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Revision as of 21:37, 17 December 2016
Computational Systems Biology
Course Wiki for BCB420 (Computational Systems Biology) and JTB2020 (Applied Bioinformatics).
This is our main tool to coordinate information, activities and projects in University of Toronto's computational systems biology course BCB420. If you are not one of our students, you can still browse this site, however only users with a login account can edit or contribute or edit material. If you are here because you are interested in general aspects of bioinformatics or computational biology, you may want to review the Wikipedia article on bioinformatics, or visit Wikiomics. Contact boris.steipe(at)utoronto.ca with any questions you may have.
Warning – this page and all associated course pages currently under intense revision. (2016-12-17)
Contents
BCB420 / JTB2020
These are the course pages for BCB420H (Computational Systems Biology). Welcome, you're in the right place.
These are also the course pages for JTB2020H (Applied Bioinformatics). How come? Why is JTB2020 not the graduate equivalent of BCB410 (Applied Bioinformatics)? Let me explain. When this course was conceived as a required part of the (then so called) Collaborative PhD Program in Proteomics and Bioinformatics in 2003, there was an urgent need to bring graduate students to a minimal level of computer skills and programming; prior experience was virtually nonexistent. Fortunately, the field has changed and our current graduate students are usually quite competent at least in some practical aspects of computational biology. In this course we profit from the rich and diverse knowledge of the problem-domain our graduate students have, while bringing everyone up to a level of competence in the practical, computational aspects.
- The 2017 course...
In this course we pursue a wholly problem oriented format:
- We start from an interesting challenge in computational systems biology;
- We'll formulate an approach to this challenge as a project, defining the the resources we need – data sources, algorithms, programming- and collaboration support
- We'll define students' roles in the project according to their skills and experience
- Then we will implement the project.
Organization
First lecture this term: Tuesday, January 10. 2017 at 16:00 (4 pm), MSB 4171.
Attendance in person at the first lecture is mandatory. You will loose three participation marks if you are not present in person.[1]
This may seem silly but it is unfortunately necessary - I can't get this course started effectively if you are not present when we work out the organization of the course, sign you up to mailing list and Student Wiki, and discuss the syllabus for this term.
- Dates
- BCB420/JTB2020 is a Winter Term course.
- Lectures: Tuesdays, 16:00 to 18:00. (Classes start at 10 minutes past the hour.)
- Exam: None for this course.
- Location
- MS 4171 (Medical Sciences Building).
- Departmental information
- For BCB420 see the BCB420 Biochemistry Department Course Web page.
- For JTB2020 see the JTB2020 Course Web page for general information.
Preparation
Undergraduate students in this course will often have taken my BCH441 course; graduate students come from a wide variety of backgrounds. The course requires (i) a solid understanding of molecular biology, (ii) introductory level knowledge of bioinformatics, (iii) a working knowledge of the 'R programming language. I am only weakly enforcing prerequisites, they are basically your own responsibility. Knowledge of molecular biology is something you have to acquire on your own and bring to class. If you are comfortable reading the introductory literature listed below, and understanding the biology, you should be good to go.
The preparation material detailed will be the subject of our first Quiz in the second week of class. You may find it challenging to adequately prepare yourself in just one week. Please have a look at the three topics below in order to get a head start.
- A working knowledge of R
- Work through the R tutorial on this site and complete the tasks and exercises in the tutorial and the associated scripts.
- A basic knowledge of Bioinformatics
- A list of detailed tutorials will be posted here around Jan. 1. 2017.
- Project specific prereading
Read the following papers:
Grading and Activities
| Activity | Weight BCB410 - (Undergraduates) |
Weight JTB2020 - (Graduates) |
| 5 Self-evaluation and Feedback sessions("Quiz"[2]) | 40 marks (5 x 9) | 30 marks (5 x 6) |
Class project contributions
|
45 marks | 45 marks |
| Participation | 15 marks | 15 marks |
| Contribution to Project Manuscript Draft | 10 marks | |
| Total | 100 marks | 100 marks |
- A note on marking
I do not adjust marks towards a target mean and variance (i.e. there will be no "belling" of grades). I feel strongly that such "normalization" detracts from a collaborative and mutually supportive learning environment. If your classmate gets a great mark because you helped him with a difficult concept, this should never have the effect that it brings down your mark through class average adjustments. Collaborate as much as possible, it is a great way to learn.
Prerequisites
You must have taken an introductory bioinformatics course as a prerequisite, or otherwise acquired the necessary knowledge. Therefore I expect familiarity with the material of my BCH441 course. If you have not taken BCH441, please update your knowledge and skills before the course starts. I will not make accommodations for lack of prerequisites. Please check the syllabus for this course below to find whether you need to catch up on additional material, and peruse this site to find the information you may need. A (non-exhaustive) overview of topics and useful links is linked here.
Timetable and syllabus
Syllabus and assignments will still be in flux for a few weeks.
PREPARATION
| Week | In class: Tuesday, Jan. 12 | Readings | Assignment | In class: Tuesday, Jan. 19 |
| 1 |
|
R Tutorial | Assignment 1 |
Perspectives: Customizing R and R Studio. Subsetting and filtering of vectors, arrays and lists. |
COLLABORATION
| Week | In class: Tuesday, Jan. 19 | Readings | Assignment | In class: Tuesday, Jan. 26 |
| 2 |
|
TBD | Assignment 2 |
Perspectives ... TBD. |
CODE
| Week | In class: Tuesday, Jan. 26 | Readings | Assignment | In class: Tuesday, Feb. 2 |
| 3 |
|
TBD | Assignment 3 | Self-evaluation & Feedback: Session 1
Perspectives ... TBD. |
DEVELOPMENT
| Week | In class: Tuesday, Feb. 2 | Readings | Assignment | In class: Tuesday, Feb. 9 |
| 4 |
|
TBD | Assignment 4 | Self-evaluation & Feedback: Session 2
Perspectives ... TBD |
GRAPHS
| Week | In class: Tuesday, Feb. 9 | Readings | Assignment | (In class): Tuesday, Feb. 23 |
| 5 |
Note: No class on the following Tuesday, February 16 (Reading Week). |
TBD | Assignment 5 | Note: No in-class meeting on that date.
Perspectives ... TBD |
REGRESSION
| Week | (In class): Tuesday, Feb. 23 | Readings | Assignment | In class: Tuesday, March 1 |
| 6 |
Note: No in-class meeting on that date.
|
TBD | Assignment 6 | Self-evaluation & Feedback: Session 3
Perspectives ... TBD |
INFORMATION
| Week | In class: Tuesday, March 1 | Readings | Assignment | In class: Tuesday, March 8 |
| 7 |
|
TBD | Assignment 7 | Self-evaluation & Feedback: Session 4
Perspectives ... TBD |
FEATURES
| Week | In class: Tuesday, March 8 | Readings | Assignment | In class: Tuesday, March 15 |
| 8 |
Note: March. 13 - Drop Date for the course.
|
TBD | Assignment 8 | Self-evaluation & Feedback: Session 5
Perspectives ... TBD |
CLUSTERING
| Week | In class: Tuesday, March 15 | Readings | Assignment | In class: Tuesday, March 22 |
| 9 |
|
TBD | Assignment 9 | Self-evaluation & Feedback: Session 6
Perspectives ... TBD |
CLASSIFICATION
| Week | In class: Tuesday, March 22 | Readings | Assignment | In class: Tuesday, March 29 |
| 10 |
|
TBD | Assignment 10 | Self-evaluation & Feedback: Session 7
Perspectives ... TBD |
INTEGRATION
| Week | In class: Tuesday, March 29 | Readings | Assignment | In class: Tuesday, April 5 |
| 11 |
|
TBD | Assignment 11 | Self-evaluation & Feedback: Session 8
Perspectives ... TBD |
DOCUMENTATION
| Week | In class: Tuesday, April 5 | Readings |
| 12 |
|
TBD |
In depth...
Resources
- Course related
- Prerequisites for the course
- Student Wiki
- The Course Google Group.
- Netiquette for the Group mailing list
- Contents related
- The VMD tutorial
- A Stereo Vision tutorial
| 325C78 | 7097B8 | 9BACCF | A8A5CC | D7C0F0 |
Notes
