1. Regulation of Gene Expression
Step 1 of Transcription

2. What is “Gene Expression”?

3. Expression of the gene is always occurring
Some proteins are always necessary for an organism’s survival and continuously produced:
RNA/DNA Polymerase
Glycoproteins
Expression of the gene is always occurring

4. Other proteins need to be produced at certain times and in certain amounts.
Expression of the gene is turned “on” or “off”
Why would a cell want to turn off a gene?

5. Example #1 of regulating gene expression:
All cells carry the same genetic information, but each type of cell expresses only a fraction of its genes (cellular differentiation).

6. Example #2 of regulating gene expression:
Insects change through a variety of body shapes during their life cycle which can be accounted for by changing gene expression.

7. Example #3 of regulating gene expression:
Expression of different genes at different times also accounts for the different stages vertebrate embryos go through as they develop.

8. ***Control of gene expression is complex, inter-related and much is still being discovered***

9. Mechanisms of regulating gene expression:
Proteins
Nucleosomes
Environment
Epigenics

10. Regulation of Gene Expression by Proteins
Recall with your partner: what a promoter is and what it does.

11. Regulation of Gene Expression by Proteins
A promoter is a sequence of base pairs located near a gene that onto which RNA polymerase binds.
It does not code for a protein but plays a role in protein synthesis by initiating transcription.

12. Regulation of Gene Expression by Proteins
Proteins can attach to the DNA near the promoter to make the DNA more or less accessible for RNA polymerase
PROTEINS
DNA
Transcription factors
AKA Activators
(increase gene expression)
Enhancer
Repressor proteins
(decrease gene expression)
Silencer

13. Regulation of Gene Expression by Proteins
For example:
E.coli has genes to produce the enzyme necessary to digest the sugar lactose- but it only activates them in the presence of lactose. (WHY?)
An operator is a sequence next to the promoter. Transcription factors can bind to it and turn on gene expression.

14. Regulation of Gene Expression by Proteins
Repressor proteins are normally produced and will bind to the operator preventing transcription for the lactase gene.
If lactose if present, it will bind to the repressor protein which will change its shape and prevent it from binding on the operator.
This is known as the lac operon in prokaryotes. Operon refers to a cluster of genes under the control of a single promoter.

15. Example #4 of regulating gene expression:

16. Enhancers
Sequence on the DNA that increase the rate of transcription when proteins bind to them.

17. Silencers
Sequence on the DNA that decreases the rate of transcription when proteins bind to them.

18. Mechanisms of regulating gene expression:
Proteins
Nucleosomes
Environment
Epigenics

19. Nucleosomes Regulate Transcription
Eukaryotic DNA is associated with proteins called histones.
The DNA is wrapped around a core of 8 histone molecules which is known as a nucleosome.
Nucleosomes are then compacted in chromatin fibers.

20. BIG IDEA: chemical modification of histone tails through acetyl/methyl groups can either activate or deactivate genes by decreasing or increasing the accessibility of genes to transcription factors.
acetyl group

21. Nucleosomes Regulate Transcription
“Chemical tag”
Acetylation is the adding of an acetyl group
Methylation is the adding of a methyl group

22. Nucleosomes Regulate Transcription
Histone acetylation allows a less condensed DNA with higher levels of transcription.
Non-acetylated histones form a tightly bound structure that inhibits transcription of the genes there.

23. Nucleosomes Regulate Transcription
DNA methylation typically turns off genes
(through a mechanism that isn’t well understood yet).

24. Mechanisms of regulating gene expression:
Proteins
Nucleosomes
Environment
Epigenics

25. Reading at: What is the epigenome? What does it do? What makes it up?
What is the epigenome?
What does it do?
What makes it up?
Can it change?

26. What does DNA methylation do?
What if a tumor suppressor gene is methylated?
Example #5 of regulating gene expression:
There is substantial evidence that smoking increases the rate of DNA methylation.
Mothers who smoke while pregnant have been shown to influence the methylation patterns of their unborn children too!

27. Extra Credit Opportunity:
Epigenetics
There is even mounting evidence that the chemical modifications that occur to the DNA in gametes could in certain circumstances be passed on to the next generation both at the cellular as well as whole organism level.
Extra Credit Opportunity:

28. Mechanisms of regulating gene expression:
Proteins
Nucleosomes
Environment
Epigenic tags

29. Regulation of Gene Expression by the Environment
Example #6 of regulating gene expression:
UV exposure increases expression of the gene that codes for the melanin protein.

30. Regulation of Gene Expression by the Environment

32. Regulation of Gene Expression by the Environment
For some traits, it can be hard to tell how much influence the environment has over gene expression.
Comparing identical to fraternal twins can be helpful in determining this.
Why do you think this is?

33. Think:
Determine the percentage of identical twins where both have diabetes.
Explain why a higher % of identical twins sharing a trait suggests that a genetic component contributes to the onset of the trait.