chapter 14. dna the genetic material replication
TRANSCRIPT
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Chapter 14.
DNAThe Genetic Material
Replication
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Nature of DNA
Stores complete instructions for making proteins
Passes instructions on to new cells
Copies itself flawlesslyCan put instructions into
actionSometimes changes
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Scientific History The march to understanding that
DNA is the genetic materialT.H. Morgan (1908)Frederick Griffith (1928)Avery, McCarty & MacLeod (1944)Hershey & Chase (1952)Watson & Crick (1953)Meselson & Stahl (1958)
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Genes are on chromosomes T.H. Morgan
working with Drosophila (fruit flies)
genes are on chromosomes
but is it the protein or the DNA of the chromosomes that are the genes? through 1940, proteins
were thought to be genetic material… Why?
1908 | 1933
What’s so impressiveabout proteins?!
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The “Transforming Factor” 1928
Frederick Griffith Streptococcus pneumonia
bacteria was working to find cure for
pneumonia harmless live bacteria mixed
with heat-killed infectious bacteria causes disease in mice
substance passed from dead bacteria to live bacteria = “Transforming Factor”
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The “Transforming Factor”
Transformation?something in heat-killed bacteria could still transmit disease-causing properties
live pathogenicstrain of bacteria
live non-pathogenicstrain of bacteria
mice die mice live
heat-killed pathogenic bacteria
mix heat-killed pathogenic & non-pathogenicbacteria
mice live mice die
A. B. C. D.
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DNA is the “Transforming Factor” Avery, McCarty & MacLeod
purified both DNA & proteins from Streptococcus pneumonia bacteria which will transform non-pathogenic bacteria?
injected protein into bacteria no effect
injected DNA into bacteria transformed harmless bacteria
into virulent bacteria
1944
What’s theconclusion?
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Avery, McCarty & MacLeod
Oswald Avery
Maclyn McCarty
Colin MacLeod
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Confirmation of DNA Hershey & Chase
classic “blender” experiment worked with bacteriophage
viruses that infect bacteria grew phage viruses in 2 media,
radioactively labeled with either 35S in their proteins 32P in their DNA
infected bacteria with labeled phages
1952 | 1969
Why useSulfur
vs.Phosphorus?
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Hershey & Chase
Alfred HersheyMartha Chase
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Protein coat labeledwith 35S
DNA labeled with 32P
bacteriophages infectbacterial cells
T2 bacteriophagesare labeled with
radioactive isotopesS vs. P
bacterial cells are agitatedto remove viral protein coats
35S radioactivityfound in the medium
32P radioactivity foundin the bacterial cells
Which radioactive marker is found inside the cell?
Which molecule carries viral genetic info?
Hershey & Chase
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Blender experiment Radioactive phage & bacteria in blender
35S phage radioactive proteins stayed in supernatant therefore protein did NOT enter bacteria
32P phage radioactive DNA stayed in pellet therefore DNA did enter bacteria
Confirmed DNA is “transforming factor”
Taaa-Daaa!
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Chargaff DNA composition: “Chargaff’s rules”
varies from species to species all 4 bases not in equal quantity bases present in characteristic ratio
humans:
A = 30.9%
T = 29.4%
G = 19.9%
C = 19.8%
1947
What do you notice?!
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Structure of DNA Watson & Crick
developed double helix model of DNA other scientists working on question:
Rosalind FranklinMaurice WilkinsLinus Pauling
1953 | 1962
Franklin Wilkins Pauling
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Three-Dimensional Structure of DNA
Wilkins/Franklin X-ray diffraction suggested DNA had helical shape with a diameter of about 2 nanometers.
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Rosalind Franklin (1920-1958)
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Photo 51
http://www.pbs.org/wgbh/nova/body/DNA-photograph.html
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Watson and Crick1953 article in Nature
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Chemical Nature of Nucleic Acids
DNA made up of nucleotides.Five carbon sugar, phosphate
group, and an organic base.Purines - Large bases
Adenine (A) and Guanine (G)
Pyrimidines - Small basesCytosine (C) and Thymine (T)
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Double helix structure of DNA
the structure of DNA suggested a mechanism for how DNA is copied by the cell
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Directionality of DNA You need to
number the carbons!it matters!
OH
CH2
O
4
5
3 2
1
PO4
N base
ribose
nucleotide
This will be
IMPORTANT!!
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The DNA backbone Putting the DNA backbone
togetherrefer to the 3 and 5
ends of the DNA the last trailing carbon
OH
O
3
5
PO4
base
CH2
O
base
OPO
C
O–O
CH2I mean it…This will be
IMPORTANT!!
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3’ end of molecule has –OH group attached to the #3 carbon on the deoxyribose sugar.
5’ end of molecule has phosphate group attached to the #5 carbon on the deoxyribose sugar.
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Bonding in DNA
hydrogenbonds
….strong or weak bonds?How do the bonds fit the mechanism for copying DNA?
3’
5’ 3’
5’
phosphodiesterbonds
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Base pairing in DNA Purines
adenine (A) guanine (G)
Pyrimidines thymine (T) cytosine (C)
Pairing A : T C : G
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“It has not escaped our notice that the specific pairing we have postulated immediately suggests a possible copying mechanism for the genetic material.”
Watson & Crick
Anti-parallel strands Phosphate to sugar bond
involves carbons in 3 & 5 positions DNA molecule has
“direction” complementary strand
runs in opposite direction
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Copying DNA Replication of DNA
base pairing allows each strand to serve as a pattern for a new strand
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Models of DNA Replication Alternative models
so how is DNA copied?
verify throughexperiments…
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Semi-conservative replication? Meselson & Stahl
label nucleotides of “parent” DNA strands with heavy nitrogen = 15N
label new nucleotides with lighter isotope = 14N
“The Most Beautiful Experiment in Biology”
1958
make predictions…parent replication
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Semi-conservative replication Make predictions…
15N strands replicated in 14N medium 1st round of replication? 2nd round?
1958
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let’s meetthe team…DNA Replication
Large team of enzymes coordinates replication
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Replication: 1st step Unwind DNA
helicase enzyme unwinds part of DNA helix stabilized by single-stranded binding proteins
single-stranded binding proteins
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Replication: 2nd step Bring in new
nucleotides to match up to template strands
DNA Polymerase III bonds them in place
But…We’re missing
something!What?
Where’s theENERGY
for the bonding!
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energy
Energy of Replication Where does the energy for the bonding come
from?
ATP ADPAMP
Youremember
ATP!Is that the
only energymolecule?
GTPTTPCTP GMPTMPCMP
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Energy of Replication The nucleotides arrive as nucleosides
DNA organic nitrogen bases coupled with P–P–P DNA bases arrive with their own energy source
for bonding bonded by DNA polymerase III
ATP GTP TTP CTP
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DNAP III
energy
energy
energy
Replication Adding bases
can only add nucleotides to 3 end of a growing DNA strand
strand grow 5'3’
energy
5'
3'
3'
5'
B.Y.O. ENERGY
leading strand
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ligase
energy
5'
3'
3'
5'leading strand
3'5'
3'5'lagging strand
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Leading & Lagging strandsLeading strand
- continuous synthesis
Lagging strand- Okazaki fragments- joined by ligase
- “spot welder” enzyme
Okazaki
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Okazaki fragments
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Priming DNA synthesis DNA polymerase III
can only extend an existing DNA molecule cannot start new one
cannot place first base short RNA primer is
built first by primase starter sequences DNA polymerase III can
now add nucleotides to RNA primer
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Cleaning up primers
DNA polymerase I removes sections of RNA primer and replaces with DNA nucleotides
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Replication fork
3’
5’
3’
5’
5’
3’
leading strand
Okazaki fragments
lagging strand
3’ 5’
DNA polymerase III
ligase
helicase
direction of replication
primase
DNA polymerase III
SSB
DNA polymerase I
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Opening DNA Double HelixInitiating replicationUnwinding duplex
Building a Primer Assembling Complementary
Strands Removing the Primer Joining Okazaki Fragments
Recap…
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And in the end… Ends of
chromosomes are eroded with each replication an issue in
aging? ends of
chromosomes are protected by telomeres
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Telomeres Expendable,
non-coding sequences at ends of DNA
short sequence of bases repeated 1000s times
TTAGGG in humans
Telomerase enzyme in certain cells
enzyme extends telomeres
prevalent in cancers Why?
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Replication bubble
Adds 1000 bases/second!
Which direction does DNA build? List the enzymes & their role
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Replication enzymes helicase DNA polymerase III primase DNA polymerase I ligase single-stranded binding proteins
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DNA polymerases DNA polymerase III
1000 bases/second main DNA building enzyme
DNA polymerase I 20 bases/second editing, repair & primer removal
DNA polymerase III enzyme
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Editing & proofreading DNA 1000 bases/second =
lots of typos!
DNA polymerase I proofreads & corrects
typos repairs mismatched
bases excises abnormal bases
repairs damage throughout life
reduces error rate from 1 in 10,000 to 1 in 100 million bases
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Fast & accurate! It takes E. coli <1 hour to copy
5 million base pairs in its single chromosome divide to form 2 identical daughter cells
Human cell copies its 6 billion bases & divide into daughter cells in only few hours remarkably accurate only ~1 error per 100 million bases ~30 errors per cell cycle
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1
2
3
4
What’s it really look like?
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DNA replication animation
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Any Questions??