2.9 + 8.3 Photosynthesis

Question 1

Define photosynthesis

Answer 1

PHOTOSYNTHESIS: process by which cells synthesise organic compounds from inorganic molecules in the presence of sunlight and chlorophyll

Equation:

Question 2

Photosynthesis - respiration relationship

Answer 2

Photosynthesis (anabolism) - respiration (catabolism) revrse reactions

Question 3

Explain what is cholorphyll and why needed

Answer 3

Chlorophyll - green pigment responsible for light absorption - when absorbs releases e - used to synthesise ATP

Different chlorophylls but mostly absorb blue and red light, reflects green

Question 4

Distinguish absorption spectrum and action spectrum

Answer 4

Absorption spectrum - which wavelengths chlorophyll absorbs

Action spectrum - which wavelengths needed for overall photosynthesis (all of pigments)

Question 5

Main steps of photosynthesis

Answer 5

1. Light dependent reactions: light absorbed by chlorophyll - ATP production - light absorbed by water -> photolysis of water -> O₂ and H₂ = in intermembrane space of thylakoids
2. Light independent reactions: ATP and H₂ (carrried by NADPH) transferred to light indep site - H₂ combined with CO₂ - organic compounds - ATP provides E for these anabolic reactions (fixing C molecules) = in stroma

Question 6

What is chromatography used for

Answer 6

Chromatography is used to separate componenst of a mixture

Question 7

Procedure of pigment chromatography

Answer 7

1. A mixture containing the pigment is dissolved - mobile phase
2. Mobile phase is passed through a static material (stationary phase)
3. Different pigments travel at different speed due to differences in mass - separated
4. Retardation factor (Rf) calculated to compare components:

Rf = distance component travels/distance solvent travels

Question 8

Conditions which influence photosynthesis

Answer 8

1. Temperature
2. Light intensity
3. CO₂ conc

Question 9

Effect of temperature fluctuation on rate of photosynthesis

Answer 9

1. As temp increased - rate increases (more Ek) to a certain point - enzymes denature - rate falls
2. Photosynthesis controlled by temp sensitive enzymes

Question 10

How does light intensity influence the arte of photosynthesis

Answer 10

1. The higher light intensity - the higher rate (more photoactivated chlorophyll) to a certain point - raise light but no change - no more chlorophyll
2. Different wavelengths of light - different rate

Question 11

How does CO₂ conc influence photosynthesis rate?

Answer 11

1. The higher CO₂ conc - the higher rate until certain point - plateau - enzymes for carbon fixation are saturated

Question 12

What are the experiments to measure rate of photosynthesis in plants?

Answer 12

1. CO₂ uptake: changes water pH (alkaline)
2. O₂ release: attaching a sealed container to gas syringe
3. Increase in biomass: weighted (dehydration must be done) / change in amount of starch - measured with calorimeter

Question 13

Explain oxygenation of the Earth

Answer 13

1. Earth was anoxic, non-aerobic organisms thrived, iron dominated rocks, oceans
2. Rising O2 levels nurtured aerobic life instead of anaerobic - evolution of respiring organisms - rise in atmosphere oxygen to 20%

Question 15

List light dependent reactions

Answer 15

In light dependent reactions pigments convert light E into chemical E

1. Excitation of photosystems
2. Production of ATP in ETC
3. Reduction of NADP+ and phtolysis

Question 16

Explain the first step of light dependent reactions

Answer 16

Excitation of photosystems

1. Photosystems - groups of photosynthetic pigments embedded in thylakoid membrane
2. Two types of photosystmes; PSI and PSII - according to max absorption wavelength
3. When PS absrob light - delocalised e become excited
4. Excited e are transferred to carrier molecules in thylakoid membrane

Question 17

Explain the second step of light dependent reactions

Answer 17

Production of ATP via ETC

1. Excited e from PSII transported to ETC in thylakoid membrane
2. As e pass through ETC - lose E - used to translocate H+ into thylakoids - electrochemical gradinet - proton motive force
3. H+ return to stroma due to gradinet through ATP synthase (chemiososmosis) - ATP produced - photophosphorylation
4. De-energised e are taken up by PSI - re-energised by light

Question 18

Third step of light dependent reactions

Answer 18

Reduction of NADP+ and photolysis

1. Excited e from PSI might be trasnferred to NADP+ to reduce it into NADPH - needed for light indep reactions
2. Lost e from PSII are replaced by e from photolysis - water split by light E into H+, e and O₂

Question 19

Overview of light dependent reactions

Answer 19

Question 20

Steps of light independent reactions

Answer 20

Light independent reactions use chemical E from light dependent to synthesise organic molecules

1. Carbon fixation
2. Reducation of glycerate-3-phosphate
3. Regeneration of RuBP

Question 21

First step of light independent reactions (Calvin cycle)

Answer 21

Carbon fixation

1. Calcin cycle begins with 5C (rubisco biphosphate - RuBP) - RuBP carboxylase (Rubisco) catalyses CO₂ attachment to RuBP - 6C
2. 6C unstable - breaks down into two 3C (glycerate-3-phospahte - GP)
3. One Calvin cycle involves 3 RuBP combining with 3 CO₂ => 6 GP

Question 22

Second step of light independent reactions (Calvin cycle)

Answer 22

Reduction of glycerate-3-phosphate (GP)

1. GP converted into triose phosphate (TP) using oxidation of NADPH and ATP - binds H and ATP supplies E for that

Question 23

Third step of light dependent reactions (Calvin cycle)

Answer 23

Regeneration of RuBP

1. In one cycle 6 TP produced - one may be used for half sugar molecule - two cycles for single glucose
2. Other 5TP - combined to regenerate stocks of RuBP (5 x 3C into 3 x 5C) - uses ATP

Question 24

Lollipop experiment

Answer 24

Determines order of compounds (RuBP, GP, TP) in Calvin cycle

1. Radioactive C-14 injected into lollipop container containing green algae (Chlorella)
2. Light shone to induce phtotsynthesis - C-14 taken from solution
3. Some algae taken - killed by hot alcohol
4. Samples analysed in 2D chromatography - separates compounds - any radioactive compounds identified with x-ray film
5. Comapring samples from different periods of light exposure - order of compounds identified by mass difference => Calvin cycle determined by this experiment

Question 25

Calvin cycle (light independent reactions) compounds

Answer 25

Question 26

Chloroplast anatomy

Answer 26

Question 27

Evidence that chloroplasts were independent organisms once

Answer 27

1. Double membrane
2. Own DNA
3. Certain metabolic processes susceptible to antibiotics that plants are not

Question 28

Adaptation of chloroplast structure for function

Answer 28

• thylakoids: flattened - small volume - conc builds up more quickly
• grana - thylakoids arranged into sacs to increase SA:V ratio of thylakoid membrane
• photosystems: proteins arranged into PS to maximise light absorption
• stroma: cavity with suitable enzymes and pH for Calvin cycle
• lamella: connects and separates grana to amximise photosynthetic efficiency

Question 29

Chloroplasts in micrographs

Answer 29

Question 30

ETC in respiration vs photosynthesis

Answer 30

Question 31

Carbon fixation differences in C3, C4 and CAM plants

Answer 31

Question 32

GAP project

Answer 32

Global Artificial Photosynthesis Project - produce clean E + fix CO₂ + generate O₂