Genes

Question 1

The South African Clawed Frog

Description

Answer 1

• Xenopus laevis
• first cloned vertebrate
• produces eggs (oocytes) that are released and fertilised externally
• an unfertilised oocyte contains 10^12 ribosomes
• ribosomes are made in a few weeks
• synthesised, injected mRNA is very readily translated in unfertilised oocytes as they don’t translate their own proteins until after fertilisation
• following fertilisation, no new synthesis of ribosomes takes place until after the 4096 cell stage

Question 2

The South African Clawed Frog

How long should it take to make 10^12 ribosomes?

Answer 2

• eukaryotic ribosomal RNA is a total of 45S transcript, ~12kb
• RNA polymerase binds every 100bp
• Xenopus genome contains 500 rRNA genes
• simultaneously, 120x500 = 60000
• to make 10^12 transcripts, this has to be repeated 16.7 million times
• RNA polymerase joins 20 nucleotides per second so 12kb takes 10 minutes
• this means it would take 317.5 years to make 10^12 ribosomes

Question 3

The South African Clawed Frog

Gene Amplification

Answer 3

• during oogenesis, rDNA repeat unit is amplified
• after amplification, the cell contains 2x10^6 copies of the rRNA genes
• this means that it takes 28.9 days to make 10^12 transcripts
• rDNA repeat units are amplified as circular extrachromosomal arrays
• so they have no centromeres and telomeres so they aren’t replicated during division
• eventually the amplified extra sequences are lost by degradation

Question 4

Drosophilia melanogaster

Description

Answer 4

• egg

- chorion (eggshell) made of protein encoded by four genes that are amplified during oogeesis

Question 5

Drosophilia melanogaster

Amplification

Answer 5

• 4 genes on after the other the first three in one direction and the fourth is inverted
• in the middle is an origin of replication for the chromosome
• after the first round of replication there are two copies of each gene
• after the second round there are 4 copies of each gene and so on…
• this is called the onion skin model of DNA amplification
• this allows lots of chorion proteins to be made

Question 6

Cellular Differentiation in Cyanobacteria

Description

Answer 6

• vegetative cells differentiate to form heterocysts in which nitrogen fixation takes place when nitrates are scarce
• this differentiation process involves DNA rearrangements

Question 7

Cellular Differentiation in Cyanobacteria

Gene Layout

Answer 7

• nifKD, fdxN, 11kb, nifD, nifH, nifU, nifS, fdxN, 55kb, fdxN, nifB
• homologous recombination results in the deletion of the sequences between the nif genes
• this allows coregulation of the nif genes so that nif proteins can accumulate

Question 8

Stages of the Immune Response

Answer 8

1) an antigen is introduced to the body
2) recognised by cells of the immune system
3) antibodies released by B-cells circulate in the blood

Question 9

The Immune System

Lymphocytes

Answer 9

T cells - phagocytes

B cells - antibody secretion, antibodies release by B cells circulate in the bloodstream to immobilise antigens

Question 10

Immune System

Recognition and Response

Answer 10

• antigen encounters and specifically binds to an antibody molecule bound to the surface of a B cell
• this stimulates the B cell to reproduce itself as a clone of cells
• each cell in the clone produces and secretes circulatory forms of the specific antibody
• for this to work there must be pre-existing cells displaying every conceivable antibody on the surface to ensure there exists a cell that can bind and respond to a novel antigen

Question 11

Antibodies

Structure

Answer 11

• two heavy chains
• two light chains
• antigen binding domain that is very variable and different in each specific antibody

Question 12

Somatic Recombination in Cells of the Immune System

Organisation of the Kappa-Light Chain Genes

Answer 12

• 350 variable regions with link regions between each
• length of DNA
• 5 junction genes
• constant region
• enzymes cut and rejoin the DNA discarding some sections so there are many combinations that can be formed from the same length of DNA

Question 13

Somatic Recombination in Cells of the Immune System

Mouse Kappa Light Genes

Answer 13

• 350 L-V regions
• 5(4functional) J regions
• 1 constant region
• this provides 1400 combinations not including alternative splicing or mistakes in recombination
• additionally small variation in V-J recombination eventually generating a vastly increased number of variants

Question 14

Somatic Recombination in Cells of the Immune System

Mouse Lambda Light Genes

Answer 14

• 2 L-V regions
• 4 J regions
• 1 constant region

Question 15

Somatic Recombination in Cells of the Immune System

Mouse Heavy Chain Assembly

Answer 15

• 350 L-V regions
• 4 J regions
• 4 constant regions
• 12 D (diversity) regions

-this provides 67200 different combinations

Question 16

Somatic Recombination in Cells of the Immune System

Mouse Light and Heavy Chains

Answer 16

• all possible combinations of light and heavy chains provides 94 million combinations
• this doesn’t include alternative splicing or repair of damage

Question 17

List of Antibody Types

Answer 17

IgA
IgD
IgE
IgG
IgM

Question 18

Antibodies

IgA

Answer 18

heavy chain - alpha

light chain - lambda or kappa

Question 19

Antibodies

IgD

Answer 19

heavy chain - delta

light chain - lambda or kappa

Question 20

Antibodies

IgE

Answer 20

heavy chain - epsilon

light chain - lambda or kappa

Question 21

Antibodies

IgG

Answer 21

heavy chain - gamma

light chain - lambda or kappa

Question 22

Antibodies

IgM

Answer 22

heavy chain - mu

light chain - lambda or kappa