Science Menu
Chemical Biology Major
First and second year courses
- CHEM 1500/CHEM 1510 or CHEM 1500/CHEM 1520
- BIOL 1110/BIOL 1210
- PHYS 1100/PHYS 1200 or PHYS 1150/PHYS 1250
- MATH 1130/MATH 1230, MATH 1140/MATH 1240 or MATH 1150/MATH 1250
- ENGL 1100 or ENGL 1110
(or two of ENGL 1100, 1110, 1120, 1140 or 1210)1 - COMP 3 credits2
- CHEM 2100/CHEM 2250
- CHEM 2120/CHEM 2220
- CHEM 2160
- BIOL 2160
- BIOL 2130/BIOL 2340
- CMNS 2290 or CMNS 23001
- Electives 0-3 credits
Third and fourth year courses
- CHEM 3100
- CHEM 3170
- CHEM 3220
- CHEM 3240
- CHEM 4450
- BIOL 3000
- BIOL 3130
- BIOL 3230
- BIOL 3350
- BIOL 4150/BIOL 4250
- BIOL 3520
- Chemical Biology Electives3 7-9 credits
- Electives4 18-23 credits
Notes
1. Students with a B or better in ENGL 1100 or 1110 may proceed into CMNS 2290 or 2300 in their second tear; students with less than a B in first year English must take another 3 credits of 1000-level English before their second year English requirement.
2. Must be taken prior to third year
3. Five or six credits from CHEM 3060, CHEM 3140, CHEM 3230, CHEM 3310, CHEM 3330, CHEM 4220, CHEM 4320, CHEM 4420, CHEM 4480, CHEM 4600, BIOL 3200, BIOL 3510, BIOL 3540, BIOL 3550, BIOL 4350, BIOL 4480, BIOL 4490, PHIL 4330 or 4350.
4. Electives must include 9-12 credits in at least two disciplines outside Science (other than English). The remaining electives may be chosen from any discipline; at least 9 of these must be in courses numbered 3000 or higher
First and second year course descriptions
CHEM 1500 Chemical Bonding and Organic Chemistry (4,0,3)(L)
Credits: 3 credits
Delivery: Campus
This course develops an understanding and historical context of atomic and molecular structure. Students will organize and synthesize existing knowledge of chemical structure, and engage in reflective review of their understanding. Topics include electron configurations, periodic trends, chemical bonding, Lewis structures, molecular shapes, valence bond and molecular orbital theory. The organic chemistry portion of the course focuses on the bonding and structure of organic compounds, functional groups, conformational and stereochemical features including applications to biochemistry. The laboratory stresses precision techniques in analytical chemistry. Students collect and analyze data and draw evidence-based conclusions. The laboratory provides opportunity for students to expand their existing knowledge and immerse them in challenging laboratory environment. Students receive weekly feedback and mentorship in the lab and lecture.
Prerequisite: Chemistry 11 or 12; CHEM 0500 or 0600; and Pre-Calculus 12 or MATH 0600/0610
For more information, search for this course here.
CHEM 1510 Fundamentals of Chemistry (4,0,3)(L)
Credits: 3 credits
Delivery: Campus
This is the second half of a fundamental first year chemistry course, designed for students who have completed CHEM 1500: Chemical Bonding and Organic Chemistry, and have a Chemistry 11 background. The topics include a brief review of stoichiometry, gas laws, thermochemistry, equilibrium and electrochemistry. Students are expected to become familiar with these topics, and demonstrate their proficiency in various laboratory techniques. The laboratory stresses fundamental precision techniques in quantitative analytical and physical chemistry.
Prerequisite: CHEM 1500 (minimum C-) and Chemistry 11 or CHEM 0500
For more information, search for this course here.
CHEM 1520 Principles of Chemistry (3,0,3)(L)
Credits: 3 credits
Delivery: Campus
This course is the second half of first year chemistry designed for students with a strong background in Chemistry. The Department of Chemistry defines a strong background as at least a B in Chemistry 12 or CHEM 0600; however, the course is available to any student with CHEM 1500 and Chemistry 12 or CHEM 0600. The topics include gas laws, equilibrium, redox reactions, electrochemistry, thermochemistry, entropy and free energy. Students are expected to become familiar with these topics during the course, and demonstrate their proficiency in various laboratory techniques. The laboratory stresses fundamental precision techniques in quantitative analytical and physical chemistry.
Prerequisite: CHEM 1500 (C- minimum) and Chemistry 12 or CHEM 0600 (a grade of B or better is recommended) or acceptance into the Engineering Program
For more information, search for this course here.
BIOL 1110 Principles of Biology 1 (3,0,3)(L)
Credits: 3 credits
Delivery: Campus
This course is designed for biology or science majors. Students examine the molecular basis of cellular processes including energy transfer and the storage and use of genetic information.
Prerequisite: Life Sciences 11 or Anatomy & Physiology 12 with a minimum grade of C+ , Chemistry 11 or CHEM 0500
Note: Students repeating a course may be exempt from the laboratory component of that course if they took the course within two years and obtained a grade of at least 70% in the laboratory component of the course. The grade they previously obtained in the laboratory component of the course will be used in the calculation of their course grade.
For more information, search for this course here.
BIOL 1210 Principles of Biology 2 (3,0,3)(L)
Credits: 3 credits
Delivery: Campus
Students will explore evolution as unifying principle of biology: how it occurs, and how it leads to increasing biological diversity through speciation. They will develop an understanding of how evolutionary opportunities and constraints are reflected in the history of life on Earth and will examine the evolutionary conundrum of sexual reproduction (or lack thereof) in both plants and animals. They will develop important skills useful for biologists such as working in teams, finding and disseminating information, conducting research projects by developing and testing hypotheses, and communicating research results effectively.
For more information, search for this course here.
PHYS 1100 Fundamentals of Physics 1 (3,0,3)(L)
Credits: 3 credits
Delivery: Campus
An algebra-based introduction to physics intended for students with some secondary school physics background. Students develop a basic understanding of several fields of physics through conceptualization, problem-solving and laboratory exercises. Topics include mechanics, fluid mechanics, waves, and thermodynamics.
Prerequisite: Pre-calculus 12 or equivalent with a minimum C+ and Physics 11 or equivalent with a minimum C+.
Corequisite: MATH 1130 or MATH 1140 or MATH 1150 or MATH 1001
For more information, search for this course here.
PHYS 1200 Fundamentals of Physics 2 (3,0,3)(L)
Credits: 3 credits
Delivery: Campus
This course is a continuation of PHYS 1100: Fundamentals of Physics 1. Topics include electricity and magnetism, optics, and selected topics from nuclear and modern physics.
Prerequisite: PHYS 1100; MATH 1130 or MATH 1140 or MATH 1150
Corequisite: MATH 1230 or 1240 or 1250
Required Lab: PHYS 1200L
For more information, search for this course here.
PHYS 1150 Mechanics and Waves (3,0,3)(L)
Credits: 3 credits
Delivery: Campus
The student will develop an understanding of physics concepts, acquire and apply problem-solving skills, and gain hands-on experience with data collection and analysis. Topics include mechanics, simple harmonic motion, mechanical waves, sound, wave optics and geometric optics. Calculus will be introduced and used in the course.
Prerequisite: Pre-calculus 12 (minimum C+) and Physics 12 (minimum C+) or equivalent
Corequisite: MATH 1130, MATH 1140, MATH 1150 or recommended - PHYS 1150/1250 recommended for students planning to major in physics or chemistry.
Note: Students may only receive credit for one of PHYS 1150 or EPHY 1150
For more information, search for this course here.
PHYS 1250 Thermodynamics, Electricity and Magnetism (3,0,3)(L)
Credits: 3 credits
Delivery: Campus
Continuing from PHYS 1150, the student will develop an understanding of concepts in electricity and magnetism, thermodynamics, and the kinetic theory of gases. Mathematical problem-solving skills related to these topics will be learned and applied. Hands-on experience will be gained from testing concepts in the laboratory.
Prerequisite: PHYS 1150 and MATH 1130, MATH 1140 or MATH 1150
Corequisite: MATH 1230, MATH 1240 or MATH 1250
Note: Students may only receive credit for one of EPHY 1250 or PHYS 1250
Required Lab: PHYS 1250L
For more information, search for this course here.
MATH 1130 Calculus 1 for Engineering (3,1.5,0)
Credits: 3 credits
Delivery: Campus
Students build a strong mathematical foundation for engineering by learning ideas, methods and applications of single-variable differential calculus. Limits and derivatives are defined and calculated, derivatives are interpreted as slopes and rates of change, and derivatives are then applied to many sorts of problems, such as finding maximum and minimum values of functions.
Prerequisite: Admission to the Engineering program.
Note: Students can get credit for only one of the following MATH 1130, MATH 1140, MATH 1141, MATH 1150, MATH 1157, MATH 1170 or MATH 1171.
For more information, search for this course here.
MATH 1230 Calculus 2 for Engineering (3,1.5,0)
Credits: 3 credits
Delivery: Campus
Students learn the ideas and techniques of single-variable integral calculus from an engineering perspective. Integrals are defined, evaluated and used to calculate areas, volumes, arc lengths and physical quantities such as force, work and centres of mass. Differential equations are introduced and used to model various physical phenomena. Ideas about infinite series are pursued, including some convergence tests, with particular emphasis on Taylor series.
Prerequisite: MATH 1130 with a minimum grade of C.
Note: Students can get credit for only one of the following MATH 1230, MATH 1240, MATH 1241 or MATH 1250.
For more information, search for this course here.
MATH 1140 Calculus 1 (3,1.5,0) or (5,0,0)
Credits: 3 credits
Delivery: Campus
Students study differential calculus for functions of one variable, with applications emphasizing the physical sciences. Topics include calculation and interpretation of limits and derivatives; curve sketching; optimization and related-rate problems; l'Hospital's rule; linear approximation and Newton's method.
Prerequisites: Pre-calculus 12 with a minimum grade of 67% (C+) or MATH 0610 with a minimum grade of C- or MATH 0630 with a minimum grade of C- or MATH 0633 with a minimum grade of C- or MATH 1000 with a minimum grade of C- or MATH 1001 with a minimum grade of C-
Note: Students can get credit for only one of the following MATH 1130, MATH 1140, MATH 1141, MATH 1150, MATH 1157, MATH 1170 or MATH 1171.
For more information, search for this course here.
MATH 1240 Calculus 2 (3,1.5,0) or (5,0,0)
Credits: 3 credits
Delivery: Campus
This course covers integral calculus for functions of one variable, with applications emphasizing the physical sciences. Topics include Riemann sums, definite and indefinite integrals, techniques of integration, improper integrals, applications of integration (including area, volume, arc length, probability and work), separable differential equations, and series.
Prerequisites: MATH 1130 with a minimum grade of C- or MATH 1140 with a minimum grade of C- or MATH 1141 with a minimum grade of C- or MATH 1150 with a minimum grade of C- or MATH 1157 with a minimum grade of C-
Note: Students can get credit for only one of the following MATH 1230, MATH 1240, MATH 1241 or MATH 1250.
For more information, search for this course here.
MATH 1150 Calculus for the Biological Sciences 1 (5,0,0)
Credits: 3 credits
Delivery: Campus
Students study differential calculus for functions of one variable, with applications emphasizing the biological sciences. Topics include calculation and interpretation of limits and derivatives, curve sketching, and optimization problems. MATH 1140 is recommended rather than MATH 1150 for students planning to take second-year MATH courses.
Prerequisite: Pre-calculus 12 with a minimum grade of 67% (C+) or MATH 0610 with a minimum grade of C- or MATH 0630 with a minimum grade of C- or MATH 0633 with a minimum grade of C- or MATH 1000 with a minimum grade of C- or MATH 1001 with a minimum grade of C-
Note: Students can get credit for only one of the following MATH 1130, MATH 1140, MATH 1141, MATH 1150, MATH 1157, MATH 1170 or MATH 1171.
For more information, search for this course here.
MATH 1250 Calculus for the Biological Sciences 2 (5,0,0)
Credits: 3 credits
Delivery: Campus
This course covers integral calculus for functions of one variable, with applications emphasizing the biological sciences. Topics include Riemann sums, definite and indefinite integrals, techniques of integration, improper integrals, first-order differential equations and slope fields, applications (including area, probability, logistic growth and predator-prey systems), and series. MATH 1240 is recommended instead of MATH 1250 for students planning to take 2nd-year MATH courses.
Prerequisites: MATH 1130 with a minimum grade of C- or MATH 1140 with a minimum grade of C- or MATH 1141 with a minimum grade of C- or MATH 1150 with a minimum grade of C- or MATH 1157 with a minimum grade of C-
Note: Students can get credit for only one of the following MATH 1230, MATH 1240, MATH 1241 or MATH 1250.
For more information, search for this course here.
ENGL 1100 Introduction to University Writing (3,0,0)
Credits: 3 credits
Delivery: Campus
Students explore the practices of reading and writing in scholarly contexts by investigating a chosen topic or issue. Students read, critically analyze, and synthesize information and ideas found in appropriate secondary sources and coming from a variety of disciplinary backgrounds. They also develop their abilities to communicate knowledge by composing in the genres and sub-genres of scholarly writing, including the incorporation of research and documentation while using a clear, persuasive, grammatically-correct style.
Prerequisite: English Studies 12 /English First Peoples 12 with a minimum 73% or equivalent
Note: students cannot receive credit for both ENGL 1100 and ENGL 1101
For more information, search for this course here.
ENGL 1110 Critical Reading and Writing (3,0,0)
Credits: 3 credits
Delivery: Campus
Students develop skills in close critical reading comprehension, written composition, and argumentation through the exploration and evaluation of a variety of creative narrative texts. Students learn critically and creatively to articulate complexities of various perspectives, techniques and rhetorical strategies, and assumptions employed by writers to convey a given subject matter or social issue. They also practice critical reflection and clear, persuasive, and grammatically-correct communication by building on scholarly writing and documentation skills. Students develop critical reading and writing skills, which are keys to success in any academic discipline and transfer directly to the workplace.
Prerequisite: English Studies 12 /English First Peoples 12 with a minimum 73% or equivalent
Note: Students cannot receive credit for both ENGL 1110 and ENGL 1001.
For more information, search for this course here.
CHEM 2100 Introductory Analytical Chemistry (3,0,3)(L)
Credits: 3 credits
Delivery: Campus
Students are introduced to the principles of analytical chemistry and their practical application to solution samples. Topics include statistical method of data analysis, quantitative principles of chemical equilibrium, and fundamental concepts of gravimetric, spectrophotometric, electrochemical, and chromatographic methods of analysis. In the laboratory component, students perform experiments using the same state-of-the-art instrumentation used in many commercial and research laboratories. An analysis of samples of clinical, environmental, and biochemical interest is completed to illustrate the material discussed in lectures.
Prerequisite: CHEM 1500 (minimum C- grade) and either CHEM 1510 or 1520 (minimum C- grade)
For more information, search for this course here.
CHEM 2250 Fundamentals of Physical Chemistry (3,0,3)(L)
Credits: 3 credits
Delivery: Campus
This course, intended for science majors, introduces chemical kinetics and thermodynamics with applications to gas behaviour and phase and reaction equilibria. The laboratory work involves preparative and kinetic studies, as well as the experimental study of the aspects of thermodynamic measurements.
Prerequisite: CHEM 1500 (minimum C- grade) and either CHEM 1510 or 1520 (minimum C- grade); MATH 1230 or 1240 or 1250 (MATH 2110 is strongly recommended)
Note: Students with credit for CHEM 2110 and CHEM 2210 will not receive credit for CHEM 2150 and CHEM 2250
For more information, search for this course here.
CHEM 2120 Organic Chemistry 1 (3,0,3)(L)
Credits: 3 credits
Delivery: Campus
This course is a study of the compounds of carbon with an emphasis on reaction mechanisms, to illustrate the basic principles of organic chemistry. The topics include structure and bonding, preparations and reactions of the functional groups, and stereochemistry. Biological and biochemical applications are also discussed. The laboratory work illustrates basic separation, purification and identification techniques, and spectroscopic techniques are introduced.
Prerequisite: CHEM 1500 (minimum C- grade) and either CHEM 1510 or 1520 (minimum C- grade)
Note: ECHE 1110/ECHE 1210 are not prerequisites for 2nd year Chemistry courses. Engineering students who may wish to take 2nd year Chemistry courses should meet with their Engineering Advisor and the Chair of the Department of Physical Sciences as early as possible.
For more information, search for this course here.
CHEM 2220 Organic Chemistry 2 (3,0,3)(L)
Credits: 3 credits
Delivery: Campus
This course is a continuation of CHEM 2120: Organic Chemistry 1, in which students further explore the principles of organic chemistry. Topics include structure and bonding; preparations and reactions of the functional groups; stereochemistry; biological and biochemical applications; and basic separation, purification, identification, and spectroscopic techniques in the laboratory.
Prerequisite: CHEM 2120 (C- minimum)
For more information, search for this course here.
CHEM 2160 Structure, Bonding and Spectroscopy (3,0,0)
Credits: 3 credits
Delivery: Campus
Students develop fundamental quantum ideas in chemistry and apply them to topics in chemical bonding and spectroscopy. Bonding concepts revolve around electrostatic models applied to ionic compounds and transition metal complexes. Covalent bonding is approached from the molecular orbital point of view, while students survey homo- and heteronuclear diatomics, and briefly consider larger molecules. Fundamental concepts in spectroscopy are introduced, and vibrational, electronic, nuclear magnetic resonance (NMR) and electron spin resonance (ESR) spectroscopy is discussed. Fundamental aspects of symmetry guide several of these treatments.
Prerequisite: CHEM 1500 (minimum C- grade) and either CHEM 1510 or 1520 (minimum C- grade).
For more information, search for this course here.
BIOL 2160 Introductory Microbiology (3,0,3)(L)
Credits: 3 credits
Delivery: Campus
Students are introduced to the world of microorganisms, including bacteria, yeasts, fungi, and viruses, and the important roles they play in ecosystem health. Focusing on the principles and applications of microbiology, course topics include microbial physiology; growth and growth control; gene transfer; gene expression and environmental sensing; disease; and environmental biotechnologies such as wastewater treatment, bioremediation and industrial microbiology. Laboratory sessions provide hands-on training in cell culture techniques, applied microbiology, and manipulation of DNA.
Prerequisite: BIOL 1110/1210, CHEM 1500/1510 or CHEM 1500/1520
For more information, search for this course here.
BIOL 2130 Cell Biology (3,1,3)
Credits: 3 credits
Delivery: Campus
Students will explore the structure, organization and function of the eukaryotic cell. They will examine specific cellular processes related to membrane structure, function and transport of small molecules, intracellular membrane systems, protein targeting and movement, cellular signaling, cytoskeletal function, and intercellular communication. They will learn about some of the major ideas and experimental approaches that have advanced our view of the intracellular landscape and appreciate how these have promoted a better understanding of human disease. In seminars and labs they will practice the process of scientific inquiry and develop relevant skills including scientific communication, problem solving, data handling and collaboration.
Note: Labs and seminars offered in alternate weeks.
Recommended Requisites: CHEM 2120
For more information, search for this course here.
BIOL 2340 Introduction to Genetics (3,1,3)
Credits: 3 credits
Delivery: Campus
Students explore the connections between the genetic composition of an organism and the outward expression of characteristics. They gain an appreciation for genetics as an exciting and important field, which lets them delve deeper into topics such as genetic engineering, regulation of gene expression and other aspects of molecular biology and biotechnology. They examine classical Transmission Genetics, which encompasses the basic principles of heredity and how traits are passed from one generation to the next. They also develop a basic understanding of Population Genetics, which explores the genetic composition of groups of individuals of the same species and how that composition changes over time and space.
Prerequisites: BIOL 1110-Principles of biology 1 with a score of C minimum and BIOL 1210-Principles of biology 2 (Inactive) with a score of C minimum.
Note: BIOL2130-Cell Biology (inactive)
For more information, search for this course here.
CMNS 2290 Technical Communication (3,0,0)
Credits: 3 credits
Delivery: Campus
Students study a variety of technical communications used to document professional activity, including proposals, technical and formal reports, policies and procedures, technical descriptions and definitions, and instructions. Students learn the importance of documentation and accountability as part of professional due diligence, applicable across many fields including journalism, business, government, public service, consulting and research institutes. Students develop skills in assessing communication needs in a scenario, identifying communication goals, audience need and relevant media. Finally, students learn skills in research and synthesis to ensure professional engagement and presentation of research material.
Prerequisites: CMNS 1291 OR CMNS 1290 OR ENGL 1100 OR ENGL 1101 OR CMNS 1810
Note: Students cannot receive credit for more than one of CMNS 2290, ENGL 2290 AND CMNS 2291
For more information, search for this course here.
CMNS 2300 Critical Thinking and Writing for Science and Technology (3,0,0)
Credits: 3 credits
Delivery: Campus
Students analyze and discuss examples of writing from scientific and technical literature to improve their communication skills for lay and scientific audiences. Students learn to identify and produce writing styles and formats appropriate for science-based contexts and audiences, as well as develop skills in writing and documenting research documents on science and technology topics.
Prerequisites: Admission to the Bachelor of Science Program OR Bachelor of Natural Resource Science Program OR Permission of the instructor AND CMNS 1290 OR CMNS 1291 OR ENGL 1100 OR ENGL 1101
Note: Students cannot receive credti for both CMNS 2300 and ENGL 2300
For more information, search for this course here.
Third and fourth year course descriptions
CHEM 3100 Instrumental Analysis (3,0,0)
Credits: 3 credits
Delivery: Campus
Students are introduced to the wide range of instrumental methods used in chemical analysis, as they are applied to modern analytical chemistry. The topics include statistical evaluation of chemical data, electrochemical methods, optical spectroscopic methods, mass spectrometry and chromatography.
Prerequisite: CHEM 2100/2250 (C- minimum)
For more information, search for this course here.
CHEM 3170 Instrumental Analysis Laboratory for Chemical Biology (0,0,4)(L)
Credits: 1 credits
Delivery: Campus
This is a laboratory course designed to give students practical hands-on experience with the instrumentation discussed in CHEM 3100: Instrumental Analysis. Students focus on the needs of chemical biologists while performing a variety of chemical analyses and gaining independent experience in analytical experimental design and method application to real samples.
Prerequisite: CHEM 2100 and 2250 (minimum C- grade)
For more information, search for this course here.
CHEM 3220 Advanced Organic Chemistry (3,0,0)
Credits: 3 credits
Delivery: Campus
This is a lecture course that covers the theory and practice of modern organic synthesis. The emphasis is on important carbon-carbon bond forming reactions, significant reactions of functional groups and the use of protecting group strategies in organic synthesis. In addition, the chemistry of amino acids, peptides, carbohydrates and heterocycles is studied in the context of the above topics.
Prerequisite: CHEM 2120/2220 (C- minimum)
For more information, search for this course here.
CHEM 3240 Organic Chemistry Laboratory (0,0,4)(L)
Credits: 1 credits
Delivery: Campus
In this laboratory course, students perform a selection of organic chemistry experiments that are designed to develop synthetic skills and application of spectroscopic techniques to organic molecules.
Prerequisite: CHEM 2120/2220 (C- minimum)
For more information, search for this course here.
CHEM 4450 Advanced Chemical Biology (2,1,3)(L)
Credits: 3 credits
Delivery: Campus
Lectures and seminars examine the interface of chemistry and biology, and practical laboratory experience introduces students to advanced chemical biology techniques. The emphasis is on providing the knowledge and theory behind biological systems from a chemical perspective, while exposing students to the modern laboratory techniques that are of current value in the biotechnology and pharmaceutical industries. These industries require professionals who have a strong background in organic chemistry, molecular biology and genomics. Current journal articles are incorporated into a problem-based learning approach that has students researching background material in order to complete an assigned project experiment.
Prerequisite: CHEM 3220/3230/3240 (C- minimum); BIOL 3230/3350 (C- minimum)
For more information, search for this course here.
BIOL 3000 Biometrics (3,0,2)(L)
Credits: 3 credits
Delivery: Campus
Students are introduced to statistical procedures for biological research. Topics include the nature of data, probability, hypothesis testing, goodness of fit, analysis of variance, correlation, and regression. The computer lab laboratory provides students with hands-on computer experience in graphical and statistical analysis.
Prerequisite: BIOL 1110 or BIOL 1113 and BIOL 1210 or BIOL 1213 and MATH 1140 or MATH 1141 or MATH 1150 or MATH 1130
Note: Students may normally receive credit for only one of the following: PSYC 2100, PSYC 2101, STAT 2000, STAT 1200, STAT 1201, ECON 2320
For more information, search for this course here.
BIOL 3130 Introduction to Biochemistry (3,0,0)
Credits: 3 credits
Delivery: Campus
Students examine central concepts in biochemistry, including the importance of water, buffers, pH and maintaining chemical equilibria within the internal environment of cells. Students conduct in-depth analysis of the structure and function of lipids, carbohydrates and proteins, including polymer formation from monomers, nomenclature and the importance of primary and secondary bonding in maintaining three dimensional configurations of these biomolecules within the cellular environment. Finally, students examine the mode of action and classification of enzymes, and derivations of the Lineweaver-Burke plot and the Michaelis-Menten kinetic parameters from experimental data.
Prerequisite: BIOL 2130 (C minimum), CHEM 2120 and 2220
Note: Students cannot get credit for more than one of BIOL 3130, BIOL 3131, CHEM 3730
For more information, search for this course here.
BIOL 3230 Biochemistry (3,0,0)
Credits: 3 credits
Delivery: Campus
Students analyze, and achieve an understanding of, metabolic pathways and bioenergetics, including glycolysis, fermentation and respiration and oxidation of fatty acids and amino acids. Students focus on the synthesis and degradation of macromolecules (nucleic acids, proteins, lipids, carbohydrates), and consider the regulatory mechanisms involved in these processes.
Prerequisite: BIOL 3130 (C minimum)
For more information, search for this course here.
BIOL 3350 Molecular Genetics (3,1,0)
Credits: 3 credits
Delivery: Campus
The discipline of molecular genetics focuses on the structure, organization and regulated expression of heritable information molecules. A significant segment of the course is devoted to the molecular tools used to query and manipulate biological systems. Students also read and discuss current literature on molecular genetics in Seminars.
Prerequisite: BIOL 2130 and 2340 (C minimum)
Corequisite: BIOL 3130
For more information, search for this course here.
BIOL 4150 Biochemical Techniques 1 (1,1,3)(L)
Credits: 3 credits
Delivery: Campus
Students gain hands-on laboratory experience in biochemical techniques, specifically those used in the isolation and quantification of biomolecules. They learn the biochemical applications of column chromatography, thin layer chromatography, enzymatic assays, gas chromatography-mass spectrometry (GC-MS), SDS-PAGE gel electrophoresis, and high-performance liquid chromatography (HPLC)
Prerequisite: BIOL 3230 (C minimum)
For more information, search for this course here.
BIOL 4250 Biochemical Techniques 2 (Recombinant DNA) (1,1,3)(L)
Credits: 3 credits
Delivery: Campus
In this laboratory-based course, students practice the techniques used to isolate and manipulate nucleic acids. Emphasis is placed on the development of basic laboratory skills and their application to manipulate recombinant DNA molecules.
Prerequisite: BIOL 3130 and 3350 (C minimum). BIOL 3230/4150 recommended.
For more information, search for this course here.
BIOL 3520 Cell Physiology (3,0,3)(L)
Credits: 3 credits
Delivery: Campus
Students are introduced to the physiochemical basis for cellular activity, with emphasis on energy relationships, functions of cell parts, integration and internal control of cellular activities, and the mechanisms of influence of external factors. Laboratory work provides hands-on experience with the techniques and apparatus used to study cell function.
Prerequisite: BIOL 3130 (C minimum)
For more information, search for this course here.
