281 lec24 2019 - hageneticshagenetics.org/hh/wp-content/uploads/2019/09/281_lec24_2019.pdf ·...
TRANSCRIPT
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Lecture 24:
Regulation of gene expression IV. Eukaryotes (part 2)
Course 281
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Lessons for life
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AIMS
• Understand the regulation of gene expression in eukaryotes that is related to genome packaging.
• Understand the different histone and DNA modification mechanisms that affect gene expression.
• Understand the genetics of histone and DNA modifications.
• Understand that not only DNA sequence is heritable but also the modifications.
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Eukaryotic genome organization
• We have trillions of cells in our body.
• Each cell contain a genome composed of ~ 3.3 billion bp (haploid).
• If stretched, the 3.3 billion bp would be ~ 2m long (diploid).
How can the genome fit in the nucleus of the cell?
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Eukaryotic genome organization
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• What is chromatin?
• Eukaryotic genome is packaged using proteins.
• DNA interacts with histone proteins to form nucleosomes.
• The DNA can be condensed or de-condensed based on how close nucleosomes are to each other.
Transcription regulation – chromatin remodeling
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Transcription regulation – chromatin remodeling
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Eukaryotic genome organization
What is condensed chromatin called?
What is de-condensed chromatin called?
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Eukaryotic genome organization
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• A single nucleosome is composed of 8 histone proteins (octamer).
• Histone proteins contain tails of amino acids that can be modified.
Transcription regulation – chromatin remodeling
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Goofy Analogy ☺
Sugaration of a cup of coffee sugarase
De-sugaration of a cup of coffee using de-sugarase
Transcription regulation – chromatin remodeling
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• Specific amino acids in the histone tails can be modified by:
1. Acetylation: adding acetyl group to histone tails.
2. De-acetylation: removing acetyl group from histone tails.
Transcription regulation – chromatin remodeling
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• Specific amino acids in the histone tails can be modified by:
3. Methylation: adding methyl group to histone tails.
4. De-methylation: removing methyl groups from histone tails.
Transcription regulation – chromatin remodeling
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• Specific amino acids in the histone tails can be modified by:
5. Phosphorylation: adding phosphate group to histone tails.
6. De-phosphorylation: removing phosphate group from histone tails
Transcription regulation – chromatin remodeling
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Transcription regulation – chromatin remodeling
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Acetylation/phosphorylation:
1. separates nucleosomes from one another.
2. Relaxes the chromatin structure. 3. Exposes DNA to transcription factors. 4. Genes get expressed.
Transcription regulation – chromatin remodeling
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De-acetylation/De-phosphorylation:
1. Brings nucleosomes closer together. 2. Condenses chromatin structure. 3. Prevents DNA from interacting with
transcription factors. 4. Genes DO NOT get expressed.
Transcription regulation – chromatin remodeling
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Transcription regulation – chromatin remodeling
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• If we consider the transcription machinery as a nice car,
• what does histone acetylation acts as (breaks or gas pedal)?
• what does histone de-acetylation acts as (breaks or gas pedal)?
• what does histone phosphorylation acts as (breaks or gas pedal)?
• what does histone de-phosphorylation acts as (breaks or gas pedal)?
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Methylation:
1. Brings nucleosomes closer together. 2. Condenses chromatin structure. 3. Prevents DNA from interacting with
transcription factors. 4. Genes DO NOT get expressed.
Transcription regulation – chromatin remodeling
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De-methylation:
1. separates nucleosomes from one another.
2. Relaxes the chromatin structure. 3. Exposes DNA to transcription factors. 4. Genes get expressed.
Transcription regulation – chromatin remodeling
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Histone methylation is generally (not always) is associated with repression of gene expression
Transcription regulation – chromatin remodeling
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• If we consider the transcription machinery as a nice car,
• what does histone methylation acts as (breaks or gas pedal)?
• what does histone de-methylation acts as (breaks or gas pedal)?
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DNA methylationEukaryotic promoter
• Eukaryotic promoters contain unique sequence for the interaction of the transcription machinery.
• Some genes contain specific sequences in their promoters called CpG islands.
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DNA methylation
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• CpG: are two nucleotide (guanine and cytosine) adjacent to one another and bridged by a phosphodiester bond.
• CG: are two nucleotides (guanine and cytosine) base-pairing with one another through three hydrogen bonds.
• CpG can be modified by adding a methyl group to the cytosine.
DNA methylation
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DNA methylation
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Methylation of CpG islands generally repress or inhibit the transcription of genes.
DNA methylation
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• If we consider the transcription machinery as a nice car,
• what does DNA methylation acts as (breaks or gas pedal)?
• what does DNA de-methylation acts as (breaks or gas pedal)?
•
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What is the site of DNA methylation?
What is the site of histone methylation?
Can DNA be acetylated or phosphorylated?
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Epigenetics
• Histone tail modifications and DNA methylation is called Epigenetic markers.
• Epigenetics: is the study of the genetics of modifications in the packaging of DNA that affect gene expression.
• Epigenetic modifications changes the phenotype without changing the genetic code DNA.
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Epigenetics
• Epigenome: a catalog of all the modifications that can takes place on the genome.
• Are epigenetic markers heritable?
• Epigenetic modifications are heritable changed in gene expression not related to DNA sequence.
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Epigenetics
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Epigenetics - example
X chromosome inactivation in females:
• Only one of the two X chromosomes in females remains transcriptionally active.
• The other X chromosomes condenses into heterochromatin called Barr body.
Which one gets inactivated?
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Epigenetics - example
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Calico cats as an example
• Orange color gene is located on the X chromosome.
• Due to the RANDOM inactivation of X chromosome, some hair cells are black and some are orange.
• Genotype?
Epigenetics - example
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Epigenetics - example
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Summary
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To know
Histone Histone methylation
Histone de-methylation
Histone modification
DNA methylation
CpG island
epigenetics
X chromosome inactivation
Barr body
Histone acetylation
Histone deacetylationheterochromatin
Euchromatin
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Expectations
• You know how gene expression in eukaryotes can be regulation by modifications to histone proteins and specific DNA sequences.
• You know which modifications are associated with turning genes ON and which ones are associated with turning genes OFF.
• You have general idea about the epigenome and epigenetics inheritance.
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For a smile