NPLK19000U Big Data in Biotechnology
MSc Programme in Biotechnology
MSc Programme in Biotechnology with a minor subject
MSc Programme in Environmental Science
Many experimental procedures such as the various “-omics” techniques routinely employed within biotechnology produce vast amounts of data. Therefore, the amount of available data in many biotechnological disciplines is steadily increasing. While most biotechnological data is not necessarily of a size and complexity defined as big data, fundamental knowledge and skills of large-scale computing systems and analysis methods is required to make use of this wealth of information. The purpose of this course is to introduce the theory and practice of large-scale data analysis to students, which will allow them to perform and assess different types of ”-omics”-scale data procedures. Tentative list of data types to be covered in the course: Transcriptomic data (RNAseq), Metabolomic data (LC-MS), and Biological image data.
This course covers the fundamental challenges with analysis of large amounts of data, i.e. how to handle large data files and how to overcome computational/storage limitations. The course provides knowledge and skills to perform data wrangling and normalization. The students will obtain working knowledge of basic data handling, data analysis, and data visualization. Through in-depth focus on the handling and analysis of a relevant set of different data-types using programming-based analysis techniques, this course will address statistical and computational challenges of large-scale data analysis.
Basic knowledge of the experimental methods used to generate the data types used in the course will also be briefly covered, because an understanding of the experimental methods used to generate data is often needed to assess bias and confounding factors in data.
At course completion, the student will have:
- The general principles of large-scale data analysis
- Common pitfalls in large-scale data analysis
- The basic concepts underlying clustering and visualization techniques
- How to efficiently keep, move, and analyse large amounts of data
- How to structure and perform large-scale data analyses in a coding-based software environment, such as for example R or Python
- Handling and modifying large datasets
- Visualization and dissemination of data
- Analysing different types of large-scale biotechnology data
- Critically evaluating the quality of different types of biotechnology data
- Assessing and understanding results of large-scale data analyses
Original literature, software manuals and tutorials, and teacher provided compendia.
- Theory exercises
- Practical exercises
Continuous feedback from teachers at computer exercises and discussion workshops. Feedback from teachers and peers (class) on oral presentations and answers to seminar questions.
- 7,5 ECTS
- Type of assessment
- Written examination, 3 hours under invigilation...
The course has been selected for ITX exam
- Only certain aids allowed
- Marking scale
- 7-point grading scale
- Censorship form
- No external censorship
20 minutes oral exam in course curriculum without preparation. No aids allowed.
Criteria for exam assesment
See learning outcome.
- Course code
- 7,5 ECTS
- Full Degree Master
- 1 block
- Block 1
- Course capacity
- Course is also available as continuing and professional education
- Study board
- Study Board for the Biological Area
- Department of Plant and Environmental Sciences
- Faculty of Science
- Henrik Hjarvard de Fine Licht (13-73736f707174797077746e737f4b7b777079397680396f76)