About Course
This course equips students with theoretical knowledge and practical skills for metagenomic analysis, from sample collection to data interpretation, using computational tools and pipelines for real-world problems in ecology, medicine, and biotechnology.
Course abbreviation: XXX
Instructor: Dr. Amira Metwaly
Postdoctoral Scientist, Chair of Nutrition and Immunology, Technical University Munich (TUM), Germany. Tutorials: Ms. Mariam Oweda
Workload: 12 lectures, 3 hours each. Total workload: 42 hours: 36 hours of lectures and tutorials and 6 hours of self study.
Entrance requirements: Basic knowledge of biology and computer science.
Used media: PowerPoint presentation
Objectives
- Understand metagenomic sequencing technologies and data types
- Perform metagenomic data processing, assembly, and annotation
- Analyze microbial communities, diversity, functions, and interactions
- Apply metagenomic methods to real-world problems in ecology, medicine, and biotechnology
Competences to be Developed
- R scripting and relevant bioinformatics tools for metagenomic analysis
- Metagenomic sequencing technologies and data types
- Metagenomic data processing, assembly, and annotation
- Microbial community analysis including diversity, function, and interaction studies
- Developing and interpreting research projects and scientific manuscripts
Assessment
- Complete a research project applying metagenomic analysis techniques
- Submit project outcomes as a high-quality manuscript suitable for peer-review submission
- Present, discuss, and scientifically review the project during the final lecture
Course Content
Lecture 1: Introduction to Metagenomics
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Introduction to Metagenomics
00:00
Lecture 2: Experimental Design and Sample Collection
Lecture 3: Metagenomic Sequencing and Data Preprocessing
Lecture 4: Taxonomic Profiling and Microbial Diversity
Lecture 5: Functional Annotation in Metagenomics
Lecture 6: Metagenome Assembly and Binning
Lecture 7: Machine Learning Applications in Metagenomics
Lecture 8: Applications in Metagenomics: Antimicrobial Resistance (AMR)
Lecture 9: Applications in Metagenomics: Marine Microbial Ecology
Lecture 10: Disease and Health: Host-Microbe Interactions
Lecture 11: Research Projects
Lecture 12: Project Presentations and Closure
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