22115 - Computational Molecular Evolution: Difference between revisions

From 22115
Jump to navigation Jump to search
No edit summary
Line 81: Line 81:


:; Course material
:; Course material
:* [[Media:Consensus.pdf|Handout exercise: Consensus Trees]]
:* [https://teaching.healthtech.dtu.dk/material/22115/Consensus.pdf Handout exercise: Consensus Trees]
:* [[Media:Distance handout.pdf|Handout exercise: Distance Matrix Methods]]
:* [https://teaching.healthtech.dtu.dk/material/22115/Distance_handout.pdf Handout exercise: Distance Matrix Methods]
:* [[Media:Slides week3.pdf|Slides, week 3]]
:* [https://teaching.healthtech.dtu.dk/material/22115/Slides_week3.pdf Slides, week 3]


:; Computer exercises
:; Computer exercises
Line 93: Line 93:
===Week 4+5 (February 21 + 28): Mini project 1===
===Week 4+5 (February 21 + 28): Mini project 1===


<#--
<--


Project description: [[Media:Miniproject1 whales.pdf|Building a tree from scratch: What are the closest relatives of whales?]]
Project description: [https://teaching.healthtech.dtu.dk/material/22115/Miniproject1_whales.pdf Building a tree from scratch: What are the closest relatives of whales?]


The mini project should be submitted and assessed via a peer assessment module that will become available on the course DTU Learn page.
The mini project should be submitted and assessed via a peer assessment module that will become available on the course DTU Learn page.


Take this tree quiz to  test yourself on your ability to accurately interpret evolutionary trees:  
Take this tree quiz to  test yourself on your ability to accurately interpret evolutionary trees:  
* [[Media:Treequiz1.pdf|Tree quiz]]
* [https://teaching.healthtech.dtu.dk/material/22115/Treequiz1.pdf Tree quiz]
Check your replies here:   
Check your replies here:   
* [[Media:Treequiz1 answers.pdf|Tree quiz with answers]]  
* [https://teaching.healthtech.dtu.dk/material/22115/Treequiz1_answers.pdf Tree quiz with answers]  


-->
-->
Line 116: Line 116:


:; Course material
:; Course material
:* [[Media:Handout real exp change.pdf|Handout exercise: Real, Observed, and Expected Change]]
:* [https://teaching.healthtech.dtu.dk/material/22115/Handout_real_exp_change.pdf|Handout exercise: Real, Observed, and Expected Change]
:* [[Media:Handout likelihood.pdf|Handout exercise: Computation of Likelihood]]
:* [https://teaching.healthtech.dtu.dk/material/22115/Handout_likelihood.pdf Handout exercise: Computation of Likelihood]
:* [[Media:Slides week4.pdf|Slides, week 6]]
:* [https://teaching.healthtech.dtu.dk/material/22115/Slides_week4.pdf Slides, week 6]
:* [https://teaching.healthtech.dtu.dk/material/22115/substitutionmodels.pdf Lecture notes: Substitution models]
:* [https://teaching.healthtech.dtu.dk/material/22115/substitutionmodels.pdf Lecture notes: Substitution models]
:* [https://teaching.healthtech.dtu.dk/material/22115/main.pdf Optional lecture notes: Matrix exponentials for Markov chains]
:* [https://teaching.healthtech.dtu.dk/material/22115/main.pdf Optional lecture notes: Matrix exponentials for Markov chains]
Line 134: Line 134:


:; Course material
:; Course material
:* [[Media:Handout.class08.pdf|Handout exercise: Bayesian estimation of model parameter value]]
:* [https://teaching.healthtech.dtu.dk/material/22115/Handout.class08.pdf Handout exercise: Bayesian estimation of model parameter value]
:* [[Media:Slides week5.pdf|Slides, week 7]]
:* [https://teaching.healthtech.dtu.dk/material/22115/Slides_week5.pdf Slides, week 7]
:* [[Media:MTN122.pdf| An Introduction to Bayesian Statistics Without Using Equations]]
:* [https://teaching.healthtech.dtu.dk/material/22115/MTN122.pdf| An Introduction to Bayesian Statistics Without Using Equations]
:* [http://www.nature.com/nbt/journal/v22/n9/pdf/nbt0904-1177.pdf Background reading: "What is Bayesian statistics?"]
:* [http://www.nature.com/nbt/journal/v22/n9/pdf/nbt0904-1177.pdf Background reading: "What is Bayesian statistics?"]
:* [http://rsta.royalsocietypublishing.org/content/roypta/361/1813/2681.full.pdf Background reading: "Bayesian computation: a statistical revolution"]
:* [http://rsta.royalsocietypublishing.org/content/roypta/361/1813/2681.full.pdf Background reading: "Bayesian computation: a statistical revolution"]
Line 164: Line 164:


:; Course material
:; Course material
:* [[Media:Slides week6.pdf|Slides, week 10]]
:* [https://teaching.healthtech.dtu.dk/material/22115/Slides_week6.pdf Slides, week 10]
:* [https://github.com/ddarriba/jmodeltest2/files/157130/manual.pdf jmodeltest manual]
:* [https://github.com/ddarriba/jmodeltest2/files/157130/manual.pdf jmodeltest manual]



Revision as of 15:00, 19 March 2024

Overview
This page contains links to video lectures, computer exercises, and other material for the course 22115 - Computational Molecular Evolution, which is part of the MSc in Bioinformatics and Systems Biology at the Technical University of Denmark. The course is taught by Professor Anders Gorm Pedersen, Section for Bioinformatics, Department of Health Technology.
The main goal of this course is to give an introduction to theory and algorithms in the field of computational molecular evolution. We will cover basic evolutionary theory (common descent, natural selection, genetic drift, models of growth and selection), and the main types of algorithms used for constructing and analyzing phylogenetic trees (parsimony, distance based methods, maximum likelihood methods, and Bayesian inference). We will also discuss the role of statistical modeling in science more generally
The course will consist of lectures, computer exercises, and mini-projects. The student will acquire practical experience in the use of a range of computational methods by analyzing sequences from the scientific literature.


Computer setup

Linux

Windows

MacOS

Lecture Schedule

(Course programs, previous years)

Week 1 (January 31): Introduction to evolutionary theory and population genetics. Models of growth, selection and mutation

Online lectures
Course material
Computer exercise

Week 2 (February 7): Neutral mutations and genetic drift. Tree reconstruction by parsimony

Online lectures
Course material
Computer exercise

Week 3 (February 14): Consensus trees. Distance matrix methods

Online lectures
Course material
Computer exercises

Week 4+5 (February 21 + 28): Mini project 1

<--

Project description: Building a tree from scratch: What are the closest relatives of whales?

The mini project should be submitted and assessed via a peer assessment module that will become available on the course DTU Learn page.

Take this tree quiz to test yourself on your ability to accurately interpret evolutionary trees:

Check your replies here:

-->


Week 6 (March 6): Models of sequence evolution. Likelihood methods

Online lectures
Course material
Computer exercises

Week 7 (March 13): Bayesian inference of phylogeny

Online lectures
Course material
Computer exercise

Week 8+9 (March 20 + April 3): Mini project 2


Week 10 (April 10): Model Selection

Online lectures
Course material
Computer exercise

Week 11 (April 17): Bayesian Phylogenetics, Part 2

Course material
Computer exercise

Week 12 + 13 (April 24 + May 1): Mini project 3: Final exam

Details will follow