Chapter 05 - Photosynthesis

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  • Photosynthesis equation:6CO2 + 6H2O → C2H12O6 + 6O2 DATBooster_Biology::05.Photosynthesis
  • Plant pigments include chlorophyll and carotenoids DATBooster_Biology::05.Photosynthesis
  • The light-dependent reaction ends when energy is absorbed by P680 and P700, which are chlorophyll a molecules "Note the PSII and PSI, which are the same as P680 and P700, respectivelyImage from Khan Academy, CC BY-NC-SA 4.0" DATBooster_Biology::05.Photosynthesis
  • P700 forms PS1 "Image from Khan Academy, CC BY-NC-SA 4.0" DATBooster_Biology::05.Photosynthesis
  • P680 forms PSII "Image from Khan Academy, CC BY-NC-SA 4.0" DATBooster_Biology::05.Photosynthesis
  • Antenna pigments capture pigments that chlorophyll a does not They pass energy to chlorophyll a, where a direct light reaction occurs DATBooster_Biology::05.Photosynthesis
  • Antenna pigments include chlorophyll b, carotenoids, and phycobilins Phycobilins are a red algae pigment DATBooster_Biology::05.Photosynthesis
  • Chlorophyll a has double bonds, which are critical for light reactions "Chlorophyll a contains a porphyrin ring that has double bonds for light reactions and complexes with Mg:" DATBooster_Biology::05.Photosynthesis
  • Noncyclic photophosphorylation is ADP + Pi + light → ATP, also known as the light-dependent reaction "Pi is an inorganic phosphate (highlighted in yellow):Image by Muessig, CC BY-SA 3.0" DATBooster_Biology::05.Photosynthesis
  • In chloroplasts, H+ accumulates in the thylakoid lumen "Image link, CC BY-SA 3.0" DATBooster_Biology::05.Photosynthesis
  • Stroma is fluid inside the chloroplast DATBooster_Biology::05.Photosynthesis
  • The Calvin cycle occurs in the stroma "Image link, by Kelvinsong, CC BY 3.0" DATBooster_Biology::05.Photosynthesis
  • Noncyclic photophosphorylation takes place on the thylakoid membrane "Image link, CC BY-SA 3.0" DATBooster_Biology::05.Photosynthesis
  • Cyclic photophosphorylation takes place on stroma lamellae "Image link, CC BY-SA 3.0" DATBooster_Biology::05.Photosynthesis
  • Photolysis takes place in the thylakoid lumen "Image link, CC BY-SA 3.0" DATBooster_Biology::05.Photosynthesis
  • Non-cyclic photophosphorylationStep 1: Electrons trapped by P680 in PSII are energized by light "Image by Somepics, CC BY-SA 4.0" DATBooster_Biology::05.Photosynthesis
  • Non-cyclic photophosphorylationStep 2: Excited electrons passed to primary electron acceptor "Image by Somepics, CC BY-SA 4.0" DATBooster_Biology::05.Photosynthesis
  • Non-cyclic photophosphorylationStep 3: ETC, similar to oxidative phosphorylation, produces 1.5 ATP per 2 electrons "Image by Somepics, CC BY-SA 4.0" DATBooster_Biology::05.Photosynthesis
  • Non-cyclic photophosphorylationStep 4: ETC terminates at PS1 or P700, and electrons are re-energized by light "Image by Somepics, CC BY-SA 4.0" DATBooster_Biology::05.Photosynthesis
  • Non-cyclic photophosphorylationAfter electrons are re-energized in Step 4, electrons can enter non-cyclic or cyclic pathways "Image by Somepics, CC BY-SA 4.0" DATBooster_Biology::05.Photosynthesis
  • Non-cyclic photophosphorylationStep 5: If electrons go into the non-cyclic path, they go through another ETC and produce NADPH from NADP+ and H+ "Image by Somepics, CC BY-SA 4.0" DATBooster_Biology::05.Photosynthesis
  • Non-cyclic photophosphorylationStep 6: Electrons lost in Step 2 are replaced by water splitting into H+ and O2 "Note that this would take 2 molecules of H2OImage by Somepics, CC BY-SA 4.0" DATBooster_Biology::05.Photosynthesis
  • Non-cyclic photophosphorylation takes place on the thylakoid membranes "Image by Somepics, CC BY-SA 4.0" DATBooster_Biology::05.Photosynthesis
  • Photolysis takes place inside the thylakoid lumen From there, electrons go to the membrane for noncyclic photophosphorylation DATBooster_Biology::05.Photosynthesis
  • The Calvin cycle takes place in the stroma "Diagram of a chloroplast for reference:" DATBooster_Biology::05.Photosynthesis
  • Chemiosmosis takes place across the thylakoid membrane "Chemiosmosis is using the H+ gradient to generate ATP" DATBooster_Biology::05.Photosynthesis
  • Thylakoid membranes absorb light, not the chloroplast membranes! "" DATBooster_Biology::05.Photosynthesis
  • Cyclic photophosphorylation replenishes ATP when the Calvin cycle consumes it DATBooster_Biology::05.Photosynthesis
  • In cyclic phosphorylation, two excited electrons from PSI join with protein carriers in the first ETC to generate 1 ATP DATBooster_Biology::05.Photosynthesis
  • In cyclic phosphorylation, after the electrons help generate ATP, they are recycled into PSI and continue to have an option between cyclic and non-cyclic pathways DATBooster_Biology::05.Photosynthesis
  • The Calvin cycle is a dark reaction that produces glucose out of CO2 DATBooster_Biology::05.Photosynthesis
  • The Calvin cycleStep 1: 6 CO2 join with 6 RuBP to form 12 PGA "Image by Khan Academy, CC BY-NC-SA 4.0" DATBooster_Biology::05.Photosynthesis
  • Calvin cycle carboxylation is catalyzed by RuBisCO "See the first step (top) of the Calvin cycle:Image by Khan Academy, CC BY-NC-SA 4.0" DATBooster_Biology::05.Photosynthesis
  • In the reduction step of the Calvin cycle, 12 ATP + 12 NADPH is required to convert 12 PGA into 12 G3P (PGAL) "An image showing PGA (3-phosphoglycerate) and G3P:Image by orthocresol on Chemistry StackExchange, CC BY-SA 3.0The chemical details:Image from&n...
  • NADP+ and ADP produced from the reduction step of the Calvin cycle end up in non-cyclic photophosphorylation "Image from Khan Academy, CC BY-NC-SA 4.0" DATBooster_Biology::05.Photosynthesis
  • The regeneration step of the Calvin cycle involves 6 ATP converting 10 G3P into 6 RuBP, allowing the cycle to repeat "Image from Khan Academy, CC BY-NC-SA 4.0" DATBooster_Biology::05.Photosynthesis
  • Carbohydrate synthesis in the Calvin cycle uses the 2 remaining G3P from reduction to build glucose "Image from Khan Academy, CC BY-NC-SA 4.0" DATBooster_Biology::05.Photosynthesis
  • The overall equation for photosynthesis is:6 CO2 + 18 ATP + 12 NADPH + H+18 ADP + 18 Pi + 12 NADP++ 1 glucose (via 2 G3P) Recall that Pi means inorganic phosphate DATBooster_Biology::05.Photosynthesis
  • The Calvin cycle is also known as the light-independent reactions DATBooster_Biology::05.Photosynthesis
  • Indirectly, the Calvin cycle depends on light because ATP and NADPH (high-energy molecules) produced in the light-dependent reactions end up in the Calvin cycle "Note the input of ATP and NADPH in the Calvin cycle:Image by Khan Academy, CC BY-NC-SA 4.0" DATBooster_Biology::05.Photosynthesis