5.5 - Inheritance Patterns Flashcards
Population genetics
Study of genetic variation within a population
i.e. changes in the frequency of alleles and genes, within a population and among populations over time.
Factors affecting population genetics
- Mutation
- Population size
- Diversity of the environment
- Migration patterns
- Natural selection
Population genetics and conservation management
- Conservation genetics incorporates an understnading how genes are inherited in a population
- Principal aim is to avoid extinction of a species by applying convservation methods
Traditional methods:
- Sampling and statistical analysis
- Field observation
- Focus on distribution of populations
- Abudnacne of specific organisms
Modern methods:
- DNA analysis, including next-generation analysis methods, use many types of genetic tools including SNPs and haplotypes
- Determining kinship lineages to improve our understanding of microevolution, including selection and mutation
Uses of conservation management techniques
- Identifying segments of the genome that are essential for the organism’s adaptation to the environnt
- Can determine relationships and idnetify individuals that could be reintroduced into a population for recovery
- Any deleterious alleles for brain function, immunity, metabolism and other necessary functions can be detected.
- Mutations that may enhance these functions can also be detected, improving the ability of the species to survive in its environment
Woolly mammoth extinction case study
The DNA sequence of two historical samples of the wooly mammoth were taken to determine whether there was a reduction in genetic diversity due to inbreeding in the population that had been isolated (on Wrangel island)
Sequencing showed that they had:
- Affected olfactory processes
- Reduced number and variety of the mammoths’ urinary proteins. This would have greatly reduced their ability to mark and recognise territory, hunt, and mate
- 2 mutations were found in the gene known as FOXQ1, which affects hair structure. Mammoths with this gene had translucent, cream-coloured coat that was not good an insulating heat.
- Inbreeding and loss of geneitc diversity made these mammoths more suscpetible to disease and reduced their ability to survive in their environment.
Population genetics and disease (black urine disease)
- Alkaptonuria (black urine disease)
- Body cannot process the amino acids phenylalanine and tyrosine, which occur in proteins
- Erchibald Garrod demonstrated this is is a recessive inherited disease
- Caused by a mutation in the HGD gene for the enzyme homgentisate 1,2-dioxygenase on chromosome 3
- It is a monogenic disease (a disease that results from a mutation in a single gene)
Monogenic disease
- Around 10,000 monogenic human diseases
- Genetic testing for SNPs that are unique to particular diseases can be carried out quickly and relatively easily.
- In NSW, newborn screening program provides free genetic tests for all newborns for the SNPs associated with the diseases phenlketonuria, cystic fibrosis, urea cycle disorders. Most of these conditions are genetic.
Population genetics and human evolution
Combines DNA analysus with historical and archaeological evidence to determine the pathways of human evolution.
Evolutionary forces of:
* Mutation
* Natural selection
* Genetic drift
* Gene flow
are responsible for the patterns of diversity in human populations today.
Multiregional hypothesis
Relies on fossil evidence - all human populations can be traced back to when homo erectus first left Africa 2 million years ago.
* There was gene flow between neighbouring populations
* But once they dispersed into other portions of the old world, this stopped and they evolved into modern humans.
Replacement hypothesis
“Out of Africa”/”Eve” hypothesis
* Archaic homo sapiens left Africa
* A second migration happened 100 thousand years ago, and modern humans of African origin conquered arachic groups and replaced them by inter-breeding with and out-competing them.
* When they first migrated, there were also Neanderthal and Denisovans occupying what is now the Eurasian land mass.
* Genetic evidence suggests that they interbred with Neanderthals. A small amount of Neanderthal DNA persists in the human genome today.
* Scientists have concluded that most Europeans and Asians have 2% Neanderthal DNA.
