5.6 Photosynthesis

Question 1

What is autotrophic nutrition?

Answer 1

Process where chemical energy, from simple inorganic molecules such as water and carbon dioxide, synethsise large organic molecules that forms the biulding blocks of living cells.

Question 2

What are organisms that photosynthesise called?

Answer 2

Photoautotrophs.

Question 3

What are organsims that photosynthesise called photoautotrophs?

Answer 3

Because they use light energy as the source for autotrophic nutrition.

Question 4

What are photoautrotrophs also known as?

Answer 4

Producers- as they’re at the beginning (first trophic level) of the food chain and provide energy and organic molecules to other non-photoautotrophic, organisms.

Question 5

What is the general equation for photosynthesis?

Answer 5

6CO2 + 6H2O + light energy from photons -> C6H12O6 + 6O2

Question 6

What is the main products of photosynthesis?

Answer 6

A monosaccharide sugar (glucose) that can be turned into disaccharides for transport and then to storage.

Question 7

What process of photosynthesis an example of?

Answer 7

Carbon fixation- the process by which carbon dioxide is converted into sugars.

Question 8

What sort of reaction is carbon fixation?

Answer 8

Endothermic reaction, so it needs energy.

Question 9

What does carbon fixation help regulate?

Answer 9

The concentration of carbon dioxide in the atmosphere and oceans.

Question 10

Summarise what happens in plant respiration.

Answer 10

During respiration, the oxidise organic molecules that have previously sythesised by photosynethsis and stored, releasing chemical energy.

Question 11

What is a heterotroph?

Answer 11

Organism that obtains energy by digesting complex organic molecules of food or smaller molecules that they can use as respiratory substances. e.g. fungi, animals, many protoctists and many bacteria.

Question 12

Summarise what happens in respiration.

Answer 12

Gkucose and other organic compounds are oxidised to produce carbon dioxide and water- it releases chemical energy (exothermic) that can drive an organisms metabolism.

Question 13

What is the general equation for respiration?

Answer 13

C6H12O6 +6O2 -> 6CO2 + energy

Question 14

What is photosynthesis and aerobic respiration important for?

Answer 14

Cycling carbon dioxide and oxygen in the atmosphere.

Question 15

When do plants respire?

Answer 15

All the time

Question 16

When do plants photosynthesise?

Answer 16

During the daylight.

Question 17

Why do plants compete for light.

Answer 17

The intensity of the light must be sufficient to allow photosynthesis at a rate that replenishes the carbohydrate stores used up by respiration.

Question 18

What is the compensation point?

Answer 18

When photosynthesis and respiration proseed at the same rate so there is not net gain of carbohydrate.

Question 19

What is it called when photosynthesis and respiration proseed at the same rate?

Answer 19

Compensation point.

Question 20

At what point/s on the graph are the compenation point for a plant?

Answer 20

Question 21

What is the time taken for a plant by a plant to reach it compentation point called?

Answer 21

Commpenation period- this is different for every species of plant.

Question 22

What is the compenstation period like of shade plants compared to that of sun plants?

Answer 22

Shade plants can utalise light of lower intensity than sun plants can. When exposed to light after being in the darkness, shade plants reach their compensation point sooner, therefore, have a smaller compensation period.

Question 23

What is a granum?

Answer 23

An inner part of a chloroplast made of stacks of thylakoid membranes, where the light-dependent stange of photosynethesis takes place.

Question 24

What is photosynthetic pigment?

Answer 24

Pigment that absorbs specific wavelengths of light and traps the energy associated with the light; such as pigments include chlorophyll a and b , during the light-dependant stage of photosynthesis.

Question 25

What is a photosystem?

Answer 25

System of photosynthetic pigments found in thlakoids or cholorplasts ; eah photosystem contains about 300 molecules of chlorophyll that trap photons and pass their energy to a primary pigment reaction centre , a molecule of chlorophyll a, during he light-dependant stage of pjotosynthesis.

Question 26

What is a stroma?

Answer 26

A fluid filled matrix of chloroplasts, where the light-independant stage of photosynthesis takes place.

Question 27

What is a thlakoid?

Answer 27

Flattened membrane-bound sac found inside chlorplasts; contains photosynthetic pigments/ photosystems and is the site of the light-dependant stage of photosynthesis.

Question 28

What contains chlorplasts?

Answer 28

Plant cells

Question 29

What are the 2 distinct reigions visable on an electron micograph of a chloroplast?

Answer 29

• The stroma- fluid filled matrix
• The grana- consists of thylakoid membranes.

Question 30

What does the structure of a chloroplast look like?

Answer 30

Question 31

What are the 3 different membranes a chloroplast has?

Answer 31

• Outer menbrane
• Inner membrane
• Thylakoid membrane

Question 32

What is signficant about a chloroplast having 3 different membranes?

Answer 32

Creates 3 seperate internal compartments- the intermembrane space, stroma, and the thylakoid space.

Question 33

What are the thylakoids within granum connected to other thylakoids by?

Answer 33

Intergranual lamellae.

Question 34

What are interganual lamelle also known as?

Answer 34

Intergranual thylakoids.

Question 35

What is the structure of the thylakoid membrane?

Answer 35

The thylakoid membrane of eaach chloroplast is less permeable and is folded into flattened disk-like sacs called thylakoids that forms stacks. Each stack is called a granum. One granum may contain up to 100 thylakoids.

Question 36

Why is it significant that there are many grana in every chloroplast and with many chlorplasts in each photosythetic cell?

Answer 36

This provides a large surface area for:
* The distribution of the photosystems that contain the photosythetic pigments that trap sunlight energy.
* The electron carriers and ATP synthase enzymes needed to convert light energy to ATP.

Question 37

What do proteins embeded in the thylakoid membranes do?

Answer 37

They hold the photosystems in place.

Question 38

What is the grana surrounded by?

Answer 38

The stroma

Question 39

Why is it important that the grana is surrounded by the stroma?

Answer 39

So the products of the light-dependant stage can easily pass into the stroma to be used in the light-independant phase.

Question 40

What does the stroma contain?

Answer 40

• Enzymes needed to catalyse the reactions of the light independant stage of photosynthesis.
• Starch grains
• Oil droplets
• Small ribosomes
• DNA

Question 41

What does the loop of DNA code for in the stroma?

Answer 41

Codes for proteins needed for photosynthesis- these proteins are assembled at the chloroplasts ribosomes.

Question 42

What are the funnel-shaped structues within thylakoid membranes called?

Answer 42

Photosystems.

Question 43

What do photosystems contain?

Answer 43

photosythetic pigments.

Question 44

What does photosynthetic pigments in photosystems do?

Answer 44

Each pigment absorbs light of a particular wavelength and reflects other wavelengths of light- each pigment appears to pour eyes, the colour of the light it is reflecting.

Question 45

What happens the wavelengths of light captured by the photosynthetic pigments?

Answer 45

The wavelength of light captured is funnelled down to the primary pigment reaction centre, consisting of chlorophyll, at the base of the photosystem?

Question 46

What are the 2 types of chlorophyll?

Answer 46

• Chlorophyll a
• Chlorophyll b

Question 47

Wgere ccan you find both types of chlorophyll a?

Answer 47

Botth are situated at the centre of photostems.

Question 48

Describe chlorophyll a.

Answer 48

Theres 2 types oof chlorophyll a:
* P680 found in photostem II and it’s peak absorbtion of light is wavelength 680nm.
* P700 found in photostem I and it’s peak absorption is loght of wavelength 700nm.

Question 49

When chlorophyll is found in photostem II and what is it’s peak wavelength it will absorb?

Answer 49

P680 and has peak absorbtion of wavelength 680nm.

Question 50

When chlorophyll is found in photostem I and what is it’s peak wavelength it will absorb?

Answer 50

P700 and it’s peak wavelength it will absorb is 700nm.

Question 51

Chlorophyll a will also absorb some blue light, what is it’s wavelength?

Answer 51

440nm

Question 52

What colour does chlorphyll a appear?

Answer 52

Green

Question 53

What colour does chlorophyll b appear?

Answer 53

yellow green

Question 54

What wavelengths of light does chlorophyll b absorb?

Answer 54

Wavelengths 400-500nm and arounf 640nm.

Question 55

Where are accessory pigments found?

Answer 55

In the walls of photostems.

Question 56

What are some examples of accessory pigmeant?

Answer 56

• Carotoinds
• Xanthophylls

Question 57

What wavelengths do cartenoids absorb and reflect in photostems?

Answer 57

They absorb blue light of wavelengths 400-500nm. They reflect yellow and orange light.

Question 58

What wavelengths does xanthophyll absorb and reflect in photostems?

Answer 58

Absorb blue and green light with wavelengrths 375-550nm. They reflect yellow light.

Question 59

Name 5 photosynthetic pigments.

Answer 59

• Carotene
• Phaeophytin
• Chlorophyll a
• Chlorphyll b
• Xanthophyll

Question 60

Why is the Rf value of some photosynthetic pigments show a range rather than being a single figure?

Answer 60

There are different types of these, with slightly different molecular masses/sizes of molecules/solubilities in the
solvent.

Question 61

How does the structure of chloroplasts enable them to carry out their functions?

Answer 61

• Many grana consisting of many thylakoid membranes gives large surface area for pigments
• electron carriers and ATP synthase enzymes for light-dependent stage.
• Stroma has enzymes for light-independent stage.
• Stroma close to grana so products of first stage can pass to stroma for second stage.
• Oil droplets in stroma as source of lipids
  to make membranes.
• Ribosomes for protein synthesis of enzymes/electron carriers/anchoring proteins.
• DNA –genes coding for some chloroplast proteins.

Question 62

Whats the Rf value of carotene?

Answer 62

0.91

Question 63

What is the Rf value of phaephytin?

Answer 63

0.63-0.75

Question 64

What is the Rf value of chlorophyll a?

Answer 64

0.63

Question 65

What is the Rf value of chlorophyll b?

Answer 65

0.58

Question 66

What is the Rf value of xanthophyll?

Answer 66

0.32-0.53

Question 67

How do you work out the Rf value of a substance?

Answer 67

Rf value= x/y
(distance travelled by pigment/ distance travelled by the solvent)

Question 68

Where does the light-dependant stange of photosynthesis occur?

Answer 68

In the grana (thylakoids) of chloroplasts and involves photosystems.

Question 69

What does the light-dependant stage of photosynthesis consist of?

Answer 69

1. Light harvesting at the photosystems.
2. Photolysis of water.
3. Photophosphorylation- the production of ATP in the presence of light.
4. The formation of reduced NADP.

Question 70

What by-product of photosynthesis is also produced in the lighht-dependant stange of photosynthesis.

Question 71

What are the 2 types of photosystems?

Answer 71

• Photosystem I
• Photosystem II

Question 72

Describe photosystem I.

Answer 72

The pigment at the primary reaction centre is a type of chlorphyll a, which has a peak absorbtion of red light of wavelength 700nm.

Question 73

Describe photosystem II.

Answer 73

The pigment at the primary reaction centre is also a type of chlorophyll a, but this has a peak absorbtion of red light of wavelength 680nm.

Question 74

What are electron carriers?

Answer 74

Molecules that accept one or more electrons and then donate tgose electrons to another carrier. Proteins embeded in thylakoid membranes are electron carriers, and form an electron transoport chain or system. Ferredoxin NAD and NADP are also electron carriers.

Question 75

What is NADP?

Answer 75

Nictinamide adenine dinucleotide phosphate- a coenzyme and electron and hydrogen carrier.

Question 76

What is photophosphorylation?

Answer 76

The generation of ATP and ADP and inorganic phosphate, in the presence of light.

Question 77

What is another name for hydrogen ions?

Answer 77

Protons.

Question 78

What is photolysis?

Answer 78

Splitting water in PSII, in the presence of light, inyo protons (hydrogen ions), electrons and oxygen.

Question 79

What is the equation for photolysis?

Answer 79

2H2O–>4H+ + 4e- +O2

Question 80

What is the oxygen produced in photolysis used for?

Answer 80

Some is used for respiration in the plant, but in periods of high light intensity the rate of photosynthesis is greater than the rate of respiratiom in the plant, so much of the oxygen by-product will diffuse out of the leaves, through the stoma, into the surrounding atomsphere.

Question 81

What is the role of water in the light dependant stage of photosynthesis?

Answer 81

• It is the source of protons (hydrogen ions) that will be used in photophosphorylation.
• Donates elecrtons to chlorophyll to replace those lost when light strikes chlorophyll.
• Is the source of the by-product oxygen.
• Kepps plant cells turgid, enabling them to function.

Question 82

What are the 2 types of photophosphorylation?

Answer 82

• Non-cyclic photophosphorylation
• Cyclic photophosphorylation

Question 83

What is non-cyclic photophosphorylation?

Answer 83

It involves PSI ans PSII. It poduces ATP, oxygen and reduced NADP.

Question 84

What is cyclic photophosphorylation?

Answer 84

Involoves PSI. It produces ATP (less than non-cyclic photophosphorylation).

Question 85

What does both non-cyclic photophosphorylation and cyclic photophosphorylation have in common?

Answer 85

They both involove iron-containing proteins embedded in the thylakoid membranes that accept and donate electrons and form an electron transport system.

Question 86

At the beginning of non-cyclic photophosphorylation, what happens when a photopn of light strike PSII?

Answer 86

The photons energy is channelled to the primary pigement reaction centre.

Question 87

In non-cyclic photophosphorylation What does the light energy do after being channelled to the reaction centre?

Answer 87

The light energy excites a pair of electrons inside the chlorophyll molecule.

Question 88

In non-cyclic photophosphorylation what happens to the pair of energied elecrons?

Answer 88

The energies electrons escape from the chlorophyll mooecule and are captured by an electron carrier , which is a protein with iron at it’s centre, embeded in the thylakoid membrane.

Question 89

In non-cyclic photophosphorylation what happens to the electrons captired by the electron carriers in the thylakoid membranes?

Answer 89

These elctrons are replaces by electrons derrived from photolysis.

Question 90

In non-cyclic photophosphorylation what happens to an electron in the centre of an elecrton carrier?

Answer 90

The electron will combine with the iron ion becomine reduced (Fe^2+). It can then donate the electron, becoming reoxidised (Fe^3+), to the next electron carrier in the chain.

Question 91

In non-cyclic photophosphorylation what occurs as electrons are passed al9ng a chain of elecron carriers embeded in the thylakoid membrane?

Answer 91

At each step some energy associated with the electrons is released.

Question 92

In non-cyclic photophosphorylation what is the energy produced by the electron transport chain used for?

Answer 92

The energy is used to pump protons across the thylkoid membrane into the thylakoid space.

Question 93

What eventually happens to the electrons after PSII in non-cyclic photophosphorylation?

Answer 93

Eventully the elecrtons are captured by another molecule of chlorophyll a is PSI. These electrons replace those lost from PSI due to excitation by light energy.

Question 94

In photophosphorylation what happens when the electrons are initially captured by PSI?

Answer 94

The protein-iron-sulfur complex called ferredoxin accepts the elctrons from PSI abd passes them to NADP in the stroma.

Question 95

In non-cyclic photophosphorylation what happens when protons accumulate in the thylakoid space?

Answer 95

A proton accumulate in the thylkoid space, a proton gradient forms across the membrane.

Question 96

In non-cyclic photophosphorylation What happens when the protons gradient is formed?

Answer 96

Protons diffuse down their concentration gradient through special channels in the membrane associated with ATP synthase enzymes and, as they do so, the flow of protons cause ADP and inorganic phosphate to join, forming ATP.

Question 97

In non-cyclic photophosphorylation what happens when the protons diffuse out though ATP synthase enzymes?

Answer 97

As protons pass through the chaannel they are accepted, alongz with electrons by NADP which become reduced. THe reduction of NADP is catalysed by the enzyme NADP reductase.

Question 98

Summarise what happens in ono-cyclic photophosphorylation?

Answer 98

The light energy has been converted into chemical energy in the form ATP by photophosphorylation. ATP and reduced NADP are now in the stroma rady for the ligh dependant stange of photosynthesis.

Question 99

Which PS does cyclic photophosphorylation occur at?

Answer 99

PSI (P700)

Question 100

What is the process of cycic photophosphorylation?

Answer 100

As light strikes PSI, a pair of electrons in the chlorophyll molecule at the reaction centre gain energy and become excited. They escape from the chlorophyll and pass to an electron carrier system, then back to PSI.

Question 101

What is produced in cyclic photophosphorylation?

Answer 101

**During the passage of electrons along the electron carriers, a small amount of ATP is generated. **
No photolysis of water occurs, so no protons or oxygen are produced. No reduced NADP is produced.

Question 102

Which cells only only contain PSI in a plant? Why is this?

Answer 102

Chloroplasts in guard cells only contain PSI. They produce ATP ehich actively brings potassium ions into the cells, lowering the water potential so that water flows by osmosis- causing the gaurd cells to swell and open the stomata.

Question 103

What is the Calvin cycle?

Answer 103

Metabolic pathway of the light-independant stage of photosynthesis, occuring. (in eukaryotic cells) in the stroma of chloroplasts where carbon dioxide is fixed, with the products of the light-dependant stage, to make organic compounds. The calvin cycle also occurs in many photoautrotrophic bacteria.

Question 104

What is glycerate-3-phosphate (GP)?

Answer 104

An intermediate compound in the calvin cycle.

Question 105

What is ribulose bisphosphate (RuBP)?

Answer 105

A 5-carbon compound present in chloroplasts; a carbon dioxide acceptor.

Question 106

What is triose photophate (TP)?

Answer 106

A three-carbon compound, and the product of the calvin cycle; can be used to make other larger organic molecules.

Question 107

Where does the light-independant stage of photosynthesis occur?

Answer 107

The stroma.

Question 108

Whst does the light independant stage of photosynthesis need to occur?

Answer 108

It needs the products of the light dependant stage to occur.

Question 109

What will happen to the light independant stage of phtotsynthesis if the plant is not illuminated?

Answer 109

The light independant stage will soon cease beacuse it depends on the products of the light dependant stage.

Question 110

What is the role of carbon dioxide in caarbon-based life forms?

Answer 110

Carbon dioxide is the course of carbon for all organic molecules found in carbon based forms. e.g. cell membranes, antigens, enzymes ect.

Question 111

How does carbon dioxide enter a leaf?

Answer 111

Carbon dioxide diffuses through the stomata and then diffuses throught the spongy mesophyll layer and palisade layer, into the palisade cell, through their thin cellulose walls and then through the chloroplast and into the stroma.

Question 112

In what reaction in a plant is carbon converted into organic molecules?

Answer 112

The Calvin Cycle.

Question 113

Whats the first step of the calvin cycle?

Answer 113

Co2 combines with a carbon dioxide acceptor, a 5 carbon compound called ribulose bisphosphate (RuBP). This reaction is catalysed by the enzyme RuBiCO (ribulose bisphosphate carboxylase oxygenase)

Question 114

What enzyme catalyses Co2 combinind with the CO2 acceptor, ribulose bisphosphate?

Answer 114

Ribulose bisphosphate carboxylase-oxygenase

Question 115

What is the carbon dioxide acceptor called in the first step of the carbon cycle?

Answer 115

Ribulose bisphosphate

Question 116

What happens in the calvin cycle after Co2 combines with ribulose bisphosphate?

Answer 116

RuBP becomes carboxylated by accepting The COO- group, forming an unstable imtermidete six carbon compound that immediatly breaks down.

Question 117

When RuBP breaks down in the calvin cycle, what is the product?

Answer 117

The product of this is 2 molecules of a 3-carbon compound, GP (glycerate-3-phosphate). The acrbon dioxide has now been fixed.

Question 118

After carbon dioxide has been fixed in the calvin cycle by GP?

Answer 118

GP is now reduced, using hydrogens from NADP made during the light dependant stage, to triose phosphate (TP). Energy from ATP, also made during the light-dependant stage at the rate of 2 molecules of ATP for every molecule of ATP for every molecule of carbon dioxide.