Áù¾ÅÉ«Ìà : Biology BIOL

Áù¾ÅÉ«ÌÃ

UofC " This Is Now

Search Calendar:


Site Navigation
Welcome
Important Notice and Disclaimer
Fee Payment Deadlines
Academic Schedule
Examinations Schedule
Undergraduate Degrees with a Major
Combined Degrees
Minor Programs
Student Services
Undergraduate Admissions
Academic Regulations
Tuition and General Fees
English for Academic Purposes Program
Faculty of Arts
Faculty of Education
Faculty of Environmental Design
Faculty of Graduate Studies
Haskayne School of Business
Faculty of Kinesiology
Faculty of Law
Faculty of Medicine
Faculty of Nursing
Schulich School of Engineering
Faculty of Science
Faculty of Social Work
Faculty of Veterinary Medicine
Co-operative Education/Internship
Continuing Education
Awards and Financial Assistance
COURSES OF INSTRUCTION
How to Use
Courses of Instruction by Faculty
Course Descriptions
A
B
Biochemistry BCEM
Biology BIOL
Biomedical Engineering BMEN
Botany BOTA
Business and Environment BSEN
C
D
E
F
G
H
I
J, K
L
M
N, O
P
R
S
T, U
V, W, Z
About the Áù¾ÅÉ«ÌÃ
Where
Who's Who
Glossary of Terms
Contact Us
Áù¾ÅÉ«Ìà Calendar 2010-2011 COURSES OF INSTRUCTION Course Descriptions B Biology BIOL
Biology BIOL

Instruction offered by members of the Department of Biological Sciences in the Faculty of Science.

Department Head - R.M.R. Barclay

For other courses offered by the Department of Biological Sciences see Biochemistry; Botany; Cellular, Molecular and Microbial Biology; Ecology; Marine Sciences; Zoology.

†Limited amounts of non-scheduled class time involvement will be required for these courses.

Junior Courses Note: Commencing Fall 2011, Biology 241/243 will replace Biology 231/233 as the core introductory departmental courses, serving as prerequisites for the 300-level core biology courses and others.Ìý
Biology 231 and 233 will no longer be offered effective Fall 2011.Ìý To accommodate students with only one course completed when the transition occursÌýthe DepartmentÌýwill accept any pairing of the old courses (231/233) and the new courses (241/243) to satisfy the 1 FCE junior biology course requirement.
Biology 205       The Organization and Diversity of Life
A study of biological concepts and mechanisms illustrated by current examples of medical and environmental problems.
Course Hours:
H(3-0)
Antirequisite(s):
Credit for both Biology 205 and either 231 or 233 will not be allowed.
Notes:
Not open for credit to Honours, Majors or Minors in the Department of Biological Sciences or to Natural Sciences program students with a Concentration in Biological Sciences.
back to top
Biology 231       Introduction to Cellular Biology
Examination of many fundamental principles of life common to all organisms; continues with an overview of structure, replication and function in viruses, bacteria, protists and fungi.
Course Hours:
H(3-3)
Prerequisite(s):
Biology 30 and Chemistry 30.
Antirequisite(s):
Credit for both Biology 231 and 205 will not be allowed.
Notes:
Biology 231 and 233 will not be offered after the 2010-11 academic year. Not recommended for those students seeking a single half course, general interest overview of the biological sciences. Those seeking such a course should consider Biology 205. Biology 231 is not a prerequisite for Biology 233. Biology 231 and 233 may be taken in any order.
back to top
Biology 233       Introduction to Organismal Biology of Plants and Animals
Various groups are introduced with a focus on diversity, and form and function in terrestrial plants and major metazoan phyla.
Course Hours:
H(3-3)
Prerequisite(s):
Biology 30 and Chemistry 30.
Antirequisite(s):
Credit for both Biology 233 and 205 will not be allowed.
Notes:
Biology 231 and 233 will not be offered after the 2010-11 academic year. Not recommended for those students seeking a single half course, general interest overview of the biological sciences. Those seeking such a course should consider Biology 205. Biology 231 is not a prerequisite for Biology 233. Biology 231 and 233 may be taken in any order.
back to top
Biology 241       Energy Flow in Biological Systems
An introduction to the energetics of life from molecules through ecosystems. Topics include: energy in biological systems; how different organisms obtain, store and use energy; energy budgets of organisms; and energy flow through cells and ecosystems.
Course Hours:
H(3-3)
Prerequisite(s):
Biology 30 and Chemistry 30.
Antirequisite(s):
Credit for Biology 241 and 205 will not be allowed. Credit for more than two of Biology 231, 233, 241, 243 will not be allowed.
Notes:
Biology 241  and 243 will be offered for the first time in the 2011-12 academic year. Biology 241 is a prerequisite for Biology 243. Not recommended for students seeking a single half course, general interest overview of the biological sciences.  Those seeking such a course should consider Biology 205.
back to top
Biology 243       DNA, Inheritance and Evolution
An introduction to central concepts in evolution and DNA as a vehicle for inheritance of genetic information. Topics include: the nature of genetic information and inheritance including transcription, translation and replication; natural selection and speciation; origin and history of biodiversity.
Course Hours:
H(3-3)
Prerequisite(s):
Biology 241.
Antirequisite(s):
Credit for Biology 243 and 205 will not be allowed. Credit for more than two of Biology 231, 233, 241, 243 will not be allowed.
Notes:
Biology 241  and 243 will be offered for the first time in the 2011-12 academic year. Not recommended for students seeking a single half course, general interest overview of the biological sciences.  Those seeking such a course should consider Biology 205.
back to top
Senior Courses
Biology 305       The Human Organism
An introduction to human biology that analyzes the structure and function of systems in our bodies. Leads to an appreciation of how the human body maintains itself and carries out the functions necessary to sustain any organism. A course for non-majors that will develop their understanding of the anatomy and physiology of their own species in a zoological and evolutionary context.
Course Hours:
H(3-0)
Prerequisite(s):
One of Biology 30 or 205 or 231.
Antirequisite(s):
Credit for Biology 305 and any of Kinesiology 261, Zoology 269, 361 or 363 will not be allowed.
Notes:
Not open for credit to Honours, Majors and Minors in the Department of Biological Sciences or to Natural Sciences program students with a Concentration in Biological Sciences.
back to top
Biology 307        Ecology and Human Affairs
The major principles of ecology and evolution. How organisms survive in the physical environment; Darwinism; sex and societies; species interactions; who lives where and why; who lives together and how; the biology of ecosystems. The intent of the course is to give non-biologists an understanding of ecological and evolutionary principles that will allow them to better appreciate the place and role of human beings in the modern world.
Course Hours:
H(3-0)
Prerequisite(s):
Completion of at least four full-course equivalents.
Notes:
Not open for credit to Honours, Majors and Minors in the Department of Biological Sciences or to Natural Sciences program students with a Concentration in Biological Sciences.
back to top
†B¾±´Ç±ô´Ç²µ²â 311       Principles of Genetics
Topics will include Mendelian inheritance, allelic relationships, genetic linkage, sex linkage, sex determination, changes in chromosome structure, segregation and recombination, structure and function of the genetic material, molecular genetics, genetics of bacteria and viruses, gene fine structure, gene function, complementation, and regulation of gene expression. Several selected organisms will be used in the laboratories to illustrate pertinent genetic principles.
Course Hours:
H(3-3)
Prerequisite(s):
Biology 231 and 233.
Notes:
Successful completion of Biology 311 is required for admission to all the specialty programs offered by the Department. Students are urged to complete this course in their second year to ensure timely completion of the program.
back to top
Biology 313       An Introduction to Ecology and Evolution
Ecological processes and evolutionary principles that explain the origin, maintenance, and dynamics of biological diversity. Ecological interactions will be studied to understand the dynamics of populations and communities, and the evolution of traits. Mechanisms of genetic change of populations will be discussed and how these changes give rise to large-scale evolutionary patterns.
Course Hours:
H(3-3)
Prerequisite(s):
Biology 233 and completion of at least four full-course equivalents.
Notes:
Knowledge of Mendelian genetics is a distinct asset. Students are strongly advised to take Biology 311 prior to or concurrently with Biology 313. Successful completion of Biology 313 is required for admission to all the specialty programs offered by the department. Students are urged to complete this course in their second year to ensure timely completion of the program.
back to top
Biology 315       Quantitative Biology I
Data collection, presentation and analysis in the biological sciences. Basic design of biological experiments including concepts of control, replication, and interspersion. Analysis of biological data will include tests of statistical hypotheses and estimation techniques.
Course Hours:
H(3-3)
Prerequisite(s):
Biology 233 and one of Applied Mathematics 217, Mathematics 249, 251, 261 or 281.
Notes:
Biology 315 is a prerequisite for several Ecology courses offered by the department. Students are urged to complete this course in their second year to ensure timely completion of the program. Enrolment in this course may be limited. See Program Details in the Faculty of Science section of this Calendar.    
back to top
Biology 331       Introduction to Cellular and Molecular Biology
The principles of cellular structure and function. Molecular organization of membranes, organelles, nucleus and cytoplasmic structures; the integration of cellular functions; assembly of organelles; the regulation of cell proliferation; and the interaction of cells with their neighbours and their environment.
Course Hours:
H(3-1T)
Prerequisite(s):
Biology 311.
Notes:
Successful completion of Biology 331 is required for admission to all the specialty programs offered by the department. Students are urged to complete this course in their second year to ensure timely completion of the program.
back to top
Biology 351       Plants in their Environment
An integration ofÌýphysiological and ecological aspects of plant adaptation to different environments. Topics include interactions between plants and other organisms (e.g., bacterial and fungal symbionts, animal pollinators, herbivores) as well as the influence of abiotic stressors on plant growth and distribution. The ecological consequences and possible applications of such interactions are discussed.
Course Hours:
H(3-0)
Prerequisite(s):
Biology 313 and Botany 303.
back to top
Biology 375       Insects, Science and Society
Examination of insects as the most diverse and abundant form of animal life on the planet, why they are so successful and how they influence our lives. Topics include how insects are built, what they do, and how they interact with people and have come to be so important economically and culturally, as pests,Ìý pollinators, experimental animals, maintaining our environment and forming complex societies. Other topics include evolution of insects, insects in history and culture and how insects can help us address issues such as biological conservation, climate change and animal rights.
Course Hours:
H(3-0)
Prerequisite(s):
Completion of at least 4 full-course equivalents.
Notes:
Not open for credit to honours, majors or minors in the Department of Biological Sciences or to Environmental Science and Natural Sciences program students with a Concentration in Biological Sciences.  Offered in odd/even dated academic years.
back to top
Biology 401       Evolutionary Biology
An introduction to the micro- and macro-evolutionary processes responsible for the diversity of organisms. Topics include heredity, genetic variation, population structure, genetic drift, natural selection and adaptation, sexual selection, evolution of interactions between species, speciation, phylogeny and biogeography.
Course Hours:
H(3-1T)
Prerequisite(s):
Biology 313 and 315.
Notes:
Enrolment in this course may be limited. See Program Details in the Faculty of Science section of this Calendar.   
back to top
Biology 435       Biology of Fungi
Morphology, life history patterns and systematics of fungi. Fungal ecology including fungi as parasites, symbionts and decomposers. Basic molecular biology, genetics and physiology.
Course Hours:
H(3-3/2)
Prerequisite(s):
Biology 231 and 313.
Antirequisite(s):
Credit for both Biology 435 and Biology 335 will not be allowed.
Also known as:
(formerly Biology 335)
back to top
Biology 451       Conservation Biology
The application of ecological theory and principles to the conservation and management of natural and modified ecosystems, with emphasis on preservation of biodiversity and sustainable development. Topics include disturbance as an ecological process, ecological and evolutionary responsiveness of natural systems, ecology of resource harvesting, management of endangered habitats and populations, implications of human population growth and global change.
Course Hours:
H(3-1T)
Prerequisite(s):
Biology 313.
back to top
Biology 461       Systems Biology: Functional Genomics and Molecular Networks
Introduction to high-throughput methods for global functional and network analysis of genes and proteins. Topics include microarrays, chromatin immunoprecipitation, synthetic genetic array analysis, next-generation sequencing and network topology.
Course Hours:
H(3-0)
Prerequisite(s):
Biology 331.
back to top
Biology 463       Systems Biology: Network Dynamics and Biocomplexity
Introduction to theoretical concepts and modeling paradigms in systems biology and biocomplexity. Topics include genetic circuits, gene-regulatory networks, gene expression noise, systems dynamics and emergent properties as applied to the control of development. Emphasis is on conceptual understanding of complexity.
Course Hours:
H(3-0)
Prerequisite(s):
Biology 331 and one of Mathematics 253 or 283 or 211 or 213 or Computer Science 217.
back to top
Biology 501       Principles and Mechanism of Pharmacology
Basic principles of pharmacology, with specific emphasis on receptor signaling mechanisms.
Course Hours:
H(3-0)
Prerequisite(s):
Consent of the Department and Biochemistry 443, and one of Zoology 461, 463, or Medical Science 404.
Also known as:
(Medical Science 501)
back to top
Biology 503       Pharmacology of Organ Systems
Pharmacology of the nervous, cardiovascular, renal and immune systems, as well as anti-cancer therapies. Principles of toxicology.
Course Hours:
H(3-0)
Prerequisite(s):
Biology 501 (Medical Science 501) or consent of the Department.
Also known as:
(Medical Science 503)
back to top
Biology 505       Medicinal Plant Biochemistry
Deals with biochemical, molecular, and cellular aspects of plant metabolism, natural product diversity in the plant kingdom, and modern molecular and biochemical methods to understand plant metabolism. The focus is on the metabolic pathways that are either unique to plants, or that exhibit unique features in, plants. Several key plant pathways that produce plant-derived medicines will be discussed.
Course Hours:
H(3-0)
Prerequisite(s):
Biology 331 and Biochemistry 393.
Antirequisite(s):
Credit for Biology 505 and Botany 503 will not be allowed.
Notes:
Enrolment in this course may be limited. See Program Details in the Faculty of Science section of this Calendar.     
back to top
Biology 515       Cellular Mechanisms of Disease
The cellular and molecular mechanisms underlying basic human disease processes and how these can be influenced by lifestyle and environmental factors. The ways in which this knowledge can be used in the laboratory diagnosis of disease.
Course Hours:
H(3-0)
Prerequisite(s):
Biochemistry 443 and one of Biology 331 or Medical Science 351.
Also known as:
(Medical Science 515)
back to top
Biology 520       Field Course in Tropical Biology
An examination of biodiversity in a selected region of the tropics, including aspects of ecology of animals and plants, animal behaviour and an introduction to field techniques for observing and censusing selected taxa. Field studies will take place at forest and savannah sites with consideration of community-based conservation efforts.
Course Hours:
F(3-3)
Prerequisite(s):
Consent of the Department.
back to top
Biology 551       Systems Biology
An overview of theoretical concepts and high-throughput technologies in systems biology. Functional genomics, genetic circuits, gene-regulatory networks, and systems dynamics as applied to the control of development.
Course Hours:
H(3-0)
Prerequisite(s):
Biology 331, Biochemistry 393, and Math 249 or 251 or 281.
Notes:
Prior completion of Computer Science 217 or 231; and Math 211 or 213 is strongly recommended.
back to top
Biology 553       Molecular Biophysics
A comprehensive survey of modern biophysics covering the flow and processing of matter, energy and information in living systems. Equilibrium and non-equilibrium thermodynamics in biology. Molecular motors and facilitated proton transport. An integrative approach connecting atomistic theories to cellular processes.
Course Hours:
H(3-0)
Prerequisite(s):
Biochemistry 341 or 393; and Biochemistry 471 or Chemistry 371.
Notes:
Prior completion of Biochemistry 555 is strongly recommended.
back to top
Biology 591       Insect Biodiversity
A field course in the natural history and classification of insects, one of the most diverse groups of organisms known, as they are encountered in their natural habitat. Course material will include: techniques for collection and identification of major groups of insects and related terrestrial arthropods; aspects of behaviour and ecology of local species; use of insects as indicators of environmental change; censusing/monitoring insect populations.
Course Hours:
H(1-5)
Prerequisite(s):
Consent of the Department.
back to top
Graduate Courses

Enrolment in any graduate course requires consent of the Department.

Only where appropriate to a student's program may graduate credit be received for courses numbered 500-599.

600-level courses are available with permission to undergraduate students in the final year of their programs.

Ìý

Biology 601       Research Seminar

Reports on studies of the literature or of current research. Graduate students normally register in their supervisor's research cluster

601.01. Biochemistry I

601.02. Biochemistry II

601.03. Cell, Development and Physiology I

601.04. Cell, Development and Physiology II

601.05. Ecology and Evolutionary Biology I

601.06. Ecology and Evolutionary Biology II

601.11. Microbiology I

601.12. Microbiology II


Course Hours:
H(2S-0)
NOT INCLUDED IN GPA
back to top
Biology 603       Biology of Laboratory Animals
The course is based on the Canadian Council on Animal Care Syllabus "Basic Principles of Laboratory Animal Science for Research Scientists." In addition to the study of common, research, farm and exotic animals, topics to be covered include ethical considerations, regulation and legislation, animal models, animal facilities and husbandry, hazard control, surgery, anaesthesiology, euthanasia and post-mortem examinations. Practical sessions will provide experience in handling and restraint of specific laboratory animals, injections, blood collection, anaesthesiology and surgery.
Course Hours:
H(3-1)
Notes:
Enrolment in this course is restricted in the first instance to graduate students who will do research utilizing animals.
Also known as:
(Medical Science 603) (Veterinary Medicine 603)
back to top
Biology 607       Special Problems in Biology
Lectures, seminars, term papers and training in theoretical and/or laboratory methods.
Course Hours:
H(3-3)
MAY BE REPEATED FOR CREDIT
back to top
Biology 609       Advanced Statistical Applications in Biology
This course explains and demonstrates the analysis of biological data with general linear models, generalized linear models, maximum-likelihood fitting of nonlinear models, and resampling techniques. Content is presented in a workshop format, so that students learn the application of computer analysis coincidentally with statistical concepts.
Course Hours:
H(3-0)
Prerequisite(s):
Familiarity with statistical inference, regression, and ANOVA-based experimental design (equivalent of Ecology 425) is required.
Notes:
Offered in odd-even dated academic years.
back to top
Biology 619       Advanced Evolutionary Biology
The theory of organic evolution. Historical development of evolutionary ideas. Darwin's contribution. The mechanism of natural selection; sexual, kin and group selection. The application of the theory in biogeography, ecology, ethology and other areas in biology.
Course Hours:
H(3-0)
Notes:
Offered in odd-even dated academic years.
back to top
Biology 651       Topics in Systems Biology
In-depth discussions of the latest publications in systems biology, with emphasis on the fundamental principles of genome and cell function.
Course Hours:
H(3-0)
Notes:
Offered in odd-even dated academic years.
back to top
Biology 653       Topics in Functional Genomics
Presentation and discussion of the primary literature in high-throughput methods for global functional and network analysis of genes and proteins (reverse genetics, microarrays, two hybrid, mass spectrometry and RNAi screening).
Course Hours:
H(3-0)
Notes:
Offered in even-odd dated academic years.
back to top
Biology 703       Recent Advances in Biology
Lectures, seminars and/or laboratories on special advanced topics in biological sciences. Each student should seek consent of a departmental faculty member who will supervise the chosen study.
Course Hours:
H(0-6)
MAY BE REPEATED FOR CREDIT
back to top