Chapter 6

Question 1

What are the earliest living organisms?

Answer 1

Heterotrophs, survive on nutrients from the environment

Question 2

Autotrophs

Answer 2

• These are organisms that get organic nutrients from CO2 and H2S
• Chemoautotroph: energy from inorganic molecules
• Photoautotrophs: use radiant energy (light) to make organic compounds

Question 3

What is the basic and overall formula for photosynthesis

Answer 3

• Basic: CO2 + H2O -> (CH2O) + O2
• Overall: 6 CO2 + 12 H2O -> C6H12O6 (glucose) + 6 H2O + 6 O2

Question 4

What does photosynthesis do

Answer 4

• Converts sunlight energy into chemical energy stored in carbs
• Takes place in the chloroplast in eukaryotes

Question 5

Describe the structure of the chloroplast

Answer 5

• A double membrane with an outer membrane (porins) and an inner membrane (light-absorbing pigments)

Question 6

What are thylakoids?

Answer 6

• It is the inner membrane of a chloroplast
  -Flattened sacs arranged in stacks (grana)
• It is where light reactions occur

Question 7

What are the two stages of photosynthesis?

Answer 7

• Light-dependent reactions (sunlight is absorbed = ATP & NADPH)
• Light-independent reactions (Calvin cycle, energy from ATP and NADPH = carbohydrates from CO2)

Question 8

What happens to e- in light-dependent reactions in photosynthesis

Answer 8

• e- are transferred from H2O to NADP+ = O2 and NAPDH

Question 9

What is the overall reaction of aerobic respiration

Answer 9

• C6H12O6 + 6 O2 -> 6 CO2 + 6 H2O + ATP
• Reverse of photosynthesis
• Main stages; glycolysis, TCA cycle and ETC

Question 10

How are photosynthesis and aerobic respiration complementary?

Answer 10

• Photosynthesis converts sunlight into chemical energy stored in glucose
• Aerobic respiration breaks down glucose to release energy as ATP

Question 11

What happens when photons are absorbed by chlorophyll?

Answer 11

• e- move from the ground state to an excited state

Question 12

What are the structures that makeup the chlorophyll?

Answer 12

• A polyphyrin ring that is a conjugated system (alternating single (ø) and double bonds (π))
• The chlorophyll also has a hydrophobic tail embedded in the membrane

Question 13

What accessory pigments are found alongside chlorophylls?

Answer 13

• Carotenoids, they absorb light in the blue-green region therefore reflecting light in the red-orange-yellow region.

Question 14

What are chromoplasts and their function?

Answer 14

• They are a type of plastid that is responsible for the colour of fruits and flowers
• Ripe fruits change colour bcos chloroplasts => chromoplasts
• Eg: carotene for carrots and lycopene for tomatoes

Question 15

What is a photosynthetic unit composed of?

Answer 15

• Lots of chlorophyll molecules with a reaction-center chlorophyll (transfers e- to e- acceptor) and antenna pigments for light absorption

Question 16

The two photosystems involved in photosynthesis

Answer 16

• Photosystem II (PSII): P680 (wavelength is stronger), boosts e- from below water energy level to a midpoint in the energy gradient
• Photosystem I (PSI): P700, boosts e- to a level above NADP+

Question 17

What is the Z scheme in photosynthesis?

Answer 17

• The flow of e- from H2O to NADP+ through PSII and PSI

Question 18

What is the operation of PSII

Answer 18

• Uses absorbed light to split water molecules (photolysis) = e-, H+ and O2

Question 19

Explain the steps involved in the PSII operation

Answer 19

• Antenna pigments absorb a photon of light at LHCII which transfers the energy to the inner antenna molecules of PSII
• P680* is excited (higher-energy state) and donates an e- to a primary e- acceptor (Pheo) =P680+ and Pheo-
• Pheo- passes e- to plastoquinone (PQ) reducing it to PQH2, plastoquinol
• P680+ goes through photolysis by splitting 2 H2O => 4H+ (kept in thylakoid lumen) 4e- and O2 (waste product)

Question 20

Explain the steps involved from PSII to PSI

Answer 20

• O2 forms 2 PQH2
• The PQH2 diffuses through the thylakoid membrane and binds cyt b6f, H+ are released in the thylakoid lumen
• e- from cyt b6f are passed to plastocyanin which passes the e- to P700+ (excited)

Question 21

What is the end product of PSI operations?

Answer 21

• NADPH is reduced to NADP+, catalyzed by ferredoxin-NADP+ reductase

Question 22

What is the overview of PSII and PSI?

Answer 22

• PSII capture light to split (oxidized) H2O to O2, produces e-and H+ as well
• PSI re-energizes e- and transfers them to NADP+ (reduced) to NADPH
• for every 8H+ (2 H2O is oxidized to O2 and 2 NADP+ is reduced to 2 NADPH)

Question 23

What is non-cyclic phosphorylation

Answer 23

• The movement of e- in a linear path = ATP and NADPH
• Cyclic phosphorylation (PSII to PSI) gives more ATP for carb synthesis

Question 24

What is the Calvin cycle?

Answer 24

• A cycle of reactions in photosynthesis that fixes CO2 to produce carbohydrates (C3 pathway)
• CO2 + ribulose bisphosphate = 6C molecule that sprites = 2 3-phosphoglycerate PGA molecules
• Catalyzed by Rubisco

Question 25

Explain the steps of the Calvin cycle

Answer 25

- CO2 **(1C)** + ribulose 1,5- bisphosphate (RuBP) **(5C)** = a **6C** molecule that splits into 2 molecules of 3-phosphoglycerate **(3C)** - 2 PGA molecules is phosphorylated (ATP )to bisphosphoglycerate (BGP) **(3C)** - BGP is reduced to (GAP) **glyceraldehyde 3-phosphate) (3C)** with e- from NADPH - 1 GAP leaves the cycle to form a **carbohydrate** (sucrose, glucose etc) - The remaining GAP molecules + ATP regenerate **RuBP** to restart the cycle

Question 26

How many carbon molecules are needed to produce one **glucose** molecule

Answer 26

- **Six** CO2 - for every **6 CO2, 12 G3P** is produced

Question 27

What happens to G3P molecules in the **plant cell**

Answer 27

- Synthesizes **sucrose** in the cytosol and **starch** in the chloroplast

Question 28

What is **photorespiration**?

Answer 28

- a process that results in the **uptake** of O2 and **release** of CO2 => loss of fixed carbon

Question 29

What is the C4 pathway

Answer 29

- A **carbon fixation process** where CO2 is fixed with **phosphoenolpyruvate (PEP)** into a 4C compound **oxaloacetate or malate**

Question 30

What are CAM plants and how do they fix CO2?

Answer 30

- They fix CO2 ar **night** using **PEP carboxylase**, storing it as malate for use during the day

Question 31

What is photodynamic therapy?

Answer 31

- A medical treatment using light to activate pigments that produce oxygen radicals, targeting diseased cells - Most common **photosensitizing agent = Aminolevulinic acid (ALA)**

Question 32

ATP synthase structure in chloroplasts

Answer 32

- **CF1** (head): projects **outward** to the stroma (H+ gradient) - **CF0** (base): H+ move through to get to **lumen**