Molecular Biology and Genetics

Question 0

What does DNA ligase do?

What are Okazaki fragments?

Answer 0

Joins Okazaki fragments

Short sequences of DNA sequenced on the anti
parallel DNA stand.

Question 1

What does DNA polymerase do?

Answer 1

Adds deoxynucleotide triphosphate groups to create a new DNA strand.

Question 2

What does helicase do?

What do topoisomerases do?

What does the (PCNA) sliding clamp do?

What does primase do?

Answer 2

Separates DNA

Relieves twists in DNA

Holds polymerase to DNA

Synthesises RNA primers

Question 3

What are the types of regulatory RNAs? What do they do?

Answer 3

microRNA (miRNA) - acts through RNA interference. Regulates gene expression. Single strand and very small.
small interfering RNAs. Act through RNA interference. Regulate gene expression. Double stranded and very small.

Question 4

What are the secondary structures formed by RNA?

Give an example of a tertiary structure formed by RNA.

Answer 4

Loops and hairpins

Pseudoknot

Question 5

How big is a ribosome in eukaryote? How big are all it’s component parts?

How big is a ribosome in a prokaryote? How big are all it’s component parts?

Answer 5

80s
Large subunit (60s) made of 5s, 5.8s and 28s
Small subunit (40s) made of 18s

70s
Large subunit (50s) made of 5s and 23s
Small subunit (30s) made of 16s

Question 6

What’s a TATA box?

Answer 6

A regulatory region that initiates the synthesis of a new polypeptide/ protein

Question 7

What are the stages of transcription?

Answer 7

Initiation

Elongation

Termination

Question 8

What is a mutation?

What is a transition mutation?

What is a transversion mutation?

Answer 8

Heritable change in the nucleotide sequence of DNA molecule

When a purine is replaced by a purine and vise versa.

When a purine changes to a pyrimadine and vise versa.

Question 9

When considering mutations what is a reversion?

What is a suppression? What are the two types?

Answer 9

Genotype restored, e.g. mutation that produces synonymous codon

Restoration of phenotype by a second unrelated mutation.
Extragenic suppression - another gene is mutated to compensate for, or suppress the original mutation
Intragenic suppression - a second mutation occurs in the same gene to suppress the effect of the first mutation

Question 10

When lactose is present how many transcription factors are bound to the lac operon?

Answer 10

1

Question 11

When both lactose and glucose are present how many transcription factors are bound to the lac operon promoter region?

Answer 11

0

Question 12

When e.coli is grown on a mixture of lactose and glucose which is used first?

Answer 12

Glucose

Question 13

In the presence of L-arabinose and absence of glucose which transcription factors are bound to the upstream promoter region of an E.coli arabinose operon.

Answer 13

AraC and CRP

Question 14

What are snRNA’s?

What are snoRNA’s?

What are scaRNA’s?

Answer 14

Small nuclear RNA’s - function in splicing of pre-mRNA

Small nucleolar RNA’s - process and chemically modify rRNA.

Small cajal RNA’s - modify snoRNA and snRNA

Question 15

Does DNA or RNA polymerase need a primer?

Which has a higher error rate RNA or DNA polymerase? Why can it afford more error?

What is the combined error rate for DNA replication?

Answer 15

DNA polymerase does, RNA polymerase doesn’t

RNA polymerase but RNA doesn’t affect a cells viability so can afford error, faulty proteins can be removed faulty DNA can lead to cell death.

1 in 10^9

Question 16

What are three types of RNA processing?

Answer 16

5’ capping - a 7methylguanosine cap is added which protects degradation and aids export

Polyadenylation of 3’ tail - protects degradation and aids export

Introns are also spliced out

Question 17

How does splicing aid evolution?

Answer 17

Splicing can yield multiple proteins from the same gene increasing the coding potential of the genome

Question 18

What is DNA base excision repair?

What is nucleotide excision repair?

Answer 18

Where a base is removed and replaced

Where a stretch of DNA around the damage is removed and replaced

Question 19

If glucose is transported in a bacteria what happens to adenylate cyclase?

What happens when a cell runs out of glucose?

What is the CRP, what does it do?

Answer 19

It’s inhibited and cyclic AMP cannot be generated

Adenylate cyclase is activated and cyclic AMP is produced

Cyclic AMP receptor protein, acts positively as a transcriptional activator

Question 20

What is AraC? What does it do?

Answer 20

AraC is a dimer and a specific regulator, in the presence of arabinose it adopts a rigid structure and binds to L1 and L2 and contacts RNA polymerase starting transcription

If arabinose is absent, the dimer AraC protein represses the structural gene by binding to stuff and forming a loop. The loop prevents RNA polymerase from binding to the promoter of the ara operon, thereby blocking transcription.

Question 21

What happens if trp is present?

What happens if no trp is present?

Answer 21

Trp binds to the repressor allow it to bind to he operator and stop transcription

The repressor is not activated

Question 22

Why does DNA have thymine instead of uracil?

What is cytosine deamination?

Answer 22

Because if uracil was in DNA the cells repair system would not be able to distinguish deaminated cytosine form uracil.

A type of chemical modification where cytosine is converted to uracil

Question 23

What are levels of control of gene regulation in bacteria?

What effect do these levels of control have on levels of protein?

Answer 23

Transcription initiation
Transcription termination
Translation initiation
Translation elongation rate
Translation 'frameshifting'
Rate of RNA 'turnover'
Rate of protein 'turnover'
Modification of protein activity

Levels of control helps determine the concentration of active protein in a cell

Question 24

Describe a typical bacteria promoter?

Answer 24

Comprised of two conserved hexanucleotide ‘boxes’, this consensus promoter sequence is recognised by a sigma factor

Question 25

What is a bacterial operon?

Answer 25

Two or more genes transcribed as single mRNA molecule (a polycistronic mRNA)

Question 26

There are two modes of regulation of the trp operon.
How is transcription initiation controlled?

How is transcription termination controlled?

Answer 26

By the Trp repressor protein

Attenuation of transcription of trp operon (regulation of transcription termination) relies on the coupling of transcription and translation

Question 27

In the recombination of bacteria, what is a holiday junction?

Answer 27

The position that is formed when a recombination intermediate is rotated

Question 28

When looking at DNA recombination what is transposition?

Answer 28

Also called non-homologous or illegitimate recombination. Doesn’t require sequence similarity between the two DNA molecules

Question 29

What is a cosmid?

Answer 29

A type of plasmid used to clone large gene fragments

Question 30

What is heterochromatin?

What is euchromatin?

Answer 30

Tightly packaged DNA, genes inactive

DNA not as compact, genes active, DNA and RNA polymerase can bind

Question 31

What is chromatin?

What is heterochromatin?

What is euchromatin?

Answer 31

DNA + histone proteins

Highly packaged inactive genes

Not as compact, active genes

Question 32

What dimers make up a nucleosome?

What does H1 do?

Answer 32

Two lots of H2A, H2B, H3 and H4

Link nucleosomes

Question 33

What are the levels of DNA packaging?

Answer 33

10nm fibre ‘beads on a string’

30nm fibre

300nm fibre (loops)

700nm chromatid

1400nm chromosomes

Question 34

What type of modification activates genes?

What types of modification (usually) inactivates genes?

Answer 34

Histone acetylation

Histone methylation and histone phosphorylation

Question 35

What percentage of the genome codes for genes and related sequences?

What percentage of the genome codes for protein?

Answer 35

25%

2%

Question 36

What percentage of the genome codes for pseudogenes?

What percentage of the genome codes for repetitive sequences?

Answer 36

23%

55%

Question 37

What are homologues?

What are orthologues?

What are paralogous genes?

Answer 37

Genes with similar sequences

Derived from a common ancestor gene but in different species

Derived from a common ancestral gene but in the same species

Question 38

What is the name of factors that bind close to the promoter?

What is the name of factors that behind further away from the promoter

Answer 38

Proximal factors

Distal factors

Question 39

What does constitutive expression mean?

Answer 39

The gene is always being expressed (is on all the time)

Question 40

Describe a lysogenic bacteria.

Answer 40

When a bacteriophage injects its DNA into a bacteria instead of replicating the DNA intergrates into the bacterial chromosome and forms a lysogen cell, this can remain dormant for years

Question 41

When considering horizontal gene transfer in bacteria, what do the the following mean?

Conjugation

Transduction

Transformation

Answer 41

Plasmid mediated transfer (cell-to-cell)

Phage mediated transfer

Uptake of ‘naked’ DNA

Question 42

Are TATA boxes present in all protein coding genes?

Answer 42

No some gene have housekeeping genes or initiator factors instead

Question 43

What domain of RNA polymerase 2 must be phosphorylated for transcription to begin?

Answer 43

C terminal domains

Question 44

What do reporter gene assays test for?

What do EMSAs test for?

Answer 44

Transcription activity

Directly show binding of nuclear proteins to a specific part of the promoter

Question 45

What DNA binding domain is found in nuclear receptors?

Answer 45

Zinc finger

Question 46

What are the four main types of DNA binding domain?

Answer 46

Helix-turn-helix

Zinc-finger

Leucine zipper

Basic helix-loop-helix

Question 47

What are the two genes involved in X inactivation?

What is the mechanism for X inactivation in females?

Answer 47

Xist and Tsix

1. During early development XIC centers pair
2. Xist is transcribed on one chromosome and Tsix on another
3. Xist produces a long non-coding RNA which coats the X chromosome and causes it to condense (and so not be expressed)

Question 48

What is the pseudoautosomal region on the X and Y chromosome?

Answer 48

A short region that is homologous on both the X and Y chromosome and allows for recombination

Question 49

What is a mutation, what is a polymorphism and how are they different?

Answer 49

A mutation is rarer and is a change in the base sequence that has a deleterious (harmful/ damaging) effect on function

A SNP (single nucleotide polymorphism) has a small/ no effect on genetic function and so is more common

Question 50

What does the abbreviation dATP stand for?

What does it do?

Answer 50

2’-deoxyandenosine-5’-triphosphate

Used in DNA synthesis as a substrate of DNA polymerase

Question 51

What is the difference between a nucleotide and nucleoside?

Answer 51

A nucleotide consists of a nitrogenous base a sugar and a phosphate group. A nucleoside consists of a nitrogenous base attached to a sugar but without a phosphate group

Question 52

How many copies of rRNA genes are there in the human genome?

Answer 52

200

Question 53

What type of bond links phosphate groups?

How many rings do purines have?

How many rings do pyimidines have?

Answer 53

Phosphoester bond

2

1

Question 54

What’s the error rate of RNA polymerase?

Answer 54

1 in 10^4

Question 55

What is the name of the enzyme that adds amino acids to tRNA?

What type of bond is created between the tRNA and amino acid?

Answer 55

Aminoacyl-tRNA synthetase

High energy ester bond

Question 56

What stabilises a proteins 3D structure?

What type of interactions help form the tertiary structure of proteins?

Answer 56

Interactions (mostly noncovalent) between amino acids

Hydrophobic interactions by non-polar side groups and H-bonds by polar groups

Question 57

What sort of damage to DNA can UV light cause?

What is the difference between a missense and a nonsense mutation?

Answer 57

The formation of pyrimidine dimers

Misssense is where one a change in the base sequence produces another amino acid
A nonsense mutation is where a change in the base sequence produces a stop codon

Question 58

What happens to RNA polymerase if there is a high tryptophan concentration?

What happens to RNA polymerase if there is a low Trp content?

Answer 58

The ribosome covers region 2 of the Trp operon, a 3-4 stem loop forms and transcription terminates

RNA polymerase is stalled at region 1, a 2-3 step loop forms and RNA polymerase continues transcription

Question 59

At what stage of cell replication does DNA condense into visible chromosomes?

Answer 59

Prophase

Question 60

How big are micro satellites?

How big are mini satellites?

How big are satellites?

Answer 60

2-4 bp

15-35 bp

36+ bp

Question 61

What do linkage analyses study?

What do association studies look at?

Answer 61

Affected siblings

Unrelated cases/ controls