrafish
model for ischemic stroke that will also form the basis of her senior capstone project.
She intends to pursue a doctoral degree in neuroscience and a career as a research
scientist.
鈥淚 like the kind of research we鈥檙e doing now where you have a big thing you are looking
at鈥攊n our case, behavior鈥攁nd we鈥檙e really targeting something cellular, so that鈥檚
where my interest comes from,鈥 says Marino. 鈥淵ou can see more of a cause and effect.
I like cellular pathways鈥攖he idea of linking biology to behavior.鈥
Kaitlyn is now a PhD student in the neuroscience training program at the University
of Wisconsin, Madison. She is supported fully by a training grant that allows her
to explore research in multiple
laboratories before committing to a lab for her dissertation research. The labs through
which Kaitlyn has chosen to rotate have a focus on the mechanisms of the brain鈥檚 recovery
from traumas such as seizures and strokes.