Chapter 2 Nucleic Acids

Question 1

What does ATP stand for

Answer 1

Adenosine triphosphate

Question 2

Key properties of ATP that makes it a suitable source of energy for cells

Answer 2

• releases energy instantaneously (immediate energy source) transfers energy from the sites of respiration to the parts of the cell which require energy
• does not leave cells
• releases small amounts of energy

Question 3

What type of reaction occurs when breaking the covalent bond of the last phosphate group of the ATP molecule

Answer 3

Hydrolysis reaction

Question 4

Hydrolysis of ATP equation and catalyst

Answer 4

ATP + water → ADP (adenosine diphosphate) + Pi (inorganic phosphate) + energy
Catalyst: ATPase

Question 5

Explain how ATP releases energy to be used by processes in cells

Answer 5

• The covalent bonds between last phosphate groups are very unstable
• This means it requires a low activation energy and hence a small amount of energy to break the covalent bond holding the last phosphate group in place
• Once the covalent bond is broken the terminal phosphate group (last phosphate group) is removed releasing energy which is used by processes in cells

Question 6

energy-requiring processes that use ATP

Answer 6

• active transport
• metabolic reactions
• muscle contraction
• secretion of molecules using vesicles
• activation of molecules (transfers energy to molecules )

Question 7

How can atp activate molecules

Answer 7

Through phosphorylation - By transferring a Phosphate group to other molecules making them more reactive and lowering their activation energy

Question 8

Where is ADP and phosphate turned back into ATP

Answer 8

• Respiration in plants and animals (oxidative phosphorylation)
• In chlorophyll containing plants during the LIR in photosynthesis (photophosphorylation)
• In animals and plants when phosphate groups are transferred from donor molecules to ADP (substrate level phosphorylation)

Question 9

Name of reaction of ATP synthesis

Answer 9

phosphorylation reaction or condensation reaction

Question 10

Advantages of ATP over glucose

Answer 10

• ATP releases less energy than glucose meaning that smaller and more manageable quantities of energy is used for reactions so less energy is lost by heat
• Hydrolysis of ATP happens in a single reaction releasing energy whilst hydrolysis of glucose occurs over a long series of reactions to release energy, so ATP is less time consuming

Question 11

What is the synthesis of ATP (ADP and phosphate conversion to ATP) catalysed by

Answer 11

ATP synthase

Question 12

What is ATP

Answer 12

An immediate source of energy for biological processes

Question 13

How does ATP synthesis work

Answer 13

During respiration from ADP by the addition of an inorganic phosphate group through a condensation reaction (or phosphorylation) and using the enzyme ATP synthase

Question 14

Why is ATP an immediate source for energy

Answer 14

• Requires a small amount of energy to break the covalent bond holding the last phosphate group in place which releases a lot of energy when broken, which is used by processes in the cell

Question 15

How is ATP used in metabolic reactions

Answer 15

It provides energy needed to build up macromolecules from their basic units

Question 16

How is ATP used in movement

Answer 16

It provides energy for muscle contraction by providing energy for the filaments to slide past each other

Question 17

How is ATP used in active transport

Answer 17

Provides energy to change shape of the carrier proteins in the plasma membrane allowing molecules to move against the concentration gradient

Question 18

Function of DNA

Answer 18

• codes for the sequence of amino acids in the primary structure of a protein which in turn determines the final 3d structure and function of a protein
• responsible for passing genetic information from cell to cell and generation to generation
• creates genetic diversity and speciation due to its variety of sequences of bases

Question 19

Why is DNA important

Answer 19

• So that every cell contains a copy of genetic code and that it can be passed on to new cells without being damaged

Question 20

Types of nitrogenous bases and their base pairs

Answer 20

Guanine, cytosine, adenine thymine, uracil (only RNA and usually binds with adenine as rna does not contain thymine)
A- T
G -C

Question 21

Name of pentose sugar in DNA and RNA

Answer 21

DNA – deoxyribose sugar
RNA - ribose sugar

Question 22

Monomer that makes up DNA

Answer 22

Nucleotide

Question 23

Polymer of the nucleotide

Answer 23

Polynucleotide

Question 24

How do polynucleotide form

Answer 24

Through condensation reactions and the formation of a phosphodiester bond between a phosphate of one nucleotide and Carbon 3 of the deoxyribose sugar of the next nucleotide

Question 25

How does the strong phosphodiester bonds(covalent bonds) became an advantage in a DNA molecule

Answer 25

They help ensure that the genetic code is not broken down

Question 26

What is a sugar phosphate backbone

Answer 26

The phosphodiester bonds between the sugar and phosphate group that hold the polymer together and provides structural support to the molecule

Question 27

How are double helix’s formed

Answer 27

When two polynucleotides are joined together by their complimentary base pairs through hydrogen bonding, which they then twist around each other to form a double helix (The two dna strands are anti parallel to each other)

Question 28

Why is DNA a stable molecule

Answer 28

- adenine and thymine form 2 hydrogen bonds whilst cytosine and guanine form 3 hydrogen bonds, so the more GC pairing the more stable the molecule is - there are other interactive forces between base pairs - the reactive bases are protected by the sugar phosphate backbone inside the double helix making the molecule stable and protecting the bases from damage

Question 29

EXPLAIN how the structure of DNA is related to its function

Answer 29

- sugar-phosphate (backbone) so provides stability and protects bases - long molecule so can store lots of information - coiled into a helix so compact - weak hydrogen bonds so it is easy to seperate strands - double stranded so replication can occur semi-conservatively and complementary base pairing so identical copies can be made - base sequence allows information to be stored

Question 30

differences between dna and rna

Answer 30

DNA found in chromosomes - rna found in cytoplasm DNA is extremely long - rna is very short DNA has a double helix - rna only has kne polynucleotide strand

Question 31

Types of rna and their functions

Answer 31

mRNA (messenger) - transfers information from DNA to ribosomes tRNA (transfer) - transfers the amino acid to the ribosome and places it into the correct sequence in the peptide Ribosomal rna - ribosomes made from rna and proteins

Question 32

Process of semi conservative dna replication

Answer 32

1) the enzyme DNa helicase attaches to the DNA molecule 2) the DNA helicase causes the hydrogen bond between complimentary base pairs to break undwinding the DNA helix , causing the two polynucleotide strands to separate and each strand acts as a template for a new strand 3) free nucleotides join up along the template strand by complimentary base pairing and are held in place by hydrogen bonds between complimentary base pairs and are not bonded to each other by phosphodiester bonds 4) dna polymerase moves down the molecule and catalyse the formation of phosphodiester bonds between adjacent nucleotides via condensation reactions in the 5' to 3' direction and this creates a new DNA strand and the strands twist to form a double helix and two identical dna molecules are produced with each molecule containing a single strand from the original dna and a single new strand

Question 33

What causes mutations in dna

Answer 33

When an incorrect base is inserted into the growing polynucleotide strand so the DNA sequence is changed

Question 34

What happens in conservative dna replication

Answer 34

A dna double helix is formed contains two new strands with none of the original dna in it

Question 35

Evidence for semi conservative dna replication experiment (Meselson and Stahl)

Answer 35

1) the scientist took a sample of bacteria and grew it on a median only containing nitrogen -14 (the lighter isotope) and a median containing only nitrogen -15 (the heavier isotope) and extracted its both of its DNA 2) they placed the DNA in a solution and spun it in a centrifuge so the scientists could detect the DNA and found that the sample which only had n-14 formed a band of DNA near the top of the tube whilst the sample only contains n-15 formed a band of DNA at the bottom of the tube 3) the scientist then transferred a sample of the bacteria growing on n-15 to the bacteria growing in n-14 and allowed the DNA to replicate once 4) the scientist then extracted the DNA and placed it in the centrifuge and found that the DNA produce a band between the two bands formed from the lighter and heavier isotopes, proving that the DNA contained one strand of n-14 and one strand of n-15 so it must of replicated semi conservatively

Question 36

Why does the DNA polymerase work along the dna molecule from 5 prime to 3 prime

Answer 36

As the active site of the enzyme is complimentary to the 5 prime end of the dna nucleotide being used for the new strand so can only bind to 5’ and not 3’ as has a different shape

Question 37

What direction does the dna polymerase move in along the template strand to

Answer 37

5’ to 3’

Question 38

Direction of dna helicase

Answer 38

3’ to 5’

Question 39

Structure of water molecule

Answer 39

- dipolar molecule as it has two different regions that is charged - has an uneven distribution of charge due to the O2 being electronegative causing the H to be positive causing hydrogen bonds to form between o and h

Question 40

Key properties of water

Answer 40

- it is a metabolite - a solvent - has a high specific heat capacity - has a large of specific latent heat of vaporisation - strong cohesion between water molecules which supports the water and provide surface tension - transparent

Question 41

What is a metabolite

Answer 41

A molecule involved in lots of chemical reactions or metabolism

Question 42

Why is water a metabolite

Answer 42

Water is involved in many reactions such as photosynthesis, hydrolysis and condensation reactions

Question 43

Why is water a good solvent

Answer 43

As polar molecules can dissolve in water due to it being dipolar. This is because the positive charge in the hydrogen atoms will attract any negative ions and the negative charge of the oxygen will attract any positive ions in the solutes (That why these molecules are described as hydrophilic as they are attracted to water)

Question 44

Why does water have a high specific heat capacity

Answer 44

As it requires a lot of energy to raise the temperature of water as some of the heat energy is used to break the hydrogen bonds between water molecules

Question 45

How does the high specific heat capacity in water help organisms

Answer 45

- The temperature remains relatively stable even if the surrounding temperature fluctuates so the water acts as a temperature buffer this means that the internal temperature on plants and animal should remain the same despite the outside temperature due to the fact that a large proportion of the organism is made out of water - this helps enzymes not denature or reduce activity with temperature fluctuations in organism and helps provide a stable environment for aquatic organism

Question 46

Why does water have a large latent heat of vapourisation

Answer 46

As a lot of energy is required to convert water in its liquid state to a gaseous state due to the hydrogen bonds as energy is needed to break the hydrogen bonds between water molecules to turn it into a gas

Question 47

How does water having a large latent heat of vapourisation help organism

Answer 47

- As it provides a significant cooling effect - In humans a large amount of body heat is used to evaporate the sweat from the surface of the skin, cooling down the organism and taking the heat energy away - plants - transpiration

Question 48

What is cohesion

Answer 48

Water molecules sticking together by hydrogen bonds

Question 49

How does cohesion help organism

Answer 49

- due to water molecules sticking together when the water moves up the xylem in plants due to transpiration it is a continuous column of water. This is easier to draw up as it is in a column rather than individual molecules - cohesion also provides surface tension to the water allowing small invertebrates to move and live on the surface providing them a habitat away from predators within the water

Question 50

What are the inorganic ions

Answer 50

Sodium Iron Hydrogen Phosphate

Question 51

Function of iron

Answer 51

- found in haemoglobin by binding to oxygen and plays a role in the transport of oxygen

Question 52

Function of phosphate

Answer 52

- stores energy in phosphate molecules - structural role in DNA

Question 53

Function of hydrogen

Answer 53

- determines ph of solutions and functions of ions

Question 54

Function of sodium

Answer 54

Transports glucose and amino acids across membrane s through co transport Nerve transmissions

Question 55

What is adhesion

Answer 55

When water molecules stick to the walls of a container

Question 56

How does water being transparent help organism

Answer 56

- aquatic plants can still get light for photosynthesis - light can pass through fluid filled eye to the retina

Question 57

During replication, the two DNA strands separate and each acts as a template for the production of a new strand. As new DNA strands are produced, nucleotides can only be added in the 5' to 3' direction Explain why new nucleotides can only be added in the 5' to 3' direction.

Answer 57

- DNA strands are antiparallel - Nucleotides have different shapes due to their different positions - The DNA polymerase active site is complementary to the 5' end of the DNA molecule - So can only catalyse DNA strands in that direction as the active site is a different shape to the 3' end

Question 58

give two ways in which ATP hydrolysis is used in cells

Answer 58

- to add phosphate to other substances and making them more reactive - to provide energy for reactions

Question 59

The new antibiotic is safe to use in humans because it does not inhibit the ATP synthase found in human cells. Suggest why human ATP synthase is not inhibited and bacterial synthase is inhibited.

Answer 59

Human ATP synthase has a different tertiary structure to bacterial ATP synthase OR Human ATP synthase has a different shape active site to bacterial ATP synthase OR Antibiotic cannot enter human cells/mitochondria OR Antibiotic not complementary (to human ATP synthase)