Coordinator: Professor John Davies (Department of Microbiology)
Microbiology
is an absorbing science that is at the core of exciting new developments that
have occurred in modern molecular biology. It involves the analysis and genetic
manipulation of bacteria, parasites and viruses.
Recent developments such as mad-cow disease, HIV infection, legionnaire's
disease and the rise of antibiotic resistance emphasise the importance of
understanding infectious diseases for human health. Microbiology is concerned
with the study of these emerging diseases and microorganisms such as bacteria,
fungi, parasites and viruses, their structure and way of life, how they
interact with people and other living organisms in both harmful and beneficial
ways and how they can be exploited to our advantage. All these aspects are
featured in units commencing at level two. These involve the study of the
diversity of the microbial world, food microbiology and an analysis of how
microbes grow and survive. At the practical level, students will learn about
how microorganisms interact with their environment, and about how they interact
with the human body to cause disease. Several major diseases such as malaria,
influenza and meningococcal meningitis will be studied in depth.
At level three, studies progress to the molecular biology of bacteria and
viruses, bacterial and viral pathogenesis, and medical microbiology. In the
current era of recombinant DNA technology and genetic engineering, bacterial
plasmids and viruses provide the essential vehicles for genetic manipulation
and expression in recipient cells, emphasising the core role of microbiology in
the biomedical sciences. Practical classes in microbiology are designed to
provide laboratory skills in safe handling of microorganisms, experimental
procedures illustrating their properties and functions, laboratory diagnosis,
and genetic manipulation and expression. There is a strong emphasis on training
in the techniques of recombinant DNA technology.
A sequence that integrates the study of microbiology with molecular biology is
also offered.
Minor sequence in microbiology (24 points):
Major sequence in microbiology (48 points):
Major sequence in microbiology and molecular biology (48 points):
Double major sequence in microbiology and molecular biology (72 points):
The MOL units, and a related sequence, are described in the `Molecular biology' entry in this section of the handbook.
Students enrolling in MIC2011 and MIC2022 are strongly advised to enrol in the molecular biology units MOL2011 and MOL2022. Useful companion units are biochemistry, immunology, genetics and pharmacology. Students should also note that MIC2011 and MIC2022 are prerequisites for MIC3032 and MIC3041. Microbiology units are recommended for students planning future studies in medical or paramedical fields. They are also recommended for those students who are uncertain about the direction of their future career, as they offer a basic grounding that is considerably adaptable.
The final year of microbiology offers a broad range of specialist units that in combination provide well-structured training in most modern aspects of microbiology. Four of the five level-three MIC units are required for accreditation in the workforce as a professional microbiologist.
Students with an appropriate level of performance in level-three MIC or related units may be eligible to undertake a year of research training under the direct supervision of the leader of one of the research groups in the department. For further details, see http://www.med.monash.edu.au/microbiology/.
Previous page | Next page | Section contents | Title and contents