gene regulation an expressed gene is one that is transcribed into rna not all genes are expressed by...
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Gene Regulation
• An expressed gene is one that is transcribed into RNA
• Not all genes are expressed by every cell
• How does an organism know when to “turn on” or “turn off” a gene?
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Typical Gene Regulation• See page 309 in your textbook Figure 12-22
Regulatory sites
promoter
start stop
gene
Promoters- DNA sequence where RNA polymerase will bind
Operator (regulatory sites)- stretches of DNA where proteins can bind to regulate transcription
Start and stop signals- for transcription of gene
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Prokaryotic Gene Expression usually uses OPERONS.
OPERONS- are a group of genes that operate together
the Lac operon is a great example!It’s a set of genes needed for E.coli to make proteins so the bacteria can use the sugar lactose as food!
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The Lac operon has 1. a promoter (the nucleotide sequence where
RNA Polymerase binds- green)
2. an operator (segment of DNA used to turn gene expression on or off, repressor protein binds here- dotted/shaded region)
3. Three genes for making proteins involved in breaking down lactose
See
page 310
Fig.12-23
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How the Lac Operon works or operates…. Lac genes turned OFF by the repressor protein and
turned ON by the presence of Lactose
WITHOUT Lactose- DNA binding protein is bound to the OPERATOR (where protein binds) so RNA polymerase CAN’T WORK (can’t make the mRNA)
WITH Lactose- lactose binds to repressor DNA binding protein, this causes the protein to CHANGE SHAPE and FALL OFF the DNA Operator so RNA polymerase CAN WORK (transcribes the gene)
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Without Lactose:
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With Lactose:
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Lac operon animation
• http://www.sumanasinc.com/webcontent/animations/content/lacoperon.html
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Eukaryotic Gene Regulation: • Most eukaryotic genes are controlled
individually NOT with operons
• Only a few of the available genes will be expressed in the cells of different tissues (cell specialization/differentiation)
• Complex!
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See page 311 in your textbook Figure 12-24
Eukaryotic Gene Regulation
exonexon
enhancer Promoter sequences
TATA Box
exon intron intron
Enhancer sequence- lots of proteins can bind here on different sequences (that’s why eukaryotic gene regulation is more
complex!!)
Promoters- usually just before the TATA Box (where RNA polymerase binds)
TATA Box- helps position RNA polymerase in front of gene
Exons- expressed
Introns- cut out before translation
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Proteins that bind to enhancer sequences of a gene can work to:
a. Open up tightly packed chromatin.
b. Attract RNA polymerase.
c. Block access to genes.
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Fig. 14.9, p. 229
unit of transcription in a DNA strand
exon intron
mature mRNA transcript
poly-Atail
5’
5’ 3’
3’
(snipped out) (snipped out)
exon exonintron
cap
transcription into pre-mRNA
3’ 5’
RNA Editing
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Prokaryotic vs. Eukaryotic Gene Expression
• http://highered.mcgraw-hill.com/sites/0072437316/student_view0/chapter15/animations.html#
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Hox genes
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Development and Differentiation
• Hox genes are master control genes that control the differentiation of cells and tissues in the embryo.
• A mutation in hox gene in fruit flies had a leg growing where antenna should be.