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Published byOscar Daniels Modified over 9 years ago
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Concept 16.2: Many proteins work together in DNA replication and repair
It has not escaped our notice that the specific pairing we have postulated immediately suggests a possible copying mechanism for the genetic material. –J.D. Watson and F.H.C. Crick, Molecular structure of nucleic acids: a structure for deoxyribose nucleic acids, Nature 171: (1953).
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The Basic Principle: Base Pairing to a Template Strand
Since the two strands of DNA are complementary, each strand acts as a template for building a new strand in replication. In DNA replication, the parent molecule unwinds, and two new daughter strands are built based on base-pairing rules.
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(a) Parent molecule (b) Separation of strands (c)
Figure A T A T A T A T C G C G C G C G T A T A T A T A A T A T A T A T G C G C G C G C (a) Parent molecule (b) Separation of strands (c) “Daughter” DNA molecules, each consisting of one parental strand and one new strand Figure 16.9 A model for DNA replication: the basic concept.
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Parent cell First replication Second replication
Conservative model (b) Semiconservative model Figure Three alternative models of DNA replication. (c) Dispersive model
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Experiments by Matthew Meselson and Franklin Stahl supported the semiconservative model .
Experiment: They labeled the nucleotides of the old strands with a heavy isotope of nitrogen, while any new nucleotides were labeled with a lighter isotope. Results: The first replication produced a band of hybrid DNA, eliminating the conservative model. A second replication produced both light and hybrid DNA, eliminating the dispersive model and supporting the semiconservative model. © 2011 Pearson Education, Inc.
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Bacteria cultured in medium with 15N (heavy isotope) 2
Figure 16.11 EXPERIMENT 1 Bacteria cultured in medium with 15N (heavy isotope) 2 Bacteria transferred to medium with 14N (lighter isotope) RESULTS 3 DNA sample centrifuged after first replication 4 DNA sample centrifuged after second replication Less dense More dense CONCLUSION Predictions: First replication Second replication Conservative model Figure Inquiry: Does DNA replication follow the conservative, semiconservative, or dispersive model? Semiconservative model Dispersive model
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10 minutes at each station. Make sure to complete your notes packet.
Replication Stations 10 minutes at each station. Make sure to complete your notes packet.
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Replicating the Ends of DNA Molecules
Limitations of DNA polymerase create problems for the linear DNA of eukaryotic chromosomes. The usual replication machinery provides no way to complete the 5 ends. Once the RNA primer is removed from the 5’ end, it cannot be replaced with DNA because there is no 3’ end for nucleotide addition. Repeated rounds of replication produce shorter and shorter DNA molecules with uneven ends.
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Ends of parental DNA strands Leading strand Lagging strand 3
Figure 16.20 5 Ends of parental DNA strands Leading strand Lagging strand 3 Last fragment Next-to-last fragment Lagging strand RNA primer 5 3 Parental strand Removal of primers and replacement with DNA where a 3 end is available 5 3 Second round of replication Figure Shortening of the ends of linear DNA molecules. 5 New leading strand 3 New lagging strand 5 3 Further rounds of replication Shorter and shorter daughter molecules
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Eukaryotic chromosomal DNA molecules have special nucleotide sequences at their ends called telomeres. Telomeres do not prevent the shortening of DNA molecules, but they do postpone the erosion of genes near the ends of DNA molecules. It has been proposed that the shortening of telomeres is connected to aging. Telomeres are stained orange in this mouse chromosome.
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An enzyme called telomerase catalyzes the lengthening of telomeres in germ cells (to prevent essential genes from going missing in the gametes).
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The shortening of telomeres might protect cells from cancerous growth by limiting the number of cell divisions. There is evidence of telomerase activity in cancer cells, which may allow cancer cells to persist.
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