The course is open for all students that are enrolled in the minor Molecular Biotechnology and who have followed the previous three courses that are part of this minor.
Coordinator: Dr. D. Claessen
Many societal and environmental problems can be solved by modern biotechnology approaches. In this course, students work in teams on a research topic of their own choice, with options from the green, red, and white biotechnology fields. After a series of brainstorming sessions and creative thinking, teams write a grant proposal for an innovative (and tractable) idea. In the subsequent part of the course, teams have the unique opportunity to learn how to design, plan, and possibly even execute part of their own proposed research project in the lab. Teams use their combined and complementary knowledge, skills and creativity to design and build biological systems of their choice. Such biological systems can be used, for instance, to reduce environmental pollution, to provide an easy detection for diseases, to make environmental-friendly coatings, to discover new natural products, or to make (new) biofuels. Apart from the feasibility of executing the project, ideas are only limited by the creativity of the teams. By the end of the course, the teams will present their ideas and results in a mini-symposium and a written report. Please note that some, but not all projects may include lab work.
Students will be able to translate scientific literature into a written research proposal and to plan and design experiments. Depending on the feasibility of the project, the students may then execute part of their proposed research in the lab. Because students work during this course in small groups, they will also learn how to plan, divide and manage the different tasks of the group.
Grant writing skills
Creative thinking (problem-based learning)
Planning, and executing scientific research (experimental design)
Experience in working in teams (project planning and management)
Experience in conducting scientific research
From 25 November 2019 to 31 January 2020.
Week 1: lectures (reading and finding scientific literature)
Week 1-3: writing a research proposal
Week 3: lectures (instructions for designing experimental setup)
Week 3/4: research design (experimental outline of proposal)
Week 4: project presentations
Week 5-8: practical part (execution of planned research)
Week 8: final presentation and writing of research report (individual)
A detailed schedule will be provided on Blackboard before the start of the course.
Mode of instruction
Lectures, written reports, presentations
Evaluation of reports, presentations, and performance during practical part. Please note that students will work in small groups, and that consequently marks will be given based on the performance of the entire group. A personal mark will be given to the individual reports written in week 8 of this course.
The final grade consists of the following partical grades:
Proposal: percentage of final grade 25%, minimum grade: 6,0
Talk 1: percentage of final grade 12,5%, minimum grade: 6,0
Practicals: percentage of final grade 25%, minimum grade: 6,0
Report: percentage of final grade 25%, minimum grade: 6,0
Talk 2: percentage of final grade 12,5%, minimum grade: 6,0
Blackboard will be used for communication and exchange of documents
Available course material will be provided by the teachers, at least in part, via Blackboard
Register for this course via Usis and enroll in Blackboard.
Exchange and Study Abroad students, please see the Prospective students website for information on how to apply.