DNA to protein

Question 1

Which route does DNA take during replication?

Answer 1

DNA - pre mRNA, mature mRNA, ribosomes

Question 2

What is the central dogma?

Answer 2

How information in DNA becomes a protein

Question 3

Where does transcription occur?

Answer 3

Only in nucleus

Question 4

What are the three phases of transcription?

Answer 4

Initiation, elongation, termination

Question 5

Describe the process of transcription

Answer 5

RNA polymerase binds to the 5’ promoter end of a gene
In eukaryotes, this occurs via the action of basal transcription factors
RNA polymerase is able to open the DNA without helicase
Elongation occurs as RNA polymerase moves down DNA in a 5’ to 3’ direction
This continues until enzyme reaches a terminator sequence
mRNA is modified and leaves nucleus

Question 6

What do basal transcription factors do?

Answer 6

Bind to promoter region
Helps RNA polymerase get a ‘foothold’ on the DNA
Recognise the TATA box region of a gene and helps others to bind

Question 7

What happens during gene expression?

Answer 7

pre mRNA is spliced to form mature mRNA

Question 8

What is alternative splicing?

Answer 8

Results in a single gene coding for multiple proteins
Exons may be included or excluded from mRNA
Proteins produced will have different amino acids - different functions
Increases diversity

Question 9

How else can RNA be modified?

Answer 9

A modified guanine can be added to the 5’ end

A polyA tail can be added to the 3’ end

Question 10

What does the 80s ribosome contain?

Answer 10

A 60s and 40s subgroup

Question 11

How many types of rRNA are in the 60s ribosome?

Answer 11

3

Question 12

How many proteins are in the 60s ribosome?

Answer 12

45

Question 13

How many types of rRNA are in the 40s ribosome?

Answer 13

1

Question 14

How many proteins are in the 40s ribosome?

Answer 14

30

Question 15

Describe the process of translation

Answer 15

Ribosomes bind to mRNA in the cytoplasm and move in a 5’ to 3’ direction until a start codon is reached
Anticodons on tRNA align opposite the complementary codons
Each tRNA molecule is attached to an amino acid
Ribosomes catalyse the formation of peptide bonds between amino acids - condensation reaction
Ribosomes move along mRNA until a stop codon is reached
Translation ceases, polypeptide released

Question 16

What amino acid does the start codon code for?

Answer 16

Methionine

Question 17

What happens when the central dogma goes wrong?

Answer 17

Change in chain’s DNA sequence - change in structure and function of protein

Question 18

How is sickle cell anaemia caused?

Answer 18

One amino acid change
Glutamate - valine at position 7
occurs in haemoglobin B chain

Question 19

Primary protein structure

Answer 19

Linear sequence of amino acids

Question 20

Secondary protein structure

Answer 20

Hydrogen bonds form alpha helices and beta pleated sheets

Question 21

Tertiary protein structure

Answer 21

3D folding due to side chain interactions

Question 22

Quaternary protein structure

Answer 22

More than one amino acid chain

Question 23

What is structural biology?

Answer 23

Determination of 3D structures of biological macromolecules such as proteins or amino acids

Question 24

What happens if the folding of proteins is disrupted?

Answer 24

Proteins can display sticky ends and aggregate into fibres - can create toxic proteins

Question 25

Where are DNA and RNA found?

Answer 25

DNA - nucleus

RNA - move to ribosome

Question 26

Functions of DNA and RNA

Answer 26

DNA - stores genetic information

RNA - transfers genetic information to organelles

Question 27

Structures of DNA and RNA

Answer 27

DNA - Double helix

RNA - Single helix

Question 28

Bases and sugars in DNA and RNA

Answer 28

DNA - ATGC, deoxyribose

RNA - AUGC, ribose

Question 29

Amounts of DNA and RNA

Answer 29

DNA - fixed

RNA - variable

Question 30

Ratios of DNA and RNA

Answer 30

DNA - 1:1

RNA - none, single stranded

Question 31

Number of types of DNA and RNA and what they are

Answer 31

DNA - 2 mitochondrial and one nuclear

RNA - tRNA, mRNA, rRNA

Question 32

Base pairings of DNA and RNA

Answer 32

DNA - A-T, G-C

RNA - A-U, G-C

Question 33

Reactivities of DNA and RNA

Answer 33

DNA - not very reactive

RNA - much more reactive

Question 34

What is situs inverses?

Answer 34

Inversion of visceral organs

Question 35

What happens to the symmetry of the body when cilia are defective?

Answer 35

Cilia normally determine the left-right symmetry of the body, when they are defective it means that this symmetry is chosen by chance

Question 36

Function of DNA gyrase

Answer 36

Opens DNA and removes supercoils that form infant of replication fork

Question 37

What is a topoisomerase?

Answer 37

Enzymes that participate in over/under winding of DNA

Question 38

Describe the process by which DNA replicates

Answer 38

DNA gyrase, a topoisomerase, reduces torsional resistance by generating transient breaks in DNA
DNA primate adds short, complementary RNA primers
DNA polymerase iii adds nucleotides to extend primmer in the 5’ to 3’ direction - this is the leading strand
Primers are also generated on the lagging strand, creating fragments known as Okazaki fragments
RNA polymers are removed and replaced by DNA by polymerase I
DNA fragments connected by ligase

Question 39

Who discovered the central dogma?

Answer 39

Watson and Crick

Question 40

What is the most common form of the double helix?

Answer 40

B-form

Question 41

Where will the base attach to the sugar in a nucleotide?

Answer 41

The 1’ carbon

Question 42

To what position carbon atoms will the phosphate group attach in a nucleotide?

Answer 42

The 5’ of one nucleotide and the 3’ of another

Question 43

What is the name of the bond that attaches two nucleotides together?

Answer 43

Phosphodiester

Question 44

Which of the bases are the pyrimidines?

Answer 44

C and T

Question 45

What is a pyrimidine base?

Answer 45

They have a single ring structure

Question 46

Which of the bases are purines?

Answer 46

A and g

Question 47

What is a purine base?

Answer 47

They have a double ring structure

Question 48

How is DNA replicated?

Answer 48

Strands are separated by helicase
Results in a replication fork
Primase makes small pieces of RNA called primers
DNA polymerase binds to primer (can only add in 5’ to 3’ direction)
Leading strand is made continuously
Lagging strand runs in the opposite direction and is made in small chunks called Okazaki fragments
Each fragment starts with RNA primer
Polymerase adds bases in the 5’ to 3’ direction
The the new strand is made, exonuclease removes the RNA primers
DNA polymerase fills in gaps with DNA
DNA ligase seals fragments to form double strand

Question 49

Function of primers

Answer 49

Marks the starting point for constructing new DNA

Question 50

Why can’t G and T bond?

Answer 50

The bond would have the wrong geometry and symmetry so disturb the helix

Question 51

How many base pairs are on each turn of the helix?

Answer 51

10

Question 52

How does stacking bases stabilise the structure?

Answer 52

Pi-pi interactions form between aromatic rings of the bases - they share electron probabilities

Question 53

What are the two regular spaces found in DNA?

Answer 53

Major and minor grooves

Question 54

What do the grooves in DNA do?

Answer 54

Base pair recognition, protein binding sites

Question 55

What does the major groove do?

Answer 55

Backbones are far apart

Base pair specific information

Question 56

What does the minor groove do?

Answer 56

Backbones are closer together

Base pair non-specific information