DNA Replication Lecture Notes PDF

Summary

This document covers DNA replication, including its accuracy, speed in bacteria (E. coli), and various methods (theta, rolling circle, and linear) for different cell types. It explains the central dogma of molecular biology and the semi-conservative nature of DNA replication.

Full Transcript

Chapter 12: DNA Replication

Accurate DNA replication in action!
1. The Central Dogma of Molecular Biology
DNA Replication: Genetic Information Must Be
Accurately Copied Every Time a Cell Divides
Astoundingly accurate: even a low error rate of 1 in a million
would result in 6,400 mistakes every time a cell divides!

Rapid: E. coli’s genome is about 4.6 million base pairs. If the
replication rate was 1000 nucleotides per minute it would take
over 3 days, yet E. coli are capable of dividing every 20 minutes!

Actually, E. coli replicate at a rate of 1000 nucleotides per
second with an error rate of less than 1 in a billion nucleotides!
 Section Outline
1. DNA structure (review)
2. DNA Replication is Semi-Conservative
3. Modes of DNA replication
4. Features of DNA replication
5. Proteins involved in prokaryotic DNA
replication
6. Unique aspects of eukaryotic DNA
replication

Pages to Omit from Chapter 12: Meselson and Stahl experiment in
sections 12.2 and 12.4 and all of Section 12.5 on DNA recombination.
1. DNA structure
Review of Chapter 10: BASIC
FEATURES of DNA nucleotides
and the DNA double helix
Complementary base pairs (A
pairs with T, G pairs with C)
Three hydrogen bonds pair G
with C, while two hydrogen bonds
pair A with T
Anti-parallel 5’ to 3’DNA strands
Right-handed double helix (B-
DNA): most common form in living
cells
Ten base pairs per turn
0.34 nm between stacked bases;
3.4 nm per helical turn
2. DNA replication is semi-conservative
Back in the day, a central question was
How does DNA replication occur?
“It has not escaped our notice that the specific pairing we have
postulated immediately suggests a possible copying mechanism for
the genetic material”

James Watson Francis Crick

J.D. Watson and F.H.C. Crick. 1953. Nature 171: 737-738
 2. DNA replication is semi-conservative

The Watson-Crick double helical DNA model suggested
a possible semi-conservative copying mechanism

-after one round of DNA replication, each DNA contains 1 parental and 1
newly-synthesized strand
2. DNA replication is semi-conservative
2. DNA replication is semi-conservative

Original DNA strands

Conservative Dispersive

Semi-conservative
 3. Modes of DNA replication

Prokaryote Chromosomes Eukaryotic Chromosomes
 3. Modes of DNA replication
1. Theta replication -replication that occurs in most circular DNA (eg., bacteria
with only 1 origin of replication that is 4.6 million nt in length)
DNA replication is bidirectional

*

θ Greek letter theta
 3. Modes of DNA replication
2. Rolling circle replication –specialized form of replication that occurs in the F
factor of E. Coli and some viruses (only 1 origin of replication)

DNA replication is unidirectional
 3. Modes of DNA replication
3. Linear chromosome
replication –occurs
in the linear
chromosomes of
eukaryotic cells.

DNA replication is bidirectional

Mice have ~25,000 origins of
replication and each replicon is about
150,000 nucleotides in length.
3. Modes of DNA replication