Sen. Tammy Baldwin takes in ‘locally sourced science’ at Morgridge Institute – Morgridge Institute for Research

Forward-thinking science and childhood memories came full
circle on Wednesday for U.S. Sen. Tammy Baldwin, who visited a lab at the
Morgridge Institute for Research that is carrying on the inspired legacy of her
grandfather, David E. Green.

Baldwin, who was raised by her grandparents in Madison,
spent many days visiting her grandfather’s lab just a few blocks away from the
Morgridge Institute, at the University of Wisconsin-Madison Enzyme Institute.
Green was recruited from Columbia University in 1948 to be the original
director of the Enzyme Institute and he led the program through the golden
years of metabolism science, where one fundamental discovery after another was
coming out of UW-Madison.

Commonly referred to as the “chemistry of life,” metabolism is the process by which the body uses food and oxygen to produce the energy and chemicals needed for essential functions and processes that constitute life. The work of Green’s team in the 50s and 60s produced seminal discoveries about the function of the mitochondria and the molecule coenzyme Q, both essential players in healthy metabolism.

Today, metabolism research at UW-Madison is stronger than ever, and Baldwin took the opportunity to tour the lab of one of her grandfather’s scientific successors: Dave Pagliarini, a Morgridge metabolism investigator and UW-Madison professor of biochemistry.

“There’s a lot of talk in the culinary community about locally sourced ingredients,” Pagliarini says. “This is locally sourced science. The fact that we’re building upon discoveries made just down the road, is very motivating and meaningful to us.”

Mateusz Manicki, a postdoctoral fellow in the Pagliarini Lab at Morgridge, discusses his research with Tammy Baldwin during her visit.

Pagliarini described the core focus areas of his lab. About one fourth of all proteins in the mitochondria are still unknown in function. This leads to significant gaps in our knowledge of mitochondrial disease, which includes more than 150 disorders that frequently impact children. Unfortunately, there are no FDA-approved drugs to treat these diseases.

In the 1950s, Green was using one of UW-Madison’s first electron microscopes, but the technology today opens up entirely new capabilities that generation couldn’t have dreamed of. For example, Pagliarini is using CRISPR gene editing technology to disrupt different genes, then apply tools like mass spectrometry and cryo-electron microscopy to determine exactly what function those genes are tied to.

Baldwin says the visit brought back “warm memories.” One she
described was the six-mile walks her grandfather would take for workday
exercise. “When I had a chance to come with him, he was always thinking about
the next experiment or talking about what he had discovered. That sort of rigor
and commitment to a calling, a quest, is something that rubbed off on me quite
a bit.”

“This is super special because of the story of my grandfather’s contribution to what is happening here in the lab right now.”

U.S. Sen. Tammy Baldwin

“In any instance I would get excited about a chance to see
some of the incredible cutting-edge research that is going on at UW-Madison,”
Baldwin says. “This is super special because of the story of my grandfather’s contribution
to what is happening here in the lab right now.”

As a small child, Baldwin says she couldn’t grasp the work he was doing, but clearly saw his dedication to understanding the human body and the “search for truth.” Then as a teenager, she would have long conversations with him about the science and luminaries would frequently visit, such as Hans Krebs, discoverer of the so-called Krebs Cycle, a sequence of chemical reactions cells use to create energy.

“He came over to our house for dinner,” she says.  “The Krebs Cycle guy, right? I was learning
about his work in school.”