sequencing a genome
DESCRIPTION
Sequencing a genome. (a) outline the steps involved in sequencing the genome of an organism; (b) outline how gene sequencing allows for genome-wide comparisons between individuals and between species;. Genome size & complexity. Increasing complexity. Viruses. Bacteria. Protozoa. - PowerPoint PPT PresentationTRANSCRIPT
Sequencing a genome
(a) outline the steps involved in sequencing the genome of an organism;
(b) outline how gene sequencing allows for genome-wide comparisons between individuals and between species;
Genome size & complexity
Issues for consideration when sequencing:
DNA source Genome size Repeat content Duplications and inversions
Increasing complexity
Viruses Bacteria Protozoa Mammals Plants
Issues for consideration when annotating: Genome size Repeat content Splicing Genefinding resources Likely comparator species
Inverterbrates
Genome sequencing
Sequencing involves: DNA fragmenting into small pieces Sequence determination Assembly into large contiguous sequences
Problems occur: Cloning steps Bacterial transformation and amplification Sequencing chemistry Assembly of repetitive regions
123456
78910111213
Sequencing a Genome
Most genome sequences are not complete (not finished). Whole Genome Shotguns are referred to as having an X-fold coverage.
Low coverage (2x) is sufficient for gene discovery and some regulatory element identification.
High coverage (6x) is good for gene annotation. There will still be some missing genes.
Finished sequence has no gaps and is presumed to contain all genes.
Sequence coverage
The sequencing of the human genome
Animation of genome sequencing
Some current and potential applications of genome research
include Molecular medicine Energy sources and environmental applications Risk assessment Bioarchaeology, anthropology, evolution, and
human migration DNA forensics (identification) Agriculture, livestock breeding, and bioprocessing
Detail of each bullet point