Lecture 7: The structure of DNA

Question 1

What did Phoebus Leven show in 1930?

Answer 1

That each building block of DNA is a nucleotide: a phosphate group linked to a deoxyribose sugar, which is linked to one of 4 nitrogenous bases.

Question 2

What is a nucleoside?

Answer 2

A sugar and a base

Question 3

What are the 4 DNA bases?

Answer 3

Adenine, guanine, cytosine, thymine

Question 4

Who came up with the tetranucleotide theory?

Answer 4

Phoebus Levene, and this was before he had even worked put the structure of a nucleotide.

Question 5

What sugar is used in DNA?

Answer 5

Deoxyribose

Question 6

Draw out deoxyribose sugar

Question 7

Draw out ribose sugar

Question 8

What is the structure of purines?

Answer 8

They’re double-ringed

Question 9

What are the 2 purines?

Answer 9

Adenine and Guanine

Question 10

What is the structure of pyrimidines ?

Answer 10

They’re single-ringed

Question 11

What are the 2 pyrimidines?

Answer 11

Cytosine, Thymine, Uracil (in DNA only)

Question 12

How do glycosidic bonds form in pyrimidines?

Answer 12

Between the carbon 1 of the sugar and the N1.

Question 13

How do glycosidic bonds form in purines?

Answer 13

Between the carbon 1 of the sugar and N9.

Question 14

How do you get from a nucleoside to a nucletoide?

Answer 14

You phosphorylate the nucleoside (add a phosphate group to it)

Question 15

Where do ester links form in nucleotides?

Answer 15

between sugar C-5’ group and the phosphate

Question 16

Draw 2’- deoxyguanosine – 5’ monophosphate

Question 17

Draw 2’-deoxycytidine – 5’ monophosphate

Question 18

Draw 2’- deoxyadenosine - 5’ monophosphate

Question 19

Draw 2’-deoxythymidine – 5’
monophosphate

Question 20

Nucleotides nomenclature

Question 21

What does a phosphodiester bond do?

Answer 21

A phosphodiester bond links the 3’ C of one nucleotide to the 5’ C of the next. This means that DNA strands have POLARITY: a 5’ end and a 3’ end.

Question 22

Is the DNA base sequence read from 5’ to 3’?

Answer 22

Yes

Question 23

What does the 5’ end of a DNA strand have?

Answer 23

A phosphate group

Question 24

What does the 3’ end of a DNA strand have?

Answer 24

A hydroxyl group

Question 25

What must be considered everytime a nucleic acid is considered?

Answer 25

Polarity/Directionality

Question 26

What did Phoebus Levene propose in 1930?

Answer 26

The Tetranucleotide model that said that the 4 nucleotides occurred in tetanucleotide blocks, with the bases pointing outwards.

He therefore came to the conclusion that DNA was simple and repetitive and could not be the genetic material.

This meant that Avery et al, who showed that DNA was the transforming principle (1944) were not believed and in 1952, Hershey and Chase could go no further than state that ‘…DNA has some function. Further chemical inferences should not be drawn…’

Question 27

At the time, who was one of the only scientists who favoured Avery’s paper over Leuvene’s?

Answer 27

Erwin Chargaff

Question 28

f Levene’s tetranucleotide model were correct, then the nucleotides in DNA would be present in…

Answer 28

equal proportion. So, % T = % A = % G = % C

Question 29

How did Chargaff experiment in 1950?

Answer 29

• He measured the base compositions in different organisms.
• He did this with: Homo Sapiens, Sweetcorn, fruit flies, and ducks.
• He also recognised that there was a certain proportion of GC’s.
• None of these fitted the accepted model. As the percentages of the bases weren’t equal. Instead, %T = %A and %G = %C, and %GC varied with the organism.

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Question 30

Who was the leading structural chemist in 1950?

Answer 30

Linus Pauling

Question 31

Who described the alpha helix in 1951?

Answer 31

Linus Pauling

Question 32

What technique enabled Linus Pauling to work out the Alpha helix structure in 1951?

Answer 32

X-ray crystallography

Question 33

How did x ray crytallography work ?

Answer 33

• Take a molecule and crystallise it.
• When those crystals are formed, you hang it in front of an x-ray source and illuminate it with x-rays.
• Those x-rays hit the crystals and are deflected in different directions through a process called diffraction.
• You hold a piece of photographic film at the back, which gets exposed, then developed.
• You see spots on the photographic film called reflections.
• Because you know the distance from the target to the film, and because you know the wavelength of the x-rays, you can use maths to find out the structure of the molecule and what exactly caused the diffraction.
• Using the tops of both the blobs, a cross could be drawn.
• Worked out that whenever you see an x-ray image of a cross and worked backwards, you’d end up with a helix.

Question 34

When light passes through a small opening, comparable in size to the wavelength of the light, a wave front is propagated on the other side.

What happens when you add a photographic film and then expose and develop this?

Answer 34

A single spot appears on a screen

Question 34

What happens when you widen the slit?

Answer 34

All points across the slit act as a point source.

The result is a single slit diffraction pattern on the screen, with a central beam of light that is surrounded by 2 other beams of light.

Question 35

When was the wave theory of light published?

Answer 35

In 1678

Question 36

What happens if there are 2 slits?

Answer 36

The diffraction pattern interferes, and the result is a complex double slit interference pattern on the screen.

Question 37

What are the size and shape of the pattern dependant on?

Answer 37

• The width of the slits
• How many slits there are
• How far apart the slits are

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Question 38

The more slits there are…

Answer 38

the sharper the pattern becomes

Question 39

How can you calculate how far apart the slits are?

Answer 39

By knowing the wavelength of the incident light.

Question 40

What did Augustin Fresnel show in 1815?

Answer 40

That diffraction also occurred around a solid object with the same width as the slit, and that the result was similar to the familiar diffraction pattern on the screen.

Question 41

Is it true that feautures that are close produce widely separated reflections?

Answer 41

Yes

Question 42

Is it true that features that are distant produce closely separated reflections?

Answer 42

Yes

Question 43

What do vertical gratings produce?

Answer 43

Horizontal spots

Question 44

What do horizontal gratings produce?

Answer 44

Vertical spots

Question 45

What do grids produce?

Answer 45

A cross

Question 46

What do angled grids produce?

Answer 46

An angled cross

Question 47

Why do reflections from a helix form a cross?

Answer 47

Because the aligned helices effectively form an angled diffraction grid, which produces a cross.

Question 48

How do we know that the DNA is helical?

Answer 48

Because photo 51 shows a cross image.

Question 49

Could DNA be crystallised at the time?

Answer 49

No, instead it could be stretched into long fibres that could be mounted in front of the X-ray source. This is called X-ray fibre diffraction.

Question 50

Who stretched DNA and air dryed it, and then illuminated it with X-rays?

Answer 50

Maurice Wilkins

Question 51

Who stretched out DNA and left it hydrated before illuminating it?

Answer 51

Raymond Gosling, Rosalind Franklin’s DNA student

Question 52

Describe Maurice Wilkin’s X-ray image of DNA that he produced in 1950

Answer 52

• He produced an image using the process of X-ray diffraction of dried DNA (the A form) .
• It was high resolution, but without a clear model in mind, it was difficult to interpret.

Question 53

Describe Gosling and franklin’s photo 51

Answer 53

• In 1952, after 100 h of exposure, Gosling and Franklin produced ‘Photo 51’ using hydrated DNA – the ‘B’ form.
• The cross was unmistakable and so it was concluded that DNA must be helical .

Question 54

Who was involved in the race to find out the structure of DNA?

Answer 54

• Linus Pauling
• Rosalind Franklin
• James Watson, Francis Crick, Maurice WIlkins

Question 55

What structure of DNA did Linus Pauling propose?

Answer 55

He proposed there being 3 strands of DNA, wrapped around each other, with the bases pointing outwards.

Question 56

Why did many people believe Pauling’s proposed DNA structure?

Answer 56

Because he was the foremost structural chemist

Question 57

What DNA model did James Watson, Francis Crick, Maurice WIlkins propose?

Answer 57

a double helix 2-strand model, with the bases pointing inwards

Question 58

What was each turn of the helix of DNA measured to be?

Answer 58

3.4 nm

Question 59

What was the distance between the bases measured to be?

Answer 59

0.34 nm (10 bases per turn of the helix)

Question 60

What was the pitch of the helix measured to be?

Answer 60

2nm

Question 61

How did Watson and Crick come to the conclusion that the DNA was a double helix?

Answer 61

• The data from photo 51 were consistent with a double helix, with the bases paired.
• Remembered Chargaff’s base pairing. (one of purine and pyrimidine was perfect)
• Realised that the strands must be antiparallel, as this was the only way that the bond angles would work.

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Question 62

What are the 6 key features of the Watson-Crick model?

Answer 62

1) The two polynucleotide chains are wound in a right-handed (clockwise) double-helix.

2) The strands are anti-parallel (from consideration of bond angles)

3) Sugar-phosphate backbones are on the outside of the double helix, and the bases are oriented towards the central axis.

4) Complementary base pairs from opposite strands are bound together by weak hydrogen bonds.

5) The B form of DNA is now regarded as having 10.5 base pairs per turn, the helix turn is now regarded as 3.6 nM.

6) The sugar-phosphate backbones are not equally-spaced, resulting in major and minor grooves.

Sequence-specific DNA-binding proteins generally interact with the major groove of B-DNA, because the backbones do not get in the way.

Question 63

How many hydrogen bonds do Adenine and Thymine form?

Answer 63

2

Question 64

How many hydrogen bonds do Guanine and Cytosine form?

Answer 64

3

Question 65

What are the structural variants of DNA

Answer 65

A DNA

B DNA

Z DNA

Question 66

A DNA

Answer 66

only in low hydration conditions.

Question 67

B DNA

Answer 67

the most structurally stable form under physiological conditions.

Question 68

Z DNA

Answer 68

taken up physiologically by stretches of alternating pyrimidines and purines.