FND-CSC-Data models

Task:

• Read the introductory notes on data models.

In the PDF notes, a protein data model is developed. You can access a sketch of the data model by clicking on the image:

Open the drawing, save it, and edit it. (Or you can use any other drawing tool.) To practice data modeling, think about and try modeling the following extensions to the "proteinDB" model:

• Some of the proteins that you might want to store are transcription factors. A transcription factor has a canonical binding site sequence, and there are sequences it actually has been observed to bind to. The actual binding instances in specific locations may have genes associated with them, which encode proteins. You might come up with other facts that are important too.
• A "systems model" would group together a number of proteins to a system such as "G1/S checkpoint control", "cell-wall repair", "acid/base homeostasis" etc.: i.e. a set of proteins that collaborate towards a common goal. Within that system a protein performs one or more functions, that may be associated with specific states of the protein (like its intracellular location, or its post-translational modification state). Proteins may be structurally part of any number of systems, and they may shuttle between systems. Systems can overlap, and sometimes we might want to group systems in a hierarchical fashion.
• A protein-protein interaction database stores interaction information. Interactions may be observed by a number of different experimental methods and thus several different interactions may be reported for the same protein pair. Moreover, there may be meta-information, such as a confidence score that evaluates whether two proteins functionally interact with each other in the cell, rather than the observation being an experimental artefact. Some of the interactions may be between a protein and a complex, or between two complexes and can't be further resolved. But if a interaction is between two disinct proteins, and one of them is part of a complex, that too is importnat to know. Some interactions may be permanent, and some may be transient, i.e. depend on particular conditions.

• Sketch each of these datamodels on your own. Think about the principles that were discussed in the introduction. You will probably start by listing the entities first, then the attributes of the entities, then the relationships that you need to represent the facts. Don't forget the cardinalities.

• If you are the first to do so, post your model on the mailing list and share. In the ensuing discussion we would like to evaluate the design decisions, provide feedback, and iterate improvements. We also may be curious about which tool people used for sketching and whether that was convenient.