Biology AS AQA
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1-1-biological-molecules-carbohydrates11 主题
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1-1-1-biological-molecules-key-terms
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1-1-2-biological-molecules-reactions
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1-1-3-monosaccharides
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1-1-4-glucose
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1-1-5-the-glycosidic-bond
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1-1-6-chromatography-monosaccharides
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1-1-7-disaccharides
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1-1-8-starch-and-glycogen
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1-1-9-cellulose
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1-1-10-biochemical-tests-sugars-and-starch
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1-1-11-finding-the-concentration-of-glucose
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1-1-1-biological-molecules-key-terms
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1-2-biological-molecules-lipids3 主题
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1-3-biological-molecules-proteins5 主题
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1-4-proteins-enzymes12 主题
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1-4-1-many-proteins-are-enzymes
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1-4-2-enzyme-specificity
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1-4-3-how-enzymes-work
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1-4-4-required-practical-measuring-enzyme-activity
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1-4-5-drawing-a-graph-for-enzyme-rate-experiments
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1-4-6-using-a-tangent-to-find-initial-rate-of-reaction
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1-4-7-limiting-factors-affecting-enzymes-temperature
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1-4-8-limiting-factors-affecting-enzymes-ph
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1-4-10-limiting-factors-affecting-enzymes-enzyme-concentration
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1-4-11-limiting-factors-affecting-enzymes-substrate-concentration
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1-4-12-limiting-factors-affecting-enzymes-inhibitors
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1-4-14-control-of-variables-and-uncertainty
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1-4-1-many-proteins-are-enzymes
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1-5-nucleic-acids-structure-and-dna-replication8 主题
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1-5-2-nucleotide-structure-and-the-phosphodiester-bond
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1-5-3-dna-structure-and-function
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1-5-4-rna-structure-and-function
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1-5-5-ribosomes
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1-5-6-the-origins-of-research-on-the-genetic-code
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1-5-8-the-process-of-semi-conservative-replication
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1-5-9-calculating-the-frequency-of-nucleotide-bases
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1-5-10-the-watson-crick-model
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1-5-2-nucleotide-structure-and-the-phosphodiester-bond
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1-6-atp-water-and-inorganic-ions4 主题
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2-1-cell-structure7 主题
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2-2-the-microscope-in-cell-studies4 主题
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2-3-cell-division-in-eukaryotic-and-prokaryotic-cells8 主题
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2-4-cell-membranes-and-transport9 主题
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2-4-1-the-structure-of-cell-membranes
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2-4-3-the-cell-surface-membrane
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2-4-4-diffusion
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2-4-5-osmosis
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2-4-7-osmosis-in-animal-cells
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2-4-9-required-practical-investigating-water-potential
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2-4-10-active-transport-and-co-transport
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2-4-11-adaptations-for-rapid-transport
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2-4-13-required-practical-factors-affecting-membrane-permeability
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2-4-1-the-structure-of-cell-membranes
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2-5-cell-recognition-and-the-immune-system7 主题
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2-6-vaccines-disease-and-monoclonal-antibodies6 主题
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3-1-adaptations-for-gas-exchange6 主题
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3-2-human-gas-exchange14 主题
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3-2-5-the-alveolar-epithelium
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3-2-1-the-human-gas-exchange-system
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3-2-2-dissecting-the-gas-exchange-system
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3-2-3-microscopy-and-gas-exchange-surfaces
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3-2-4-investigating-gas-exchange
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3-5-5-investigating-heart-rate
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3-5-6-blood-vessels
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3-5-7-capillaries-and-tissue-fluid
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3-5-8-cardiovascular-disease-data
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3-2-10-risk-factor-data
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3-2-11-correlations-and-causal-relationships
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3-2-6-ventilation-and-gas-exchange
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3-2-8-the-effects-of-lung-disease
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3-2-9-pollution-and-smoking-data
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3-2-5-the-alveolar-epithelium
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3-3-digestion-and-absorption5 主题
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3-4-mass-transport-in-animals6 主题
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3-5-the-circulatory-system-in-animals4 主题
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3-6-mass-transport-in-plants6 主题
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4-1-dna-genes-and-chromosomes10 主题
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4-2-dna-and-protein-synthesis3 主题
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4-3-genetic-diversity-mutations-and-meiosis7 主题
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4-4-genetic-diversity-and-adaptation6 主题
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4-5-species-and-taxonomy4 主题
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4-6-biodiversity9 主题
4-4-1-genetic-diversity
Exam code:7401
Genetic diversity
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Organisms of the same species have very similar genomes, but two individuals (even twins) will have differences in their DNA base sequences
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Considering the size of genomes, these differences are small between individuals of the same species
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The small differences in DNA base sequences between individual organisms within a species population are called genetic variation
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Genetic variation is transferred from one generation to the next, and it results in genetic diversity within a species population
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Genetic diversity is defined as the number of different alleles of genes in a population
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Mutation results in the generation of new alleles and contributes to genetic diversity or the size of the gene pool
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The new allele may be advantageous, disadvantageous or have no apparent effect on phenotype (because the genetic code is degenerate)
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New alleles are not always seen in the individual in which they first occur
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They can remain hidden (not expressed) within a population for several generations before they contribute to phenotypic variation
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Effects of genetic diversity
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There needs to be some level of genetic diversity within a population for natural selection to occur
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Differences in the alleles possessed by individuals within a population result in differences in phenotypes
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Environmental factors affect the chance of survival of an organism; they, therefore, act as a selection pressure
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Selection pressures increase the chance of individuals with a specific phenotype surviving and reproducing over others
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The individuals with the favoured phenotypes are described as having a higher fitness
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The fitness of an organism is defined as its ability to survive and pass on its alleles to offspring
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Organisms with higher fitness possess adaptations that make them better suited to their environment
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A population with a large gene pool or high genetic diversity has a strong ability to adapt to change
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If a population has a small gene pool or very low genetic diversity, then they are much less able to adapt to changes in the environment and so can become vulnerable to extinction
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Cheetahs are an example of a species with a small gene pool
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They experienced a very large decline in numbers approximately 10,000 years ago, which left small, fragmented populations of individuals remaining
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There was no mixing between populations, and large amounts of inbreeding occurred
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Low genetic variation means the species are less likely to be able to respond (survive) in the event of any environmental changes
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Responses