Biology_Alevel_Ocr
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4-1-communicable-diseases-disease-prevention-and-the-immune-system16 主题
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4-1-1-common-pathogens-and-communicable-diseases
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4-1-2-transmission-of-communicable-pathogens
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4-1-3-plant-defences-against-pathogens
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4-1-4-non-specific-immune-responses
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4-1-5-phagocytes
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4-1-6-blood-cells
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4-1-7-the-t-lymphocyte-response
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4-1-8-the-b-lymphocyte-response
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4-1-9-primary-and-secondary-immune-responses
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4-1-10-antibodies
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4-1-11-opsonins-agglutinins-and-anti-toxins
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4-1-12-types-of-immunity
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4-1-13-autoimmune-diseases
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4-1-14-principles-of-vaccination
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4-1-15-sources-of-medicine
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4-1-16-antibiotics
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4-1-1-common-pathogens-and-communicable-diseases
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4-2-biodiversity10 主题
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4-2-1-biodiversity
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4-2-2-sampling-to-determine-biodiversity
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4-2-3-practical-investigating-biodiversity-using-sampling
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4-2-4-measuring-species-richness-and-species-evenness
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4-2-5-simpsons-index
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4-2-6-genetic-diversity
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4-2-7-factors-affecting-biodiversity
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4-2-8-reasons-for-maintaining-biodiversity
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4-2-9-methods-of-maintaining-biodiversity
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4-2-10-conservation-agreements
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4-2-1-biodiversity
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4-3-classification-and-evolution15 主题
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4-3-1-classification-of-species
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4-3-2-binomial-system
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4-3-3-classification-of-the-three-domains
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4-3-4-classification-of-the-five-kingdoms
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4-3-5-classification-and-phylogeny
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4-3-6-evidence-of-evolution
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4-3-7-types-of-variation
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4-3-8-standard-deviation
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4-3-9-variation-t-test-method
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4-3-10-variation-t-test-worked-example
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4-3-11-spearmans-rank-correlation
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4-3-12-adaptation
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4-3-13-natural-selection
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4-3-14-evolution-of-resistance
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4-3-15-consequences-of-resistance
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4-3-1-classification-of-species
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5-1-communication-and-homeostasis4 主题
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5-2-excretion10 主题
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5-2-1-the-importance-of-excretion
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5-2-2-the-mammalian-liver-structure
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5-2-3-the-mammalian-liver-function
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5-2-4-the-liver-under-the-microscope
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5-2-5-the-mammalian-kidney-structure
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5-2-6-the-mammalian-kidney-function
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5-2-7-the-kidney-under-the-microscope
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5-2-8-osmoregulation
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5-2-9-kidney-failure
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5-2-10-excretory-products-and-medical-diagnosis
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5-2-1-the-importance-of-excretion
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5-3-neuronal-communication9 主题
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5-4-hormonal-communication4 主题
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5-5-plant-and-animal-responses16 主题
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5-5-1-plant-responses
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5-5-2-investigating-phototropism-and-geotropism
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5-5-3-plant-hormones
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5-5-4-auxins-and-apical-dominance
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5-5-5-gibberellin
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5-5-6-practical-effect-of-plant-hormones-on-growth
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5-5-7-commercial-use-of-plant-hormones
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5-5-8-mammalian-nervous-system
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5-5-9-the-human-brain
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5-5-10-reflex-actions
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5-5-11-coordination-of-responses
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5-5-12-factors-affecting-heart-rate
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5-5-13-investigating-factors-affecting-heart-rate
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5-5-14-mammalian-muscle-structure
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5-5-15-transmission-across-a-neuromuscular-junction
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5-5-16-the-sliding-filament-model
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5-5-1-plant-responses
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5-6-photosynthesis10 主题
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5-6-1-photosynthesis-and-respiration
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5-6-2-chloroplast-structure-and-function
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5-6-3-photosynthetic-pigments
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5-6-4-practical-investigating-photosynthetic-pigments-with-chromatography
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5-6-5-the-light-dependent-stage
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5-6-6-using-the-products-of-the-light-dependent-reaction
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5-6-7-the-light-independent-stage
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5-6-8-uses-of-triose-phosphate
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5-6-9-factors-affecting-the-rate-of-photosynthesis
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5-6-10-practical-investigating-factors-affecting-the-rate-of-photosynthesis
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5-6-1-photosynthesis-and-respiration
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5-7-respiration14 主题
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5-7-14-practical-respirometer
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5-7-1-the-need-for-cellular-respiration
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5-7-2-structure-of-the-mitochondrion
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5-7-3-the-four-stages-in-aerobic-respiration
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5-7-4-glycolysis
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5-7-5-the-link-reaction
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5-7-6-the-krebs-cycle
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5-7-7-the-role-of-coenzymes
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5-7-8-oxidative-phosphorylation
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5-7-9-anaerobic-respiration
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5-7-10-energy-yield-of-aerobic-vs-anaerobic-respiration
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5-7-11-practical-investigating-the-rate-of-respiration
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5-7-12-respiratory-substrates
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5-7-13-respiratory-quotient-rq
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5-7-14-practical-respirometer
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6-1-cellular-control7 主题
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6-2-patterns-of-inheritance13 主题
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6-2-1-key-terms-in-genetics
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6-2-2-variation-phenotype
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6-2-3-variation-sexual-reproduction
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6-2-4-predicting-inheritance-monohybrid-crosses
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6-2-5-predicting-inheritance-dihybrid-crosses
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6-2-6-predicting-inheritance-identifying-linkage
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6-2-7-predicting-inheritance-identifying-epistasis
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6-2-8-predicting-inheritance-chi-squared-test
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6-2-9-continuous-and-discontinuous-variation
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6-2-10-factors-affecting-evolution
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6-2-11-the-hardy-weinberg-principle
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6-2-12-isolation-and-speciation
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6-2-13-artificial-selection
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6-2-1-key-terms-in-genetics
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6-3-manipulating-genomes11 主题
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6-3-1-dna-sequencing
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6-3-2-comparing-genomes
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6-3-3-non-coding-dna-and-regulatory-genes
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6-3-4-synthetic-biology
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6-3-5-polymerase-chain-reaction
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6-3-6-electrophoresis
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6-3-7-dna-profiling
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6-3-8-genetic-engineering
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6-3-9-genetic-engineering-techniques
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6-3-10-uses-of-genetic-engineering
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6-3-11-gene-therapy
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6-3-1-dna-sequencing
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6-4-cloning-and-biotechnology14 主题
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6-4-1-natural-clones-in-plants
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6-4-2-producing-cuttings
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6-4-3-production-of-artificial-clones-in-plants
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6-4-4-uses-of-plant-cloning
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6-4-5-natural-clones-in-animals
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6-4-6-production-of-artificial-clones-in-animals
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6-4-7-uses-of-animal-cloning
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6-4-8-microorganisms-and-biotechnology
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6-4-9-microorganisms-and-food-production
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6-4-10-culturing-microorganisms
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6-4-11-batch-and-continuous-fermentation
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6-4-12-standard-growth-curve-of-microorganisms
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6-4-13-factors-affecting-the-growth-of-microorganisms
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6-4-14-immobilised-enzymes-in-biotechnology
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6-4-1-natural-clones-in-plants
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6-5-ecosystems7 主题
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6-6-populations-and-sustainability6 主题
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1-1-practical-skills-written-assessment7 主题
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1-2-practical-skills-endorsement-assessment16 主题
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1-2-1-practical-ethical-use-of-organisms
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1-2-2-practical-aseptic-techniques
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1-2-3-practical-dissection-of-gas-exchange-surfaces-in-fish-and-insects
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1-2-4-drawing-cells-from-blood-smears
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1-2-5-practical-investigating-biodiversity-using-sampling
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1-2-6-practical-data-loggers-and-computer-modelling
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1-2-7-practical-investigating-the-rate-of-diffusion
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1-2-8-practical-investigating-water-potential
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1-2-9-practical-factors-affecting-membrane-structure-and-permeability
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1-2-10-biochemical-tests-reducing-sugars-and-starch
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1-2-11-biochemical-tests-lipids
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1-2-12-biochemical-tests-proteins
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1-2-13-chromatography
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1-2-14-serial-dilutions
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1-2-15-practical-investigating-the-rate-of-transpiration
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1-2-16-practical-using-a-light-microscope
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1-2-1-practical-ethical-use-of-organisms
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2-1-cell-structure9 主题
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2-2-biological-molecules17 主题
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2-2-1-properties-of-water
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2-2-2-monomers-and-polymers
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2-2-3-monosaccharides
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2-2-4-the-glycosidic-bond
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2-2-5-polysaccharides
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2-2-6-biochemical-tests-reducing-sugars-and-starch
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2-2-7-lipids-and-ester-bonds
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2-2-8-lipids-structure-and-function
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2-2-9-biochemical-tests-lipids
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2-2-10-amino-acids-and-peptide-bonds
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2-2-11-protein-structure
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2-2-12-globular-proteins
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2-2-13-fibrous-proteins
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2-2-14-inorganic-ions
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2-2-15-biochemical-tests-proteins
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2-2-16-finding-the-concentration-of-a-substance
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2-2-17-chromatography
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2-2-1-properties-of-water
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2-3-nucleotides-and-nucleic-acids8 主题
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2-4-enzymes9 主题
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2-4-1-the-role-of-enzymes
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2-4-2-enzyme-action
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2-4-3-enzyme-activity-ph
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2-4-4-enzyme-activity-temperature
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2-4-5-enzyme-activity-enzyme-concentration
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2-4-6-enzyme-activity-substrate-concentration
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2-4-7-enzyme-activity-enzyme-inhibitors
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2-4-8-coenzymes-cofactors-and-prosthetic-groups
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2-4-9-practical-measuring-enzyme-activity
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2-4-1-the-role-of-enzymes
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2-5-biological-membranes9 主题
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2-5-1-the-cell-surface-membrane
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2-5-2-membrane-structure-and-permeability
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2-5-3-diffusion-and-facilitated-diffusion
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2-5-4-practical-investigating-the-rate-of-diffusion
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2-5-5-active-transport
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2-5-6-endocytosis-and-exocytosis
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2-5-7-osmosis
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2-5-8-osmosis-in-animal-and-plant-cells
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2-5-9-practical-investigating-water-potential
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2-5-1-the-cell-surface-membrane
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2-6-cell-division-cell-diversity-and-cellular-organisation11 主题
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2-6-1-the-cell-cycle
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2-6-2-the-stages-of-mitosis
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2-6-3-identifying-mitosis-in-plant-cells
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2-6-4-the-significance-of-mitosis
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2-6-5-the-stages-of-meiosis
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2-6-6-the-significance-of-meiosis
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2-6-7-specialised-cells
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2-6-8-the-organisation-of-cells
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2-6-9-stem-cells
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2-6-10-stem-cells-in-animals-and-plants
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2-6-11-the-use-of-stem-cells
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2-6-1-the-cell-cycle
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3-1-exchange-surfaces7 主题
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3-2-transport-in-animals12 主题
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3-2-1-the-need-for-transport-systems-in-animals
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3-2-2-circulatory-systems
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3-2-3-blood-vessels
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3-2-4-tissue-fluid
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3-2-5-the-mammalian-heart
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3-2-6-practical-mammalian-heart-dissection
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3-2-7-the-cardiac-cycle
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3-2-8-cardiac-output
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3-2-9-heart-action-initiation-and-control
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3-2-10-electrocardiograms-ecgs
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3-2-11-the-role-of-haemoglobin
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3-2-12-adult-and-fetal-haemoglobin
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3-2-1-the-need-for-transport-systems-in-animals
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3-3-transport-in-plants11 主题
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3-3-1-the-need-for-transport-systems-in-plants
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3-3-2-the-xylem-and-phloem
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3-3-3-the-xylem
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3-3-4-the-phloem
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3-3-5-transverse-sections-stems-roots-and-leaves
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3-3-6-the-process-of-transpiration
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3-3-7-transpiration-in-plants
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3-3-8-practical-investigating-the-rate-of-transpiration
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3-3-9-translocation
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3-3-10-the-mass-flow-hypothesis
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3-3-11-the-adaptations-of-xerophytic-and-hydrophytic-plants
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3-3-1-the-need-for-transport-systems-in-plants
3-3-2-the-xylem-and-phloem
Xylem & Phloem Distribution
Xylem
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The functions of xylem tissue in a plant are:
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Vascular tissue that carries dissolved minerals and water up the plant
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Structural support
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Food storage
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Xylem tissue is found, along with phloem tissue and other tissues, in vascular bundles
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The location of the vascular bundles is dependent on which organ they are in as the different organs are under different stresses:
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In the roots the vascular bundle is found in the centre and the centre core of this is xylem tissue. This helps the roots withstand the pulling strains they are subjected to as the plant transports water upwards and grows
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In the stems the vascular bundles are located around the outside and the xylem tissue is found on the inside (closest to the centre of the stem) to help support the plant
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In the leaves the vascular bundles form the midrib and veins and therefore spread from the centre of the leaf in a parallel line. The xylem tissue is found on the upper side of the bundles (closest to the upper epidermis)
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Phloem
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The function of phloem tissue in a plant is to:
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Transport organic compounds, particularly sucrose, from the source (eg. leaf) to the sink (eg. roots). The transport of these compounds can occur up and down the plant
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Phloem is a complex tissue also made up of various cell types; its bulk is made up of sieve tube elements which are the main conducting cells and the companion cells
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Other cell types of phloem tissue also include parenchyma for storage and strengthening fibres
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The location of the vascular bundles is dependent on which organ they are in as the different organs are under different stresses:
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In the roots the vascular bundle is found in the centre and on the edges of the centre core is the phloem tissue
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In the stems, the vascular bundles are located around the outside and the phloem tissue is found on the outside (closest to the epidermis)
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In the leaves, the vascular bundles form the midrib and veins and therefore spread from the centre of the leaf in a parallel line. The phloem tissue is found on the lower side of the bundles (closest to the lower epidermis)
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The distribution of xylem and phloem tissue in the roots, stem and leaves in a herbaceous dicotyledonous plant
Examiner Tips and Tricks
In roots and stem, the xylem tissue is found on the inside – however, in leaves, xylem is found above phloem tissue.