ap biology 2007-2008 dna replication ap biology double helix structure of dna “it has not escaped...
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![Page 1: AP Biology 2007-2008 DNA Replication AP Biology Double helix structure of DNA “It has not escaped our notice that the specific pairing we have postulated](https://reader035.vdocuments.net/reader035/viewer/2022062620/551ad9da550346b2288b5fb9/html5/thumbnails/1.jpg)
AP Biology 2007-2008
DNA Replication
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AP Biology
Double helix structure of DNA
“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
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AP Biology
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 beIMPORTANT!!
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AP Biology
The DNA backbone Putting the DNA
backbone together refer to the 3 and 5
ends of the DNA the last trailing carbon
OH
O
3
PO4
base
CH2
O
base
OPO
C
O–O
CH2
1
2
4
5
1
2
3
3
4
5
5
Sounds trivial, but…this will beIMPORTANT!!
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AP Biology
Anti-parallel strands Nucleotides in DNA
backbone are bonded from phosphate to sugar between 3 & 5 carbons DNA molecule has
“direction” complementary strand runs
in opposite direction
3
5
5
3
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AP Biology
Bonding in DNA
….strong or weak bonds?How do the bonds fit the mechanism for copying DNA?
3
5 3
5
covalentphosphodieste
rbonds
hydrogen
bonds
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AP Biology
Base pairing in DNA Purines
adenine (A) guanine (G)
Pyrimidines thymine (T) cytosine (C)
Pairing A : T
2 bonds C : G
3 bonds
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AP Biology
Copying DNA Replication of DNA
base pairing allows each strand to serve as a template for a new strand
new strand is 1/2 parent template & 1/2 new DNA
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AP Biology
DNA Replication Large team of enzymes coordinates replication
Let’s meetthe team…
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AP Biology
Replication: 1st step Unwind DNA
helicase enzyme unwinds part of DNA helix
replication fork
helicase
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AP Biology
DNAPolymerase III
Replication: 2nd step
But…We’re missing something!
What?
Where’s theENERGY
for the bonding!
Build daughter DNA strand add new
complementary bases DNA polymerase III
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AP Biology
energy
ATPGTPTTPCTP
Energy of ReplicationWhere does energy for bonding usually come from?
ADPAMPGMPTMPCMPmodified nucleotide
energy
We comewith our ownenergy!
And weleave behind anucleotide!
YourememberATP!
Are there other ways
to get energyout of it?
Are thereother energynucleotides?You bet!
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AP Biology
Adding bases can only add
nucleotides to 3 end of a growing DNA strand need a “starter”
nucleotide to bond to
strand only grows 53
DNAPolymerase III
DNAPolymerase III
DNAPolymerase III
DNAPolymerase III
energy
energy
energy
Replication energy
3
3
5B.Y.O. ENERGY!The energy rules
the process
5
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AP Biology
energy
35
5
5
3
need “primer” bases to add on to
energy
energy
energy
3
no energy to bond
energy
energy
energy
ligase
3 5
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AP Biology
Limits of DNA polymerase III can only build onto 3 end of
an existing DNA strand
Leading & Lagging strands
5
5
5
5
3
3
3
53
53 3
Leading strand
Lagging strand
Okazaki fragments
ligase
Okazaki
Leading strand continuous synthesis
Lagging strand Okazaki fragments joined by ligase
“spot welder” enzyme
DNA polymerase III
3
5
growing replication fork
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AP Biology
DNA polymerase III
Replication fork / Replication bubble
5
3 5
3
leading strand
lagging strand
leading strand
lagging strandleading strand
5
3
3
5
5
3
5
3
5
3 5
3
growing replication fork
growing replication fork
5
5
5
5
53
3
5
5lagging strand
5 3
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AP Biology
DNA polymerase III
RNA primer built by primase serves as starter sequence
for DNA polymerase III
Limits of DNA polymerase III can only build onto 3 end of
an existing DNA strand
Starting DNA synthesis: RNA primers
5
5
5
3
3
3
5
3 53 5 3
growing replication fork
primase
RNA
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AP Biology
DNA polymerase I removes sections of RNA
primer and replaces with DNA nucleotides
But DNA polymerase I still can only build onto 3 end of an existing DNA strand
Replacing RNA primers with DNA
5
5
5
5
3
3
3
3
growing replication fork
DNA polymerase I
RNA
ligase
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AP Biology
Replication fork
3’
5’
3’
5’
5’
3’
3’ 5’
helicase
direction of replication
primase
DNA polymerase III
DNA polymerase III
DNA polymerase I
ligase
Okazaki fragments
leading strand
lagging strand
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AP Biology
Editing & proofreading DNA 1000 bases/second =
lots of typos!
DNA polymerase I proofreads & corrects
typos repairs mismatched bases removes abnormal bases
repairs damage throughout life
reduces error rate from 1 in 10,000 to 1 in 100 million bases
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AP Biology
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