Imagine a world where your DNA is sequenced for free and any human gene can be altered at will. The goal of this course is to address the question: can our society be better prepared for this transformation in science? Is genetic privacy achievable or genetic discrimination avoidable? Who owns your genes? Do your genes drive your medical future? Classes involve student perspectives and discussions with experts in science, policy, ethics and law.

BIOL 2100 is one of two semester courses that together provide an intensive introduction to biology for prospective Biology majors and pre-health (med, vet, dental) students. This course focuses on the fundamentals of cell biology and genetics with an emphasis on classical and modern experimental approaches. Lecture topics and concepts are reinforced and extended during once-weekly laboratory/small group discussions.

BIOL 2200 is one of two semester courses that together provide an intensive introduction to biology for prospective Biology majors and pre-health (med, vet, dental) students. This course focuses on evolution, physiology and development. Lecture topics and concepts are reinforced and extended during once-weekly laboratory/small group discussions. The Introductory courses are not sequenced and may be taken in either order.

Examines the fundamental principles of eukaryotic cell biology at the molecular level. Topics will include: structure and function of the plasma membrane, transport of small molecules, ions and macromolecular complexes across membranes, protein trafficking, the cytoskeleton, signal transduction pathways , and the control of cell division and cellular proliferation. Prerequisites: Must have completed BIOL 2100 or BME 2104 and any two of the following classes CHEM 1410, 1420, 1810 and 1820. BIOL 3000 is not repeatable.

What makes humans different from fruit flies? Why does your brain have neurons and not liver cells? This course is all about the answer to these questions: It's the genes! This course covers the chemical make-up of genes, how they're passed on through generations, how they're expressed and how that expression is regulated, how disruption in the structure and expression of genes arise and how those disruptions lead to cellular defects and disease. Prerequisite: Must have completed BIOL 2010 or BIOL 2100 or BME 2104 and either CHEM 1410 or CHEM 1810 or CHEM 1610. BIOL 3010 is not repeatable.

Examines the mechanisms of evolutionary change, with an emphasis on the genetic and evolutionary principles needed to understand the diversification of life on earth.  Covers the ecology of individuals and population dynamics.  Major topics include the genetics and ecology of natural populations, adaptation, molecular evolution and macroevolution, and the application of evolutionary and ecological concepts to conservation biology.  Required for all Biology majors. Prerequisite: Must have completed BIOL 2200. BIOL 3020 is not repeatable.

Biochemistry underlies nearly every biological process, from environmental science to medicine. When living systems are in chemical and energetic balance, organisms thrive. When they're out of balance, as in disease or unpredictable environments, life is compromised. This course will explain how simple chemical and physical principles apply to the major classes of biological macromolecules that maintain life.Prerequisite: BIOL 2010 or BIOL 2100 or BME 2104 and BIOL 2020 or BIOL 2040 and either CHEM 2410 or CHEM 1820

Are developmental biology and regenerative biology one and the same? Throughout this course, we will emphasize both classical and modern experimental approaches that have been used to unravel the genetic, molecular and celluar mechanisms of development. Additionally, the practical value of understanding development is enormous, and the relationship between embryology and clinical applications will be a theme that runs throughout the course.

Analyzes the concepts of general neurobiology, including basic electrophysiology and electrochemistry, origin of bioelectric potentials, sensory, motor, integrative and developmental neurobiology, and conceptual models of simple learning. Prerequisites: BIOL 2100 (or BME 2104) and BIOL 2200. Recommended:  Prior completion of BIOL 3000

Infectious disease impacts every human, plant and animal on earth. What is the most deadly disease in human history? What is killing our ocean's turtles? Why is Zika so scary? We will explore questions related to the biology, transmission, and pathogenicity of infectious agents across the world. We will also place special emphasis on what it takes to successfully control an infectious disease.