Phylogenetics
12
Phylogenetics
Fundamentals of computational biology
Preface
Introduction
The command line
1
The command line
2
Version control
3
Package managers
4
Notions of HPC
Intro. to algorithms
5
Algorithm thinking
6
Algorithm techniques
7
Data structures
Sequence analysis
8
Sequence analysis
9
Sanger analysis
10
Sequence alignments
11
NGS and TGS: principles
Phylogenetics
12
Phylogenetics
13
Phylogenomics
Genomics
14
Genome assembly
15
Genome annotation
16
Variant calling analysis
17
Comparative genomics
Metagenomics
18
Metagenomic sequencing
Structural bioinformatics
19
Structural bioinformatics
20
Molecular docking
Challenges
Unix challenges
Seq. Analysis challenges
Genome assembly
Appendix
History
References
Table of contents
12.1
What is a phylogenetic tree
12.2
Mehtods for phylogenetic reconstruction
12.3
Building a phylogenetic reconstruction
12.3.1
Evolutionary substitution model
12.3.2
Maximum likelihood
12.3.3
Bayesian inference
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12
Phylogenetics
12.1
What is a phylogenetic tree
12.2
Mehtods for phylogenetic reconstruction
12.3
Building a phylogenetic reconstruction
12.3.1
Evolutionary substitution model
12.3.2
Maximum likelihood
12.3.3
Bayesian inference
11
NGS and TGS: principles
13
Phylogenomics