
large
Contents
- Part One: Molecular Biology
- The central dogma of molecular biology
- DNA structure
- RNA structure
- Protein & Nucleic acid
- Human Genome
- Part Two: Sequence Searches and Alignment
- Sequence Databases
- Nucleic Acid Search Algorithms
- Nucleic Acid Alignment Algorithms
- Protein Alignment Algorithms
- Part Three: Phylogenetics
- Understanding Phylogenetic Trees
- Distance Algorithms
- Parsimony Algorithms
- Likelihood Algorithms
- Bayesian Algorithms
- Part Four: Genomics
- Whole Genome Assembly
- Part Five: Gene Expression
- Part Six: Protein Structure
- Part Seven: Proteomics
- Part Eight: Metabolomics
- Part Nine: Metagenomics
- Part Ten: Biological sequences and biological diversity
- Chemical diversity, arising from sequence diversity, allows biological diversity
- How biological complexity is expressed in genomic differences
- Biological sequence data indicate a common ancestor for all living things
- Unique features of biological sequences derived from extremophiles
- The genetic origins of oxygen adapted life, mitochondria and chloroplasts
- The genetic origins of multi-cellularity
- A living species is defined as much by genetic diversity as by the genome of any particular individual
- How genetic variability within a species allows for speciation
- Part Eleven: Other types of biological data
- Medical informatics
- Environmental or population data
- Morphological data
- Relational databases and biological data
This article is issued from Wikibooks. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.