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
4-5-4-evolutionary-relationships
Exam code:7401
Evolutionary relationships
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In the past, scientists encountered many difficulties when trying to determine the evolutionary relationships of species
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Using the physical features of species (such as colour/shape/size) has many limitations and can often lead to the wrong classification of species
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Advances in genome sequencing and immunology have allowed scientists to further investigate the evolutionary relationships between species
Genome sequencing
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Sequencing technology can determine the order of DNA bases, mRNA bases and amino acids within an organism’s genome
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This technology is especially useful for comparison with an extinct species (using ancient DNA) or when distinguishing between species that are very physically similar
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Scientists will choose specific proteins or sections of the genome for comparison between organisms
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Looking at multiple proteins or multiple regions of the genome will allow for a more accurate estimate of evolutionary relatedness
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Note that the protein used needs to be present in a wide range of organisms and show sufficient variation between species
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Cytochrome c is often used as it is an integral protein to respiration (in the electron transport chain) which is used by all eukaryotic organisms
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For all types of sequence data, it can be said that the more similar the sequences, the more closely related the species are
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Two groups of organisms with very similar sequences will have separated into separate species more recently than two groups with less similarity in their sequences
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Species that have been separated for longer have had a greater amount of time to accumulate mutations and changes to their DNA,mRNA and amino acid sequences
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Sequence analysis and comparison can be used to create family trees that show the evolutionary relationships between species
Immunology
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The proteins of organisms can also be compared using immunological techniques
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The protein albumin is found in many species and is commonly used for these experiments
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Method:
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Pure albumin is extracted from various species and injected into separate rabbits
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Each rabbit produces antibodies specific to that albumin
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These antibodies are then mixed with different albumin samples, and the resulting precipitate (antigen–antibody complexes) is weighed
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Results andinterpretation:
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The heavier the precipitate, the greater the similarity between the antibody and albumin
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For example, antibodies to human albumin form more precipitate with chimpanzee albumin than with rat albumin, reflecting closer evolutionary relatedness
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Examiner Tips and Tricks
Proteins are often easier to isolate than DNA or mRNA. While gene sequences can vary due to differences in introns or chromosomal location, the amino acid sequence of the resulting protein is often more conserved and useful for comparison between species.
You are not required to learn the method for how proteins are used to determine evolutionary relationships, although it is useful to have this overview to aid your understanding of how immunology clarifies evolutionary relationships between organisms.
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