Director Michael J. Bidochka Participating Faculty Jeffrey K. Atkinson (Chemistry), Michael J. Bidochka (Biological Sciences), Ian D. Brindle (Chemistry), Douglas H. Bruce (Biological Sciences), Robert L. Carlone (Biological Sciences), Alan J. Castle (Biological Sciences), Vincenzo De Luca (Biological Sciences), Charles Després (Biological Sciences), Heather Gordon (Chemistry), Yousef Haj-Ahmad (Biological Sciences), Tomas Hudlicky (Chemistry), Adonis Skandalis (Biological Sciences), Lorne Stobbs (Biological Sciences), Art van der Est (Chemistry) Director of Co-operative Programs Cindy Dunne Co-operative Program Co-ordinator J.K. Atkinson |
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Administrative Assistants Caroline Barrow Beulah Lewis-Alexander 905-688-5550, extension 3042 Mackenzie Chown E206 http://www.brocku.ca/biotechnology/ Biotechnology is the use of living organisms to produce goods and services for practical and industrial purposes. Biotechnology has been used for centuries in fermentation and the making of bread and cheese, but today involves new scientific tools like genetic and protein engineering, cell fusion and production of monoclonal antibodies. Biotechnology is a strategic technology and an important economic component of industrialized nations. Biotechnology at Brock is a joint venture of the departments of Biological Sciences and Chemistry, with courses drawn from both departments plus courses designed specifically for the program. The Biotechnology Co-op program combines academic and work terms over a period of five academic years. Students spend two years in an academic setting studying the fundamentals of Biotechnology prior to their first work placement. Successful completion of courses in the core areas of Biotechnology provides the necessary academic background for the work experience. In addition to the current fees for courses in academic study terms, Biotechnology Co-op students are assessed an administrative fee for each work term (see the Schedule of Fees). Students admitted to the Biotechnology Co-op program must follow the Co-op program schedule. Failure to adhere to the schedule may result in removal from the Biotechnology Co-op program. Eligibility to continue in the Biotechnology Co-op program is based on the student's major and non-major averages. A student with a minimum 70 percent major average and a minimum 60 percent non-major average may continue. A student with a major average lower than 70 percent will not be permitted to continue in the Biotechnology Co-op program, but may continue in the non-co-op Biotechnology stream. If a student subsequently raises his/her major average to 70 percent, the student may be readmitted only if approved by the Co-op Admissions Committee. For further information, see the Co-op Programs section of the Calendar, and contact the Centre for Biotechnology. The Biotechnology Co-op program designation will be awarded to those students who have honours standing and who have successfully completed a minimum of twelve months of Co-op work experience. |
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Year 1
Year 2
Year 3
Year 4
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Students admitted to the Biotechnology Co-op program must follow the program schedule as listed below. Failure to adhere may result in removal from the program. Year 1
Year 2
Spring/Summer Sessions:
Year 3 Fall Term:
Winter Term:
Year 4 Fall Term:
Winter Term:
Year 5
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Satisfactory completion of the first three years of the Honours program entitles a student to apply for a Pass degree. |
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Note that not all courses are offered in every session. Refer to the applicable term timetable for details. # Indicates a cross listed course * Indicates primary offering of a cross listed course |
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Students must check to ensure that prerequisites are met. Students may be deregistered, at the request of the instructor, from any course for which prerequisites and/or restrictions have not been met. Introduction to Biotechnology Traditional and modern biotechnology. Topics include fermentation processes, medical, agricultural and forensic applications; the use of biotechnology in waste treatment. Lectures, lab, 6 hours per week. Prerequisites: BIOL 1F90 and CHEM 1F92. Introduction to Biophysical Chemistry (also offered as CHEM 2P63) Physical chemistry as applied to biological sciences. Introductory thermodynamics, kinetics, equilibria and transport phenomena as applied to proteins, biological membranes and other biological systems. Laboratory work includes kinetic measurements, equilibrium constant measurements and protein purification and characterization. Lectures, lab, 6 hours per week. Prerequisites: CHEM 1F92; MATH 1P01 and 1P02 (preferred), or MATH 1P97. Bioreactor Processes Fermentation technology and bioprocessing; the kinetics and thermodynamics of fermentation. Topics include batch and continuous fermentation, biomass production (single-cell proteins), immobilized systems, by-product recovery and scale-up. Lectures, lab, 6 hours per week. Prerequisite: BTEC 2P63. Applied Microbial Ecology (also offered as BIOL 3P43) Ecology of micro-organisms and special adaptations that permit their use in biotechnology and applied microbiology. Lectures, lab, 6 hours per week. Restriction: students must have a minimum of 8.0 overall credits. Prerequisite: BIOL 2P98 or permission of the instructor. Molecular Genetics (also offered as BIOL 3P50) Topics include the genetic code and information flow from nucleic acids to proteins, RNA and protein synthesis; prokaryotic and eukaryotic chromosomes; gene organization; transcription, RNA processing; codon usage; enhancer and transposons. Lectures, 3 hours per week; lab, 3 hours per week for 6 weeks. Restriction: students must have a minimum of 8.0 overall credits. Prerequisite: BIOL 2F01 or permission of the instructor. Bio-organic Chemistry (also offered as CHEM 3P62) Biosynthesis of the natural products of secondary metabolism. Introduction to the use of enzymes and other biological reagents in organic synthesis. Lectures, lab, 6 hours per week. Prerequisite: CHEM 2P21. Protein and Nucleic Acid Chemistry (also offered as CHEM 3P63) Structure and chemistry of proteins and nucleic acids. Selected aspects of transcription, translation, protein folding, post-translational modification, targeting, synthesis and sequencing, and detection techniques. Lectures, lab, 6 hours per week. Prerequisite: CHEM 2P21. Research Project Experimental research carried out under faculty supervision. Restriction: permission of the Director. Thesis The thesis will incorporate the results of the research project and will form the basis of a seminar presented by the student. Restriction: open to BTEC majors with approval to year 4 (honours). Co-requisite: BTEC 4F90. Bioinformatics (also offered as BCHM 4P06 and BIOL 4P06) Genome sequencing projects, gene discovery and gene expression. DNA/RNA/Protein sequence data, including mutagenic processes, molecular evolution and systematics, codon usage, reconstruction of ancient molecules, and prediction of higher-level molecular structure. Lectures, seminar, 3 hours per week. Restriction: students must have a minimum of 14.0 overall credits or approval to year 4 (honours). Note: BCHM 3P02, BIOL 3P50, 3P80 and MATH 1P98 are recommended. Topics in Plant and Microbial Biotechnology (also offered as BCHM 4P08) Illustrative cases from the current literature to show how specific biochemical processes or structures may be characterized, and how molecular manipulation allows genetic modification of such processes and structures to meet scientific and/or societal needs. Examples include yeast and microbial enzymes or enzyme systems as well as crop proteins and enzymes. Lectures, seminar, 3 hours per week. Restriction: students must have a minimum of 14.0 overall credits or approval to year 4 (honours). Prerequisite: one of BTEC 3P50, 3P63, BCHM 3P01, 3P02 or permission of the instructor. Transduction Pathways (also offered as BIOL 4P09 and BCHM 4P09) Perception of stimuli to effects on gene expression, emphasizing the molecular/biochemical tools used to study these pathways. Lectures, seminar, 3 hours per week. Restriction: students must have a minimum of 14.0 overall credits or approval to year 4 (honours). Prerequisite: BCHM 3P01. Computational Chemistry: Applications in Biotechnology (also offered as CHEM 4P18) Structure-based drug design, molecular modelling, conformational search techniques, secondary and tertiary protein structure prediction, quantitative structure activity relationships and bioinformatics. Lectures, 3 hours per week. Restriction: students must have a minimum of 13.5 overall credits. Prerequisite: CHEM 2P12 or 2P63. Mutagenesis in Disease and Biotechnology (also offered as BCHM 4P21 and BIOL 4P21) Exploration of the various mechanisms of mutagenesis of the genetic material, how they contribute to disease and how they can be adapted to produce new biomolecules. Lectures/seminar, 3 hours per week. Restriction: students must have a minimum of 14.0 overall credits or approval to year 4 (honours). Prerequisite: BCHM 3P02 or BIOL 3P50. Enzyme and Co-enzyme Mechanisms (also offered as CHEM 4P27) Hydrolytic and other processes catalyzed by enzymes lacking non-protein prosthetic groups; transferase reactions involving biotin, pyridoxal phosphate, thiamine pyrophosphate, folic acid and cobalamin; oxidation mechanisms involving pyridine nucleotides, flavoenzymes, hydroperoxidases and oxygenases. Lectures, seminar, 3 hours per week. Prerequisites: BCHM 3P01, 3P02 and CHEM 2P21. Molecular Virology (also offered as BIOL 4P51) Bacterial and animal viruses. Topics include biochemical properties, virus-host interaction, productive cycle, effect of virus on host cell and organism, viral vectors and gene therapy, recombinant viral vaccines and origin of virus. Lectures, seminar, 2 hours per week. Restriction: students must have a minimum of 14.0 overall credits or approval to year 4 (honours). Prerequisite: BTEC 3P50 or permission of the instructor. Bacterial Genetics (also offered as BIOL 4P57) Molecular and transmission genetics of bacteria. Bacterial genetics from early descriptions of transformation and transduction to current developments in molecular genetics. Lectures, seminar, 3 hours per week. Restriction: students must have a minimum of 14.0 overall credits or approval to year 4 (honours). Prerequisites: BTEC 3P50 and BIOL 2P98 or permission of the instructor. Fungal Genetics (also offered as BIOL 4P58) Transmission and molecular genetics of fungi. Recent advances in gene manipulation and the contribution of studies on these organisms to general genetic principles. Lectures, seminar, 2 hours per week. Restriction: students must have a minimum of 14.0 overall credits or approval to year 4 (honours). Prerequisite: one of BTEC 3P50, BIOL 2P96, 3P51 or permission of the instructor. Biophysical Techniques (also offered as BCHM 4P67 and CHEM 4P67) Modern instrumental methods of biotechnology emphasizing understanding theory. Development of newer technologies which utilize biological components. Topics include optical, X-ray and NMR techniques, separation techniques, hybridization assays, immunoassays, biosensors and mass spectral techniques; membrane chemistry. Lectures, seminar, 3 hours per week. Prerequisites: BTEC 2P63 and CHEM 2P21 or permission of the instructor. Biotransformations (also offered as CHEM 4P68) The organic reactions carried out by isolated enzymes, fungal cultures and bacteria. The production of pharmaceutical, agricultural and industrial chemicals by biological processes. Lectures, 3 hours per week. Prerequisite: one of CHEM 3P20, 3P62, 3P63 or permission of the instructor. |
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Work Placement I First Co-op work placement (4 months) with an approved employer. Restriction: open to BTEC Co-op students. Work Placement II Second Co-op work placement (4 months) with an approved employer. Restriction: open to BTEC Co-op students. Work Placement III Third Co-op work placement (4 months) with an approved employer. Restriction: open to BTEC Co-op students. Work Placement IV Optional Co-op work placement (4 months) with an approved employer. Restriction: open to BTEC Co-op students. Work Placement V Optional Co-op work placement (4 months) with an approved employer. Restriction: open to BTEC Co-op students. |
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2004-2005 Undergraduate Calendar
Last updated: December 10, 2004 @ 11:05AM