Eukaryotic Gene Expression - WordPress.com · Evolution of gene regulation Eukaryotes multicellular...
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AP Biology
Eukaryotic Gene
Expression
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AP Biology
The BIG Questions…
How are genes turned on & off in eukaryotes?
How do cells with the same genes differentiate to perform completely different, specialized functions?
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AP Biology
Evolution of gene regulation
Prokaryotes
single-celled
evolved to grow & divide rapidly
must respond quickly to changes in external environment exploit transient resources
Gene regulation
turn genes on & off rapidly flexibility & reversibility
adjust levels of enzymes for synthesis & digestion
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AP Biology
Evolution of gene regulation
Eukaryotes
multicellular
evolved to maintain constant internal conditions while facing changing external conditions homeostasis
regulate body as a whole growth & development
long term processes
specialization turn on & off large number of genes
must coordinate the body as a whole rather than serve the needs of individual cells
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AP Biology
Eukaryotic Gene Expression
Two features of eukaryotic genomes
are a major information-processing
challenge:
First, the typical eukaryotic genome is
much larger than that of a prokaryotic
cell
Second, cell specialization limits the
expression of many genes to specific
cells
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AP Biology
Points of control
The control of gene
expression can occur at any
step in the pathway from
gene to functional protein
1. packing/unpacking DNA
2. transcription
3. mRNA processing
4. mRNA transport
5. translation
6. protein processing
7. protein degradation
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AP Biology
How do you fit all
that DNA into
nucleus?
DNA coiling &
folding
double helix
nucleosomes
chromatin fiber
looped
domains
chromosome
from DNA double helix to
condensed chromosome
1. DNA packing
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AP Biology
Nucleosomes
“Beads on a string”
1st level of DNA packing
histone proteins
8 protein molecules
positively charged amino acids
bind tightly to negatively charged DNA
8 histone
molecules
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AP Biology
Histones and the Cell Cycle
The association of DNA and histones
seems to remain intact throughout the
cell cycle
This maintains cell identity
DNA is coiled more during mitosis
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AP Biology
Differential Gene Expression
A multicellular organism’s cells
undergo cell differentiation:
specialization in form and function
Differences between cell types result
from differential gene expression
the expression of different genes by
cells within the same genome
In each type of differentiated cell, a
unique subset of genes is expressed
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AP Biology
DNA packing as gene control
Degree of packing of DNA regulates transcription
tightly wrapped around histones
no transcription
genes turned off
Chemical modifications to histones and DNA
of chromatin influence both chromatin
structure and gene
expression
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AP Biology
Histone Modification
In histone acetylation, acetyl groups
are attached to histone tails
This process seems to loosen
chromatin structure, thereby promoting
the initiation of transcription
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AP Biology
Histone Acetylation Acetylation of histones unwinds DNA
loosely wrapped around histones
enables transcription
genes turned on
attachment of acetyl groups (–COCH3) to histones
conformational change in histone proteins
transcription factors have easier access to genes
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AP Biology
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AP Biology
DNA Methylation
DNA methylation, the addition of methyl
groups to certain bases in DNA, is
associated with reduced transcription
in some species
DNA methylation causes long-term
inactivation of genes in cellular
differentiation
In genomic imprinting, methylation
turns off either the maternal or paternal
alleles of certain genes at the start of
development
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AP Biology
DNA methylation Methylation of DNA blocks transcription factors
no transcription
genes turned off
attachment of methyl groups (–CH3) to cytosine C = cytosine
nearly permanent inactivation of genes ex. inactivated mammalian X chromosome = Barr body
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AP Biology
Epigenetic Inheritance
Although the chromatin modifications
just discussed do not alter DNA
sequence, they may be passed to future
generations of cells
The inheritance of traits transmitted by
mechanisms not directly involving the
nucleotide sequence is called
epigenetic inheritance
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AP Biology
Eukaryotic Expression
Modeling
Objective: Model how eukaryotic gene expression is controlled.
Your first model should include:
DNA, mRNA, histones (nucleosomes), acetyl groups (for histone acetylation), methyl groups (for DNA methylation), RNA polymerase
Please call me over to evaluate your models when ready. Allmembers of the group must be able to describe what is occurring in each model.
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AP Biology
Regulation of Transcription Initiation
Chromatin-modifying enzymes provide
initial control of gene expression by
making a region of DNA either more or
less able to bind the transcription
machinery
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AP Biology
Organization of a Typical Eukaryotic Gene
Associated with most eukaryotic genes
are regulatory regions called control
elements
segments of noncoding DNA that help
regulate transcription by binding certain
proteins
Control elements and the proteins they
bind are critical to the precise
regulation of gene expression in
different cell types
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AP Biology
The Roles of Transcription Factors
To initiate transcription, eukaryotic
RNA polymerase requires the
assistance of proteins called
transcription factors
An activator is a protein that binds to an
enhancer and stimulates transcription
of a gene
Some transcription factors function as
repressors, inhibiting expression of a
particular gene
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AP Biology
2. Transcription initiation
Control regions on DNA
promoter nearby control sequence on DNA
binding of RNA polymerase & transcription factors
“base” rate of transcription
enhancer distant control
sequences on DNA
binding of activator proteins
“enhanced” rate (high level) of transcription
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AP Biology
Model for Enhancer action
Enhancer DNA sequences
distant control sequences
Activator proteins
bind to enhancer sequence & stimulates transcription
Silencer proteins
bind to enhancer sequence & block gene transcription
Turning on Gene movie
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AP Biology
Transcription complex
Enhancer
ActivatorActivator
Activator
Coactivator
RNA polymerase II
A
B F E
HTFIID
Core promoterand initiation complex
Activator Proteins• regulatory proteins bind to DNA at
distant enhancer sites• increase the rate of transcription
Enhancer Sitesregulatory sites on DNA distant from gene
Initiation Complex at Promoter Site binding site of RNA polymerase
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AP Biology
Mechanisms of Post-
Transcriptional Regulation Transcription alone does not account
for gene expression
More and more examples are being
found of regulatory mechanisms that
operate at various stages after
transcription
Such mechanisms allow a cell to fine-
tune gene expression rapidly in
response to environmental changes
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AP Biology
RNA Processing
In alternative RNA splicing, different
mRNA molecules are produced from
the same primary transcript.
Exons may be skipped, shuffled around
or occasionally introns can be included
in the final transcript
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AP Biology
3. Post-transcriptional control
Alternative RNA splicing
variable processing of exons creates a
family of proteins
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AP Biology
4. Regulation of mRNA degradation
Life span of mRNA determines amount
of protein synthesis
mRNA can last from hours to weeks
RNA processing movie
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AP Biology
RNA interference
Small interfering RNAs (siRNA)
short segments of RNA (21-28 bases) bind to mRNA
create sections of double-stranded mRNA
“death” tag for mRNA triggers degradation of mRNA
cause gene “silencing” post-transcriptional control
turns off gene = no protein produced
siRNA
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AP Biology
Action of siRNA
siRNA
double-stranded
miRNA + siRNA
mRNA degradedfunctionally
turns gene off
mRNA for translation
breakdownenzyme(RISC)
dicerenzyme
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AP Biology
5. Control of translation
Block initiation of translation stage
regulatory proteins attach to 5' end of mRNA
prevent attachment of ribosomal subunits &
initiator tRNA
block translation of mRNA to protein
Control of translation movie
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AP Biology
6-7. Protein processing & degradation
Protein processing
folding, cleaving, adding sugar groups, targeting for transport
Protein degradation
Protein processing movie
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AP Biology
initiation of transcription
1
mRNA splicing
2
mRNA protection3
initiation of translation
6
mRNAprocessing
5
1 & 2. transcription
- DNA packing
- transcription factors
3 & 4. post-transcription
- mRNA processing
- splicing
- 5’ cap & poly-A tail
- breakdown by siRNA
5. translation
- block start of
translation
6 & 7. post-translation
- protein processing
- protein degradation
7 protein processing & degradation
4
4
Gene Regulation
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AP Biology
Eukaryotic Expression
Modeling
Your first model should include:
DNA, mRNA, histones (nucleosomes), acetyl groups (for histone acetylation), methyl groups (for DNA methylation), RNA polymerase
Your second model should include:
DNA, mRNA, RNA polymerase, promoter, control elements, gene, general transcription factors, activators , enhancers, (transcription initiation complex). You may include other aspects of the transcription initiation complex if you wish.