Lecture 1 DNA Structure

Question 1

Transforming principle

Answer 1

Griffith found that dead virulent bacteria can transform to live form in the presence of a non-virulent live strain. Live IIS dead mouse, live IIR live mouse, dead IIS live mouse, live IIR dead IIS dead mouse. The substance that is transformed Griffith named the transforming principle - paved the way for Macleod and McCarthy

Question 2

Proving DNA is genetic material

Answer 2

Macleod and McCarthy added heat killed virulent (IIS) bacteria to live non virulent (IIR) bacteria. If RNAse or Protease are added bacteria is still transformed non to vir. But if DNAse added IIR not converted proving DNA is genetic material. A process of elimination uses mice as in Griffiths experiment

Question 3

X ray diffraction

Answer 3

Provides info on DNA structure. X-rays source > lead screen then crystal of substance bombarded w/xrays that diffract (bounce off it). Spacing of atoms in crystal determine diffraction pattern as dots on photographic film plate. (aka detector) providing diffraction pattern

Question 4

Nitrogenous bases

Answer 4

Purine 2 ring A and G. Pyimidine 1 ring C T U. A-T or U 2 bonds whereas C-G 3 bonds. Hence CG favoured for regions not to be opened and AT favoured for coding regions that need to be opened.

Question 5

Nucleosides

Answer 5

Nucleotides w/out a monophosphate group - so just base and sugar group - encode transmit and express genome. Nucleotides used as building blocks.

Question 6

Phosphodiester bond

Answer 6

Condensation reaction, 5’ 3’ bond forming a diphosphate group + H2O as byproduct. Hydroxyl group on C3 bonds to phosphate group on C5 of other nucleotide.

Question 7

DNA written 5’3’

Answer 7

5’ phosphorus available at right end and 3’ sugar available left. Only top strand needs to be written as bottom is complementary

Question 8

Genetic material must

Answer 8

Contain complex info/ replicate faithfully/ encode phenotype/ have capacity to variate
Faithful/variable contradict - allows evolution not all variation beneficial

Question 9

Genotype specifies RNA transcript

Answer 9

Determining proteins produced which are expressed in phenotype

Question 10

Base pairs stacked flat

Answer 10

Like a spiral staircase. Maximising Van Der Waals/ hydrostatic force up down and H bonds left right.base pairs internal to helix protected from water

Question 11

A B and Z form and grooves DNA

Answer 11

A compressed B relaxed both right facing. Z left facing helix. Major groove space to accommodate proteins and enzymes that bind DNA to do diff jobs eg replication

Question 12

When proteins bind to DNA

Answer 12

They can bend it allowing DNA to open up so enzymes can enter more easily eg for transcriptiom

Question 13

Denaturation

Answer 13

Loss of secondary structure leading to ss DNA. Promoted by heat, extreme ph and H bond breaking agents e.g. conc. Urea solution. Heat denatures cooling usually allows rehybridisation

Question 14

E. Chargaff 1955

Answer 14

Discovered quantity of T =A and C=G disproving tetranucleotide theory (that bases occur in groups of 4