Photosynthesis Kerensa

Question 1

Define photosynthesis

Answer 1

Process in which light energy is used to make glucose from water and CO₂

Question 2

What’s the chemical equation for photosynthesis?

Answer 2

6CO₂ +6H₂O + Light energy > C₆H₁₂O₆ + 6O₂

Add 6 to balance equation.

Basically converting light energy to chemical energy.

Question 3

What is respiration?

Answer 3

Release of stored energy from glucose. Giving you CO₂ + H₂O

Question 4

What are the two types of respiration?

Answer 4

Aerobic- With O₂

Anaerobic- Without O₂

Question 5

What’s the chemical equation fro aerobic respiration?

Answer 5

Glucose + Oxygen > Carbon dioxode + Water + Chemical energy.

C₆H₁₂O₆ + 6O₂ > 6CO₂ + 6H₂O + Chemical energy.

Add sixes to balance equation.

Question 6

What’s the equation for Anaerobic respiration in different organisms?

Answer 6

Plants and Yeast = Glucose > Ethanol + Energy

Humans = Glucose > Lactic acid + Energy

Question 7

What does ATP stand for?

Answer 7

Adenosine triphosphate.

Question 8

Where does ATP carry energy and in what form?

Answer 8

Carries energy in phosphate bonds as chemical energy.

Question 9

Why is ATP good for releasing energy?

Answer 9

• Can reduce other molecules by making them more reactive.
• Small and soluble.
• Trapped in cell.
• Releases short bursts of energy.
• Easy to break down.
• Unstable molecule so it can be quickly remade.

Question 10

Define Metabollic Pathway.

Answer 10

Series of small reactions controlled by enzymes. (How photosynthesis works)

Question 11

Define Phosphorylation.

Answer 11

Adding phosphates to a molecule. (Happens in everything).

Question 12

Define Photophosphorylation.

Answer 12

Using light to add phosphates to molecules.

Question 13

Define Photolysis

Answer 13

Splitting of molecules using light energy.

Question 14

Define Hydrolysis.

Answer 14

Splitting of molecules using water.

Question 15

Define Photoionisation.

Answer 15

Using Light energy to excite electrons in an atom giving them more energy and causing them to be released from PS11.

Question 16

Define Decarboxylation.

Answer 16

Removal of CO₂

Question 17

Define dehydrogenation.

Answer 17

Removal of hydrogen (H₂)

Question 18

What is a Redox reaction? And what is the rule with them?

Answer 18

Oxidation and Reduction.

(Red) – (Ox)

You can’t have one without the other.

Question 19

Define Oxidation and Reduction using OILRIG.

Answer 19

Oxidation

Is

Loss of electrons

Reduction

Is

Gain of electrons

Question 20

What is a Co-enzyme?

Answer 20

Molecule that aids the function of an enzyme.

Question 21

What do Co-enzymes transfer?

Answer 21

A chemical group between enzymes.

Question 22

What co-enzyme is used in photosynthesis? And what does it transfer?

Answer 22

The co-enzyme in photosythesis is NADP.

It transfers Hydrogen protons.

Question 23

What are the co-enzymes in respiration? And what do they transfer?

Answer 23

NAD transfers hydrogen protons.

FAD transfers hydrogen protons.

Co-enzyme A transfers Acetate

Question 24

What’s the structure of a chloroplast and what do they do?

Answer 24

Thylakoid - Fluid filled sac

Stroma - Gel with enzymes , sugars ect.

Starch grains - Stores CO₂

Lamellae - Has a thylakoid membrane, joins grana

Grana - plural for granum

Inner membrane - Holds together

Outer membrane - Protection.

Question 25

What photosynthetic pigments are in thylakoid membranes? And define them.

Answer 25

• Chlorophyll A
• Chlorophyll B
• Carotene

They are coloured substances that absorb light energy.

Question 26

What do photosynthetic pigments attach to? And what does this form?

Answer 26

Photosynthetic pigments attach to proteins and form Photosystems.

Photosynthetic pigments + protein = Photosystems

Question 27

What are the two photosystems in photosynthesis? And what are the wavelengths of light they recieve?

Answer 27

• PS1 (write I) - Wavelength of light they recieve 700nm.
• PS2 (write II) - Wavelength of light they recieve 680nm.

Question 28

What are the two main reactions in photosynthesis?

Answer 28

• Light dependant reaction
• Light independant reaction.

Question 29

What happens in the light dependant reaction? And where does it occur?

Answer 29

Occurs in the Thylakoid membrane.

• Excites electrons
• Electrons released
• Chlorophyll has been photoionised
• You get ADP+Pi > ATP, NADP+H > Reduced NADP and water > 2H⁺ and 1/2 O₂
  *

Question 30

What’s the first stage of photosynthesis?

Answer 30

Light energy is absorbed by chlorophyll

• Light energy absorbed by PSII
• Excites electrons in chlorophyll
• Electrons move to a higher energy level
• Due to higher energy they are released from the chlorophyll
• They move down an electron transfer chain to PSI via electron carrier.

Question 31

What is the second stage of photosynthesis?

Answer 31

Replacing Excited electrons

• Excited electrons that leave PSII must be replaced.
• They are replaced by photolysis
• Light energy splits water in PSII into 2H⁺ and 1/2 O₂ plus electrons

Question 32

This is really just to tell you that oxygen comes into the photosynthesis equation because its created during photolysis as 1/2 O2

Question 33

What’s the third stage of photosynthesis?

Answer 33

Transport of Hydrogen

• Excited electrons that left PSII and went to PSI down the electron transport chain are losing energy.
• Energy is lost as its being used to transport H⁺ from the stroma into the thylakoid, this creates a high concentration of H⁺ in the thylakoid. This forms a proton gradient. (Gradient because low conc.>high conc.)
• The hydrogen atoms (protons) move down their conc. gradient through facilitated diffusion by ATP synthase.
• Movement of H⁺ down ATP synthase gives energy to power ATP synthase, allowing it to catalyse ADP + pi > ATP.

Question 34

What is the fourth stage of photosynthesis?

Answer 34

• Light energy is absorbed by PSI
• This excites electrons to an even higher energy level than PSII
• Electrons are transferred to NADP in the stroma along with a proton from the stroma. This forms reduced NADP.

Question 35

What is photosynthesis steps 1-4 called?

Answer 35

Process called Non-cyclic Photophosphorylation.

Question 36

True of false: Cyclic phosphorylation is in the light-dependant reaction.

Answer 36

True.

Question 37

Why is Cyclic Phosphorylation different to Non-Cyclic phosphorylation?

Answer 37

Cyclic Phosphorylation only produces ATP and only uses PSI.

Question 38

Why is Cyclic-phosphorylation called Cylic?

Answer 38

Electrons from the chlorophyll aren’t passed onto NADP but recycled in PSI.

Question 39

What happens in Cyclic-phosphorylation?

Answer 39

Electron uses energy to get H⁺ across, then returns to PSI to get energy again.

Question 40

Define Chemiosmosis.

Answer 40

‘Chemi’ as it uses electrons.

Process of electrons flowing down the electron transport chain and creating a proton gradient across the thylakoid membrane. To drive ATP synthesis.

Question 41

What are the three main factors about the Light Independant reaction?

Answer 41

• Takes place in the Stroma
• Doesn’t need light
• Needs products of light dependant reaction. ATP and reduced NADP.

Question 42

Whats another name for the Light Independant reaction?

Answer 42

The Calvin cycle.

Question 43

What’s the first process of the Light Independant reaction?

Answer 43

• CO₂ enters leaf through the stomata, and diffuses into stroma of chloroplast.
• CO₂ combines with the ribulose biphosphate (RuBP) (5 Carbon compound) which is then catalysed by Rubisco.
• Adding CO₂ to 5 Carbon compound makes an unstable 6 Carbon compound. So it quickly breaks into a 2x Glycerate, 3 - Phosphate molecule. (3 Carbon compound).

Question 44

What’s the second process of the Light Independant reaction?

Answer 44

• Reduction of 2x glycerate, -3 Phosphate molecule to Triose Phosphate (3 Carbon) (TP)
• 2 molecules of ATP > ADP + Pi which provides energy for the reaction.
• 2 molecules of reduced NADP > NADP which provides H⁺ ions.
• After hydrolysis of ATP and catalysing of ATP Hydrolase and the breakdown of reduced NADP. Energy from electrons, and the hydrogen ions are used to rearrange 2x Glycerate,-3 Phosphate molecule to triose phosphate.

Question 45

What’s the third process of the Light Independant reaction?

Answer 45

• Ribulose biphosphate is regenerated.
• 5 out of 6 triose phosphate molecules produced in the cycle are used to regenerate ribulose biphosphate, as it’s a 5 carbon compound.
• ATP > ADP+ Pi Provides the energy for this.
• ( Just a side note mention enzymes such as ATP Hydrolase in exam question as these may get you extra marks).

Question 46

Kerensa’s teachings are more simplified but keep them in mind as they also get you marks.

Question 47

Where does the energy from ATP come from when ATP is hyrdolysed/catalysed by ATP hydrolase?

Answer 47

Energy comes from breaking of phosphate bonds.

Question 48

What can carbohydrates be formed by?

Answer 48

Hexose sugars e.g. glucose are formed by 2 triose phosphate molecules.

Larger carbs such as starch and cellulose are formed by joining hexose sugars together.

Question 49

What are lipids formed by?

Answer 49

Glycerol - Made of triose phosphate.

Fatty acids - made from glycerate 3 - Phosphate.

Question 50

What can some amino acids be made from?

Answer 50

Glycerate 3 - phosphate

Question 51

How many turns of the Calvin cycle does it take to produce 6 molecules of Triose Phosphate?

Answer 51

3 turns of Calvin cycle as it produces 3 CO₂ molecules.

Question 52

True or false: For every 3 turns of the Calvin cycle, 1/6 Triose phosphate molecules go on to assist cell processes.

Answer 52

True.

Question 53

Glucose needs 6 turns of the calvin cycle to be made. Why?

Answer 53

Glucose is made of two triosphosphate molecules (two 3 carbon compunds). And as 1/6 Triosphosphate molecules can go on to make glucose every 3 turns. Then 6 turns is needed for two 3 carbon molecules of TP to make a 6 carbon molecule fo glucose.

Question 54

For six turns of the Calvin cycle how many ATP molecules and Reduced NADP molecules are needed? And why? And where do they come from?

Answer 54

For six turns,

18 ATP molecules are needed as theres 3 molecules needed per turn.

12 Reduced NADP molecules are needed as 2 are needed per turn.

ATP and Reduced NADP come from Light dependant reaction.

Question 55

What is the purpose of Glycolysis?

Answer 55

Make pyruvate (3 Carbons) from Glucose (6 Carbons).

Question 56

Where does glycolysis occur?

Answer 56

Cytoplasm of cells.

Question 57

Why is Glycolysis used in both aerobic and anaerobic respiration?

Answer 57

No Oxygen is used.

Question 58

What’s the first stage of Glycolysis?

Answer 58

• Glucose is phosphorylated from a molecule of ATP producing a molecule of glucose phosphate and one ADP.
• ATP is used to add another phosphate forming Hexose Biphosphate.
• Hexose Biphosphate is then split into two molecules of Triose Phosphate.

Question 59

What’s the second stage of Glycolysis?

Answer 59

• Triose phosphate is Oxidised (Loses Hydrogen) to form Pyruvate.
• NAD collects the Hydrogen ions forming 2 Reduced NAD molecules.
• 4ADP + 4Pi > 4ATP

Question 60

What’s the Net gain of ATP from Glycolysis? Why?

Answer 60

2 Net gain of ATP as 4 molecules are made but 2 molecules are used.

Question 61

What’s the equation for Anaerobic respiration in multiple organisms?

Answer 61

Mammals + Some Bacteria = Lactate

Plants + Yeast = Ethanol

Question 62

What’s the process of Lactate production in Mammals?

Answer 62

Pyruvate > Lactate (Lactic Acid)

Reduced NAD > NAD Hydrogen used to convert Pyruvate > Lactate.

Question 63

What’s the process of Ethanol production in Plants and yeast?

Answer 63

Pyruvate - loses CO₂ - Ethanal - Hydrogen ion from Reduced NAD to NAD - Ethanol

Question 64

What does production of Ethanol or Lactate do?

Answer 64

Regenerates oxidised NAD

This can be used to continue Glycolysis when there is little oxygen around.

So a small amount of ATP can still be produced.