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Hershey-Chase Experiment
Maurice Wilkins and Rosalind Franklin used X-ray crystallography to study the structure of DNA
James Watson and Francis Crick used this information to deduce the double helical structure of DNA
Chargaff’s Rule
# of A’s = # of T’s # of C’s = # of G’s
If it’s determined that a sample of DNA consists of 23% Adenine, how much of the sample is Guanine?
27%
DNA strands are antiparallel
Numbering of strands is based on position of deoxyribose sugars
DNA is wrapped tightly around proteins & folded
DNA must unwind for replication to occur
DNA Replication occurs during the S phase of Interphase is semi-conservative (Meselson & Stahl) Used 14N and 15N – different densities
Overview of DNA Replication: Unreplicated DNA. Strands “unzip” at
several points creating replication forks.
Each strand serves as template for complementary nucleotides to H-bond.
New nucleotides of each daughter strand are linked.
Steps in DNA Replication:
Helicase breaks hydrogen bonds.
Binding proteins stabilize strands; prevent them from rejoining.
Primase makes an RNA primer.
Free nucleotides move in & H-bond; DNA polymerase links nucleotides to each other starting at primer & working in the 5’ to 3’ direction
DNA polymerase “proofreads” new strand (replaces incorrect bases); leaves errors 1/1,000,000,000 base pairings
DNA replication is continuous on one strand (leading strand)
DNA replication is discontinuous on other strand (lagging strand), producing Okazaki fragments
Repair enzymes remove RNA primers; Ligase connects Okazaki fragments.
Ligase
Origin of replication Replication forks Replication bubbles
Okazaki fragments Leading vs. Lagging strands
The rate of elongation is about 500 nucleotides per second in bacteria and 50 per second in human cells
1/10,000 base pairings is an error; only 1/1,000,000,000 errors left after proofreading