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|Student Contribution Band:||Band 2|
|Administered by:||College of Public Health, Medical and Vet Sciences|
Available to students only with permission of the Head of Discipline of Biochemistry and Molecular Biology.
This subject builds on the principles and concepts introduced in BC2013 and BC2024 and focuses on how eukaryotic cells are regulated at the molecular and genetic level. Topics covered include intracellular structures, signal transduction, protein sorting and translocation, the cytoskeleton, the cell cycle, apoptosis, molecular immunology and the molecular biology of cancer. Advanced cell biology is important to a wide range of current biomedical and genetic research because it describes much of the biochemical basis for modern treatment and prophylaxis approaches. The lectures and practical sessions of this subject are focused on providing a background in molecular biomedicine to compete effectively in the job market. The first half of semester covers the structures and biochemistry of basic cell functions (division, death, movement, production and responsiveness) while the second half integrates this knowledge to develop a working understanding of the molecular bases of four complex biological systems: tumour biology, disease, immune responses to foreign proteins (allergies) and to infectious diseases (parasites).The subject concludes with a look to the past leading to emerging technologies and their impact on the field of biomedical science.
Participate in and complete the assessment tasks in the practical classes. Attend the mid-semester test; Submit two graded assignments; and achieve a total aggregate score of 50% or more across the sum of assessment items. Students must pass both on-course and exam assessments, i.e 50% pass mark for both the aggregate on-course assessments as well as the final exam.
|BC3102 AND GG3102|
|Townsville, Study Period 1, Internal|
|Census Date 23-Mar-2023|
|Coordinator:||Dr Margaret Jordan, Professor David Whitmore|
|Lecturers:||Mr Ray Layton, Dr Margaret Jordan, Professor Ludwig Lopata, Assoc. Professor Lionel Hebbard, Dr Sacha Jensen.|
The student workload for this 3 credit point subject is approximately 130 hours.
Note: Minor variations might occur due to the continuous Subject quality improvement process, and in case of minor variation(s) in assessment details, the Subject Outline represents the latest official information.