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Search : Index : Faculty of Science : Biochemistry and molecular biology
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 521-220 Techniques in Protein & Gene Technology

Note

Not available to students enrolled in the BBiomedSc.

Before the commencement of the semester, students must advise the Department of Biochemistry and Molecular Biology of their order of preference for the alternative practical sessions and the other subjects they will be taking.

Credit Points

12.5

Coordinator

Dr L Helfenbaum

Corequisites

Biochemistry 521-211.

Semester

1, repeat 2 (view timetable)

Contact

12 lectures (one per week), 36 hours of practical work (three hours per week) and 12 hours of computer-assisted learning

Subject Description

The subject is a skills course suitable for students taking life science subjects and combined degrees. This subject should be undertaken by students considering any third-year level study in life science. The subject is a specific prerequisite for most subjects offered by the Department of Biochemistry and Molecular Biology in third year. The subject is conceptually organised into three major divisions:

  • basic skills, experimental accuracy and data interpretation;

  • separation and handling of proteins; and

  • separation and handling of nucleic acids.

The lectures will provide a summary of the theory of both classic laboratory techniques and the latest methodology that are central to research progress in biochemistry and molecular biology. The new technologies to be describedd are driving the emerging fields of genomics, proteomics and metabolomics. Progress in research is predicated not only on asking appropriate questions, but on having the laboratory support and skills to investigate those questions. Students will be able to develop skills of preparation, execution and interpretation of laboratory procedures by performing:

  • chromatographic separation of small and large biological molecules;

  • quantitation of macromolecules;

  • determination of kinetic parameters of glucose-6-phosphate dehydrogenase;

  • purification of the enzyme lysozyme;

  • purification and characterisation of chromosomal and plasmid DNA;

  • restriction mapping of the lambda phage genome; and

  • interrogation of computer databases in life sciences.

Students will learn to relate theoretical principles to practical explanations, through observing and reporting on practical work.

Assessment

Written reports of experiments, and related exercises, due at specific times after the completion of each activity (50%); 2-hour written examination (35%); laboratory practical test and assessment of computer assisted learning (15%).

Search : Index : Faculty of Science : Biochemistry and molecular biology
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Next 521-301 Protein Structure, Design & Engineering

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