![[PDF]](/HB/images/pdf.gif)
Search : Index : Faculty of Science
Subject Lists
200-level subjects
300-level subjects
A specialisation in Biochemistry and Molecular Biology is an important requirement for employment in many biomedical, biotechnological and agricultural fields. The acquisition of basic knowledge in Biochemistry and Molecular Biology is also an important requirement for the training of specialist scientists in a broad range of biological fields. Consequently, Biochemistry and Molecular Biology 521-211/212 and 521-221/222 have become central subjects in the BSc courses for many students seeking careers as botanists, geneticists, histologists, microbiologists, pharmacologists, pathologists, physiologists and zoologists. In addition, students specialising in chemistry, physics, mathematics, computer science or chemical engineering with biological interests, also include Biochemistry and Molecular Biology subjects in their studies. The combination of chemistry and Biochemistry and Molecular Biology 521-211/212 is a particularly useful one; for students wishing to specialise in the field of macromolecular biophysics and bioinformatics, Biochemistry and Molecular Biology 521-203 and 521-307, will be of special interest.
For students in the biological science streams planning to include Biochemistry and Molecular Biology subjects in their studies:
Biology 600-141 + 600-142 (before 1996: 600-101).
Chemistry 610-121 + 610-122 (before 1998) or 610-141 + 610-142 (prerequisite subjects) or 610-161 + 610-162.
Experimental Design and Data Analysis 620-160
Introductory Mathematics A 620-161, Mathematics A 620-141, or Mathematics A (Advanced) 620-121.
Physics 25 points at 100 level.
Students intending to proceed to 300-level Biochemistry and Molecular Biology are required to take Biochemistry and Molecular Biology 521-211/212 and 521-221/222 (or in special circumstances Biochemistry and Molecular Biology 521-024 or 521-203). The most useful combinations of subjects from other disciplines with Biochemistry and Molecular Biology are set out in Suggested 200-level subjects. Students are advised that 200-level Chemistry is particularly useful for the study of Biochemistry and Molecular Biology; if only two subjects of 200-level Chemistry are to be taken, the preferred subjects are 610-210, 610-260 or 610-220, 610-260; if only one 200-level Chemistry subject, it should be 610-260.
|
Students intending to specialise in Biochemistry and Molecular Biology should enrol in at least three of the seven lecture subjects and in the practical subject 521-321; and are strongly encouraged to enrol in either 521-322 or 521-323. Note that students undertaking more than one 300-level practical subject must have passed both the 521-221 and 521-222 practical subjects (or 521-202 prior to 1997). The number of students admitted to all three practical subjects will be limited.
Combinations of Biochemistry and Molecular Biology lecture subjects appropriate to a second major study at the 300-level in either discipline are listed in Suggested 300-level subjects:
|
Students wishing to proceed to BSc Honours in the Department of Biochemistry and Molecular Biology should normally undertake at least 50 points of Biochemistry and Molecular Biology at 300-level. Students wishing to proceed to a combined BSc Honours Course in Chemistry and Biochemistry and Molecular Biology should seek advice from the individual departments on undergraduate course selections.
A macromolecular biophysics and bioinformatics stream has recently been established within the BSc degree, commencing at 200-level. The key introductory subject is the Biochemistry and Molecular Biology subject 521-203 Macromolecular Structure &Bioinformatics (formerly named 'Macromolecular Structure and Computational Molecular Biology') This subject has been designed for students with a background in Chemistry and Physics (Mathematics and Computer Science are also relevant) who are interested in extending the applications of these disciplines in the following areas: protein and nucleic acid structural analyses, computer graphics-based modelling of the three dimensional structures of these macromolecules and related areas of bioinformatics; the investigation of the molecular dynamics of proteins and protein-protein, protein nucleic acid and protein-ligand interactions (e.g. pharmacological drug-protein receptor interactions); protein folding and the design and engineering of new protein structures. The 200-level subject leads to the 300-level Biochemistry and Molecular Biology subject 521-307 3D-Macromolecular Structure and Dynamics (formerly named 'Three Dimensional Structure and Conformational Dynamics of Biological Macromolecules') introduced for the first time in 1997. This subject has a co-requisite for the 300-level subject, 521-301 Protein Structure, Design & Engineering. It is recommended that a selection of appropriate chemistry and physics and, where appropriate, mathematics subjects, should be taken in combination with 521-203, 521-301 and 521-307 for those students intending to specialise in the field of macromolecular biophysics. For students with the appropriate background in 200-level biochemistry, consideration should also be given to combining 521-307 with the subjects 521-302, 521-321 and 521-323. This combination will provide training in (i) the theoretical and practical aspects of recombinant DNA technology, protein expression and purification necessary for the preparation of many proteins for biophysical analyses, as well as, (ii) bioinformatics relating to the analysis of linear amino acid and nucleic acid sequences.
The 300-level Biochemistry and Molecular Biology lecture subjects 521-301, 302, 303, 306 and 307 are of particular relevance to those intending to pursue a career in the biotechnology field. All practical subjects are relevant, depending on the areas of specific interest. Students interested in subjects that emphasise biochemical aspects of biotechnology should consult the Graduate Diploma in Biotechnology entry in the Postgraduate Handbook and seek further advice from the Department.
For information about the Faculty and departmental entry requirements for Honours, please refer to Bachelor of Science (Honours) and Bachelor of Information Systems (Honours) These requirements should be considered when planning your course.
521-203 Macromolecular Structure &Bioinformatics
521-204 Biochemistry and the Eye
521-211 Biochemistry & Molecular Biology Part A
521-212 Biochemistry & Molecular Biology Part B
521-213 Integrated Biomedical Science I
521-221 Biochemistry & Molecular Biology Lab PtA
521-222 Biochemistry & Molecular Biology Lab PtB
521-301 Protein Structure, Design & Engineering
521-302 Functional Genomics
521-303 Molecular Aspects of Cell Biology
521-304 Hormone & Neurotransmitter Biochemistry
521-305 Biochemistry of Metabolism & Nutrition
521-306 Plant Biochemistry & Biotechnology
521-307 3D-Macromolecular Structure and Dynamics
521-308 Genome Science
521-321 Biochemistry Techniques & Data Analysis
521-322 Techniques in Protein Biochemistry
521-323 Gene Technology
Search : Index : Faculty of Science
Status: Official 2000 Last Modified: Thursday November 25 15:11 SGML to HTML Conversion: Information Technology Services Authorised by: Academic Registrar Email Enquiries: Course_Information@registrar.unimelb.edu.au