BIO Assignment 5 2011
Contents
Assignment 5 - Homology modeling
Please note: This assignment is currently inactive. Unannounced changes may be made at any time.
Introduction
- How could the search for ultimate truth have revealed so hideous and visceral-looking an object?
- Max Perutz (on his first glimpse of the Hemoglobin structure)
Where is the hidden beauty in structure, and where, the "ultimate truth"? In the previous assignments we have studied sequence conservation in APSES family domains and looked at how these domains have evolved over time. We have seen that this is an ancient family, that had several members already in the cenancestor of all fungi, an organism that lived in the vendian period of the proterozoic era of precambrian times, more than 600,000,000 years ago.
In order to understand how particular residues in the sequence contribute to the putative function of the protein, and why and how they are conserved throughout evolution, we would need to consider an explicit molecular model of an APSES domain protein, bound to its cognate DNA sequence. In particular, it would be interesting to correlate the conservation patterns we have observed in the MSAs with specific DNA binding interactions. Unfortunately, the 1MB1 structure does not have DNA bound and the evidence we have considered in Assignment 2 (Taylor et al., 2000) is not sufficient to define the details of how a DNA double helix might be bound. These details would require the structure of a complex that contains protein as well as DNA. No such complex of an APSES domain has yet been crystallized.
In this assignment you will construct a molecular model of the Mbp1 orthologue in your assigned organism, identify similar structures of distantly related domains for which protein-DNA complexes are known, define whether the available evidence allows you to distinguish between different modes of ligand binding, and assemble a hypothetical complex structure.
For the following, please remember the following terminology:
- Target
- The protein that you are planning to model.
- Template
- The protein whose structure you are using as a guide to build the model.
- Model
- The structure that results from the modeling process. It has the Target sequence and is similar to the Template structure.
A brief overview article on the construction and use of homology models is linked to the resource section at the bottom of this page. That section also contains all links to other sites and resources you might require.
Preparation, submission and due date
Read carefully. Be sure you have understood all parts of the assignment and cover all questions in your answers! Sadly, we see too many assignments which, arduously effected, nevertheless intimate nescience of elementary tenets of molecular biology. If the sentence above did not trigger an urge to open a dictionary, you have a tendency to guess, rather than confirm possibly important information.
Prepare a Microsoft Word document with a title page that contains:
- your full name
- your Student ID
- your e-mail address
- the organism name you have been assigned
Follow the steps outlined below. You are encouraged to write your answers in short answer form or point form, like you would document an analysis in a laboratory notebook. However, you must
- document what you have done,
- note what Web sites and tools you have used,
- paste important data sequences, alignments, information etc.
If you do not document the process of your work, we will deduct marks. Try to be concise, not wordy! Use your judgement: are you giving us enough information so we could exactly reproduce what you have done? If not, we will deduct marks. Avoid RTF and unnecessary formating. Do not paste screendumps. Keep the size of your submission below 1.5 MB.
Write your answers into separate paragraphs and give each its title. Save your document with a filename of:
A5_family name.given name.doc
(for example my fifth assignment would be named: A5_steipe.boris.doc - and don't switch the order of your given name and familyname please!)
Finally e-mail the document to [boris.steipe@utoronto.ca] before the due date.
Your document must not contain macros. Please turn off and/or remove all macros from your Word document; we will disable macros, since they pose a security risk.
We do not have the resources to correct formatting errors or to convert assignments into different formats. Keep your image-file sizes manageable!
- Image sizes are measured in pixels - 600px across is sufficient for the assignment, resolutions are measured in dpi (dots per imperial inch) - 72 dpi is the standard resolution for images that are viewed on a monitor; the displayed size may be scaled (in %) by an application program: stereo images should be presented so that equivalent points are approximately 6 cm apart; images can be stored uncompressed as .tiff or.bmp, or compressed as .gif or .jpg. .gif is preferred for images with large, monochrome areas and sharp, high-contrast edges; .jpg is preferred for images with shades and halftones such as the structure views required here; .tiff is preferred to archive master copies of images in a lossless fashion, use LZW compression for .tiff files if your system/application supports it; .bmp is not preferred for anything, its used because its easier to code.
Information that you present (such as added colouring, formatting etc.) should be meaningful. If you have technical difficulties, post your questions to the list and/or contact me.
All required stereo views are to be presented as divergent stereo frames (left eye's view in the left frame). Remember to list the Rasmol command input you have used to generate the images.
With the number of students in the course, we have to economize on processing the assignments. Thus we will not accept assignments that are not prepared as described above. If you have technical difficulties, contact me.
The due date for the assignment is Wednesday, December 20. at 10:00 in the morning.
Grading
Don't wait until the last day to find out there are problems! This assignment has been structured so that it should be doable in three or four hours. The assignment is excellent preparation for the exam, so even if its due later, its a good idea to do it earlier. Assignments that are received past the due date will have one mark deducted at the first minute of every twelve hour period past the due date. Assignments received more than 5 days past the due date will not be assessed. If you need an extension, you must arrange this beforehand.
Marks are noted below in the section headings for of the tasks. A total of 10 marks will be awarded, if your assignment answers all of the questions. A total of 2 bonus marks (up to a maximum of 10 overall) can be awarded for particularily interesting findings, or insightful comments. A total of 2 marks can be subtracted for lack of form or for glaring errors. The marks you receive will
- count directly towards your final marks at the end of term, for BCH441 (undergraduates), or
- be divided by two for BCH1441 (graduates).
(1) Preparation
SUB section Heading (X marks)
Instruction
- Task
Instruction
- Task.
(2) Homology model
SUB section Heading (X marks)
Instruction
- Task
Instruction
- Task.
(3) Model analysis
SUB section Heading (X marks)
Instruction
- Task
Instruction
- Task.
(3) Summary of Resources
- Links
-
- Review (PDF, restricted) Manuel Peitsch on Homology Modeling
- Review (PDF, restricted) Aravind et al. Helix-turn-helix domains (background reading, not required reading)
- Assigned Organisms
- PDB file format
- Wikipedia on Structural Superposition (although the article is called "Structural Alignment")
- Alignments
- Mbp1 proteins:
- APSES domains:
[End of assignment]
If you have any questions at all, don't hesitate to mail me at boris.steipe@utoronto.ca or post your question to the Course Mailing List