Zoom link to today's exam.

Welcome to the MVE510 - Introduction to bioinformatics. This is the course home page and contains all the information you need to participate and complete the course.

The course will this year be held online and no physical lectures or computer exercises will be held at the Chalmers campus. More information about the course will soon be available.

 

Teachers

Erik Kristiansson, examiner, course administrator, lecturer

Juan Salvador Inda Diaz, computer exercise assistant

David Lund, computer exercise assistant

 

Student representatives

Leo Benson
Edwin Eliasson
Louise Stauber Näslund
Hannah Steinhausen
Chattarin Wangwittaya

Course aims, plan and schedule

Syllabus with course aims

Course plan (updated 2020-12-01)

Lectures

Lecture	Date	Time	Zoom link	Password
Lecture 1	November 3	13.15-15.00	https://chalmers.zoom.us/j/67396337838	454454
Lecture 2	November 6	13.15-15.00	https://chalmers.zoom.us/j/63272359873	454454
Lecture 3	November 10	13.15-15.00	https://chalmers.zoom.us/j/61010885301	454454
Lecture 4	November 13	13.15-15.00	https://chalmers.zoom.us/j/62429696152	454454
Lecture 5	November 17	13.15-15.00	https://chalmers.zoom.us/j/68379078621	454454
Lecture 6	November 20	13.15-15.00	https://chalmers.zoom.us/j/63509309213	454454
Lecture 7	November 24	13.15-15.00	https://chalmers.zoom.us/j/67368215280	454454
Lecture 8	November 27	13.15-15.00	https://chalmers.zoom.us/j/64217741260	454454
Lecture 9	December 1	13.15-15.00	https://chalmers.zoom.us/j/69727096299	454454
Lecture 10	December 4	13.15-15.00	https://chalmers.zoom.us/j/65572341810	454454
Lecture 11 Extra lecture	December 8	13.15-15.00	https://chalmers.zoom.us/j/62488865906	454454
Lecture 12	December 11	13.15-15.00	https://chalmers.zoom.us/j/63058647380	454454
Lecture 13	Moved to December 9	10.00-11.45	https://chalmers.zoom.us/j/66378804748	454454
Lecture 14	December 18	13.15-15.00	https://chalmers.zoom.us/j/62034464362	454454

All handwritten lecture notes can be found here.

 

Computer exercises

Help list can be found here

Exercise	Date	Time	Zoom link	Password
Computer exercise	Tuesday, November 3	15.15-17.00	https://chalmers.zoom.us/j/63506798878	010101
Computer exercise	Wednesday, November 4	13.15-17.00	https://chalmers.zoom.us/j/63562517993	010101
Computer exercise	Tuesday, November 10	15.15-17.00	https://chalmers.zoom.us/j/63594048194	010101
Computer exercise	Wednesday, November 11	13.15-17.00	https://chalmers.zoom.us/j/69558888053	010101
Computer exercise	Tuesday, November 17	15.15-17.00	https://chalmers.zoom.us/j/61636804225	010101
Computer exercise	Wednesday, November 18	13.15-17.00	https://chalmers.zoom.us/j/61271820044	010101
Computer exercise	Tuesday, November 24	15.15-17.00	https://chalmers.zoom.us/j/69102425531	010101
Computer exercise	Wednesday, November 25	13.15-17.00	https://chalmers.zoom.us/j/64210669948	010101
Computer exercise	Tuesday, December 1	15.15-17.00	https://chalmers.zoom.us/j/62775822139	010101
Computer exercise	Wednesday, December 2	13.15-17.00	https://chalmers.zoom.us/j/69156274202	010101
Computer exercise	Tuesday, December 8	15.15-17.00	https://chalmers.zoom.us/j/66248034699	010101
Computer exercise	Wednesday, December 9	13.15-17.00	https://chalmers.zoom.us/j/65152810536	010101
Computer exercise	Tuesday, December 15	15.15-17.00	https://chalmers.zoom.us/j/62179890042	010101
Computer exercise	Wednesday, December 16	13.15-17.00	https://chalmers.zoom.us/j/68030958579	010101

 

 

Course material

Please refer to the course plan for lecture-by-lecture reading instructions.

Lecture notes

• Lecture 1 (updated 2020-11-03)
• Lecture 2 (updated 2020-11-06)
• Lecture 3
• Lecture 4
• Lecture 5
• Lecture 6
• Lecture 7 (updated 2020-12-01)
• Lecture 8, Notes on linear models
• Lecture 9 (updated 2020-12-08)
• Lecture 10 (updated 2020-12-08)
• Lecture 11
• Lecture 12, Slides from AstraZeneca
• Lecture 13 (updated 2020-12-09)
• Lecture 14 (updated 2020-12-18)

Papers

The following scientific papers are a part of the literature of this course. 

• Lecture 2: Ten years of next-generation sequencing technology, van Dijk EL, Auger H, Jaszczyszyn Y, and Thermes C. Trends in Genetics, 30(10) 2014.
• Lecture 4: A beginner's guide to SNP calling from high-throughput DNA-sequencing data, Altmann A, Weber P, Bader D, Preuss M, Binder EB, and Müller-Myhsok B. Human Genetics, 131(10) 2012.
  Lecture 5 and 6: Mapping reads on a genomic sequence: an algorithmic overview and a practical comparative analysis. Schbath S, Martin V, Zytnicki M, Fayolle J, Loux V, and Gibrat JF. Journal of Computational Biology, 19(6) 2012.
• Lecture 7 and 8: Measuring differential gene expression with RNA-seq: challenges and strategies for data analysis, Finotello F and Di Camillo F. Briefings in Functional Genomics, 14(2) 2014.
• Lecture 9: Clustering. Naomi Altman and Martin Krzywinski. Nature Methods, 14(6) 2017.
• Lecture 9: Principal component analysis. Jake Lever, Martin Krzywinski, and Naomi Altman. Nature Methods, 14(7) 2017.
• Lecture 11: Integrative analysis of omics data, Österlund T, Cvijovic M, and Kristiansson E. Systems Biology, 6(1) 2017.
• Lecture 11-12: The road to metagenomics: from microbiology to DNA sequencing technologies and bioinformatics, Escobar-Zepeda A, de León AVP, and Sanchez-Flores A. Frontiers in Genetics, 6 2015.

Extra exercises

• Lecture 5

Optional course book

Xinkun Wang, Next-Generation Sequencing Data Analysis, CRC Press, ISBN 9781482217889. The course covers chapters 2-5, 7-9, and 13. 

 

Computer exercises

The course contains four compulsory computer exercises. Computer exercise 1 is examined at the scheduled exercise. Computer exercise 2, 3 and 4 should be handed in as written reports. The computer exercises should be made in groups of maximum two persons.

• Computer exercise 1
• Computer exercise 2
• Computer exercise 3
• Computer exercise 4

 

Software you need to install if you work from your own computer

• RStudio (https://rstudio.com/) or R (https://www.r-project.org/)
• IGV (http://software.broadinstitute.org/software/igv/)

Note that you can connect to the computers at Chalmers from remote. Please refer to https://it.portal.chalmers.se/itportal/Faq/RemoteAccess?setlang=en for full details. All software should be avilable for the computers in SalA as well as the computer rooms in the Chemistry and Math building.

 

Guidelines for writing and submitting reports

The reports submitted as a group (of maximum two persons) through the Canvas course page. The report should be either in PDF or WORD-format. All of the code necessary should be included in the end of the report as an Appendix. Please double check that the sumibbted code works as intended. Don't forget to add the names and Swedish social security number for all persons in the group at the front page. You only need to submit one report per group.

The reports should contain answers to all the questions posed in the exercise sheet. The answers should almost always have some motivation, meaning that even though the question could be answered with a yes or a no, we require a motivation why. Example question: "Do you see any differences?" Describe the observed differences (if the answer is yes), and not only a yes or a no. When you have been asked to generate a figure, this figure should be included in the report. The reports do not need an introduction, method, results, or discussion section, but should include some information about what has been done. Example: “When doing the quality assessment using fastqc, we saw that…”.

Good luck!

Exam

• 14 January 2020

Previous exams

• April 6, 2018
• August 29, 2018
• January 17, 2019, solutions
• April 26, 2019
• August 28, 2019, solutions
• January 16, 2020, solutions
• April 8, 2020

Examination
This  course is examined based on,

• Written exam: 08:30 on January 14, 2020. This gives you 5 hp and determines your grade in the course.
• Four compulsory computer exercises. When you have passed all four of them you earn 2.5 hp.