biotechnology (ch.20). a brave new world tacgcacatttacgtacgcggatgccgcgact...
TRANSCRIPT
![Page 1: Biotechnology (Ch.20). A Brave New World TACGCACATTTACGTACGCGGATGCCGCGACT ATGATCACATAGACATGCTGTCAGCTCTAGTAG ACTAGCTGACTCGACTAGCATGATCGATCAGC TACATGCTAGCACACYCGTACATCGATCCTGAC](https://reader034.vdocuments.mx/reader034/viewer/2022050714/56649ec95503460f94bd6f18/html5/thumbnails/1.jpg)
Biotechnology(Ch.20)
![Page 2: Biotechnology (Ch.20). A Brave New World TACGCACATTTACGTACGCGGATGCCGCGACT ATGATCACATAGACATGCTGTCAGCTCTAGTAG ACTAGCTGACTCGACTAGCATGATCGATCAGC TACATGCTAGCACACYCGTACATCGATCCTGAC](https://reader034.vdocuments.mx/reader034/viewer/2022050714/56649ec95503460f94bd6f18/html5/thumbnails/2.jpg)
A Brave New World
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TACGCACATTTACGTACGCGGATGCCGCGACTATGATCTACGCACATTTACGTACGCGGATGCCGCGACTATGATCACATAGACATGCTGTCAGCTCTAGTAGACTAGCTGACTACATAGACATGCTGTCAGCTCTAGTAGACTAGCTGACTCGACTAGCATGATCGATCAGCTACATGCTAGCACACYCCGACTAGCATGATCGATCAGCTACATGCTAGCACACYCGTACATCGATCCTGACATCGACCTGCTCGTACATGCTAGTACATCGATCCTGACATCGACCTGCTCGTACATGCTACTAGCTACTGACTCATGATCCAGATCACTGAAACCCTACTAGCTACTGACTCATGATCCAGATCACTGAAACCCTAGATCGGGTACCTATTACAGTACGATCATCCGATCAGATGATCGGGTACCTATTACAGTACGATCATCCGATCAGATCATGCTAGTACATCGATCGATACTGCTACTGATCTAGCCATGCTAGTACATCGATCGATACTGCTACTGATCTAGCTCAATCAAACTCTTTTTGCATCATGATACTAGACTAGCTCAATCAAACTCTTTTTGCATCATGATACTAGACTAGCTGACTGATCATGACTCTGATCCCGTAGATCGGGTACCTTGACTGATCATGACTCTGATCCCGTAGATCGGGTACCTATTACAGTACGATCATCCGATCAGATCATGCTAGTACAATTACAGTACGATCATCCGATCAGATCATGCTAGTACATCGATCGATACTGCTACTGATCTAGCTCAATCAAACTCTCGATCGATACTGCTACTGATCTAGCTCAATCAAACTCTTTTTGCATCATGATACTAGACTAGCTGACTGATCATGTTTTTGCATCATGATACTAGACTAGCTGACTGATCATGACTCTGATCCCGTAGATCGGGTACCTATTACAGTACGAACTCTGATCCCGTAGATCGGGTACCTATTACAGTACGATCATCCGATCAGATCATGCTAGTACATCGATCGATACTTCATCCGATCAGATCATGCTAGTACATCGATCGATACT
human genome3.2 billion bases
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Biotechnology today• Genetic Engineering–manipulation of DNA– if you are going to engineer DNA &
genes & organisms, then you need a set of tools to work with
– this unit is a survey of those tools…
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Bacteria• Bacteria review – Unicellular prokaryotes– reproduce by binary fission– rapid growth• generation every ~20
minutes• 108 (100 million) colony
overnight!– dominant form of life on
Earth– incredibly diverse
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Bacterial genome
• Single circular chromosome– haploid– naked DNA• no histone proteins
–~4 million base pairs• ~4300 genes• 1/1000 DNA in eukaryote
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Plasmids
• Small supplemental circles of DNA
• 5000 - 20,000 base pairs• self-replicating
– carry extra genes
• 2-30 genes • genes for antibiotic resistance
– can be exchanged between bacteria
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How can plasmids help us?• A way to get genes into bacteria easily– insert new gene into plasmid– vector for gene delivery– bacteria now expresses new gene• bacteria make new protein
+
transformedbacteriagene from
other organism
plasmid
cut DNA
recombinantplasmid
vector
glue DNA
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Biotechnology • Plasmids used to insert new genes into
bacteria
gene we want
cut DNA
cut plasmid DNA
insert “gene we want” into plasmid...
“glue” together
ligase
like what?…insulin…HGH…lactase
Cut DNA?DNA scissors?
recombinant plasmid
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How do we cut DNA?• Restriction enzymes– restriction endonucleases– discovered in 1960s– evolved in bacteria to cut up foreign DNA • “restricted” in the sequences they cut• protection against viruses
& other bacteria
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What do you notice about these phrases?
radarracecarMadam I’m AdamAble was I ere I saw Elbaa man, a plan, a canal, PanamaWas it a bar or a bat I saw?go hang a salami I’m a lasagna hog
palindromes
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Restriction enzymes
• Action of enzyme – cut DNA at specific sequences• restriction site
– symmetrical “palindrome”– produces protruding ends• sticky ends• will bind to any complementary DNA
• Many different enzymes• EcoRI, HindIII, BamHI, SmaI
CTGAATTCCGGACTTAAGGC
CTG|AATTCCGGACTTAA|GGC
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Discovery of restriction enzymes 1960s | 1978
Werner Arber Daniel Nathans Hamilton O. Smith
Restriction enzymes are named for the organism they come from:EcoRI = 1st restriction enzyme found in E. coli
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Restriction enzymes
• Cut DNA at specific sites– leave “sticky ends”
GTAACG AATTCACGCTTCATTGCTTAA GTGCGAA
GTAACGAATTCACGCTTCATTGCTTAAGTGCGAA
restriction enzyme cut site
restriction enzyme cut site
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Sticky ends
• Cut other DNA with same enzymes– leave “sticky ends” on both– can glue DNA together at “sticky ends”
GTAACG AATTCACGCTTCATTGCTTAA GTGCGAA
gene you want
GGACCTG AATTCCGGATACCTGGACTTAA GGCCTAT
chromosome want to add
gene to
GGACCTG AATTCACGCTTCCTGGACTTAA GTGCGAA
combinedDNA
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Sticky ends help glue genes together
TTGTAACGAATTCTACGAATGGTTACATCGCCGAATTCACGCTTAACATTGCTTAAGATGCTTACCAATGTAGCGGCTTAAGTGCGAA
gene you want cut sitescut sites
AATGGTTACTTGTAACG AATTCTACGATCGCCGATTCAACGCTTTTACCAATGAACATTGCTTAA GATGCTAGCGGCTAAGTTGCGAA
chromosome want to add gene tocut sites
AATTCTACGAATGGTTACATCGCCG GATGCTTACCAATGTAGCGGCTTAA isolated gene
sticky ends
chromosome with new gene addedTAACGAATTCTACGAATGGTTACATCGCCGAATTCTACGATC
CATTGCTTAAGATGCTTACCAATGTAGCGGCTTAAGATGCTAGC
sticky ends stick together
DNA ligase joins the strands Recombinant DNA molecule
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Why mix genes together?
TAACGAATTCTACGAATGGTTACATCGCCGAATTCTACGATC
CATTGCTTAAGATGCTTACCAATGTAGCGGCTTAAGATGCTAGC
• Gene produces protein in different organism or different individual
aa aaaa aa aa aa aa aa aa aa
“new” protein from organism ex: human insulin from bacteria
human insulin gene in bacteria
bacteria human insulin
How can bacteria read human DNA?
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The code is universal
• Since all living organisms… – use the same DNA– use the same code
book– read their genes
the same way
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Copy (& Read) DNA• Transformation– insert recombinant plasmid
into bacteria– grow recombinant bacteria in agar cultures • bacteria make lots of copies of plasmid• “cloning” the plasmid
– production of many copies of inserted gene– production of “new” protein• transformed phenotype
DNA → RNA → protein → trait
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Grow bacteria…make more
growbacteria
harvest (purify)protein
transformedbacteria
plasmid
gene fromother organism
+
recombinantplasmid
vector
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A Movie, Perhaps?
QuickTime™ and aH.264 decompressor
are needed to see this picture.
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Uses of genetic engineering
• Genetically modified organisms (GMO)– enabling plants to produce new proteins
• Protect crops from insects: BT corn
– corn produces a bacterial toxin that kills corn borer (caterpillar pest of corn)
• Extend growing season: fishberries
– strawberries with an anti-freezing gene from flounder
• Improve quality of food: golden rice – rice producing vitamin A
improves nutritional value
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Green with envy??Jelly fish “GFP”
Transformed vertebrates
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Discovery of GFP 1960s- 1970s | 2008
Martin Chalfie Osamu Shimomura
Roger Tsien
GFP and other fluorescent proteins can be used to let us know when genes are “on” and “off”
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Engineered plasmids
Selectable markerantibiotic resistance gene on plasmid
ampicillin resistanceselecting for successful transformation
successful uptake of recombinant plasmid
plasmid
ampresistance
restriction sites
EcoRI
BamHI HindIII
• Building custom plasmids– restriction enzyme sites– antibiotic resistance genes as a selectable
marker
ori
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Selection for plasmid uptake
• Antibiotic becomes a selecting agent– only bacteria with the plasmid will
grow on antibiotic (ampicillin) plate
LB/amp plateLB plate
all bacteria growonly transformed
bacteria grow
a
aa a
aa
aa
aa
aaa a
a
cloning
a a
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Need to screen plasmids• Need to make sure bacteria have
recombinant plasmid
plasmid
ampresistance
LacZ gene
restriction sites
lactose →blue color
recombinantplasmid
ampresistance
brokenLacZ gene
insertedgeneof interest
all in LacZ geneEcoRIBamHI
HindIII
lactose lactose →→white colorwhite colorX
origin oforigin ofreplicationreplication
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Screening for recombinant plasmid
Bacteria take up plasmid Functional LacZ gene Bacteria make blue color
Bacteria take up recombinant plasmid Non-functional LacZ gene Bacteria stay white color
How could you screen for
recombinant plasmidusing pGLO
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• DNA hybridization– find sequence of DNA using a labeled probe
• short, single stranded DNA molecule• complementary to part of gene of interest• labeled with radioactive P32 or fluorescent dye
– heat treat DNA in gel• unwinds (denatures) strands
– wash gel with probe• probe hybridizes with denatured DNA
Finding your gene of interest
labeled probe
genomic DNA
C T A G T C A T C
G A T C A G T A G
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DNA libraries
• Cut up all of nuclear DNA from many cells of an organism– restriction enzyme
• Clone all fragments into many plasmids at same time– “shotgun” cloning
• Create a stored collection of DNA fragments– petri dish has a collection
of all DNA fragments from the organism
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Making a DNA library
all DNA from many cells of an organism is cut with restriction enzymes
all DNA fragments inserted into many plasmids
engineered plasmid with selectable marker & screening system
gene of interest
clone plasmids into bacteria
1 2
3
4
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?
DNA library
recombinant plasmids inserted into bacteria gene of interest
DNA Libraryplate of bacterial colonies storing & copying all genes from an organism (ex. human)
But howdo we find
colony with our gene of interest
in it?
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Find your gene in DNA library• Locate Gene of Interest– to find your gene you need some of
gene’s sequence• if you know sequence of protein…–can “guess” part of DNA sequence–“back translate” protein to DNA
?
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Colony BlotsCloning- plate with bacterial
colonies carrying recombinant plasmids
1
Hybridization- heat filter paper to
denature DNA- wash filter paper with
radioactive probe which will only attach to gene of interest
Replicate plate- press filter paper onto plate
to take sample of cells from every colony
3
Locate- expose film- locate colony on plate
from film
4
film
filter
plate
plate + filter
2
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Problems…• Human Genome library– are there only genes in there?– nope! a lot of junk!– human genomic library has more “junk”
than genes in it
• Clean up the junk!– if you want to clone
a human gene into bacteria, you can’t have…
introns
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How do you clean up the junk?
reverse transcriptase
• Don’t start with DNA…• Use mRNA– copy of the gene without the junk!
• But in the end, you need DNA to clone into plasmid…
• How do you go from RNA → DNA?– reverse transcriptase from RNA viruses• retroviruses
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cDNA (copy DNA) libraries• Collection of only the
coding sequences of expressed genes– extract mRNA from
cells– reverse transcriptase • RNA →DNA • from retroviruses
– clone into plasmid• Applications– need edited DNA for
expression in bacteria• human insulin
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Where do we go next….
• When a gene is turned on, it creates a trait– want to know what gene is being
expressed
proteinRNADNA trait
extract mRNA from cellsmRNA = active genes
How do you match mRNA back to DNA in cells???
reverse transcriptase
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mRNA from cells
Microarrays
• Create a slide with a sample of each gene from the organism– each spot is one gene
• Convert mRNA → labeled cDNA
slide with spots of DNAeach spot = 1 gene
mRNA → cDNA
reverse transcriptase
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Microarrays
• Labeled cDNA hybridizes with DNA on slide– each yellow spot = gene matched to mRNA– each yellow spot = expressed gene
slide with spots of DNAeach spot = 1 gene
cDNA matched to genomic DNAmRNA → cDNA
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Application of Microarrays “DNA Chip”
• Comparing treatments or conditions = Measuring change in gene expression– sick vs. healthy; cancer vs. normal cells
– before vs. after treatment with drug
– different stages in development
• Color coding: label each condition with different color– red = gene expression in one sample
– green = gene expression in other sample
– yellow = gene expression in both samples
– black = no or low expression in both
2-color fluorescent tagging
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Cut, Paste, Copy, Find…• Word processing metaphor…– cut• restriction enzymes
– paste• ligase
– copy• plasmids–bacterial transformation
• is there an easier way??
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I may be very selective…
But still Ask Questions!
plasmid
ampresistance
restriction sites
EcoRI
BamHI HindIII
ori
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• 1. The principal problem with inserting an unmodified mammalian gene into the bacterial chromosome, and then getting that gene expressed, is that A. prokaryotes use a different genetic code from
that of eukaryotes. B. bacteria translate polycistronic messages only. C. bacteria cannot remove eukaryotic introns. D. bacterial RNA polymerase cannot make RNA
complementary to mammalian DNA. E. bacterial DNA is not found in a membrane-
enclosed nucleus and is therefore incompatible with mammalian DNA.
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2. What is the purpose of a screening gene in a plasmid?
A. To enable tranformation.B. To enable recovery of the plasmid from
solution.C. To enable identification of successful
transformants.D. To disable the spread of GE organisms
outside of the laboratoryE. To make the engineered protein product.
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• 3. Which of the following is true of restriction enzymes?
A. They are capable of cutting DNA into fragments at specific points in the nucleotide sequence.
B. They form bonds between DNA fragmentsC. They are used in cell recognitionD. They are a viral defense against infection by
bacteriaE. They are found in fungi
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• 4. Which of the following contains DNA from different sources?
A. Restricted DNAB. Recombinant DNAC. Reanalyzed DNAD. Reconstituated DNAE. Resurrected DNA
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3. Which of the following can serve as a vector for DNA? •I. Plasmids•II. Bacteriophages•III.Animal Cells
3.I only4.II only5.III only6.I and II only7.I, II and III