Biology (BIO)
BIO 104. Biology: Concepts & Methods (with lab). 4 Hours.
Study of topics selected to introduce students to basic concepts in biology and to
the scientific method. Does not count toward a major in Biology or toward science
requirements for the B.S. degree.
BIO 150. Biological Inquiry (with lab). 4 Hours.
Students in Biology 150 will advance their knowledge of biology (from the ecosystem level to the molecular level), learn and practice skills essential to biological inquiry, and integrate scientific ways of knowing into their development as liberally educated, engaged citizens. Individually and in teams, students will work with research organisms commonly used In the discipline, read the primary literature, and develop their observational and analytical, and quantitative (especially statistical) skills. Students will also develop oral and written communication skills through informal discussions, oral presentations, and written reports of their experimental work, which will benefit from the peer-review process.
BIO 151. Biological Development (with lab). 4 Hours.
An introduction to the multi-dimensional nature of structure, function, and timing of development and evolution in plants and animals. Building upon skills from BIO 150, Biological Inquiry, students will study the development of model organisms typically used in research. They will continue to develop the observational, analytical, and presentation skills necessary to be active participants in a scientific community. In addition, they will continue their development as liberally educated, engaged citizens.
Prerequisite: BIO 150 with a minimum grade of D.
BIO 212. Introduction to Genetics & Molecular Biology (with lab). 4 Hours.
Study of heredity and the roles of DNA and other macromolecules in the function of cells and organisms. This course will focus on inheritance at biochemical, organismal, and population levels. The laboratory portion of this course includes classic genetic crosses using model organisms (e.g., fruit flies), molecular techniques to analyze DNA, and bioinformatic analysis of DNA sequences. Students will also analyze their own mitochondrial DNA to get information on their genetic lineage and design experiments to analyze mutant yeast strains and to study gene regulation in bacteria. Lab reports and research posters will be used to assess students' understanding of the laboratory exercises.
Prerequisite: BIO 151 with a minimum grade of D.
BIO 214. Introduction to Cellular Biology (with lab). 4 Hours.
Study of biochemical, metabolic, structural & functional aspects of cells & cellular systems. The lab consists of modules introducing quantitative and qualitative data collection techniques, open-ended research projects to test student-generated hypotheses, and written and/or oral scientific presentations.
Prerequisite: BIO 212 with a minimum grade of D or CHEM 203 with a minimum grade of D.
BIO 241. Introduction to Biostatistics. 3 Hours.
General introduction to statistical procedures in the Biological Sciences. Topics include: describing and displaying data, descriptive statistics, sampling distributions, experimental design, hypothesis testing, categorical data analysis, ANOVA, and linear regression analysis. Students will use the statistical software package JMP to analyze data from studies in ecology, evolutionary biology, medicine and genetics. Pre-requisistes: BIO 150 and 151 or ENVS 203 or permission of instructor.
Prerequisite: (BIO 150 with a minimum grade of D and BIO 151 with a minimum grade of D) or ENVS 203 with a minimum grade of D.
BIO 250. Introduction to Research. 0 to 4 Hours.
Projects designed to introduce students to research and to critical reading of original research.
BIO 275. Introduction to Bioinformatics. 3 Hours.
An introduction to the basic computational methods used to analyze biological data with an emphasis on algorithms used in genomics. Other topics may include methods for storage, retrieval, analysis, and display of biological data.
Prerequisite: BIO 212 with a minimum grade of D and COSC 235 with a minimum grade of D.
BIO 280. Selected Topics in Biology. 1 to 4 Hours.
Selected topics in Biology at the introductory or intermediate level. Courses with this designation are typically newly designed and are being explored for possible adoption as a regular addition to the curriculum.
BIO 301. Medical Terminology. 1 Hour.
This course is designed to fill the requirement of many "allied health" graduate schools for a course in medical terminology. This will be a guided self study. Each week a chapter of the textbook will be assigned, and there will be a 50' quiz at the following class meeting.
Prerequisite: BIO 342 with a minimum grade of D.
BIO 305. Conservation Biology. 3 Hours.
This course will provide an introduction to the discipline of conservation biology. Topics covered will include patterns of biodiversity and extinction, threats to biodiversity, biological principles guiding conservation, and strategies for protecting and restoring biodiversity.
Prerequisite: (BIO 150 with a minimum grade of D and BIO 151 with a minimum grade of D) or ENVS 203 with a minimum grade of D.
BIO 310. Seminar in Ecology and Evolutionary Biology. 3 Hours.
This seminar is designed to refine and extend student fluency (both verbal and written) in evolutionary and ecological topics and techniques through the dissection and discussion of research papers.
Prerequisite: (BIO 111 with a minimum grade of D or BIO 150 with a minimum grade of D) and (BIO 113 with a minimum grade of D or BIO 151 with a minimum grade of D) and BIO 212 with a minimum grade of D and BIO 214 with a minimum grade of D.
BIO 311. Seminar in Genetics and Genomics. 3 Hours.
Designed to refine and extend student fluency (both verbal and written) in current genetics and genomics topics and techniques through critical reading and analysis of primary research articles.
Prerequisite: BIO 150 with a minimum grade of D and BIO 151 with a minimum grade of D and BIO 212 with a minimum grade of D and BIO 214 with a minimum grade of D.
BIO 313. Plant & Ecosysytems (lab optional). 1 or 3 Hours.
Designed for students interested in plants and the environment. Study of the structure and function of vascular plants, with an emphasis on flowering plants. Also, an introduction to major ecological principles, especially species-species interactions, community ecology, and ecosystem ecology. Special emphasis on how plants benefit humans and on sustainability. Course is offered for 3 credit hours with an additional 1 credit hour lab option available.
Prerequisite: BIO 150 with a minimum grade of D and BIO 151 with a minimum grade of D and BIO 212 with a minimum grade of D and BIO 214 with a minimum grade of D.
BIO 322. Biology of the Vertebrates. 3 Hours.
This course explores the biology, natural history and diversity of vertebrates, and the evolution of form and function within this group.
Prerequisite: (BIO 150 with a minimum grade of D and BIO 151 with a minimum grade of D) or (BIO 150 with a minimum grade of D and ENVS 203 with a minimum grade of D).
BIO 323. Biology of the Vertebrates. 4 Hours.
Identical to BIO 322 with a lab component that focuses on developing and conducting an original research project centered on vertebrate biology. Over the course of the semester students will gain experience in preparing a primary literature review, producing a grant proposal, learn sound experimental design and data analysis, conduct an original research project, and prepare results for written and oral presentation.
Prerequisite: (BIO 150 with a minimum grade of D and BIO 151 with a minimum grade of D) or (BIO 150 with a minimum grade of D and ENVS 203 with a minimum grade of D).
BIO 324. Microbiology (with lab). 4 Hours.
Study of the biology of microorganisms, with emphasis on bacteria and viruses. Laboratory work includes techniques for handling, culturing and identifying bacteria, identification of unknown bacterial species and development of epidemiological models for the spread of infectious diseases.
Prerequisite: BIO 150 with a minimum grade of D and BIO 151 with a minimum grade of D and BIO 212 with a minimum grade of D and BIO 214 with a minimum grade of D.
BIO 331. Developmental Biology. 3 Hours.
Study of the biological mechanisms driving organismal development, the process
by which complex organisms are formed from single cells. Includes a description of
early embryonic development from fertilization through formation of the nervous
system.
BIO 332. Developmental Biology (with lab). 4 Hours.
Identical to BIO 331 but has a laboratory component. that focuses on a research project in which students explore the recent literature and practice the laboratory techniques used in this field.
BIO 333. Nutrition. 3 Hours.
An integrated overview of nutrition to include the physiology of digestion and
absorption, basic nutrients and their utilization, vitamins and minerals, additives,
healthy diets and lifestyle, cultural and social influences on diet, weight control and
life-cycle nutrition.
BIO 342. Human Physiology (with lab). 4 Hours.
Study of the concepts of physiology with emphasis on negative feedback mechanisms responsible for homeostasis in humans. In lab, physiological phenomena such as nerve conduction velocity, muscle properties, electrocardiograms, pulmonary function tests, and urinalysis are recorded and analyzed from live animals and human subjects. Case studies are also integrated into the laboratory experience.
Prerequisite: BIO 214 with a minimum grade of D.
BIO 344. Mammalian Histology (with lab). 4 Hours.
Microscopic study of the cellular structure of tissues and organs. In lab, students examine prepared microscope slides while consulting their text-atlas before reviewing digital images of histological material. Learning in this course is greatly enhanced by student-organized group study outside the regularly-schedule class meetings and lab sessions.
Prerequisite: BIO 342 with a minimum grade of D.
BIO 350. Research Methods & Communication, Neurobiology. 0 to 4 Hours.
Projects designed to engage students in neurobiological research, in critical reading of original research, and in oral and written communication of original research.
Prerequisite: BIO 150 with a minimum grade of D and BIO 151 with a minimum grade of D and BIO 212 with a minimum grade of D and BIO 214 with a minimum grade of D.
BIO 351. Research Methods & Communication, Neurobiology (with lab). 4 Hours.
Projects designed to engage students in original neurobiological research, in critical reading of published research, and in oral and written communication of research findings leading to possible conference presentation and publication.
Prerequisite: BIO 150 with a minimum grade of D and BIO 151 with a minimum grade of D and BIO 212 with a minimum grade of D and BIO 214 with a minimum grade of D.
BIO 352. Research Methods & Communication, Evolutionary Biology (with lab). 1 or 3 Hours.
Projects designed to engage students in research methods in evolutionary biology, in critical reading of the primary literature, and in oral and written communication of original research.
Prerequisite: BIO 150 with a minimum grade of D and BIO 151 with a minimum grade of D and BIO 212 with a minimum grade of D and BIO 214 with a minimum grade of D.
BIO 360. Current Topics in Biology. 3 Hours.
An in-depth examination of selected topics, considered from biological, historical, philosophical and sociopolitical perspectives. Possible topics include: human embryonic stem cell research, AIDS, the environment, eugenics and human genetics, human experimentation, teaching evolution, emerging viruses, psychotropic drugs, world population, international public health, and biological warfare.
BIO 370. Field Biology (with lab). 4 Hours.
Introduction to the identification and natural history of arthropods, animals and selected groups of non-vascular "plants." Lecture emphasis is on the identification of specimens using dichotomous keys and other print/web resources. During the laboratory time, students are typically in the field practicing the skills to identify organism by sight recognition.
Prerequisite: BIO 150 with a minimum grade of D and BIO 151 with a minimum grade of D.
BIO 372. Field Botany (with lab). 4 Hours.
Introduction to the vascular plants and plant communities of South Carolina, including ecology and natural history, use of dichotomous keys in identification, and field recognition of plants and plant communities.
BIO 374. Living Mammals of the World. 3 Hours.
Study of the anatomical, physiological, and demographic characteristics that make
mammals important ecological actors in a variety of natural systems. Topics include the evolutionary origins of living mammals, and contemporary problems of mammal conservation.
BIO 382. Ecology (with lab). 4 Hours.
Scientific study of the interactions that determine the distribution and abundance of living organisms. Ecological principles are discussed at the level of the organism, the population, the community, and the ecosystem. Students explore the current research literature in ecology and complete a team-designed research project and a report.
Prerequisite: BIO 150 with a minimum grade of D and (BIO 151 with a minimum grade of D or ENVS 203 with a minimum grade of D).
BIO 383. Ecotoxicology. 3 Hours.
Ecotoxicology examines the effect of environmental contaminants on individuals,
populations, communities, and ecosystems. The course also examines how special interests influence toxicological issues facing the nation and world today and in the future.
BIO 385. Marine Biology. 3 Hours.
The course explores the physical and biological components of marine ecosystems with an emphasis on the diversity of organisms and their ecological adaptations to the sea. The course also examines issues that significantly impact the environmental and ecological stability of ocean communities.
Prerequisite: BIO 150 with a minimum grade of D and (BIO 151 with a minimum grade of D or ENVS 203 with a minimum grade of D).
BIO 386. Freshwater Biology (with lab). 4 Hours.
The course explores the physical attributes and biological communities of freshwater ecosystems. It also examines how and why many freshwater systems may be over-exploited and ill-used and the subsequent impact on our water resources. Lab includes travel to explore local/regional streams and lakes.
Prerequisite: BIO 150 with a minimum grade of D and (BIO 151 with a minimum grade of D or ENVS 203 with a minimum grade of D).
BIO 391. Animal Behavior. 3 Hours.
Students will explore the diverse science of animal behavior. Students will examine research studies and theories that attempt to answer the ultimate evolutionary causes of animal behavior, which unify the whole field of ethology. This exploration will extend to the internal mechanisms (such as genes and hormones) that influence the expression of behavior as animals respond to complex, environmental stimuli.
Prerequisite: BIO 150 with a minimum grade of D and BIO 151 with a minimum grade of D and BIO 212 with a minimum grade of D and BIO 214 with a minimum grade of D.
BIO 392. Animal Behavior (with lab). 4 Hours.
Students will explore the diverse science of animal behavior. Students will examine research studies and theories that attempt to answer the ultimate evolutionary causes of animal behavior, which unify the whole field of ethology. This exploration will extend to the internal mechanisms (such as genes and hormones) that influence the expression of behavior as animals respond to complex, environmental stimuli. Students will also apply the methods of ethology in field and laboratory conditions and conduct research projects leading to possible conference presentation and publication.
Prerequisite: BIO 150 with a minimum grade of D and BIO 151 with a minimum grade of D and BIO 212 with a minimum grade of D and BIO 214 with a minimum grade of D.
BIO 399. Evolution. 3 Hours.
Introduction to the facts and theories of biological evolution. Topics include a historical overview, the evidence for evolution, adaptation and natural selection, the evolution of diversity, the fossil record, extinction, evo-devo, genomics, and evolutionary genetics.
Prerequisite: BIO 150 with a minimum grade of D and BIO 151 with a minimum grade of D and BIO 212 with a minimum grade of D and BIO 214 with a minimum grade of D.
BIO 421. Human Genetics Seminar (with lab). 4 Hours.
The study of genes and their function, concentrating on human genes and genetics. The lab portion will include both bioinformatics, and a student-led seminar which analyzes and presents current scientific literature relating to human genetics.
Prerequisite: BIO 214 with a minimum grade of D.
BIO 423. Immunology. 3 Hours.
A concise but comprehensive and up-to-date introduction to the mechanisms of immune system function. The course concentrates on the mammalian immune system and includes case studies of immunological disorders.
Prerequisite: BIO 150 with a minimum grade of D and BIO 151 with a minimum grade of D and BIO 212 with a minimum grade of D and BIO 214 with a minimum grade of D.
BIO 424. Immunology (with lab). 4 Hours.
Identical to BIO 423 with a laboratory component through which students practice the research techniques used in this field.
Prerequisite: BIO 150 with a minimum grade of D and BIO 151 with a minimum grade of D and BIO 212 with a minimum grade of D and BIO 214 with a minimum grade of D.
BIO 433. Cellular Biochemistry. 3 Hours.
Study of the mechanisms of life on the cellular level. Topics may include cell metabolism, enzyme mechanisms and regulation, cell-cell communication, and errors of metabolism. Special attention will be focused on applications of biochemistry to health and disease. It is recommended that students take BIO 342, Human Physiology, prior to enrolling in this course.
Prerequisite: BIO 214 with a minimum grade of D.
BIO 436. Molecular Biology & Genomics (with lab). 4 Hours.
Study of the mechanisms of life on the molecular level, as well as the use of large computer databases of DNA sequence data to study those mechanisms. In the laboratory, students will use modern technologies including western blot, PCR and DNA sequencing. The laboratory will also include bioinformatics tools to analyze DNA.
Prerequisite: CHEM 203 with a minimum grade of D.
BIO 440. Comparative & Human Anatomy (with lab). 4 Hours.
A system-by-system approach to understanding vertebrate anatomy and evolution. Human anatomy is studied in detail and students explore is compared to cat and the anatomy of representative `ancestral vertebrates with a focus on evolutionary and developmental origins of structures'. Laboratory and classroom activities include model construction, extensive dissection, and comparative morphology of extant species. Students also explore current research in this field.
Prerequisite: BIO 342 with a minimum grade of D.
BIO 445. Neurobiology. 3 Hours.
Study of the structure and function of the nervous system from subcellular to systems levels with emphasis on the experimental foundation of modern principles.
BIO 446. Neurobiology (with lab). 4 Hours.
Identical to Biology 445 with a laboratory component. The lab includes cellular and physiological studies using fly larvae as a model system, comparative anatomical studies using sheep brain as a model, and student generated hypothesis testing in the areas of sensation and perception, learning, and /or cognition. Students also explore complimentary research in this field, and assessments include written and oral presentations of their work.
BIO 447. Cellular Neurobiology. 3 Hours.
Study of the structure and function of the nervous system emphasizing the subcellular, electrochemical, and signaling properties of neurons that establish the foundation for functional neural circuits and neuronal plasticity. This course places special emphasis on the experimental foundation of modern principles.
Prerequisite: BIO 150 with a minimum grade of D and BIO 151 with a minimum grade of D and BIO 214 with a minimum grade of D.
BIO 448. Systems Neurobiology. 3 Hours.
Study of the structure, function, and anatomical organization of neural circuits comprising the sensory and motor circuits of the nervous system with special emphasis on sensory/ motor integration leading to behavior and cognition. This course places special emphasis on the experimental foundation of modern principles.
Prerequisite: BIO 150 with a minimum grade of D and BIO 151 with a minimum grade of D and BIO 214 with a minimum grade of D.
BIO 449. Cancer Biology. 3 Hours.
This course studies the fastest growing and changing field in biology and medicine today: Oncology. We will study the function of cancer cells in depth and learn about the advances in molecular biology, genomics, cell biology and immunology that are revolutionizing the clinical battle against the myriad forms of cancer.
Prerequisite: BIO 214 with a minimum grade of D.
BIO 450. Research. 1 to 4 Hours.
Original research in an area of student's interest.
Prerequisite: BIO 250 with a minimum grade of D.
BIO 480. Advanced Topics in Biology. 0 to 4 Hours.
Selected topics in Biology at the advanced level. Courses with this designation are typically newly designed and are being explored for possible adoption as a regular addition to the curriculum.
BIO 491. Case Studies In Human Disease. 3 Hours.
A survey of all of the broad disease categories: genetic and congenital abnormalities, inflammatory/autoimmune diseases, environmentally linked diseases, forensic pathology, infectious disease, and neoplasia/cancer. Discussion of case studies will be used to reinforce disease concepts.
BIO 493. Case Studies in Public Health. 3 Hours.
Using a case study format and self-directed learning, students in this course will
consider important local, national, and international public health issues. Community and or campus service projects may be incorporated.
BIO 495. Case Studies in Biomedicine. 3 Hours.
Study of the biology of human disease through patient-oriented problem solving
and self-directed learning under the guidance of a mentoring physician. Discussions of readings on medically related topics (e.g., art of diagnosis, impact of technology on medicine, mortality and medicine) and a patient-interview exercise complement the case studies sessions.
BIO 497. Case Studies in Environmental Issues. 3 Hours.
The course challenges students to consider environmental issues that confront us locally, nationally and globally. A case study format will be used to provide students with a practical approach to environmental problems.
Prerequisite: BIO 150 with a minimum grade of D and (BIO 151 with a minimum grade of D or ENVS 203 with a minimum grade of D).
BIO 500. Honors Course. 3 Hours.
At the discretion of the faculty, students may undertake a six-hour independent course of study in the senior year in order to broaden their educational experience within their major area of study. Students must meet specific GPA standards and arrange a faculty sponsor. The honors course criteria are outlined in the Academic Honors portion of the catalog.