Topic 1 - More Biological molecules

Question 1

what does DNA stand for

Nucleic Acid

Answer 1

deoxyribonucleic acid

Question 2

what’s DNA’s function ?

Nucleic Acid

Answer 2

it’s used to store genetic information - all the information needed for an organism to grow and develop from a fertilised egg to a fully grown adult

Question 3

what does RNA stand for

Nucleic Acid

Answer 3

ribonucleic acid

Question 4

what is the function of RNA ?

Nucleic Acid

Answer 4

to transfer genetic information from the DNA to the ribosomes.

Question 5

what type of molecules are DNA and RNA

Nucleic Acid

Answer 5

nucleic acid

Question 6

what are RNA and DNA polymers of ?

Nucleic Acid

Answer 6

nucleotides

Question 7

what’s the structure of a nucleotide ? Draw it

Nucleic Acid

Answer 7

a phosphate group joined to a pentose sugar which is joined to a nitrogen containing organic base

Question 8

what’s the pentose sugar in RNA ?

Nucleic Acid

Answer 8

ribose

Question 9

what are the four possible bases in DNA

Nucleic Acid

Answer 9

Adenine and thymine. cytosine and guanine

Question 10

what are the four bases in RNA

Nucleic Acid

Answer 10

adenine and uracil. guanine and cytosine

Question 11

what’s a polynucleotide

Nucleic Acid

Answer 11

polymer of nucleotides

Question 12

how are polynucleotides formed

Nucleic Acid

Answer 12

a condensation recruit between the phosphate group of one nucleotide and the pentose sugar of another. this forms a phosphodiester bond. Catalysed by DNA polymerase.

Question 13

What’s the structure of DNA ?

Nucleic Acid

Answer 13

DNA is made of two polynucleotide strands in a double helix structures. two dna polynucleotide strands consist of nucleotides joined together by phosphodiester bonds. nucleotides consist of a phosphate group a pentose sugar (deoxyribose) and a nitrogen containing base. the polynucleotide strands join together by hydrogen bonding between the bases. each base can only join with one particular base this is called complimentary vase pairing( adenine and thymine have 2 hydrogen bonds and cytosine and guanine have 3). the two anti parallel polynucleotide strands twist to form the dna double helix

Question 14

Who discovered the DNA double helix ?

Nucleic Acid

Answer 14

Crick and watson

Question 15

what’s the structure of RNA

Nucleic Acid

Answer 15

a relatively short polynucleotide chain (not a double helix) it’s much shorter than most DNA polynucleotides

Question 16

What does semi conservative replication allow for

Nucleic Acid

Answer 16

genetic continuity throughout generations of cells

Question 17

Explain the process of semi conservative replication

Nucleic Acid

Answer 17

1. the enzyme DNA helicase breaks down the hydrogen bonds between the bases on the two polynucleotide DNA strands. this causes the helix to unwind to form two single strands.
2. each original strand acts as a template for a new strand. complimentary base pairing means that free floating dna nucleotides are attracted to their complimentary exposed bars on each original template strand- A to T and C to G.
3. Condensation reactions join the nucleotides together of the new strand to form phosphodiester binds making a polynucleotide chain this is catalysed by the enzyme dna polymerase. hydrogen bonds form between the bases on the original and new strands.
4. each new dna molecules contains one strand from the original molecule and one new strand.

Question 18

what does semi conservative replication mean ?

Nucleic Acid

Answer 18

each new dna molecule has a strand from the original dna molecule and a new strand.

Question 19

what end is the active side of DNA polymerase complimentary to ? What does this result in ?

Nucleic Acid

Answer 19

DNA polymerase is complimentary to the 3’ end of the newly forming strand, so enzymes can only add nucleotides to the new strand at the 3’ end.
This means that the new strnad is made in a 5’ to 3’ direction and that DNA polymerase moves down the template strand in a 3’ to 5’ direcion as he strands are antiparallel.

Question 20

Who came up with the theory of semi conservative replication ?

Nucleic Acid

Answer 20

Crick and Watson.

Question 21

Explain the experiment that Meleson and Stahl carried out to prove semi conservative replication.

Nucleic Acid

Answer 21

1. Two samples of bacteria were grown, one in a nutrient broth containing light nitrogen, and another in heavy nitrogen. As the bacteria replicated.they took up nitrogen from the nutrient broth to make nucleotides for the new DNA strand - the nitrogen became apart of the bacteria’s DNA.
2. A some of DNA was taken from each batch and was spun in a centrifuge. The DNA from heavy nitrogen settled lower compared to the DNA from light nitrogen which settled higher up as its lighter.
3. Then the heavy nitrogen bacteria sample was put into a nutrient broth solution containing light nitrogen. The bacteria were left for one round of DNA replication and then a sample was taken and spun in a centrifuge.
4. If replication was conservative, the original heavy DNA would settle at the bottom and the light at the top. If replication was semi conservative the new DNA sample would contain one original heavy nitrogen strand and one new light nitrogen strand. So the DNA would settle in the middle of the light and heavy nitrogen samples.
5. The DNA settled in the middle proving it contained both heavy and light nitrogen. The bacteria replicated semi conservatively in the light nitrogen.

Question 22

What atoms to water contain ?

Water

Answer 22

Two hydrogen atoms and one oxygen atom (H2O).

Question 23

How is a single water joined together ?

Water

Answer 23

By shared electrons between the 2 hydrogen atoms and the oxygen atom.

Question 24

Explain why Water molecules are a polar molecule ?

Water

Answer 24

Because the shared negative hydrogen electrons are pulled towards the oxygen atom, the other side of the hydrogen atom is left with a slightly positive charge. The unshared negative electrons on the oxygen atom give in a slight negative charge. This makes water a polar molecule

Question 25

How are water molecules attracted to each over ?

Water

Answer 25

The slightly negatively charged side of the oxygen atoms is attracted to the slightly positively side of the hydrogen atoms of other water molecules. This attraction is hydrogen bonding.

Question 26

Explain why water is a useful metabolite ?

Water

Answer 26

Many metabolic reactions involve condensation and hydrolysis reactions A hydrolysis reaction requires a water molecule to break bonds and a condensation reaction releases a water molecule as a new bond is formed.

Question 27

Explain what large latent heat of vapourisation is and why it’s a useful property of water.

Water

Answer 27

It takes a lot of heat energy to break the hydrogen bonds between water molecules so water has a high latent heat of vaporisation - a lot of energy is used up when water vaporises (evaporates).
This is useful for living organisms because it means that they can use water loss through evaporation to fool town (e.g. sweat) without loosing too much water.

Question 28

What is high specific heat capacity and why is it a useful property of water ?

Water

Answer 28

The hydrogen bonds between the water molecules can absorb alot of energy. So water has a high specific heat capacity; it takes alot of energy to raise 1g of water by 1°c.
This is useful for living organism because it means that water doesn’t change temperature rapidly, making water a good habitat because temperature underwater is more likely to be stable than on land. Also, the water inside organisms remains at a fairly stable temperature, helping them to maintain a constant body internal temperature. It can resist changes in temperature.

Question 29

Why is water being a solvent a good property ?

Water

Answer 29

A lot of important substances in metabolic reactions are ionic (e.g. salt) . This means they’re make by one positively charged atom or molecule and a negatively charged atom or molecule. Because water is polar, the positive end of a water molecule will be attracted to the negative ion and the negative end of a water molecule will be attracted to the positive ion. This means that the ions will get totally surrounded by water molecules meaning they’ll dissolve.

Question 30

What’s cohesion and why is it a good property of water ?

Water

Answer 30

Cohesion is the attraction of molecules of the same type (e.g. 2 water molecules). Water molecules are very cohesive (stick together) because they’re polar. Strong cohesion helps water to flow, making it great for transporting substances (e.g. water moving in columns in xylem). Strong cohesion also means that water has a high surface tension when it comes to contact with air. This is why sweat forms in droplets on the skin which evaporates to cool the organism also it’s why some animals can walk on ponds.

Question 31

How much of the cells contents is made up of water ?

Water

Answer 31

80%.

Question 32

What does ATP stand for ?

ATP

Answer 32

Adenosine triphosphate.

Question 33

Why is ATP made ?

ATP

Answer 33

Plants and animal cells release energy from glucose, this is called respiration, a cell can’t get its energy directly from glucose. So in respiration, the energy released from glucose is used to make ATP.

Question 34

What is ATP made from ? Draw it.

ATP

Answer 34

A nucleotide base adenine, combined with a ribose sugar and three phosphate groups.

Question 35

Why’s ATP known as a nucleotide derivative ?

ATP

Answer 35

It’s a modified form of a nucleotide.

Question 36

What happens to ATP once it’s made ? And how is the energy released ?

ATP

Answer 36

Once made, ATP diffuses to the part of the cell that needs energy. The energy in ATP is stored in high energy bonds between the phosphate groups and is realises via a hydrolysis reaction.

Question 37

How is energy released from ATP ?

ATP

Answer 37

ATP is broken down into ADP (adenosine diphosphate) and Pi (inorganic phosphate). This is a hydrolysis reaction. A bond between the phosphate groups is broken and energy is released. The reaction is catalysed by ATP hydrolase. ATP hydrolysis can be couples to other energy requiring reactions in the cell- meaning the energy can be used to make the coupled reaction happen.

Question 38

How can the inorganic phosphate be put to good use ?

ATP

Answer 38

It can be added to another compound this is phosphorylation and often makes the compound more reactive.

Question 39

what ways is ATP hydrolysis used in cells.

ATP

Answer 39

to phosphorylate other compounds to make them more reactive.
To provide energy for other reactions.

Question 40

How can ATP be res-synthesised ? And when does this happen ?

ATP

Answer 40

In a condensation reaction between ADP and a phosphate group (Pi). This happens during both respiration and photosynthesis. Its catalysed by the enzyme ATP synthase.

Question 41

Why is ATP a good source of energy in cells ?

ATP

Answer 41

It releases little heat energy less danger of thermal death.
it releases energy instantaneously.
it phosphorylates other compounds, making them more reactive.
can be rapidly re synthesised.
Does not leave cells.

Question 42

What’s an ion ?

Inorganic Ions

Answer 42

An atom or a group of atoms with an electric charge.

Question 43

What’s an ion with a positive charge ?

Inorganic Ions

Answer 43

A cation.

Question 44

What’s an ion with a negative charge ?

Inorganic Ions

Answer 44

An anion.

Question 45

What’s an inorganic ion ?

Inorganic Ions

Answer 45

An ion that doesn’t contain carbon.

Question 46

What’s the function of Iron ion ?

Inorganic Ions

Answer 46

Haemoglobin is a large protein that carries oxygen around the body, in red blood cells. It’s made up of 4 polypeptide chains each with an iron ion (Fe2+) in the centre. Its the iron ion that binds oxygen to haemoglobin. when oxygen is bound the iron ion temporarily turns into a Fe3+until oxygen is released.

Question 47

What’s the function of hydrogen ions ?

Inorganic Ions

Answer 47

pH is calculated based on the concentration of hydrogen ions (H+) in the environment. The more hydrogen ions present the lower the pH is (the more acidic the solution is).

Question 48

What’s the function if sodium ions ?

Inorganic Ions

Answer 48

Glucose and amino acids need help crossing membranes. A molecule of glucose or an amino acid can be transported into a cell along side sodium ions this is called co-transport. Creates a sodium concetration/diffusion gradient. Affects osmosis/water potential.

Question 49

What’s the function of phosphate ions ?

Inorganic Ions

Answer 49

Phosphorylates other compounds. Used to produce ATP. The phosphate groups in DNA and RNA allow nucleotides to join up to form polynucleotides.affects water potential/osmosis.