1. Program Overview and History of Biotechnology

2

1. Compare the requirements for each biotechnology certificate and A.S. degree program, explain key roles of biotechnology and its history.

2. Laboratory Math

2

2. Apply a variety of calculations involved in making solutions, serial dilutions, etc.

3. Metrology

2

3. Apply the metric system of measurement to determine weight, distance, volume, temperature, and concentration.

4. Atomic and Molecular Structure

1.5

4. Describe the structure of atoms and the rules underlying the formation of molecules.

5. Properties of Water and pH

1.5

5. Discuss the unique properties of water and explain the concepts of pH, acids and bases.

6. The Scientific Method

1.5

6. Discuss the scientific method, including the identification of dependent, independent, and standardized variables, and the roles of controls.

7. Health and Safety

2

7. Explain principles and practical applications of maintaining health and safety in a laboratory environment.

8. Macromolecules and Polymers

1

8. Describe the four major categories of macromolecules - Proteins, Carbohydrates, Lipids and Nucleic Acids - and the nature of Polymers.

9. Carbohydrates

1

9. Discuss the structure and functions of carbohydrates.

10. Lipids

1

10. Discuss the structure and functions of lipids.

11. Proteins and Enzymes

2

11. Discuss the structure and functions of proteins in general, and the roles of enzymes in regulating biochemical reactions.

12. Nucleic Acids

2

12. Discuss the structure and functions of DNA and RNA.

13. Prokaryotic and Eukaryotic Cell Biology

2

13. Compare and contrast structures and functions of the components of prokaryotic and eukaryotic cells.

14. DNA Replication, Repair, and Mutation

2

14. Explain the processes of DNA replication and repair, identify the causes of DNA damage and mutation.

15. Gene Expression

2

15. Explain the processes of transcription and translation, the genetic code and the effect of mutations, and compare and contrast gene expression in prokaryotes and eukaryotes.

16. Spectrophotometry

1

16. Discuss the applications and principles of spectrophotometry in the measurement of nucleic acids, proteins, and cells.

17. Microscopy

1

17. Discuss the applications and principles of microscopy in the imaging of cells and tissues.

18. Centrifugation

1

18. Discuss the applications and principles of centrifugation in the separation of materials from complex mixtures.

19. Bacteria

1

19. Discuss the structures of bacterial cells and their functions, differences in bacterial morphology and arrangement, bacterial growth characteristics, and the roles of bacteria in biotechnology.

20. Viruses

1

20. Discuss the structures of viruses and their functions, differences in viral morphology, and the roles of viruses in biotechnology.

21. Written and Oral Skills in Biotechnology

2

21. Demonstrate written and oral skills in a biotechnological context.

22. Quality Control

2

22. Explain the key aspects of Quality Control in biotechnology.

23. Bioethics

1.5

23. Discuss and debate ethical concerns in biotechnology research and production.

1. Lab Orientation

2

1. Explain the overall purpose and scope of the laboratory portion of the course.

2. Lab Safety

2

2. Discuss all issues of safety in the laboratory.

3. Documentation: Lab Notebook and Standard Operating Procedures (SOPs)

4

3. Maintain an accurate, thorough, and well organized laboratory notebook, and write professional SOPs that are used in the laboratory.

4. Math Review

5

4. Calculate metric units used in the determination of weight, distance, volume, temperature, and concentration.

5. Metrology

8

5. Accurately measure metric units of weight, distance, volume, and temperature using a variety of lab instruments.

6. pH and Buffers

5

6. Accurately measure the pH of a variety of solutions and test the buffering capacity of a variety of commonly used pH buffer systems.

7. Aqueous Solutions

8

7. Plan and make aqueous solutions of the correct concentration using all commonly used units of concentration.

8. Dilutions

5

8. Dilute stock solutions to the desired concentration, plan and make serial dilutions in the most efficient manner.

9. Centrifugation

8

9. Plan and apply centrifugation techniques using the correct g-forces to isolate samples in solution.

10. Spectrophotometry

5

10. Determine the concentration of DNA, protein, and cells in suspension using a spectrophotometer.

11. Microscopy

5

11. Prepare and stain samples for examination on a compound microscope and generate clear images of cells, tissues and other microscopic items using both compound and stereoscopic microscopes at all magnifications.

12. Media Preparation

4

12. Plan and prepare sterile media to be used in the culturing of bacteria and other microbes.

13. Aseptic Techniques

4

13. Apply aseptic techniques to the handling of sterile media and the culturing of bacteria.

14. Bacterial Culture

7

14. Apply principles and techniques used previously in the course to aseptically culture bacteria and produce a growth curve using spectrophotometry.

Outcome -
The student will:
(Describe the major
outcomes that a successful student will gain from the class for use in his/her life. Use higher order Bloom's taxonomy verbs.)

1. Examine and apply the fundamentals of cellular and molecular biology concepts to biotechnology research and its practical applications.

2. Develop and maintain laboratory records according to standard scientific and industrial guidelines.

3. Employ mathematical skills and knowledge of chemistry to accurately prepare an aqueous solution with the desired chemical concentrations and pH.

Benchmark for each SLO: 75% of students will achieve a rubric score of acceptable or better.

Assessment - as measured by the following method:
(Please indicate the criteria and rating scale by which the assessment will be evaluated.)

1. Exam questions addressing the following criteria in relation to cellular and molecular biology: clarity and accuracy, depth of understanding, application to biotechnology. The assessment will use a rubric designed as follows: 4 - exemplary, 3 - good, 2 - acceptable, 1 - poor, 0 - unacceptable.

2. Lab notebook quality will be assessed for the following criteria: clarity of writing, legibility, organization, and content. The assessment will use a rubric designed as follows: 4 - exemplary, 3 - good, 2 - acceptable, 1 - poor, 0 - unacceptable.

3. A specific aqueous solution prepared by students and the associated calculations will be assessed for the following criteria: accuracy of calculations, accuracy of pH, accuracy of solute concentrations. The assessment will use a rubric designed as follows: 4 - exemplary, 3 - good, 2 - acceptable, 1 - poor, 0 - unacceptable.

ILO - which Institutional Learning Outcome(s) (ILO) does this SLO support?
(See College Catalog p. 10.)

Written and Oral Communication (1, 2, 3)
Information Competency (1, 2, 3)
Problem Solving (1, 2, 3)
Quantitative Reasoning (1, 2, 3)