BIO - Biology
This course is a survey of topics in biological sciences for students not majoring in biological or chemical sciences. It is structured in a lecture/discussion format to allow flexibility in pursuit of contemporary topics in biology. Partially satisfies natural science distribution requirements of the baccalaureate experience but is not applicable toward a biology or marine science major or minor. Lecture only.
Credit Hours: 3
(NS)
Explores topics such as the value of biological diversity, threats to biodiversity, strategies employed to protect endangered species and habitats, and sustainable development. How the process of science is applied to the conservation of endangered species and habitats is the central theme of the course. Case studies focus on regions of the planet that have been designated as biodiversity hotspots. Satisfies a portion of the natural science component of the baccalaureate experience requirements but is not applicable toward a biology or marine science major or minor. Lecture only.
Credit Hours: 3
(IG) (NS)
Focuses on diseases and the organisms that cause them. These include bacteria, viruses, fungi, rickettsia and disease-causing protozoan. Additionally, the course focuses on infectious disease caused by medical and surgical practices and accidental injuries. Partially satisfies natural science distribution requirements of the baccalaureate experience but is not applicable toward a biology or marine science major or minor. Lecture only.
Credit Hours: 3
(NS)
A study of biology, emphasizing cell structure, cell reproduction, cellular and organismal metabolism, cell signaling, immunology, endocrinology and mechanisms and genetic systems of plants and animals. Must be completed with BIO 198L and with a grade of “C” or better in both to count toward biology lower-core requirements and to enroll in BIO 199 (General Biology II) and BIO 199L (General Biology II Lab).
Credit Hours: 3
(NS)
Prerequisites
Pre- or corequisites:
CHE 152 and
CHE 153L
Corequisites
BIO 198L
A study of biology, emphasizing cell structure, cell reproduction, cellular and organismal metabolism, cell signaling, immunology, endocrinology and mechanisms and genetic systems of plants and animals. Must be completed with
BIO 198 (requires a grade of “C” or better in both) to enroll in
BIO 199 (General Biology II) and BIO 199L (General Biology II Lab) and to count toward biology lower-core requirements.
Credit Hours: 1
Prerequisites
Pre- or corequisites:
CHE 152 and
CHE 153L
Corequisites
BIO 198
Examines the diversity of life through investigations of the taxonomy, anatomy, physiology, behavior, ecology and evolution of all major prokaryotic and eukaryotic lineages. Basic ecological and evolutionary theory are focal points of the course, as these represent the mechanisms through which biological and physiological diversity arises. Must be completed with BIO 199L and with a grade of “C” or better in both to count toward biology lower-core requirements.
Credit Hours: 3
(NS)
Prerequisites
BIO 198 and
BIO 198L must be completed with a grade of "C" or better in order to enroll in BIO 199 and BIO 199L.
Corequisites
BIO 199L
Examines the diversity of life through investigations of the taxonomy, anatomy, physiology, behavior, ecology and evolution of all major prokaryotic and eukaryotic lineages. Basic ecological and evolutionary theory are focal points of the course, as these represent the mechanisms through which biological and physiological diversity arises. Must be completed with BIO 199 (requires a grade of “C” or better in both) to count toward biology lower-core requirements.
Credit Hours: 1
Prerequisites
BIO 198 and
BIO 198L must each be completed with a grade of "C" or better in order to enroll in BIO 199 and BIO 199L.
Corequisites
BIO 199
A detailed survey of Mendelian, molecular and evolutionary genetics. Topics covered include mechanisms and patterns of inheritance, recombination, linkage, mapping, gene expression and regulation, mutation, DNA damage and repair, DNA technologies, population and quantitative genetics.
Credit Hours: 4
(NS)
Prerequisites
Biology lower-core curriculum.
Corequisites
BIO 200L
A detailed survey of Mendelian, molecular and evolutionary genetics. Topics covered include mechanisms and patterns of inheritance, recombination, linkage, mapping, gene expression and regulation, mutation, DNA damage and repair, DNA technologies, population and quantitative genetics.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum
Corequisites
BIO 200
This course is intended for students interested in the natural history, biology and ecology of the tropics, the most biologically diverse region of the world. Students will study evolutionary, ecological and other biological principles of tropical ecosystems and the natural history of the organisms that live there. We will examine conservation programs, sustainable development practices and the widespread impact of this region of the globe. The course culminates in a two-week travel experience where students will visit such places as lowland tropical rain forests, high elevation tropical cloud forests, coastal ecosystems, primary and secondary forests and more. In the field, students will conduct brief research programs designed to illustrate the possibilities of careers working in the tropics over a broad range of biological specialties, ranging from tropical biodiversity, evolution and sustainability to agriculture and medicine.
Credit Hours: 4
(NS) (Category III)
Prerequisites
Biology lower-core curriculum and permission of the instructor
Examines relationships between species and their environment. Students explore the contributions of abiotic and biotic factors to limitations in numbers and distributions of organisms. A strong emphasis is placed upon classical ecological issues such as production dynamics, predator-prey interactions, and competition and life history strategies in marine, freshwater and terrestrial ecosystems.
Credit Hours: 4
(W) (NS) (Category III)
Prerequisites
Biology lower-core curriculum.
Corequisites
BIO 212L
Examines relationships between species and their environment. Students explore the contributions of abiotic and biotic factors to limitations in numbers and distributions of organisms. A strong emphasis is placed upon classical ecological issues such as production dynamics, predator-prey interactions, and competition and life history strategies in marine, freshwater and terrestrial ecosystems.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum
Corequisites
BIO 212
A study of the structure, physiology, life histories and group relationships of invertebrate animals.
Credit Hours: 4
(NS) (Category II)
Prerequisites
Biology lower-core curriculum.
Corequisites
BIO 224L
A study of the structure, physiology, life histories and group relationships of invertebrate animals.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum
Corequisites
BIO 224
A study of the structure, ecology, behavior and taxonomy of the major vertebrate classes.
Credit Hours: 4
(NS) (Category II)
Prerequisites
Biology lower-core curriculum.
Corequisites
BIO 225L
A study of the structure, ecology, behavior and taxonomy of the major vertebrate classes.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum
Corequisites
BIO 225
A study of the physiological basis of organismal adaptation to diverse habitats. Covers the environmental parameters impacting animal metabolism and plant productivity with a focus on the major stressors (e.g., water availability, heat, salinity, food supply, oxygen, radiation) in the habitats of each. Major topics include the adaptive and acclimative mechanisms in animals and plants with regard to osmoregulation, excretion, metabolism, respiration, circulation, neuromuscular systems and photosynthesis. The emphasis of the laboratory is on research exploring the adaptive and acclimative strategies employed by organisms under stress and the development of scientific communication skills.
Credit Hours: 4
(W) (NS) (Category I, PP)
Prerequisites
Biology lower-core curriculum.
Corequisites
BIO 227L
A study of the physiological basis of organismal adaptation to diverse habitats. Covers the environmental parameters impacting animal metabolism and plant productivity with a focus on the major stressors (e.g., water availability, heat, salinity, food supply, oxygen, radiation) in the habitats of each. Major topics include the adaptive and acclimative mechanisms in animals and plants with regard to osmoregulation, excretion, metabolism, respiration, circulation, neuromuscular systems and photosynthesis. The emphasis of the laboratory is on research exploring the adaptive and acclimative strategies employed by organisms under stress and the development of scientific communication skills.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum
Corequisites
BIO 227
Studies the morphology, anatomy and physiology of vascular plants, with emphasis on plants and their role in human society. Additional emphases are placed upon plants' reproduction, response to environmental change, ethnobotany, medicinal botany and the development and uses of plants in ancient and modern human societies.
Credit Hours: 4
(W) (NS) (Category II)
Prerequisites
Biology lower-core curriculum.
Corequisites
BIO 228L
Studies the morphology, anatomy and physiology of vascular plants, with emphasis on plants and their role in human society. Additional emphases are placed upon plants’ reproduction, response to environmental change, ethnobotany, medicinal botany and the development and uses of plants in ancient and modern human societies.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum
Corequisites
BIO 228
Investigates the use of statistical methodology to evaluate biological hypotheses. Topics include basic experimental design, descriptive statistics, and scientific inference and hypothesis testing using statistical tests such as analysis of variance, correlation, regression, contingency tables and nonparametric equivalents. Example data sets drawn from ecology, general biology and biomedical sciences are used to explore concepts. Class time is broken into lecture and laboratory components.
Credit Hours: 4
(NS) (Category III, PP)
Prerequisites
Biology lower-core curriculum.
Examines vertebrate evolution through a detailed study of the systems of the vertebrates.
Credit Hours: 4
(NS) (Category II, PP)
Prerequisites
Biology lower-core curriculum.
Corequisites
BIO 250L
Examines vertebrate evolution through a detailed study of the systems of the vertebrates.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum
Corequisites
BIO 250
This course will provide basic and advanced understanding of various stem cells (embryonic, induced pluripotent, adult), nuclear reprogramming (epigenetic, viral, non-viral, mRNA and protein based), potential diseases (neurological, autoimmune, metabolic, genetic, cardiac) treated by stem cells, translational medicine (from lab to bedside), drug discovery, and molecular pathways involved in the development and differentiation of embryonic and adult stem cells.
Credit Hours: 4
(NS) (Category I, PP).
Prerequisites
Biology lower-core curriculum and
BIO 200
Corequisites
BIO 350L
This course will provide basic and advanced understanding of various stem cells (embryonic, induced pluripotent, adult), nuclear reprogramming (epigenetic, viral, non-viral, mRNA and protein based), potential diseases (neurological, autoimmune, metabolic, genetic, cardiac) treated by stem cells, translational medicine (from lab to bedside), drug discovery, and molecular pathways involved in the development and differentiation of embryonic and adult stem cells.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum and
BIO 200
Corequisites
BIO 301
This course examines the relationship between anatomy and the clinical reasoning skills used in medical diagnostics. The course relies on anatomical knowledge gleaned from dissections of model organisms as well as human prosections. This course is intended for advanced undergraduates with intentions of pursuing a career in the health professions.
Credit Hours: 4
(NS) (Category II, PP)
Prerequisites
Biology lower-core curriculum and
BIO 250
Corequisites
BIO 302L
This course examines the relationship between anatomy and the clinical reasoning skills used in medical diagnostics. The course relies on anatomical knowledge gleaned from dissections of model organisms as well as human prosections. This course is intended for advanced undergraduates with intentions of pursuing a career in the health professions.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum and
BIO 250
Corequisites
BIO 302
A study of the structure, function and taxonomy of microorganisms, and their interactions with humans and their environment.
Credit Hours: 4
(W) (NS) (Category I, PP)
Prerequisites
Biology lower-core curriculum.
Corequisites
BIO 307L
A study of the structure, function and taxonomy of microorganisms, and their interactions with humans and their environment.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum
Corequisites
BIO 307
A study of the developmental process in animals with emphases on cellular mechanisms, controlling development and morphology of embryos.
Credit Hours: 4
(W) (NS) (Category I, PP)
Prerequisites
Biology lower-core curriculum;
BIO 200;
BIO 250 recommended.
Corequisites
BIO 310L
A study of the developmental process in animals with emphases on cellular mechanisms, controlling development and morphology of embryos.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum;
BIO 200;
BIO 250 recommended
Corequisites
BIO 310
This course will introduce concepts in modern virology, with an emphasis on virus genetics, replication strategies, host-virus interactions, pathogenesis, diagnosis, and prevention and control of virus infections.
Credit Hours: 4
(NS) (Category I, PP)
Prerequisites
Biology lower-core curriculum
Corequisites
BIO 315L
This course will focus on laboratory techniques and methodology used in modern virology, with an emphasis on virus isolation, characterization and cellular interactions.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum
Corequisites
BIO 315
A study of the major groups of parasites, emphasizing those affecting humans and domesticated animals. Examines the morphology, life history, ecology and pathogenicity of each parasite.
Credit Hours: 4
(NS) (Category II, PP)
Prerequisites
Biology lower-core curriculum.
Corequisites
BIO 317L
A study of the major groups of parasites, emphasizing those affecting humans and domesticated animals. Examines the morphology, life history, ecology and pathogenicity of each parasite.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum
Corequisites
BIO 317
A study of the major physiological systems of animals from a comparative perspective. Covers functional anatomy, homeostasis, evolutionary relationships, neurophysiology, dynamics of muscle contraction, endocrinology, cardiovascular physiology and environmental physiology.
Credit Hours: 4
(NS) (Category I, PP)
Prerequisites
Biology lower-core curriculum.
Corequisites
BIO 330L
A study of the major physiological systems of animals from a comparative perspective. Covers functional anatomy, homeostasis, evolutionary relationships, neurophysiology, dynamics of muscle contraction, endocrinology, cardiovascular physiology and environmental physiology.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum
Corequisites
BIO 330
Examines the relationship between the unifying biological principles of evolutionary adaptation and the diversity of form and function found among fishes. The course considers the physical and biological selective pressures this group of vertebrates has faced during its evolutionary history and the morphological, physiological, developmental and behavioral adaptations that have arisen in response to these ecological factors. How fishes function in marine and freshwater ecosystems and the management actions being taken to conserve them as natural resources are examined.
Credit Hours: 4
(W) (NS) (Category II)
Prerequisites
Biology lower-core curriculum and
BIO 225 or 250.
Corequisites
BIO 340L
Examines the relationship between the unifying biological principles of evolutionary adaptation and the diversity of form and function found among fishes. The course considers the physical and biological selective pressures this group of vertebrates has faced during its evolutionary history and the morphological, physiological, developmental and behavioral adaptations that have arisen in response to these ecological factors. How fishes function in marine and freshwater ecosystems and the management actions being taken to conserve them as natural resources are examined.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum and
BIO 225 or
BIO 250
Corequisites
BIO 340
Field Ornithology is an excursion-based, experiential learning opportunity with the goal of teaching students about birds and their habitats. Bird identification, anatomy, physiology, behavior, and biogeography are introduced in the classroom, and reinforced in the field. Course lectures are supplemented by weekly field trips to various locations in and around the Tampa Bay area where students encounter wild birds in their habitats.
Credit Hours: 4
(NS) (Category II)
Prerequisites
Biology lower-core curriculum: At least one category II or category III course, or Ecophysiology (
BIO 227), or Conservation, Evolutionary and Ecological Genetics (
BIO 355) recommended
Corequisites
BIO 345L
Field Ornithology is an excursion-based, experiential learning opportunity with the goal of teaching students about birds and their habitats. Bird identification, anatomy, physiology, behavior, and biogeography are introduced in the classroom, and reinforced in the field. Course lectures are supplemented by weekly field trips to various locations in and around the Tampa Bay area where students encounter wild birds in their habitats.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum: At least one category II or category III course, or Ecophysiology (
BIO 227), or Conservation, Evolutionary and Ecological Genetics (
BIO 355) recommended.
Corequisites
BIO 345L
A study of the biological and human factors relating to the current global extinction crisis and how conservation practices are used to evaluate and preserve threatened species and habitats. Emphases are placed upon how issues in ecology, population, biology and taxonomy affect the status of a species, and how these issues relate to policy and management decisions. Materials covered are connected to current literature in weekly discussion periods.
Credit Hours: 4
(W) (NS) (Category III)
Prerequisites
Biology lower-core curriculum.
Corequisites
BIO 346L
A study of the biological and human factors relating to the current global extinction crisis and how conservation practices are used to evaluate and preserve threatened species and habitats. Emphases are placed upon how issues in ecology, population, biology and taxonomy affect the status of a species, and how these issues relate to policy and management decisions. Materials covered are connected to current literature in weekly discussion periods. This course may be used as an elective for biology and marine science-biology majors, and is a required course for a major and minor in environmental science.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum.
Corequisites
BIO 346
A study of general cellular organization, the physico-chemical aspects of living systems, cell energetics, cell membrane systems, signal transduction and second messenger systems, membrane phenomenon and cell cycle.
Credit Hours: 4
(NS) (Category I, PP)
Prerequisites
Biology lower-core curriculum and
BIO 200
Corequisites
BIO 350L
A study of general cellular organization, the physico-chemical aspects of living systems, cell energetics, cell membrane systems, signal transduction and second messenger systems, membrane phenomenon and cell cycle.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum and
BIO 200
Corequisites
BIO 350
Uses an inquiry-based approach to explore how genetic data are used to answer research questions in conservation, evolution and ecology. The course focuses on the main approaches and limitations to selecting genetic markers, collecting and analyzing genetic data, that are used in current research. For example, we will cover genealogical data (e.g., DNA sequence), codominant allele data (e.g., microsatellite), expression data (e.g., cDNA) and single nucleotide polymorphism (SNP) data. Topics will be broached as hypothetical research questions are brought to the class by students.
Credit Hours: 4
(NS) (Category I)
Prerequisites
Biology lower-core curriculum and
BIO 200.
Corequisites
BIO 355L
The laboratory includes hands-on wet lab data collection, data analysis and discussion of current research.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum and
BIO 200.
Corequisites
BIO 355
A study of the fundamental concepts of immunology, including the essentials of immunological expression, cellular and humoral immunity, immunity and disease, auto-immunity, and developmental and comparative immunology, focusing on landmark experiments that underlie its theoretical framework.
Credit Hours: 4
(W) (NS) (Category I, PP)
Prerequisites
Biology lower-core curriculum and
CHE 232;
BIO 307 is recommended.
Corequisites
BIO 360L
A study of the fundamental concepts of immunology, including the essentials of immunological expression, cellular and humoral immunity, immunity and disease, auto-immunity, and developmental and comparative immunology, focusing on landmark experiments that underlie its theoretical framework.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum and
CHE 232;
BIO 307 is recommended
Corequisites
BIO 360
Provides a background in molecular biology with a focus on the regulation of gene expression and the experimental approaches used to study this regulation. Topics include DNA replication, transcription, translation and the mechanisms that regulate these processes. Cancer genetics and mammalian coat color genetics also are discussed as models for gene regulation. The laboratory portion of the course provides experiential learning of some of the laboratory techniques discussed in lecture. Topics covered in the laboratory include DNA extraction, PCR cloning of a gene, gene expression analysis, DNA sequencing and analysis using bioinformatics.
Credit Hours: 4
(NS) (Category I, PP)
Prerequisites
Biology lower-core curriculum.
Corequisites
BIO 370L
Provides a background in molecular biology with a focus on the regulation of gene expression and the experimental approaches used to study this regulation. Topics include DNA replication, transcription, translation and the mechanisms that regulate these processes. Cancer genetics and mammalian coat color genetics also are discussed as models for gene regulation. The laboratory portion of the course provides experiential learning of some of the laboratory techniques discussed in lecture. Topics covered in the laboratory include DNA extraction, PCR cloning of a gene, gene expression analysis, DNA sequencing and analysis using bioinformatics.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum
Corequisites
BIO 370
Course focuses on historical knowledge and recent advances concerning the evolution and adaptive significance of behavior from a comparative point of view. Topics include the genetic basis of behavior, the nervous system and integration of behavior, and social behavior, including mating and reproduction, predator-prey relationships and the biological bases of aggression, territoriality and communication. Students will develop their communication skills as part of the writing-intensive requirement, learning about discipline-specific writing and research processes that engage course topics through formal and informal writing assignments, with opportunities for in-class discussion of the material, through student-led formal discussions and professor-led informal discussions.
Credit Hours: 4
(W) (NS) (Category III, PP)
Prerequisites
Biology lower-core curriculum or equivalent
Corequisites
BIO 380L
Companion course to
BIO 380 explores course concepts in more detail. Laboratory exercises will investigate research methods in behavior, behavioral genetics, sensory systems and communication, animal motivation and personalities, optimal foraging, habitat preference, reproduction and mating systems, and parental care, using a range of live animal, video recordings, and simulations. In addition, scientific writing will be investigated through the preparation of a grant on a behavioral topic of the students choice. One weekend field trip to Lowry Park Zoo is required.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum or equivalent
Corequisites
BIO 380
Introduces the techniques used in preparation and viewing of biological specimens on the scanning and transmission electron microscopes.
Credit Hours: 4
(NS) (Category I, PP)
Prerequisites
Biology lower-core curriculum and consent of instructor.
Corequisites
BIO 390L
Introduces the techniques used in preparation and viewing of biological specimens on the scanning and transmission electron microscopes.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum and consent of instructor
Corequisites
BIO 390
Course focuses on disease dynamics and host-pathogen interactions in complex natural environments. We will investigate the ecological phenomena that drive the transmission of pathogens among hosts, the impact of disease on host populations, and investigate what impacts the emergence of an infectious disease. We will explore wildlife and human diseases (e.g. White nose syndrome, influenza, malaria, Ebola, HIV, Chytridiomycosis). A discussion section will present the historical and current primary literature allowing us to explore disease epidemics more in-depth. Students will develop critical thinking, problem solving, and communication skills through discussion and student-led presentation-based learning.
Credit Hours: 4
(NS) (Category III, PP)
Prerequisites
Biology lower-core curriculum.
A study of the scientific foundations of evolutionary theory and the mechanisms responsible for evolutionary change. Topics covered include a historical perspective of evolution, origin of life, natural selection and adaptation, levels of selection, fitness concepts, speciation, Darwinian evolution and punctuated equilibria, extinction, the fossil record, life history evolution and human evolution. Lecture only.
Credit Hours: 4
(NS) (Category III, PP)
Prerequisites
Biology lower-core curriculum.
This course highlights the historic and modern relationships between the study of biology and the shaping of evolutionary theory. Students learn about Charles Darwin and his contemporaries as well as modern research on evolution and zoology with particular emphasis on zoology, paleontology, and related fields as they develop and persist in British culture. The course co-requisite (BIO 401A Darwin's London) requires travel to London and surrounding areas, allowing greater depth of study on topics ranging from natural selection and evolution to paleontology, the history of the biological sciences, and the vertebrate diversity of England.
Credit Hours: 2-4
(NS) (Category II)
Prerequisites
Biology lower-core curriculum, any Biology Category II or Category III course, and Permission of Instructor.
Corequisites
BIO 401A
This short-term study abroad course is the companion to
BIO 401 Origin of Species and requires travel to London and surrounding areas. The study abroad component of the course highlights the historic and modern relationships between the study of biology and the shaping of evolutionary theory and incorporates visits to historically important research facilities that inspired Charles Darwin and continue to inspire scientists today.
Credit Hours: 2-4
(NS) (Category II)
Prerequisites
Biology lower-core curriculum, any Biology Category II or Category III course, and Permission of Instructor.
Corequisites
BIO 401
A study of the evolution of humans, beginning with the origin of primates. Course includes emphases on evolutionary phenomena, morphological and molecular evolution, extinct and modern human diversity, primate behavior, and human functional anatomy and paleontology.
Credit Hours: 4
(IG) (NS) (Category II, PP)
Prerequisites
Biology lower-core curriculum:
BIO 225,
BIO 250 or
BIO 400 recommended
Corequisites
BIO 405L
A study of the evolution of humans, beginning with the origin of primates. Course includes emphases on evolutionary phenomena, morphological and molecular evolution, extinct and modern human diversity, primate behavior and human functional anatomy and paleontology.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum;
BIO 225,
BIO 250, or
BIO 400 recommended.
Corequisites
BIO 405
This course focuses on applications of microbial metabolism in food production. Topics will include types and sources of microorganisms in food fermentations, metabolic activities of microorganisms and their influence on product characteristics, microbial interactions, processing of fermented foods, industrial applications of microbiology, and problems that may arise during fermentation. Focus will be on the microbiology in production of cheese, beer, wine, yogurt, bread, chocolate, coffee, and sausage.
Credit Hours: 3
(NS) (Category II).
Prerequisites
Biology lower-core curriculum,
BIO 307 , and permission of the instructor.
Corequisites
BIO 407A
This short-term study abroad course is the companion to
BIO 407: Fermentation Microbiology and requires travel to France and Belgium. The study abroad component of the course highlights the history of fermented foods as well as the modern industrial application of microbiology to food production.
Credit Hours: 1
(NS) (Category II).
Prerequisites
Biology lower-core curriculum,
BIO 307, and permission of the instructor.
Corequisites
BIO 407
This course introduces fundamental concepts, algorithms and methods in bioinformatics and genomics. Topics include, but are not limited to: pairwise sequence alignment, multiple sequence alignment, biological database searching, phylogenetic analysis, protein structure prediction, genome annotation and comparative genomics. The course introduces the use of computer programming and various computational tools to analyze biological data. Understanding of bioinformatics methods and the practical application of these methods are emphasized. No prior programming experience is necessary.
Credit Hours: 4
(NS) (Category I, PP)
Prerequisites
Biology lower-core curriculum and one of the following:
BIO 200,
BIO 370, or
CHE 320
Corequisites
BIO 408L
This course introduces fundamental concepts, algorithms and methods in bioinformatics and genomics. Topics include, but are not limited to: pairwise sequence alignment, multiple sequence alignment, biological database searching, phylogenetic analysis, protein structure prediction, genome annotation and comparative genomics. The course introduces the use of computer programming and various computational tools to analyze biological data. Understanding of bioinformatics methods and the practical application of these methods are emphasized. No prior programming experience is necessary.
Credit Hours: 0
Prerequisites
Biology lower-core curriculum and one of the following:
BIO 200,
BIO 370 or
CHE 320
Corequisites
BIO 408
This course will introduce the Python and R programming languages with respect to biological sequence analysis. The BioPython module in Python and the Bioconductor package in R will be used to introduce programming concepts, with emphasis on analyzing big genomic data produced by high throughput sequencing technologies. Development of computational pipelines will be performed and various free bioinformatics software tools will be integrated with Python and R to analyze biological sequence data. No prior programming experience is necessary.
Credit Hours: 4
(NS)
Prerequisites
Biology lower-core curriculum and one of the following:
BIO 200,
BIO 370,
BIO 230 or
BIO 408, or permission of instructor.
An in-depth study of a current topic in biology. Requires independent study project and presentation.
Credit Hours: 1
(NS)
Prerequisites
Senior standing in biology or marine science.
This course consists of a capstone exam and a senior skills and attitudes survey, both of which are required of all departmental majors in their final 14-week semester. The capstone exam provides a framework for students to synthesize their comprehension of cell biology, molecular biology, genetics, organismal biology, population biology, evolution and ecology and gauges the preparedness of students to address scientific problems at a wide range of levels of biological organization. The final comprehensive exam serves as an overview of the areas of applied knowledge that are infused in the biology departments major programs. The skills and attitudes survey provides a framework for students to reflect on and provide an indirect measure of their understanding of the process and methodology of science as well as student preparedness to make informed decisions about complex scientific issues. Graded: S/U.
Credit Hours: 0
Prerequisites
Senior standing in all majors offered through the Department of Biology. Must be taken during graduation semester.
This advanced biology course will focus on analysis and presentation of published research articles. Students will also attend and critique biology research seminars. Themes ranging from molecular to organismal biology will be explored. This course will be of particular interest to advanced Biology students who plan to pursue graduate or professional degrees.
Credit Hours: 1
(NS)
Prerequisites
Students must have completed the Biology lower-core and either General Genetics or Molecular Genetics and have a minimum GPA of 3.0 and have senior status or permission of instructor.
Students select a topic of interest in biology and explore the subject thoroughly through directed literature-based research. Requires at least two hours each week for each credit attempted and a formal paper with extensive literature review. Oral presentation of results can be used in place of BIO 410 with permission of department chair. Counts as general elective credit only and therefore may not be used as an upper level biology elective.
Credit Hours: 2-6
(W)
Prerequisites
At least 16 credit hours in biology, and faculty and department chair permission
Research questions must be selected with the professor in charge of the project with approval from the department chair. Requires at least two hours each week for each credit attempted. Oral presentation of results can be used in place of BIO 410 with permission of department chair. Counts as general elective credit only and therefore may not be used as an upper level biology elective.
Credit Hours: 2-6
(NS)
Prerequisites
At least 16 credit hours in biology, and faculty and department chair consent
Research topics must be selected in consultation with the professor in charge of the project with approval from the department chair. Usually requires preliminary library or laboratory research prior to attempting a BIO 450 project (volunteer research, BIO 440 or BIO 445 recommended). Requires at least two hours each week for each credit attempted, a research paper and oral presentation of topic. Oral presentation of results can be used in place of BIO 410 with permission of department chair. Counts as general elective credit only and therefore may not be used as an upper level biology elective.
Credit Hours: 2-6
(W) (NS)
Prerequisites
At least 16 credit hours in biology, and faculty and department chair permission
Through direct involvement both in and out of the classroom students gain practical knowledge of instruction in a college biology laboratory. Under the supervision of faculty, students are involved in the aspects pertaining to teaching a semester's biology laboratory. This may include but is not limited to presenting introductory material, aiding students during laboratories, development and critique of evaluation component(s), and laboratory preparation and maintenance. Counts as general elective credit only and therefore may not be used as an upper level biology elective.
Credit Hours: 1
(NS)
Prerequisites
Permission of the instructor.
Provides practical experience in science-related programs in a firm or agency under the supervision of faculty and firm representatives. Can be accomplished on a part-time or full-time basis. Graded on a pass/fail basis. Counts as general elective credit only and therefore may not be used as an upper level biology elective.
Credit Hours: 1-8
Prerequisites
BIO 198 and
BIO 199, 56 credit hours, minimum GPA of 3.0 in the major or approval of the department. Note: Prerequisite courses may be specified by the employer.
A lecture or laboratory course offered at the discretion of the Department of Biology. Subject may focus on a current issue in biology, training in a specific research technique or an area of biology that is of interest to a particular group of students. Counts as general elective credit only and therefore may not be used as an upper level biology elective.
Credit Hours: 1-4
Prerequisites
Permission of instructor.