Nucleic Acids

Question 1

Why are nucleic acids important?

Answer 1

They are essential to heredity in living organisms

Question 2

What does every human cell contain?

Answer 2

46 Chromosomes
2 Metres of DNA
Around 3 billion nucleotides

Question 3

What bonds form between nucleotides?

Answer 3

Phosphodiester bond

Question 4

What bonds form between bases?

Answer 4

Hydrogen bonds

Question 5

What makes up a nucleotide?

Answer 5

A nitrogenous base, pentose sugar and a phosphate group

Question 6

How does the phosphodiester bond form?

Answer 6

Through a condensation reaction between the phosphate group at position carbon 5 on one nucleotide and the the hydroxyl group at carbon 3 on the other nucleotide

Question 7

What are the purines?

Answer 7

Adenine and Guanine

Question 8

What is a purine?

Answer 8

Larger bases that contain a double carbon ring structure

Question 9

What are the pyramidines?

Answer 9

Thymine and Cytosine

Question 10

What is a pyramidine?

Answer 10

Smaller bases that contain single carbon ring structures.

Question 11

What are the differences between DNA and RNA?

Answer 11

DNA has 2 strands whereas RNA has 1
DNA contains deoxyribose whereas RNA contains ribose
DNA contains A,T,C,G whereas RNA contains A,U,C,G

Question 12

Why is the pentose sugar ‘deoxyribose’ named that?

Answer 12

Because it is has one less oxygen atoms than ribose

Question 13

What is the structure of DNA?

Answer 13

It is a double-helix

Question 14

What is complimentary base pairing?

Answer 14

A forms two hydrogen bonds with T and G forms three hydrogen bonds with C. This means that purines always bond with a pyramidine due to the difference in size.

Question 15

Why is RNA less stable than DNA?

Answer 15

Because it has one more Oyxgen atom than DNA.

Question 16

How can you purify DNA by precipitation (part 1)

Answer 16

1. Grind sample in mortar and pestle to break down cell walls
2. Mix sample with detergent to break down cell surface membrane, releasing the cell contents into solution
3. Add salt to break the hydrogen bonds between DNA and the water molecules

Question 17

How can you purify DNA by precipitation (part 2)

Answer 17

4. Add protease to break down proteins associated with DNA in the nuclei
5. Add layer of alcohol to cause DNA to precipitate out of solution
6. Use a glass rod to spool the white strands of DNA

Question 18

What phases of mitosis does DNA replication occur?

Answer 18

In interphase.

Question 19

What does semi-conservative replication mean?

Answer 19

That the two daughter strands are made up of one old template strand and one newly replicated strand.

Question 20

What does degenerate code mean?

Answer 20

That one amino acid can be coded for by more than one codon

Question 21

Why is DNA non-overlapping?

Answer 21

Because one nucleotide is only part of one triplet.

Question 22

Why is DNA replication continuous and discontinuous?

Answer 22

Because DNA polymerase works in a 5’ to 3’ direction, it is able to synthesis the leading strand continuously but has to synthesise the lagging strand in a 3’ to 5’ direction in Okozaki fragments.

Question 23

Where does DNA replication begin?

Answer 23

At the origin, which eukaryotic cells have multiple sites of origin.

Question 24

How did the Meselson and Stahl experiment prove that DNA replication is semi-conservative? (part 1)

Answer 24

Because after the first replication the band of DNA was in the middle of the centrifuge tube, which showed that the new DNA was half heavy nitrogen and half light nitrogen. However, this could shows either semi-conservative or dispersive replication.

Question 25

How did the Meselson and Stahl experiment prove that DNA replication is semi-conservative? (part 2)

Answer 25

After a second replication, there were two bands, one of light nitrogen, which showed two daughter DNA of completely new DNA and one in the middle, which was half light and half heavy nitrogen, which showed that there were two DNA with one old and one new strand.

Question 26

What are the steps of DNA replication?

Answer 26

1. DNA helicase breaks the hydrogen bonds between the bases, creating a replication fork. The two strands are now separated.
2. Free nucleotides that have been activated are attracted to their complementary bases.
3. Once the free nucleotides have been lined up, they (bottom three nucleotides) are joined together by DNA polymerase, which forms phosphodiester bonds.
4. Finally, all the nucleotides are joined together to form a polynucleotide. Both strands consist of one old strand and one newly replicated strand.

Question 27

What ability does DNA polymerase have?

Answer 27

It has proof-reading ability. DNA polymerase makes 1 mistake for every billion base pairs copied. When an incorrect base is pair is recognised, DNA polymerase moves back one base pair.

Question 28

Does the correct base pair with the complementary base straight away?

Answer 28

No, it does not. DNA polymerase waits until the right base has been put in until it can move a long.

Question 29

What is a start codon?

Answer 29

A codon that indicates where DNA polymerase should read the genetic code. Every reading frame is ATG.

Question 30

What is the reading frame on every genetic code?

Answer 30

ATG

Question 31

What is a stop codon?

Answer 31

A codon that indicated where DNA polymerase should stop reading the genetic code.

Question 32

What are examples of stop codons?

Answer 32

TAG, TAA, TGA

Question 33

What does DNA polymerase need in order to start synthesis?

Answer 33

It requires a free 3’ hydroxyl group on the deoxyribose

Question 34

Why are Okozaki Fragments created?

Answer 34

-DNA polymerase can only copy DNA in the 5’ to 3’ direction
-This means that it can continuously replicate the leading strand as it moves from the initial point of separation along the strand.
-To copy the lagging strand, the polymerase has to replicate backwards along the strand to the initial point of separation. -
Replication then stops, moves up the strand and moves backwards again to the segment that has already been copied. -
A series of disconnected DNA segment copies called Okazaki fragments are produced from the lagging strand.

Question 35

What is transcription?

Answer 35

Making a copy of something

Question 36

What is translation?

Answer 36

Process of converting something from one form into another

Question 37

Why must transcription occur?

Answer 37

Because DNA is too long to leave the nucleus so a short section of DNA, equivalent to one gene is transcribed onto a mRNA molecule so it can leave the nucleus.

Question 38

What are the three stages of transcription?

Answer 38

Initiation
Elongation
Termination

Question 39

What happens in initiation? TRANSCRIPTION

Answer 39

• RNA polymerase binds to the promoter region near the beginning of a gene held on the DNA
• The DNA is unzipped to make two strands of single stranded DNA
• The SENSE strand holds the triplet code for the sequence of amino acids
• The ANTISENSE strand does not code for the sequence of amino acids but is complementary in base sequence to the SENSE DNA strand.
• The ANTISENSE DNA strand acts as a template strand for RNA polymerase so that the mRNA sequence is the same as the SENSE DNA strand.

Question 40

What happens in elongation? TRANSCRIPTION

Answer 40

• RNA polymerase travels a long the DNA template strand (antisense)
• RNA polymerase matches complementary nucleotides to the bases on the DNA to make a complementary base sequence mRNA molecule.

Question 41

What happens in termination? TRANSCRIPTION

Answer 41

• At the end of a gene, RNA polymerase will encounter a stop triplet that terminates the production of mRNA (leaves it the length of one gene)
• RNA polymerase will detach from the DNA and release the newly made mRNA
• mRNA molecule is free to leave nucleus through nuclear pore
• DNA rewinds to form double helix DNA
• RNA polymerase makes more mRNA molecules.

Question 42

What makes up a ribosome?

Answer 42

• They are made up of rRNA (ribosomal) and proteins

- Ribosomes have a large ribosomal subunit and a small ribosomal subunit.

Question 43

What does the small ribosomal subunit do?

Answer 43

Reads the mRNA

Question 44

What does the large ribosomal subunit do?

Answer 44

Has two binding sites for tRNA molecules and is a catalytic site for joining amino acids together.

Question 45

What are the stages of translation?

Answer 45

Initiation
Elongation
Termination

Question 46

What happens in initiation? TRANSLATION

Answer 46

• Small ribosomal subunit binds to the mRNA at the start codon
• tRNA with anticodon UAC binds to complementary codon AUG by complementary base pairing, bringing the amino acid methionine
• Large ribosome subunit attaches to the small subunit.

Question 47

What happens in elongation? TRANSLATION

Answer 47

• Another tRNA molecule binds to the mRNA by complementary base pairing, bringing a specific amino acid
• Catalytic site on ribosome called peptidyl transferase creates a peptide bond between methionine and the amino acid brought by tRNA through a condensation reaction
• Ribosome moves a long the mRNA by one codon so the second tRNA bind site is clear
• Another tRNA molecule joins and the process goes on and on until the polypeptide is complete

Question 48

What happens in termination? TRANSLATION

Answer 48

• Ribosome encounters a stop codon on the mRNA
• Stop codon causes the ribosomal subunits to detach from each other and from mRNA
• Polypeptide is processed and modified through the Golgi apparatus to from a protein.

Question 49

What is ATP referred to as?

Answer 49

The universal energy currency

Question 50

What is ATP classified as?

Answer 50

A nucleoside triphosphate

Question 51

What makes up ATP?

Answer 51

Adenine, 3 phosphates, ribose

Question 52

What is ATP used for?

Answer 52

Energy transfer in cells of all living things

Question 53

What is the equation for ATP?

Answer 53

ATP + H20 <=> ADP + Pi

Question 54

Why is ATP used as an energy source?

Answer 54

• Because the terminal gamma phosphate requires little energy to break the weak bond
• So, when the bond breaking is coupled with a bond making reaction, that occurs at the same time, a large amount of energy is released.
• Cell can use this energy

Question 55

How much energy does ATP release?

Answer 55

30.6kJmol-1

Question 56

What is the concentration ratio of ATP to ADP in cells?

Answer 56

ATP concentrations are 5 fold-fold higher than concentration of ADP

Question 57

Where does ATP production occur?

Answer 57

Mainly in the mitochondria

Question 58

What percentage of volume to mitochondria make up in a typical eukaryotic cell?

Answer 58

25%

Question 59

What are the properties of ATP that make it a good energy source for cells?

Answer 59

• Short-term storage
• Made and then consumed by cellular reactors so is an IMMEDIATE source
• Soluble in water so can dissolve in the cytoplasm, often bound to M2+
• Small so allows transport around and between cells
• Easily regenerated as it can be made from ADP and Pi by a condensation reaction

Question 60

What is an anticodon?

Answer 60

A trinucleotide sequence, complimentary to the corresponding codon on a mRNA molecule

Question 61

When is ‘triplet’ and when is ‘codon’ used?

Answer 61

• ‘Triplet’ is used in reference to DNA

- ‘Codon’ is used in reference to RNA