2. Lecture WS 2003/04Bioinformatics III1 Review of Genome Language and some Facts Life is specified by genomes. Every organism, including humans, has a.
18. Lecture WS 2006/07Bioinformatics III1 V18 Stochastic simulations of cellular signalling Traditional computational approach to chemical/biochemical.
11. Lecture WS 2014/15 Bioinformatics III1 V11 Menger’s theorem Borrowing terminology from operations research consider certain primal-dual pairs of optimization.
26. Lecture WS 2006/07Bioinformatics III1 Synthetic biologists engineer complex artificial biological systems to investigate natural biological phenomena.
1. Lecture WS 2006/07Bioinformatics III1 Bioinformatics III “Systems biology” “Integrative cell biology” “Cellular networks” “Computational cell biology”
26. Lecture WS 2003/04Bioinformatics III1 Network Wrap-Up No lecture Tuesday next week (10.2.) Questions about lectures 1-12 on 12.2. Questions about lectures.
3. Lecture WS 2006/07Bioinformatics III1 V3 From Protein Complexes to Networks and back Protein networks could be defined in a number of ways (1) Co-regulated.
1. Lecture WS 2003/04Bioinformatics III1 Bioinformatics III (“Systems biology”) Course will address two areas: - analysis and comparison of whole genome.
23. Lecture WS 2007/08Bioinformatics III1 V23 Transcriptional Control in Halobacter salinarum Leroy HoodNitin Baliga.
9. Lecture WS 2004/05Bioinformatics III1 Bioinformatics III “Systems biology”,“Integrative cell biology” Zusammenfassung Teil 2: Vorlesungen 9-16.
21. Lecture WS 2003/04Bioinformatics III1 Metabolic Pathway Analysis: Elementary Modes The technique of Elementary Flux Modes (EFM) was developed prior.