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
3-4-7-adaptations-in-haemoglobin
Exam code:7401
Types of haemoglobin
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Different organisms may have different types of haemoglobin that bind to and release oxygen in different environmental conditions
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These differences arise through the process of natural selection
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Examples of organisms that may have specialised haemoglobin include those that:
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live in low pO2 environments
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Haemoglobin needs to pick up oxygen at a pO2 at which adult human haemoglobin would release it
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Haemoglobin needs a higher affinity for oxygen
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are highly metabolically active, e.g. due to being small in size and needing to generate body heat
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Haemoglobin needs to release oxygen easily to respiring tissues
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Haemoglobin needs a lower affinity for oxygen
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Haemoglobin at low pO2
At high altitude
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The partial pressure of oxygen (pO2) in the air is lower at higher altitudes
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Species living at high altitudes have haemoglobin that is adapted to these conditions by having an increased affinity for oxygen, e.g.:
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llamas have haemoglobin with a high affinity for oxygen; it binds more readily to oxygen, allowing them to obtain a sufficient level of oxygen saturation in their blood when the pO2 in the air is low
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Oxyhaemoglobin dissociation curves for haemoglobin with a higher affinity for oxygen shift to the left
In the developing fetus
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During development a fetus gains its oxygen from the mother’s blood, which has already travelled around the body and so has a low pO2
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The haemoglobin of a developing foetus therefore has a higher affinity for oxygen than adult haemoglobin, so that it can obtain oxygen from its mother’s blood at the placenta
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At this low pO2 the mother’s haemoglobin is dissociating with oxygen
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The dissociation curve for fetal haemoglobin shifts to the left of that for adult haemoglobin
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At any given partial pressure of oxygen, foetal haemoglobin has a higher percentage saturation than adult haemoglobin
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After birth, a baby begins to produce adult haemoglobin which gradually replaces foetal haemoglobin
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This is important for the easy release of oxygen in the respiring tissues of a more metabolically active individual
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Examiner Tips and Tricks
You may be shown dissociation curves for different types of haemoglobin and asked to explain how they aid an organism’s survival.
Note that if you can’t remember whether the curve on the left or the right is the curve with the highest affinity, you can always work this out from the graph:
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Choose any pO2 on the x axis and read upwards to the lines on the graph
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The line which shows the highest percentage saturation is for the haemoglobin with the highest oxygen affinity
Responses