dna replication lesson 2. label the ends of dna strand as either 5’ or 3’. 5’
TRANSCRIPT
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DNA Replication
Lesson 2
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• Label the ends of DNA strand as either 5’ or 3’.
5’
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Leading Strand
5’
5’
3’
3’
helicase
SSBPs
gyrase
primase
5’
3’
DNA polymerase III
The leading strand is synthesized continuously during DNA replication
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Lagging Strand
Okazaki fragment
5’
3’
3’
5’
5’
3’
The laggin strand is synthesized discontinuously during DNAreplication
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Connecting Lagging Strands
• DNA polymerase I – removes the RNA primer
• DNA ligase – connects the sugar-phosphate backbone of Okazaki fragments
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Mistakes in DNA Replication
• less than 1 error in 107 (10 million) NTs
• exonuclease – enzymes which can cut out sections of the DNA strand
• DNA polymerase I and III and exonuclease work together to fix mistakes
Nuclease
DNApolymerase
DNAligase
A distorted section of DNA.1
A nuclease enzyme cutsthe damaged DNA strandat two points and thedamaged section isremoved.
2
Repair synthesis bya DNA polymerasefills in the missingnucleotides.
3
DNA ligase seals theFree end of the new DNATo the old DNA, making thestrand complete.
4
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Replicating the Ends of DNA Molecules
• The ends of eukaryotic chromosomal DNA– Get shorter with each
round of replication
Figure 16.18
End of parentalDNA strands
Leading strandLagging strand
Last fragment Previous fragment
RNA primer
Lagging strand
Removal of primers andreplacement with DNAwhere a 3 end is available
Primer removed butcannot be replacedwith DNA because
no 3 end availablefor DNA polymerase
Second roundof replication
New leading strand
New lagging strand 5
Further roundsof replication
Shorter and shorterdaughter molecules
5
3
5
3
5
3
5
3
3
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• Eukaryotic chromosomals– Have repeated short nucleotide sequences, called
telomeres at their ends that do not code for amino acids.
– postpone the erosion of genes near the ends of DNA molecules (e.g. in humans 100-1,000 TTAGGG)
Figure 16.19 1 µm
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• Some cells (like cervical cancer cells) have an enzyme called telomerase– Lengthens the telomeres, thus restoring original
length and compensating for shortening that occurs during DNA replication.
– Contributes to the “indestructible” nature of cancer cells
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Explain the function of each of the following enzymes in DNA replication:
DNA gryase Relieves the tension produced by the unwinding DNA during replication
DNA helicase Unwinds the DNA double helix by disrupting hydrogen bonds between base pairs
DNA polymerase I
Removes RNA primers and replaces them with the appropriate deoxyribonucleotides (DNA bases) during DNA replication
DNA polymerase III
Makes complementary strands of DNA (adds deoxyribonucleoside triphosphates to the 3’ end of the elongating strand
DNA ligase Joins DNA fragments together by catalyzing the formation of a bond between the 3’ hydroxyl group and a 5’ phosphate group on the sugar-phosphate backbones
RNA primase Makes RNA primers
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• Review from previous lessons– Pg. 198 Section Review - #2, 3, 7 (info from
previous lessons)
• Material from today’s lesson– Pg. 204 Section Review - #2– Pg. 205 Understanding Concepts - #8, 9, 10,
15, 18, 25, 33, 42