lecture 12 - DNA replication

Question 1

In what direction is DNA synthesised?

Answer 1

5’ to 3’ (5’ phosphate attaches to 3’ OH)

Question 2

Where are the origins of replication in DNA replication?

Answer 2

At AT rich regions of DNA

Question 3

Why are the origins of replication in AT rich regions?

Answer 3

Because A-T base pairs have 2 hydrogen bonds while G-C bonding is stronger because they have 3 hydrogen bonds.

Question 4

What is the region where helicase continues splitting the strand, at the edges of replication bubbles?

Answer 4

Replication fork

Question 5

What is a region of split DNA strands called?

Answer 5

Replication bubble

Question 6

What is the leading strand in DNA replication?

Answer 6

The strand that, starting at an RNA primer, is continuously synthesised, from the 3’ to 5’ end of the template strand.

Question 7

What is the lagging strand in DNA replication?

Answer 7

The side on the opposite side of the origin of replication, that forms Okazaki fragments (discontinuous synthesis)

Question 8

What are the fragments made of DNA and RNA primer in the lagging strand of DNA replication?

Answer 8

Okazaki fragments

Question 9

What are the chemicals/enzymes required for DNA replication?

Answer 9

helicase, primase, DNA polymerase III, topoisomerase, SSBP, DNA polymerase I, DNA ligase

Question 10

How are the two DNA strands separated in semi-discontinuous DNA replication?

Answer 10

The enzyme helicase separates the strands at AT-rich regions

Question 11

What is the role of primase in DNA replication?

Answer 11

Primase is an enzyme that makes RNA primers, which attach to the single DNA strand and lay down a section, leaving a 3’ OH group for DNA nucleotides to bond to, allowing the rest of the strand to form

Question 12

What enzyme layers down RNA primers initially during DNA replication?

Answer 12

Primase

Question 13

What is the role of DNA polymerase III in DNA replication?

Answer 13

Synthesised daughter strand DNA by adding nucleotides, complementary to the parental template strand.

Question 14

How does DNA polymerase III start synthesising the DNA strand?

Answer 14

Starts at 3’ OH of RNA primer, then begins laying down nucleotides, with the bases complementary to the parent strand.

Question 15

How is DNA synthesised in the lagging strand?

Answer 15

Okazaki fragments are formed when DNA polymerase III starts at 3’ OH of RNA primers at points all along the lagging strands, laying down DNA nucleotides

Question 16

What is the process of laying down DNA nucleotides to form Okazaki Fragments?

Answer 16

Discontinuous synthesis

Question 17

Why are Okazaki fragments seperate from each other/ why is the lagging strand discontinuous?

Answer 17

Because there are no phosphodiester bonds between the 5’ end of the RNA primers and the adjacent DNA nucleotides

Question 18

What ‘end’ of a Okazaki fragment has the 5’ carbon group, and which has the 3’ carbon group?

Answer 18

RNA primer end has 5’, newly synthesised DNA has 3’ end

Question 19

What does SSBP stand for, in terms of DNA replication?

Answer 19

Single strand binding proteins

Question 20

What are single strand binding proteins?

Answer 20

Proteins that bind to single strands after they have been pulled apart by helicase, preventing them from bonding back together, or being degraded by other enzymes

Question 21

What is the function of topoisomerase in DNA replication?

Answer 21

Nicks and rejoins DNA strands to release tension as the DNA uncoils and the replication bubbles expand.

Question 22

What is the function of DNA polymerase I?

Answer 22

Uses endonuclease enzyme RNase H to recognise DNA:RNA hybrids (connections between RNA primers and synthesised DNA), and degrade the RNA, before DNA polymerase I synthesises DNA to replace these parts of the strand.

Question 23

What is used to recognise DNA:RNA hybrids in Okazaki fragments, and remove RNA from the fragments?

Answer 23

the endonuclease enzyme RNase H

Question 24

What is function of DNA ligase in DNA replication?

Answer 24

To join the fully synthesised Okazaki fragments together at 5’ and 3’ groups, removing the gaps and making the lagging strand continuous. Also joins leading and lagging strands, and strands from neighbouring replication bubbles

Question 25

What is used to repair errors in DNA during replication?

Answer 25

Exonuclease

Question 26

What is used to repair errors in DNA after replication?

Answer 26

Endonuclease

Question 27

Why must errors in DNA base pairing be corrected?

Answer 27

If left un corrected, one half of the strand, when split, will replicate with the incorrect base and will then form DNA with an incorrect base pair. forming a permanent mutation

Question 28

How does DNA pol III make repairs to DNA with errors during replication?

Answer 28

DNA pol III uses exonuclease to ‘proofread’ the newly inserted nucleotide, and compare to the the template/parent strand. If there is a fault (base attached to wrong base pair), the incorrect base is replaced.

Question 29

How are errors in DNA formed after replication?

Answer 29

Radiation (UV), or chemical base modification

Question 30

How does repair of DNA errors occur after replication?

Answer 30

Endonuclease removes the error and the flanking regions. DNA polymerase synthesises more DNA and then DNA ligase joins this new section to the existing DNA.

Question 31

What is the name for in vitro DNA synthesis?

Answer 31

PCR (polymerase chain reaction)

Question 32

What are the 3 key steps in PCR/in vitro DNA synthesis?

Answer 32

Denaturation, Annealing, Extension

Question 33

What is the process of denaturation in PCR?

Answer 33

DNA is heated to high temperatures (94-98 degrees), which separates the strands

Question 34

At what temperature range does denaturation occur in PCR?

Answer 34

94 to 98 degrees celsius

Question 35

What is Annealing in PCR?

Answer 35

When the temperature of the DNA is decreased to 45-70 degrees, DNA primers will bind to complementary sections of DNA

Question 36

What is the temperature at which Annealing in PCR occurs?

Answer 36

45 to 70 degrees

Question 37

What is the process of extension in PCR?

Answer 37

DNA polymerase extends from DNA primers, synthesising DNA along the daughter strand.

Question 38

The rate of replication occurring in PCR can best be described as?

Answer 38

Exponential Amplification

Question 39

In PCR, does replication occur in continuous or discontinuous strands?

Answer 39

Two continuous strands

Question 40

What are the components required for PCR?

Answer 40

Template DNA, DNA primers, DNA polymerase, dNTPS (deoxyribonucleic triphosphates - A,T,G,C)

Question 41

What is required to bring in bases for replication during PCR?

Answer 41

dNTPs

Question 42

What are dNTPs?

Answer 42

The free nucleotides that are added during PCR to act as the building blocks used by DNA polymerase to form the leading strand