Biology_Edexcel_A-snab_Alevel
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the-circulatory-system8 主题
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diet-and-health11 主题
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gas-exchange-cell-membranes-and-transport8 主题
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nucleic-acids3 主题
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proteins10 主题
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inheritance7 主题
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cell-structure-and-organisation7 主题
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cell-division3 主题
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reproduction-and-inheritance4 主题
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differentiation-and-variation5 主题
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biodiversity9 主题
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resources-from-plants10 主题
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plant-cell-structure
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plant-stems
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importance-of-water-and-inorganic-ions-to-plants
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starch-and-cellulose-structure-and-function
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plant-fibres
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practical-identifying-tissue-types-within-stems
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tensile-strength-plant-fibres
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development-of-drug-testing
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antimicrobial-properties-of-plants
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sustainability-and-plant-materials
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plant-cell-structure
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ecosystems-and-energy-transfer7 主题
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photosynthesis7 主题
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climate-change10 主题
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the-effects-of-climate-change
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temperature-and-enzyme-activity
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practical-temperature-and-development-of-organisms
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climate-change-and-the-scientific-community
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carbon-cycle-and-reduction-of-atmospheric-carbon-dioxide
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reducing-climate-change
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introduction-to-climate-change
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evidence-for-the-causes-of-climate-change
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the-greenhouse-effect
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models-of-future-climate-change
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the-effects-of-climate-change
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evolution3 主题
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forensics3 主题
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microorganisms-and-immunity11 主题
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muscles-and-movement3 主题
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respiration7 主题
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homeostasis4 主题
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exercise4 主题
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response-to-the-environment8 主题
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the-brain-behaviour-and-disease10 主题
phytochrome
Phytochrome
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Flowering in plants is controlled by the stimulus of night length
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Nights are shorter during the spring and summer and longer in the autumn and winter
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Some plants flower when nights are short and some flower when nights are long
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When the nights reach a certain length, genes that control flowering may be switched on or off, leading to the activation or inhibition of flowering
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Genes that are switched on are expressed, leading to production of the polypeptides for which they code, while genes that are switched off are not expressed, so the polypeptides for which they code are not produced
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The length of night can be detected by a plant because it determines the quantities of different forms of a pigment called phytochrome in the leaf
Phytochrome
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The phytochrome pigment exists in two forms
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PR is the inactive form of phytochrome, it absorbs light from the red part of the spectrum (wavelength 660 nm)
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PFR is the active form of phytochrome, it absorbs light from the far red part of the spectrum (wavelength 730 nm)
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Absorption of different wavelengths of light causes a reversible conversion between the PR and PFR forms of phytochrome
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When PR absorbs red light (660 nm) it is converted into PFR
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When PFR absorbs far red light (730 nm) it is converted back into PR
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In the absence of red light, the unstable PFR gradually converts back into PR
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During the day levels of PFR rise
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Sunlight contains more wavelengths at 660 nm than 730 so the conversion from PR to PFR occurs more rapidly in the daytime than the conversion from PFR to PR
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During the night levels of PR rise
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Red light wavelengths are not available in the darkness and PFR converts slowly back to PR
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PR is converted to PFR in a reversible reaction which controls flowering
E.g. long day plants
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Long day plants flower when the nights are short e.g. in summer
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When nights are short, the day length is longer, hence the term ‘long day plants’
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In long day plants high levels of the active form of phytochrome activate flowering
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Flowering occurs due to the following process
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Days are long so PR is converted to PFR at a greater rate than PFR is converted to PR
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The active form of phytochrome, PFR, is present at high levels
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High levels of PFR activate flowering
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PFR activates expression of genes that stimulate flowering
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The active gene is transcribed and translated
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The resulting protein causes flowers to be produced rather than stems and leaves
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