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About this subject
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Dr Amber Willems-Jones
Semester 1 - Dual-Delivery
Semester 2 - Dual-Delivery
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To participate in the rapidly expanding fields of genome research and protein structure-function analysis, it is necessary to have an understanding of the techniques used in these areas.
This subject provides training in the use of molecular biology technologies, protein analyses and cell biology techniques. Students will learn how experiments are designed, performed and the resulting data analysed.
Experiments in the subject will explore (a) the use of recombinant DNA analyses, (b) bacterial expression systems to produce and characterise recombinant protein, (c) identification of proteins by mass spectrometry; and (d) mammalian cell culture.
Students will learn practical skills of how to record data and maintain experimental observations in laboratory notebooks, to search bioinformatic databases, and to construct and concisely write a scientific research paper based on their findings. Students will also further develop their skills in performing biochemical calculations and solving problems by applying knowledge attained from practicals.
Intended learning outcomes
On completion of the subject students should be able to:
- Describe the importance of key features in the design of experimental protocols used in biochemistry and molecular biology
- Demonstrate competence and skill in performing fundamental techniques used in biochemistry and molecular biology
- Record data and experimental observations in laboratory notebooks
- Design simple experiments and solve problems dealing with scientific information
- Use bioinformatics programs to analyse of DNA sequences and protein data derived by mass spectrometry
- Use affective and concise written communication to present experiment findings in a scientific report
- Critically evaluate scientific literature using database searches.
On completion of this subject, students should have developed the following generic skills:
- Hands-on experience in a variety of techniques, generating results for analysis.
- Design and execution of simple experiments.
- Analysis of experimental data using spreadsheets and bioinformatics resources.
- The ability to keep complete and accurate records of experimental results and to use these records to prepare a scientific report.
- Evaluation and presentation of scientific literature to an audience.
- The ability to interpret scientific literature and interpret data from electronic databases.
- The capacity to integrate knowledge across disciplines.
- The ability to comprehend a question, evaluate the relevant information and communicate an answer.
Last updated: 3 November 2022