Chapter 11 - Photosynthesis

Question 1

How does energy enter plants?

Answer 1

The energy in light is absorbed by chlorophyll and transferred into chemical energy during photosynthesis

Question 2

Where does photosynthesis take place?

Answer 2

Chloroplasts

Question 3

How are leaves adapted for photosynthesis?

Answer 3

A large SA to absorb sunlight
An arrangement that prevents overlapping and so shadowing of other leaves
Thin for a short diffusion pathway
Transparent cuticle to let light through to the palisade mesophyll cells
Upper mesophyll cells full of chloroplasts
Numerous stomata so mesophyll cells are never far from one
Xylem bringing water to leaf cells and phloem bringing food to roots
Air spaces in the spongy mesophyll for a large surface area

Question 4

What is the overall equation for photosynthesis?

Answer 4

6CO2 + 6H2O -light-> C6H12O6 + 6O2

Question 5

What are the three main stages of photosynthesis?

Answer 5

Capturing light energy
The light-dependent reaction
The light-independent reaction

Question 6

What happens in the first stage of photosynthesis?

Answer 6

Light energy is captured in the chlorophyll of the chloroplasts to make ATP and photolyse water

Question 7

What happens in the second stage of photosynthesis?

Answer 7

Light breaks the bonds in chlorophyll, causing water molecules to split by photolysis into protons, electrons and oxygen.

Question 8

What are the products of the light-dependent reaction?

Answer 8

Reduced NADP, ATP and oxygen

Question 9

What happens in the third stage of photosynthesis?

Answer 9

Protons are used to produce sugars and other organic molecules

Question 10

How long are chloroplasts typically?

Answer 10

2-10 micrometres

Question 11

What type of membrane can be found in chloroplasts?

Answer 11

A double membrane

Question 12

What are the two distinct regions in a chloroplast?

Answer 12

The grana and the stroma

Question 13

What is the stroma?

Answer 13

A fluid-filled matrix containing starch grains. Also where the light-independent stage takes place

Question 14

What are grana?

Answer 14

Stacks of up to 100 thylakoid structures, which contain chlorophyll. Also where the light-dependent stage takes place

Question 15

What happens when a substance is oxidised?

Answer 15

Gains oxygen, loses hydrogen or electrons

Question 16

What happens when a substance is reduced?

Answer 16

Loses oxygen, gains hydrogen or electrons

Question 17

What is the metabolic pathway?

Answer 17

A series of small reactions caused by enzymes

Question 18

What is phosphorylation?

Answer 18

Adding phosphate to a molecule

Question 19

What is photophosphorylation?

Answer 19

Adding phosphate to a molecule using light

Question 20

What is photolysis?

Answer 20

Using light energy to split apart a molecule

Question 21

What is photoionisation?

Answer 21

When light energy excited electrons, causing them to be released and move to a higher energy level

Question 22

What is hydrolysis?

Answer 22

The splitting of a molecule using water

Question 23

What is decarboxylation?

Answer 23

The removal of carbon dioxide from a molecule

Question 24

What is dehydrogenation?

Answer 24

The removal of hydrogen from a molecule

Question 25

What does NADP do?

Answer 25

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

Question 26

At what wavelength does Pi best absorb light?

Answer 26

700 nm

Question 27

At what wavelength does Pii best absorb light?

Answer 27

680 nm

Question 28

What happens in the light-dependent reaction?

Answer 28

A chlorophyll molecule absorbs light energy, which excites the electrons in the chlorophyll and raises them to a higher energy level so they leave the chlorophyll. The chlorophyll has been photoionised. The electrons are taken up by an electron carrier molecule and passed along a chain of carriers via a series of redox reactions. Because each new carrier is at a slightly lower energy level, the electrons lose a bit of energy each time. This energy is used to combine a phosphate molecule with ADP to produce ATP

Question 29

Describe chemiosmotic theory

Answer 29

Protons are pumped into the thylakoid membranes using protein carriers called protein pumps. The energy produced when water is photolysed is what fuels this movement. This creates a higher concentration of protons inside the thylakoid than in the stroma. Protons move down the concentration gradient into the stroma via the carrier protein ATP synthase. As they move through the protein, they change the shape of the enzyme, which catalyses the combination of ADP and Pi

Question 30

What is the equation for the photolysis of water?

Answer 30

2H2O -> 4H+ + 4e- + O2

Question 31

What happens to the protons produced when water is photolysed?

Answer 31

They pass out of the thylakoid via the ATP synthase protein, where they combine with electron carrier NADP, reducing it. This NADP enters the light-independent stage, taking with it the electrons created from the chlorophyll molecules

Question 32

Where does the light-dependent reaction take place?

Answer 32

The thylakoids of chloroplasts

Question 33

How are chloroplasts adapted for the light-dependent reaction?

Answer 33

The thylakoid membranes provide a large surface area
Proteins hold the chlorophyll in a precise manner that allows maximum absorption of light
Chloroplasts contain DNA and ribosomes so can quickly produce proteins required
The membranes have ATP synthase within them, which catalyses the formation of ATP

Question 34

What is another name for the light-independent reaction?

Answer 34

The Calvin Cycle

Question 35

Where does the light-independent reaction take place?

Answer 35

The stroma of the chloroplasts

Question 36

What happens in the light-independent reaction?

Answer 36

CO2 diffuses into the leaf through the stomata and then into the stroma
Here, the CO2 combines with RuBP in a reaction catalysed by rubisco. This forms an unstable 6 carbon compound which quickly breaks down into two molecules of GP
The hydrolysis of ATP provides every and reduced NADP provides H+ ions to tun this GP into TP
The NADP goes back to the light-dependent reaction to accept more protons
Some TP is turned into glucose and the rest continues to regenerate RuBP

Question 37

How many carbons are there in RuBP?

Answer 37

5

Question 38

How many carbons are there in GP?

Answer 38

3

Question 39

How many times does the Calvin Cycle need to occur to produce one hexose sugar?

Answer 39

6

Question 40

How are the chloroplasts adapted for the light-independent reaction?

Answer 40

The matrix of the stroma contains all necessary enzymes
The stromal fluid surrounds the grana so products of the light-dependent reaction in the grana can diffuse into the stroma
Contains DNA and ribosomes so can easily make necessary proteins

Question 41

What are the optimum conditions for photosynthesis?

Answer 41

High light intensity
Temperature at 25c
Carbon dioxide at 0.4%

Question 42

Why is a high light intensity required for photosynthesis?

Answer 42

It provides the energy for the light-dependent reaction

Question 43

Why is a temperature at 25c required for photosynthesis?

Answer 43

It is the optimum temperature for enzymes like rubisco

Question 44

What is the saturation point?

Answer 44

Where the rate of respiration = rate of photosynthesis so there is no net movement of gas in the plant