TOPIC 5 - ENERGY TRANSFERS

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Created by
Megan Swisho

Cards (94)

  • Location of light dependent reaction
    • Thylakoid membranes of chloroplast
  • Location of light independent reaction
    • Stroma of chloroplast
  • Chloroplast structure

    :)
  • Thylakoid membranes
    • Folded membranes containing photosynthetic proteins (chlorophyll)
    • embedded with transmembrane electron carrier proteins
    • involved in the LDRs
  • Chlorophyll
    • Located in proteins on thylakoid membranes
    • mix of coloured proteins that absorb light
    • different proportions of each pigment lead to different colours on leaves
  • Advantage of many pigments
    • Each pigment absorbs a different wavelength of visible light
    • many pigments maximises spectrum of visible light absorbed
    • maximum light energy taken in so more photoionisation and higher rate of photosynthesis
  • Light-dependent reaction (LDR)
    • First stage of photosynthesis
    • occurs in thylakoid membranes 
    • uses light energy and water to create ATP and reduced NADP for LIR
    • involves photoionisation of chlorophyll, photolysis and chemiosmosis
  • Photolysis
    :)
  • Products of photolysis
    :)
  • Photoionisation of chlorophyll
    • Light energy absorbed by chlorophyll excites electrons so they move to a higher energy level and leave chlorophyll
    • some of the energy released is used to make ATP and reduced NADP
  • Chemiosmosis
    • Electrons that gained energy move along a series of electron carriers in thylakoid membrane
    • release energy as they go along which pumps proteins across thylakoid membrane
    • electrochemical gradient made
    • protons pass back across via ATP synthase enzyme producing ATP down their conc. gradient
  • What happens to protons after chemiosmosis
    • Combine with co-enzyme NADP to become
    • reduced NADP reduced NADP used in LIR
  • Products of LDR
    • ATP (used in LIR)
    • reduced NADP (used in LIR)
    •  oxygen (used in respiration / diffuses out stomata)
  • Light independent reaction (LIR)
    • Calvin cycle
    • uses CO2,
    • reduced NADP and ATP to form hexose sugar
    • occurs in stroma which contains the enzyme Rubisco
    • temperature-sensitive
  • Calvin cycle
    :)
  • RuBP
    • Ribulose Bisphosphate
    • 5-carbon molecule
  • GP
    • Glycerate-3-phosphate
    • 3-carbon molecule
  • TP
    • Triose phosphate
    • 3-carbon molecule
  • Producing hexose sugar in LIR
    • Takes 6 cycles
    • glucose can join to form disaccharides (sucrose) or polysaccharides (cellulose)
    • can be converted to glycerol to combine with fatty acids to make lipids
  • Limiting factor
    • A factor which, if increased, the rate of the overall reaction also increases
  • Limiting factors of photosynthesis
    • Light intensity
    • CO2 concentration
    • temperature
  • How light intensity limits photosynthesis
    :)
  • How temperature limits photosynthesis

    :)
  • How CO2 concentration limits photosynthesis
    :)
  • Agricultural practices to maximise plant growth
    • Growing plants under artificial lighting to maximise light intensity
    • heating in greenhouse to increase temperature
    • burning fuel to release CO2
  • Benefit of agricultural practices for plant growth
    • Faster production of glucose -> faster respiration
    • more ATP to provide energy for growth e.g. cell division + protein synthesis
    • higher yields so more profit
  • Products of LIR
    • Hexose sugar
    • NADP - used in LDR
  • Stages of aerobic respiration
    1)Glycolysis
    2) Link reaction
    3) Krebs cycle
    4) Oxidative phosphorylation
  • Location of glycolysis
    • Cytoplasm
  • Glycolysis
    • Substrate level phosphorylation - 2 ATP molecules add 2 phosphate groups to glucose
    • glucose phosphate splits into two triose phosphate (3C) molecules
    • both TP molecules are oxidised (reducing NAD) to form 2 pyruvate molecules (3C)
    • releases 4 ATP molecules
  • Coenzymes
    • A molecule which aids / assists an enzyme
    • NAD and FAD in respiration both gain hydrogen to form reduced NAD (NADH) and reduced FAD (FADH)
    • NADP in photosynthesis gains hydrogen to form reduced NADP (NADPH)
  • Products of glycolysis
    • Net gain of 2 ATP
    • 2 reduced NAD
    • 2 pyruvate molecules
  • How many ATP molecules does glycolysis produce
    • 2 ATP molecules used to phosphorylate glycose to glucose phosphate
    • 4 molecules generated in oxidation of TP to pyruvate 
    • net gain 2 ATP molecules
  • Location of the link reaction
    • mitochondria matrix
  • Link reaction
    :)
  • Products of the link reaction per glucose molecule
    • 2 acetylcoenzyme A molecules 
    • 2 carbon dioxide molecules released
    • 2 reduced NAD molecules
  • Location of the Krebs cycle
    • Mitochondrial matrix
  • Krebs cycle
    :)
  • Products of the Krebs cycle per glucose
    :)
  • Location of oxidative phosphorylation
    • Cristae of mitochondria