Genome databases contain a wealth of information that enable us to answer myriad questions in biology. Working with genome data requires foundational knowledge in molecular genetic concepts, as well as technical knowledge of how to read and analyze sequence data. This class will provide students with the skills to understand genomic data and its applications in biology and medicine.

This course, the second in a two-course sequence, examines structures and functions of the endocrine, cardiovascular, urogenital, respiratory, renal, gastrointestinal and reproductive systems. Control mechanisms and functional integration of these systems in overall homeostasis is emphasized.

New course in the subject of biology.

By applying the principles of engineering to biology, students will design molecules, viruses, and cells to solve global problems in public health, food security, manufacturing, information processing, and the environment, changing the traditional question of 'How do cells work?' to 'How can I get a cell to work for me?' Students will gain experience in writing internationally competitive research project proposals. Prerequisite: Instructor Permission

How has a bioluminescent jellyfish saved lives? What does a Himalayan pond fish have to do with research into the origins of psychiatric disorders? Innovative methods in biomedical research have played a significant part in the development of revolutionary disease cures, treatments and diagnostics. This course will examine many of these technical approaches and how they have led to such significant discoveries in basic biomedical research.Prerequisite: BIOL 3010

Practical usage of various microscopy imaging methodologies to study the morphology and cellular function in various biological systems from single cell to single molecule in cells and tissues. Topics include basics theory of microscopy, imaging and image analysis to solve various biological questions, fluorophore labeling, technical and hands on training on various microscopy techniques applied in different biological and biomedical investigations. Lectures, discussion, student presentations and laboratory.

This course uses a case study approach to examine cellular processes that underlie diverse diseases and to identify the relevant molecular components that have been validated or that may serve as new therapeutic targets. We will discuss both established, transformative drugs as well as novel, emerging therapies under development. We will consider socio-economic and demographic issues that impact the accessibility and affordability of new drugs.

Independent study under the direction of a Biology faculty member for students to read and critically assess primary research papers and current reviews in a focused area of the life sciences. Directed readings and discussions can be used to explore how contemporary topics and research areas can be incorporated into other formal courses. Students will have the opportunity to develop both scientific writing and oral presentation skills.

Independent research for qualified undergraduates under the direction of a faculty member within the Biology Department. Prerequisite: Instructor Permission

In this course, we'll dive into our current understanding of the evolution and ecology of parasitic interactions through primary literature, modeling, and experimental design. Throughout, we will focus on generating and testing hypotheses, evaluating theoretical models with evidence, drawing parallels between diverse domains of life, and connecting evolutionary and ecological ideas to today's past, present, and future epidemics.