epigentic applications

Question 1

name 2 ways to study epigenetics

Answer 1

DNA-protein interaction (histone modifications)
DNA methylation sequencing
Non-coding RNA sequencing

Question 2

explain how DNA-protein interaction (histone modifications) is used to study epigenetics

Answer 2

1. Crosslink DNA-proteins & isolate
2. immunoprecipitate with specific antibody
3. Remove crosslinks & purify DNA
4. DNA sequencing
   Peak calling: identify regions of the genome associated with specific histone modifications

Question 3

explain how DNA methylation sequencing is used to study epigenetics

Answer 3

1. Bisulfite treatment: conversion of non-methylated Cytosine into Thymine
2. Bisulfite sequencing analysis: ratio of C/T = level of original methylation

Question 4

explain how Non-coding RNA sequencing is used to study epigenetics

Answer 4

1. Extract total RNA
2. Enrich ncRNAs (size selection, chemical enrichment. mRNA + rRNA depletion etc)
3. High throughput sequencing
4. Align to genome or ncRNA sequences
5. Annotate & quantify ncRNAs

Question 5

4 reasons to study epigenetics

Answer 5

Regulation of development
Response to environment
Contributions to phenotypic plasticity
Disease risk

Question 6

2 examples of Response to environment reason to study epigenetics

Answer 6

• Twin study: their shared epigenetic marks they were born with gets modified as they get older due to environmental effects
• Animal study (bees): if royal jelly nutrition is high you get lower DNA methylation (queen bee) + if royal jelly nutrition is low you get higher DNA methylation (worker bee)

Question 7

explain why epigenetic contributing to phenotypic plasticity is a reason to study epigenetics

Answer 7

• Epigenetic modifications can induce stable changes in gene expression
  -during an individual’s lifetime (mitotic inheritance)
  -potentially heritable
• Development of tolerance to environmental stressors e.g. Metal exposure in Rice altered methylation patterns which were heritable - increased metal tolerance in progeny
• Rapid adaptation to a new environment

Question 8

example of Disease risk being a reason to study epigenetics

Answer 8

The agouti mouse as a biosensor for nutritional and environmental effects on the foetal epigenome and disease risk
- agouti gene in one offspring is methylated (not transcribed) while the agouti gene in the other offspring is non methylated causing it to transcribe
- non methylated mouse shows yellow fur, obesity, diabetes + prone to cancer when exposed to environmental effects like poor diet and alcohol

Question 9

name 4 examples of epigenetic case studies

Answer 9

1. Why identical twins are not actually identical
2. Stress memory inplants improves drought tolerance
3. Inherited fear behaviour in rats
4. The Dutch Hunger Winter

Question 10

explain the stress memory case study of epigenetics

Answer 10

• many different interacting mechanisms of chromatin modification
• In this case drought activation = modification of histone protein - allows the gene to be read and the plant to respond to the environmental stress
• this stress memory and how to deal with it can be inherited
• Benefits:
  >protection against future stress
  >local acclimation to changing environment
  Costs:
  >resource intensive
  >potentially reduced growth or yield

Question 11

explain heat shock proteins in the stress memory case study of epigenetics

Answer 11

• Important proteins help protect and recover cells after thermal stress (immune response also)
• Main classes: Heat Shock Protein (HSP) 70, HSP90, HSP27
• Genetic regulation- Heat Shock Factors activated by thermal stress -> Increased HSP expression
• Epigenetic regulation- Promoter regions methylated -> affects (likely reduces) HSP expression
• Histone modification- histone modifications of H2B and H3 -> again affects HSP expression

Question 12

explain the Inherited fear behaviour in rats case study of epigenetics

Answer 12

• Fear conditioning in rat: Electric shock + odour of Acetophenone
• Conditioned male mated with normal female – offspring also showed fear when smelling Acetophenone
• In the rats that have been treated: hypermethylation in certain gene = overexpression of the gene
• This gene also found in sperm cells - that’s how response has been inherited

Question 13

explain the Dutch Hunger Winter case study of epigenetics

Answer 13

• 1944-1945 dutch were completely isolated during war – fear, no food
• Some people were still pregnant:
  >Famine late in gestation = smaller birthweight -> But no increase in later-life health problems
  >Famine early in gestation: normal birthweight -> increased health problems incl. obesity, diabetes, coronary heart disease, schizophrenia) -> Altered birth weight & epidemiology in grandchildren (inherited)
• Very early development is especially sensitive (epigenetic re-programming)
• Inherited due to multigenerational exposure: if we are pregnant we have 3 generation inside us – ours, the foetus’ and the foetus’ reproductive cells

Question 14

why was there no later-life health problems in late gestation but an increase in health problems in early gestation

Answer 14

2 key points where epigenetic reprogramming happens = fusion + formation of gamete cells - Famine early in gestation would be subject to epigenetic reprogramming, whereas it would not effect late gestation