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BIOL 111 - Fundamentals of Biology

FDR: SL: BIOL 113 is a corequisite for students seeking laboratory science credits.
Credits: 3

Winter 2016, BIOL 111-01: Fundamentals of Biology: Biological Clocks and Rhythms (3). Corequisite: BIOL 113. An intensive investigation of scientific thought and communication, examined in the context of major concepts such as evolution, regulation, growth, and metabolism. From cell division to bird migration, clock-like rhythms control the activities of every living organism. In this section we investigate recent advances in chronobiology, the area of biology that studies internal biological clocks. Our topics include the measurement of rhythmic activity, the molecular mechanisms underlying daily rhythms, and the integration of internal and environmental rhythms in complex physiological processes, such as the sleep and reproductive cycles. (SL: BIOL 113 is a co-requisite for students seeking laboratory science credits.) Toporikova.

Winter 2016, BIOL 111-02: Fundamentals of Biology: Human Genetic Testing (3). Corequisite: BIOL 113. An intensive investigation of scientific thought and communication, examined in the context of major concepts such as evolution, regulation, growth, and metabolism. The explosive growth of genetics and genomics offers unprecedented possibilities for genetic testing in humans.  In medicine, are we entering an age of “personal genomics?”  Why are tests done, and what do the results mean?  How can forensic testing give compelling answers in a legal context?  We will explore the basics of molecular genetics, and use this foundation to understand human genetic testing in medical, forensic, and ancestry applications. This course, and its companion laboratory, are prerequisites for all higher level biology courses. (SL: BIOL 113 is a co-requisite for students seeking laboratory science credits.) Cabe.

Winter 2016, BIOL 111-03: Fundamentals of Biology: Human Genetic Testing (3). Corequisite: BIOL 113. An intensive investigation of scientific thought and communication, examined in the context of major concepts such as evolution, regulation, growth, and metabolism. The explosive growth of genetics and genomics offers unprecedented possibilities for genetic testing in humans.  In medicine, are we entering an age of “personal genomics?”  Why are tests done, and what do the results mean?  How can forensic testing give compelling answers in a legal context?  We will explore the basics of molecular genetics, and use this foundation to understand human genetic testing in medical, forensic, and ancestry applications. This course, and its companion laboratory, are prerequisites for all higher level biology courses. (SL: BIOL 113 is a co-requisite for students seeking laboratory science credits.) Cabe.

Winter 2016, BIOL 111-04: Fundamentals of Biology: Disease Ecology (3). Corequisite: BIOL 113. An intensive investigation of scientific thought and communication, examined in the context of major concepts such as evolution, regulation, growth, and metabolism. This course gives a holistic view of disease and its effects on human and animal populations throughout history. We learn about disease dynamics from the genetic level to the epidemiological level by focusing on pathogens such as ebola, lyme disease, and MRSA. This course, and its companion laboratory, are prerequisites for all higher-level biology courses. (SL: BIOL 113 is a co-requisite for students seeking laboratory science credits.) Marsh.

Fall 2015, BIOL 111-01: Fundamentals of Biology: Bacterial Genetics (3). An intensive investigation of scientific thought and communication, examined in the context of major concepts such as evolution, regulation, growth, and metabolism. This section is an introduction to the genes and the mechanisms of gene expression by bacterial cells. It focuses on the current issues of bacterial infections in humans, for example: virulence, antibiotic resistance, or emerging diseases. (SL: BIOL 113 is a co-requisite for students seeking laboratory science credits.) Simurda.

Fall 2015, BIOL 111-02: Fundamentals of Biology: Heart Attacks and High Fructose Corn Syrup (3).  An intensive investigation of scientific thought and communication, examined in the context of major concepts such as evolution, regulation, growth, and metabolism. In this section, we investigate the importance of nutrition in the context of the sweetening of our food supply by understanding the biochemical and physiological basis of atherosclerosis which in many patients, when left untreated, leads to a heart attack. This course, and its companion laboratory, are prerequisites for all higher level biology courses. (SL: BIOL 113 is a co-requisite for students seeking laboratory science credits.) Hamilton.

Fall 2015, BIOL 111-03: Fundamentals of Biology: Diversity of Life (3). An intensive investigation of scientific thought and communication, examined in the context of major concepts such as evolution, regulation, growth, and metabolism. Biologists use the word diversity, or biodiversity, to describe the variety of life forms in nature. This section is concerned with three major questions about biological diversity on earth: (1) how did it come to be? (2) what is its present condition? (3) what is its future? We cover physiological adaptations, genetic sources of diversity, evolutionary and ecological processes, anthropogenic threats to biodiversity, and conservation. (SL: BIOL 113 is a co-requisite for students seeking laboratory science credits.) Hurd.

Fall 2015, BIOL 111-04: Fundamentals of Biology: Biology of Walking (3). An intensive investigation of scientific thought and communication, examined in the context of major concepts such as evolution, regulation, growth, and metabolism. This section is an intensive investigation of scientific thought and communication, examined in the context of major concepts such as evolution, regulation, growth, and metabolism. Students examine the evolution of two-legged walking, the anatomy and physiology of relevant muscles and bones and their functioning on a cellular level, and clinical studies of how walking and inactivity affect the organism. (SL: BIOL 113 is a co-requisite for students seeking laboratory science credits.) Gibber.

Fall 2015, BIOL 111-05: Fundamentals of Biology: Genes Drugs and Toxins (3). An intensive investigation of scientific thought and communication, examined in the context of major concepts such as evolution, regulation, growth, and metabolism. The ways in which an organism responds to different drugs or toxins can be heavily influenced by its genetics. In this section, we explore the interplay between genetic variation and differences in the ways in which people respond to therapeutic drugs and environmental toxins. We consider a number of example case studies including the genetic basis for resistance to drugs used to treat cancer and individual variation in sensitivity to common pesticides. Our readings are primarily from the current scientific literature as we focus on the new and emerging fields of pharmacogenetics and pharmacogenomics. In the service of exploring these topics, we also cover: the flow of information from genes to proteins; complex cellular behaviors; molecular and population genetics; and many aspects of cellular physiology and regulation. (SL: BIOL 113 is a co-requisite for students seeking laboratory science credits.) Whitworth.

  Planned Offering: Fall, Winter

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