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Mentored Research Opportunities

Alaska INBRE’s mentored research opportunities connect undergraduate students with faculty mentors across University of Alaska campuses for immersive, hands-on biomedical research projects.

Participants work closely with mentors on cutting-edge studies across diverse fields—whether examining how animals adapt to extreme environments or exploring innovative cancer therapies. These projects provide invaluable laboratory experience, mentorship, and training in research techniques. Students gain skills in data analysis and problem-solving, contribute to real scientific discoveries, and prepare for future careers in science and healthcare. It’s a chance to be part of Alaska’s growing biomedical research community and learn directly from experts in the field.

Kristin O’Brien - UAF

Research in this lab investigates how organisms adjust their physiology and biochemistry to cope with a changing environment. Much of our work is focused on fish but we also study the unique biology of hibernating animals to understand how they suppress their metabolism during winter when food is scarce.

 

Potential research projects in my lab include:

 

  • Investigating changes in metabolism in response to hypoxia in Antarctic fish
  • Studying the signaling pathway mediating changes in metabolism in response to temperature in threespine stickleback
  • Characterizing changes in mitochondrial function during hibernation in black bears
More information on this opportunity →

Jonathan Stecyk - UAA

Research in my lab aims to better understand how some vertebrates, namely some fish and freshwater turtles, can live without oxygen for days to weeks. Research is primarily focused on how cardiovascular function and its regulation is altered by oxygen deprivation and acclimation temperature. My lab also employs physiological techniques to assess the impacts of toxicants on aquatic organisms.

 

Research projects in my lab could incorporate the measurement of:

  • cardiac activity in a live animal
  • cardiac muscle contractile properties
  • blood vessel vasoactivity
  • action potentials and ionic currents from tissues and/or isolated cells
  • gene and protein expression
  • maximum and resting metabolic rate
  • temperature tolerance and preference
  • behavioral responses to a toxicant or altered environmental condition

More information on this opportunity →

Holly Martinson- UAA WWAMI School of Medical Education

Our lab investigates the tumor microenvironment, a dynamic network of cancer cells, blood vessels, immune cells, signaling molecules, and the extracellular matrix, to develop innovative cancer prevention and treatment strategies. Our research focuses on myeloid cells, an immune cell that can promote cancer growth and spread. By employing techniques in immunology, molecular biology, nanomaterials, and murine cancer models, we explore novel therapeutic approaches to modify the tumor microenvironment.

 

  • Reprogramming Immunosuppressive Myeloid Cells
  • Characterizing Tumor-Associated Immune Cell Interactions
  • Sex Differences in Immune Response to Cancer and Treatment

More information on this opportunity →

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