Difference between revisions of "CSB Assignment Week 2"

Exercises for this week relate to this week's lecture.
Pre-reading for this week will prepare next week's lectures.
Exercises and pre-reading will be topics on next week's quiz.

Exercises

1. Navigate to the Saccharomyces Genome Database and search for the gene name mbp1 using the search box. Review the information available on the result page. Find, and note note down the UniProt ID.
2. For comparison, review the gene information of the functionally related human E2F1 transcription factor at the NCBI. Here too, find, and note note down the UniProt ID.

Next, we compute the semantic similarity of these two genes. The GO database lists a number of tools for this task (http://www.geneontology.org/GO.tools_by_type.semantic_similarity.shtml).

1. For comparison, find the IDs of a protein of related, and of unrelated function in Uniprot.
   1. Find the UniProt ID of E2F1's human interaction partner TFDP1, which we would expect to be annotated as functionally similar to both E2F1 and MBP1;
   2. also find the UniProt ID of human MBP (myelin basic protein), which is functionally unrelated.
2. Navigate to the ProteInOn site at Lisbon University in Portugal - an online tool to compute GO-based semantic similarity. Select "compute protein semantic similarity", use "Measure: simGIC" and "GO type: Biological process". Enter your four UniProt IDs in the correct format and run the computation.
3. Interpret the similarity score table. Does it correspond to your expectations?

Pre-reading

Next week we will discuss various aspects of working with genome-scale data sets. One of the topics is enrichment-analysis. For many experimental approaches, the ultimate outcome is a list of genes. Enrichment analysis addresses the question: do genes in a set have a remarkable property in common? The methodologies discussed here have applications in many fields of computational biology.