Topic 5 (Photosynthesis)

Question 1

What are the 2 stages of photosynthesis? + where

Answer 1

Light-dependent stage (occurs in thylakoid membranes)
Light-independent (occurs in stroma)

Question 2

What are grana joined together by?

Answer 2

Lamallae

Question 3

What is chloroplasts made up of?

Answer 3

Grana (stack of thylakoids)
Starch grains
Stroma
Double membrane

Question 4

Why do plants have different colours?

Answer 4

Photosynthetic pigments
Absorb certain wavelengths of light
What we see is what’s being reflected

Question 5

What are the types of photosynthetic pigments?

Answer 5

Chlorophylls (a and b) (blue/green/yellow)
Carotenoids (xanthophyll and carotenes) (yellow/orange)

Question 6

What is the structure of chlorophyll?

Answer 6

Magnesium in the middle
Hydrophilic porphyria ring group (lies flat on surface of thylakoids)(head)
Hydrophobic hydrocarbon chain (attaches to lipid membrane)(tail)

Question 7

How is energy being absorbed by chlorophyll?

Answer 7

• excites pair of electrons with the Mg
• pass along electron transport chain

Question 8

Why is the hydrophilic head lied flat on the thylakoids?

Answer 8

To maximise light absorption

Question 9

How can you tell if a plant is magnesium deficient?

Answer 9

Yellow leaves - can’t make enough chlorophyll
Aka chlorosis

Question 10

What are accessory pigments?

Answer 10

Carotenoids
They absorb wavelengths that aren’t well absorbed by chlorophylls and pass energy to chlorophyll a
Reflect yellow and orange light, absorb blue light

Question 11

Why are there more colours in autumn months?

Answer 11

• cold nights: low temp destroy chlorophyll, enhancing red ccolour
• dry weather, sugars more concentrated in leaves , hence redder
• bright sunny days: more anthrocynin
  = more colours like red and orange

Question 12

What’s a photosystem?

Answer 12

Funnel shaped structures
Embedded in thylakoids membranes
Proteins holding them in place

Question 13

What are the 2 types of photosystem?

Answer 13

PS1 AND PS2
wavelength of light they absorb out of visible spectrum of light
(Has a primary pigment reaction centre, at either P680 or P700)

Question 14

What are PSI AND PSII

Answer 14

Photosystem I - absorbs light at 700 nm (found on inter-granal lamallae)
Photosystem II - at 680nm (found on grana)

Question 15

What are the layers in plants? From top to bottom

Answer 15

Waxy cuticle
Upper epidermis
Palisade mesophyll
Spongy mesophyll
Lower epidermis

Question 16

Why is accessory pigment necessary?

Answer 16

Accessory pigments allow energy from light at a wider range of wavelengths to be used in the light-dependent reactions.

Question 17

Why is the absorption spectrum the shape it is?

Answer 17

• chlorophyll a and b absorb strongly at blue and red ends
• chlorophyll a peaks at 430nm
• b peaks at 470

Question 18

Why are there a variety of pigments in chlorophyll to take up different wavelengths of light?

Answer 18

To maximise light absorbed
as greater range of wavelengths can be absorbed

Question 19

How do you explain the peaks of wavelength absorbed at 680 and 700?

Answer 19

P680 - photosystem 2
P700 - photosystem 1

Question 20

Explain why seaweeds have different absorption spectra and action spectra. (3 marks)

Answer 20

Because…
- Each pigment absorbs diff wavelengths
- Diff amounts of wavelengths
- action spectra shows rate of p/s absorbing diff wavelengths of light
(- reduce competition)

Question 21

Explain why seaweeds occupy different positions of a submerged rock and have different colours. (3 marks)

Answer 21

• positioned differently to reduce competition
• shallow water seaweeds: cannot absorb green light, so reflects green and looks green. Can absorb red and blue
• height of diff wavelengths
• so on

Question 22

Compare light dependent and independent reactions

Answer 22

light dependent / independent
thylakoid / stroma
light needed / not needed
Makes ATP and Red NADP / uses ATP and red NADP

Question 23

describe the light dependent stage of photosynthesis

Answer 23

• enables photolysis: water split into H+, e- and O
• light energy is converted into chemical energy in the form of ATP and reduced NADP
  ….

Question 24

where does light dependent stage of photosynthesis take place

Answer 24

across thylakoid membrane

Question 25

what is NADP

Answer 25

- a coenzyme - transfers hydrogen between molecules - When NADP gains hydrogen it becomes reduced NADP / NADPH

Question 26

what are 2 types of photophosphorylation

Answer 26

cyclic non cyclic

Question 27

What is chemiosmosis

Answer 27

Flow of H+ ions down the electrochemical gradient through ATP synthase

Question 28

where does the light independent cycle take place

Answer 28

Stroma of chloroplasts

Question 29

What does rubisco do

Answer 29

Combine RuBP and Carbon dioxide Aka fixation of carbon

Question 30

What are 3 steps of Calvin cycle

Answer 30

1. Carbon fixation 2. Reduction 3. Regeneration

Question 31

What is the role of RuBP?

Answer 31

- 5C compound - CO2 acceptor - found in stroma

Question 32

What is the role of Rubisco?

Answer 32

- enzymes that catalyses the reaction between RuBP and CO2

Question 33

What is GP made from ?

Answer 33

- 3C products of RuBP and CO2

Question 34

How is GALP formed? What does it use?

Answer 34

- formed from reduction + photophosphorylation of GP - ATP + reduced NADP from light independent reaction used

Question 35

what is photolysis

Answer 35

splitting water into H+, e- and O

Question 36

What is NADP and what does it do?

Answer 36

NADP is a coenzyme - transfers hydrogen from one molecule to another - becomes reduced NADP

Question 37

Describe the (non-cyclic) light dependent stage of photosynthesis

Answer 37

- light hits PSI and PSII - e-s excited - accepted by e- proton chain - takes place in thylakoid membrane - flow of H+ thru ATP synthase via chemiosmosis - rotates ATP synthase - ADP + Pi → ATP - movement of e-s from water to PSII - replacement of e-s from photolysis - NADP + H+ + e-s - → Reduced NADP

Question 38

Describe the cyclic light dependent stage of photosynthesis

Answer 38

Light hits PSI e-s are excited and leave PS and returns to e- transport chain, e-s rejoin PSI

Question 39

Compare the non cyclic and cyclic photophosphorolation

Answer 39

Non cyclic / cyclic doesnt / e-s come back to same molecule first e- donor is water / PSI involves PSI and II / PSI only last e- acceptor is NADP / PSI Net products ATP, NADPH, O2 / ATP only reduction of NADP / no

Question 40

What are NAD and FAD?

Answer 40

Coenzymes

Question 41

Coenzymes are not…

Answer 41

ENZYMES!! They just bind to them / help

Question 42

What is the structure of ATP

Answer 42

It is a phosphorylated nucleotide - adenosine (adenine + ribose sugar) - three phosphate groups (T= triphosphate)

Question 43

What are 2 ways of ATP production

Answer 43

1. Substrate level phosphorylation 2. Oxidative phosphorylation

Question 44

What is substrate level phosphorylation?

Answer 44

Simply ADP + Pi -> ATP

Question 45

What are some limiting factors for photosynthesis?

Answer 45

- temp - light intensity - CO2 conc - number of chloroplasts

Question 46

Increasing the light intensity will increase the production of which 3 products in the light dependent stage?

Answer 46

ATP, reduced NADP, O2

Question 47

Why will the light independent cycle be affected by the level of production from light dependent cycle?

Answer 47

More energy from ATP and NADP to reduce GP into GALP, driving cycle forward

Question 48

Why does GP increase in dim light?

Answer 48

Less ATP and Red NADP from LDC to change into GALP

Question 49

Why does increasing CO2 conc lead to more proteins, polysaccharides and lipids being made?

Answer 49

More carbon is fixed by rubisco So more GP = more GALP = more products

Question 50

Why may an increase in CO2 conc lead to the plant wilting?

Answer 50

Stomata’s open to increase gas exchange, To increase rate of transpiration

Question 51

Why does temp have little effect on the light dependent cycle but huge effect on Calvin cycle?

Answer 51

Calvin is more dependent on enzyme e.g. Rubisco

Question 52

Above 25C photorespiration occurs, how does this reduce the rate of photosynthesis?

Answer 52

When O2 enters Rubisco’s active site, blocking it from fixing carbon Also wastes ATP and red NADP

Question 53

Increased temp also increases water loss during transpiration. Why does this also then affect photosynthesis?

Answer 53

When plants lose too much water, stomata closes, = reduces CO2 intake = cannot photosynthesise

Question 54

what is an absorption spectrum?

Answer 54

graph to show the % of wavelengths of light absorbed by each pigment

Question 55

what is an action spectrum?

Answer 55

graph of overall rate of p/s at each wavelength of light

Question 56

what are 2 main groups of photosynthetic pigments?

Answer 56

chlorophyll (a and b) carotenoids (carotene and xanthophylls)

Question 57

where are photosynthetic pigments found

Answer 57

thylakoid membrane of chloroplasts

Question 58

what are roles of chlorophyll a and b?

Answer 58

a- primary photosynthetic pigment b- accessory pigment

Question 59

why do plants have such a variety of photosynthetic pigments?

Answer 59

to widen range of wavelengths they absorb to maximise light absorption hence max rate of p/s

Question 60

what does light do in photosynthesis?

Answer 60

excites e-s , causing release from chlorophyll then they go in the e- transport chain

Question 61

how is ATP produced? (in terms of chemiosmosis)

Answer 61

H+ ions move down the conc gradient from thylakoid into stroma, spinning the ATP synthase ADP+Pi -> ATP

Question 62

What does NADP act as in non-cyclic photophosphorylation?

Answer 62

final e- acceptor

Question 63

what are the purposes of cyclic and non-cyclic photophosphorylation?

Answer 63

cyclic: produce ATP non: produce ATP and Red NADP

Question 64

what are e-s used for in photophosphorylation when they are produced from photolysis?

Answer 64

replaces e-s lost from chlorophyll

Question 65

what is needed to convert GP into GALP?

Answer 65

2 Red NADP -> 2x NADP + 2 ATP -> 2 (ADP+Pi)

Question 66

Explain why a wider/more stomata increases their yield. (3 marks)

Answer 66

- more carbon dioxide intake to be fixed - faster rate of photosynthesis so more GALP produced in Calvin cycle and more biomass produced - increased rate of transpiration also - so more Mg for chlorophyll

Question 67

Why does the thylakoid have higher pH than stroma, and what is the significance?

Answer 67

Energy from an e- transport chain is used to actively transport protons from the stroma to the thylakoid lumen So that more H+ can be used to produce more ATP via chemiosmosis through the ATP synthase as it travels from a higher to lower H+ concentration.

Question 68

Compare and contrast the structure of a chloroplast and mitochondrion. (3 marks)

Answer 68

Both have - double membrane, ribosomes, circular DNA while Chloroplasts as stroma and mitochondria have matrix as fluid medium Inner membrane is flat / folds and form Cristae Have starch grains / do not

Question 69

Describe the role of photolysis in non-cyclic photophosphorylation. (2 marks)

Answer 69

Photolysis **splits** water molecules into H+, e- and O. E-s released are used to replace e-s lost from **PS2/photosystems**

Question 70

What is the opposite of phosphorylation? ATP + Pi-> ATP = phosphorylation ATP + Pi <- ATP = ??

Answer 70

Dephosphorylation Or Hydrolysis

Question 71

Explain why light energy is converted into energy stored in ATP. (2 marks)

Answer 71

- it becomes an energy currency usable for plant later in the Calvin cycle - used to fix carbons into GP into GALP - light energy cannot be directly used by plant

Question 72

Explain the role of light energy in the light dependent cycle. (3 marks)

Answer 72

- light excites e-s from chlorophyll - so e-s can be used in chemiosmosis - photolysis to replace lost e-s by chlorophyll - to produce ATP and Red NADP for Calvin

Question 73

What products in light dependent are used for light independent?

Answer 73

Reduced NADP

Question 74

What inorganic ions are needed to synthesise protein?

Answer 74

Nitrates

Question 75

What inorganic ions are needed to synthesise RNA?

Answer 75

Nitrates and phosphates

Question 76

What inorganic molecule from which element in a simple sugar it originated from? CnH2nOn

Answer 76

C from CO2 H from H2O O from CO2

Question 77

State the difference between action spectrum and absorption spectrum.

Answer 77

Absorption spectrum shows wavelength absorbed by pigment Action spectrum shows overall rate of photosynthesis

Question 78

State how an action spectrum and an absorption spectrum show that chlorophyll is used in photosynthesis.

Answer 78

Both graphs have similar peak points, their overlapping peak points reflect their causation relationship

Question 79

What light is most absorbed by chlorophyll?

Answer 79

Red light

Question 80

Describe how carbon fixation takes place in chloroplasts. (3 marks)

Answer 80

- carbon taken in via stroma - binds to RuBP - use Rubisco - form 6C compound

Question 81

Why is red light used in investigations to measure photosynthesis? (2 marks)

Answer 81

- red light is absorbed - because of chlorophyll

Question 82

Cells in leaf contain organelles that store molecules of starch. Name one. (1 mark)

Answer 82

chloroplast

Question 83

State how an action spectrum show that chlorophyll is used in photosynthesis. (1 mark)

Answer 83

spectra overlap peaks and troughs follow similar pattern

Question 84

Describe the roles of chloroplast membranes in photosynthesis. (4 marks)

Answer 84

- compartmentalise, keep photosynthesis separate from other metabolic reactions of cells - increase SA so more photosynthetic pigments - like chlorophyll, carotenoids - so more light absorbed

Question 85

Suggest how the rate of photosynthesis can be measured. (2 marks)

Answer 85

- volume of carbon dioxide taken up / o2 produced - in a set period of time

Question 86

What are potometers used for?

Answer 86

- measures rate of transpiration NOT photosynthesis.

Question 87

How does increased temperature affect plant growth?

Answer 87

- photosynthesis / Calvin cycle / carbon fixation will be faster - as enzymes like **Rubisco** will increase RoR with higher KE - so making more carbohydrates (like glucose)

Question 88

How does increased nutrition in soil affect plant growth?

Answer 88

- higher mineral content in plant - like nitrates, so more proteins will be synthesised

Question 89

How does increased rainfall affect plant growth?

Answer 89

- more water in soil - for photolysis - AND transport of minerals

Question 90

Why is oleic acid in soya beans bad?

Answer 90

- is monosaturated - causes cholesterol to build up in blood vessels, can lead to **heart disease**

Question 91

Why does increased light exposure lead to increased plant growth?

Answer 91

- increased rate of photosynthesis - describe light dependent reactions - more glucose produced - to be used to respire

Question 92

How can photosynthesis be measured?

Answer 92

Using DCPIP Measures electron transfer in light DEPENDENT reaction Colour from blue to colourless Record time taken to decolourise (longer=slower) // Or measure CO2 produced/O2 taken in in a set period of time

Question 93

What reaction is involved in the ATP production in chloroplasts? How?

Answer 93

Photophosphorylation of ADP - e-s move along the ETC - H+ accumulates in thylakoid space - H+ releases energy as it moves through the ATP synthase

Question 94

Explain the roles of ATP and reduced NADP in the light-independent reaction. (3 marks)

Answer 94

- both are used to convert GP into GALP - ATP provides energy for conversion of GP to GALP - red NADP provides electrons - ATP used to regenerate RuBP

Question 95

What are limiting factors of photosynthesis?

Answer 95

- CO2 conc - light intensity - temperature - number of chloroplasts