Metabolic Engineering

This subject is not offered in 2013.

Estimated 120 Hours

Students must have completed the following subjects (or equivalent) prior to enrolling in this subject:

As well as ONE of the following three biology subject combinations, either (i), (ii) or (iii):

(i) ONE OF the following subjects:

CHEN90031 Bioprocess Engineering (prior to 2012 CHEN30014 Bioprocess Engineering)
BTCH90006 Bioprocess Engineering
CHEN90008 Biology for Engineers (prior to 2013)

OR (ii) BOTH of the following subjects:

OR (iii) BOTH of the following subjects:

None

None

None

For the purposes of considering applications for Reasonable Adjustments under the Disability Standards for Education (Cwth 2005) and Students Experiencing Academic Disadvantage Policy, this subject requires all students to actively and safely participate in laboratory activities. Students who feel their disability may impact upon their participation are encouraged to discuss this with the Subject Co-ordinator and the Disability Liaison Unit http://www.services.unimelb.edu.au/disability/

Metabolism in microbial, plant and animal cells. Control of metabolism and its application to bioprocessing and bioproduct process development. Pathways of catabolism and anabolism in heterotrophs. Photosynthesis. Chemoautotrophs and their role in biological waste treatment. Genetic control of metabolism. Genetic manipulation by mutation and recombinant DNA techniques. Case studies in the development of bioprocesses employing recombinant microorganisms. Control at the enzyme level. Enzyme inhibition kinetics. Immobilised enzymes, mass transfer and kinetic effects. Protein and enzyme engineering. Metabolic engineering. Practical work.

On completion of this subject students should be able to:

• Describe cell metabolism and the control of cell metabolism for aerobic and anaerobic organisms
• Apply systems approaches to describe and model cell metabolism
• Develop creative strategies to decouple and remove metabolic regulatory controls in order to increase product yield or develop new products
• Discuss the role of metabolic engineering in product development, the regulatory standards that apply to such products and the business drivers for product development
• Discuss the synergies between biochemistry and chemical engineering
• Work in teams to process primary scientific information
• Perform laboratory assignments
• Communicate their knowledge and findings to their peers and to broader audiences

• Two assignments not exceeding 4000 words, one due around Week 4 and one due around Week 8 of the semester (20% of the total mark)
• One 3 hour written end of semester examination (80% of total mark)
• A mark of 40% or more in the end of semester examination is required to pass the subject

None

None

This subject is not available as a breadth subject.

• Capacity for independent thought
• The ability to comprehend complex concepts and communicate lucidly this understanding
• Awareness of advanced technologies in the discipline
• Ability to work in a team, including with professionals from different discipline areas