5.1 Photosynthesis

Question 1

What is the site of photosynthesis?

Answer 1

The leaf is the main photosynthetic structure in eukaryotic plants.
Light is absorbed by chlorophyll and then transferred into the chemical energy of the molecules formed during photosynthesis.

Question 2

What are chloroplasts?

Answer 2

Chloroplasts are the cellular organelles within the leaf where photosynthesis takes place.

Question 3

What is the equation for photosynthesis?

Answer 3

carbon dioxide + water –> glucose + oxygen

6CO2 + 6H2O –> C6H12O6 + 6O2

Question 4

What are the adaptations of a leaf? LIGHT

Answer 4

• large surface area that absorb as much sunlight as possible
• an arrangement of leaves on the plant that minimises overlapping and so avoids the shadowing of one leaf by another
• a transparent cuticle and epidermis that let light through to the photosynthetic mesophyll cells beneath
• long, narrow upper mesophyll cells packed with chloroplasts that collect sunlight
• stomata that open and close in response to changes in light intensity.

Question 5

What are the adaptations of a leaf? CO2 and O2

Answer 5

• thin, as most light is absorbed in the first few micrometres of the leaf and a short diffusion distance for gases.
• numerous stomata for gaseous exchange so that all mesophyll cells are only a short diffusion pathway from one
• many air spaces in the lower mesophyll layer to allow rapid diffusion of carbon dioxide and oxygen.
• a network of xylem brining water to the leaf cells, and phloem that carries away the sugars produced during photosynthesis.

Question 6

What is the first main stage of photosynthesis?

Answer 6

Capturing of light energy by chloroplast pigments such as chlorophyll

Question 7

What is the second main stage of photosynthesis?

Answer 7

The light-dependent reaction, in which some of the light energy absorbed is conserved in chemical bonds. An electron flow is created by the effect of light on chlorophyll, causing photolysis into protons and electrons and oxygen. The products are reduced NADP, ATP, and oxygen

Question 8

What is the third main stage of photosynthesis?

Answer 8

the light-independent reaction, in which these protons (hydrogen ions) are used to produce sugars and other organic molecules

Question 9

What are grana?

Answer 9

stacks of up to 100 disc like structures called thylakoids

Question 10

What are thylakoids?

Answer 10

where the light-dependent stage of photosynthesis takes place. Within the thylakoids is the photosynthetic pigment called chlorophyll

Question 11

What are stroma?

Answer 11

a fluid filled matrix where the light independent stage of photosynthesis takes place

Question 12

What is the energy used for in the light dependent reaction?

Answer 12

• to add an inorganic phosphate molecule to ADP, thereby making ATP
• to split water into H+ ions and OH- ions. As the splitting is caused by light, it is known as photolysis

Question 13

What is oxidation?

Answer 13

• Addition of oxygen
• Loss of electrons
• Loss of hydrogen
  Energy is given out

Question 14

What is reduction?

Answer 14

• Loss of oxygen
• Gains electrons
• Gains hydrogen
  Energy is taken in

Question 15

What is photoionisation?

Answer 15

• When a chlorophyll molecule absorbs light energy, it boosts the energy of a pair of electrons in the chlorophyll, and raises them to a higher energy level.
• The electrons are in an excited state, that they leave the chlorophyll molecule.
• The chlorophyll becomes ionised.

Question 16

What is an electron carrier?

Answer 16

• The electrons that leave the chlorophyll are taken up by an electron carrier.
• Having lost a pair of electrons, the chlorophyll has been oxidised.
• The electron carrier gains electrons, and is now reduced.

Question 17

What is the ‘point’ of the LDR?

Answer 17

to synthesise 2 chemicals ATP and reduced NADP. These chemicals are needed in the LIR

Question 18

Explain the excitation of electrons.

Answer 18

• Photons of light hits chlorophyll molecules causing photoionisation
• Energy transferred to the electrons in the chlorophyll
• Electrons raised to higher energy levels
• If they are raised to a high enough level they will dissociate
• Electrons picked up by an electron acceptor
• ATP formed as the electron is passed along an electron transport chain

Question 19

What is the process of photolysis?

Answer 19

• Chlorophyll cannot fulfil its role without electrons, those that leave the chlorophyll when light strikes it must be replaced
• The electrons are replaced when water is broken down by light
• The splitting of water by light (photolysis) generates oxygen gas - which is released as a waste product
• Hydrogen atoms are split into electrons and protons. The electrons are used to replace those that left the chlorophyll when light ‘‘excited’’ them
• In addition, protons (hydrogen ions) are passed thylakoid into the thylakoid space. This happens by active transport

Question 20

What is the equation for photolysis?

Answer 20

water –> protons + electrons + oxygen
2H2O –> 4H- + 4E- + O2

Question 21

What is the chemiosmotic theory?

Answer 21

Hydrogen ions (protons) build up in the thylakoid and eventually diffuse into the stroma through the enzyme ATP synthase, this generates ATP. The generation of ATP by movement of hydrogen ions across the membrane is known as chemiosmosis.
The protons and electrons recombine to form hydrogen atoms which bind to NADP to form reduced NADP.
NADP is a hydrogen carrier, it transports hydrogen ions around a cell or organelle, the hydrogen ions will be released later and combine with another chemical

Question 22

How are chloroplast structurally adapted for catching light and the light dependent reaction? THYLAKOIDS

Answer 22

The thylakoid membranes provide a large surface area for the attachment of chlorophyll, electron carriers and enzymes that carry out the light dependent reactoion

Question 23

How are chloroplast structurally adapted for catching light and the light dependent reaction? GRANA

Answer 23

The granal membranes have ATP synthase channels within them which catalyse the production of ATP. They are also selectively permeable which allows establishment of a proton gradient

Question 24

How are chloroplast structurally adapted for catching light and the light dependent reaction? DNA

Answer 24

They contain both DNA and ribosomes so they can quickly and easily manufacture some of the proteins involved in the light dependent reaction

Question 25

Where does the light dependent reaction take place?

Answer 25

on the thylakoid membrane

Question 26

Where does the light independent reaction take place?

Answer 26

in the stroma

Question 27

What is the light independent reaction?

Answer 27

• also known as the Calvin Cycle
• two products from the light dependent stage are used (reduced NADP and ATP)
• where CO2 enters our photosynthetic pathway
• this is where glucose will be made

Question 27

What is the first part of the calvin cycle?

Answer 27

• Carbon dioxide combines with a 5C molecule called RuBP, the reaction is catalysed by an enzyme called rubisco this will lead to the formation of a 6C compound, however this is unstable and so quickly breaks down to 2 molecules of glycerate 3 phosphate

Question 28

What is the second part of the calvin cycle?

Answer 28

Glycerate 3 phosphate is reduced into a more useful carbohydrate called triose phosphate, this reaction requires energy which is provided by ATP

Question 29

What is the third part of the calvin cycle?

Answer 29

The reaction is also an example of a redox. The substance reduced is GP. The substance oxidised is reduced NADP

Question 30

What is the fourth part of the Calvin cycle?

Answer 30

5 out of every 6 molecules of TP are used to regenerate RuBP. The final TP molecule is used to form glucose and other organic substances

Question 31

How is the chloroplast adapted for the light independent reaction?

Answer 31

• the fluid of the stroma contains all the enzymes needed to carry out the light independent reaction. Stromal fluid is membrane-bound in the chloroplast which means a chemical environment which has a high concentration of enzymes and substrates can be maintained within it - as distinct from the environment of the cytoplasm
• the stroma fluid surrounds the grana and so the products of light dependent reaction in the grana can readily diffuse into the stroma

Question 32

How is the chloroplast adapted for the light independent reaction? DNA

Answer 32

It contains both DNA and ribosomes so it can quickly and easily manufacture some of the proteins involved in the light independent reaction

Question 33

Where is light energy converted to electrical energy?

Answer 33

Chloroplasts

Question 34

Where is electrical energy converted to chemical energy?

Answer 34

electron transport chain

Question 35

What process makes ATP in the presence of light

Answer 35

Photophosphorylation

Question 36

Name the 2 reactants for photosynthesis.

Answer 36

Carbon Dioxide
Water

Question 37

Name the 2 products of photosynthesis

Answer 37

Oxygen
Glucose

Question 38

What is the chemical formula for glucose?

Answer 38

C6H12O6

Question 39

Only 2% of the sunlight that reaches a chloroplast is used in photosynthesis, give 3 reasons why the rest of the sunlight cannot be used in photosynthesis.

Answer 39

• Sunlight is the wrong wavelength
• Sunlight is reflected off the leaf
• Sunlight misses the chlorophyll

Question 40

What is the name of the main photosynthetic pigment?

Answer 40

Chlorophyll

Question 41

Name any other photosynthetic pigment

Answer 41

Xanthophyll

Question 42

What is the first stage of photosynthesis?

Answer 42

Light Dependent

Question 43

Where in the chloroplast does the first stage of photosynthesis take place?

Answer 43

Thylakoids

Question 44

A photosynthetic pigment and its membrane protein are known as what?

Answer 44

Photosystem

Question 45

What is the biological name for splitting water?

Answer 45

Photolysis

Question 46

What term describes the chlorophyll becoming charged after excited electrons have left?

Answer 46

Photoionisation

Question 47

Which chemical is made as electrons pass along the electron transport chain?

Answer 47

ATP

Question 48

The hydrogen ions from water splitting reduce which chemical?

Answer 48

NADP

Question 49

The making of ATP from ADP+Pi in the presence of light is known as?

Answer 49

Photophosphorilastion

Question 50

What by-product is released from the first stage of photosynthesis?

Answer 50

Oxygen

Question 51

When hydrogen ions travel through ATP synthase to make ATP this is a process known as?

Answer 51

Chemiosmosis

Question 52

Which 2 molecules made in the first stage of photosynthesis are needed in the second stage of photosynthesis?

Answer 52

ATP
Reduced NADP

Question 53

What is the name of the second stage of photosynthesis?

Answer 53

Light independent

Question 54

Which cycle forms the second stage of photosynthesis?

Answer 54

Calvin Cycle

Question 55

Where in the chloroplast does the second stage take place?

Answer 55

Stroma

Question 56

Which of the photosynthetic reactants enters the cycle?

Answer 56

Carbon Dioxide

Question 57

The reactant CO2 in the calvin cycle combines with a 5C molecule called what?

Answer 57

RuBP

Question 58

Which enzyme catalyses this reaction?

Answer 58

Rubisco

Question 59

How many molecules of GP are made from the 5C compound?

Answer 59

2

Question 60

What type of chemical reaction converts GP to TP?

Answer 60

Reduction

Question 61

Give 2 uses of TP

Answer 61

to regenerate RuBP

Question 62

Name a chemical that is oxidised within the calvin cycle

Answer 62

Reduced NADP

Question 63

Something which is in short supply, that inhibits the rate of photosynthesis is known as

Answer 63

a limiting factor

Question 64

Give 2 examples of Limiting factors

Answer 64

Light
CO2

Question 65

Name a dependent variable to measure when investigating the rate of photosynthesis and suggest a suitable unit for measuring it

Answer 65

Oxygen
Number of bubbles per minute

Question 66

What method of separation was used in the required practical to separate photosynthetic pigments?

Answer 66

Chromatography

Question 67

What value do you calculate when identifying a pigment?

Answer 67

RF values

Question 68

Why was the origin line in the experiment drawn in pencil?

Answer 68

Pen would run and mix with pigment

Question 69

In the second practical you investigated the first stage of photosynthesis, why did the tube wrapped in foil not show a colour change?

Answer 69

Because there was no light energy

Question 70

What was the role of the blue DCPIP in this experiment?

Answer 70

To show movement of electrons

Question 71

Name 3 variables that can be manipulated in glasshouses to increase the rate of photosynthesis.

Answer 71

Temperature
Light intensity
Water

Question 72

Nitrogen is added to glucose in plants to make which biological molecule?

Answer 72

Proteins