Presentation is loading. Please wait.

Presentation is loading. Please wait.

Discovering the Genetic Material

Published byNora Charles Modified over 8 years ago

Similar presentations

Presentation on theme: "Discovering the Genetic Material"— Presentation transcript:

1 Discovering the Genetic Material
DNA Experiments Discovering the Genetic Material

2 Learning Targets “I Can…”
-Summarize the experiments of Griffith, Avery, Hershey and Chase and their conclusions about the genetic material in cells. -Define “transformation.” -Describe a bacteriophage. -Summarize the contributions of Franklin, Chargaff, and Watson and Crick.

3 Frederick Griffith’s Experiment
Griffith was the first to show that the genetic material can be taken up by a cell; this is now called bacteria transformation(1928) How did he do this?

4

5 Oswald Avery’s Experiment
Avery discovered that DNA was responsible for transforming cells (1944) How did he do it?

6

7 Hershey-Chase Experiment
Hershey and Chase discovered that DNA was the genetics material in ALL types of cells How did they do it?

8

9 What is the role of DNA in heredity?
Storing Copying Transmitting

10 What is DNA made of? Long chains of nucleotides How do we know this?
Chargaff’s Rule Franklin’s Xrays Watson and Crick’s models

11 Chargaff’s Rule

12 Rosalind Franklin’s X-Rays
Her experiments showed that… DNA is twisted like the coils of a spring DNA may have two strands The nitrogen bases are near the center of DNA

13 James Watson and Francis Crick
With the help of Franklin’s x-rays, they built the first model of DNA that showed two strands of nucleotide sequences wound around each other.

14 What does the double helix model tell us about the structure of DNA?
1. Antiparallel strands 2. Hydrogen Bonding 3. Base Pairing: explains Chargaff’s Rule

15 Antiparallel Strands DNA is always read in the 5’ to 3’ direction

16 Hydrogen Bonding

17 Base Pairing

18 How is DNA copied? Complementarity
DNA Polymerase: an enzyme that joins individual nucleotides to produce a new strand of DNA

19 How is DNA copied? Complementarity Replication Forks

20 How is DNA copied? Complementarity
Telomeres/Telomerase: telomeres are the tips of chromosomes where replication is difficult. An enzyme called telomerase adds short, repeated DNA sequences to prevent genes from being damaged or lost during replication. Telomerase is especially important in rapidly dividing cells, such as stem cells or embryonic cells.

21 How is DNA copied?

22 Prokaryotic Versus Eukaryotic Replication
Prokaryotic: starts at a single point, proceeds in both direction Eukaryotic: starts at several points, proceeds in both directions

23 Prokaryotic Versus Eukaryotic Replication

24 References www.Quia.com

Download ppt "Discovering the Genetic Material"

Similar presentations

Griffith and Transformation

Griffith and Transformation
12.1 Identifying the Substance of Genes

12.1 Identifying the Substance of Genes
DNA: The Genetic Material Chapter 14. 2 3 The Genetic Material Griffith’s conclusion: - information specifying virulence passed from the dead S strain.

DNA: The Genetic Material Chapter The Genetic Material Griffith’s conclusion: - information specifying virulence passed from the dead S strain.
Ch. 16 Warm-Up 1.Draw and label a nucleotide. Why is DNA a double helix? 2.What was the contribution made to science by these people: A.Morgan B.Griffith.

Ch. 16 Warm-Up 1.Draw and label a nucleotide. Why is DNA a double helix? 2.What was the contribution made to science by these people: A.Morgan B.Griffith.
DNA Structure. Frederick Griffith In 1928, Frederick Griffith wanted to learn how certain types of bacteria produce pneumonia Griffith injected mice with.

DNA Structure. Frederick Griffith In 1928, Frederick Griffith wanted to learn how certain types of bacteria produce pneumonia Griffith injected mice with.
Chapter 12- DNA BIG IDEA: What is the structure of DNA, and how does it function in genetic inheritance?

Chapter 12- DNA BIG IDEA: What is the structure of DNA, and how does it function in genetic inheritance?
The genome is the full set of genetic information that an organism carries in its DNA A karyotype shows the complete diploid set of chromosomes grouped.

The genome is the full set of genetic information that an organism carries in its DNA A karyotype shows the complete diploid set of chromosomes grouped.
DNA Chapter 12. First Question- Early 1900s What molecule carries genetic information?

DNA Chapter 12. First Question- Early 1900s What molecule carries genetic information?
DNA DiscoveryStructureReplication 40 questions. 1. Describe the two strains of bacteria Griffith used in his experiment with mice. S strain (deadly) S.

DNA DiscoveryStructureReplication 40 questions. 1. Describe the two strains of bacteria Griffith used in his experiment with mice. S strain (deadly) S.
Chapter 12 Genetic facts in 1900: Both female and male organisms have identical chromosomes except for one pair. Genes are located on chromosomes All.

Chapter 12 Genetic facts in 1900: Both female and male organisms have identical chromosomes except for one pair. Genes are located on chromosomes All.
12–1 DNA Photo credit: Jacob Halaska/Index Stock Imagery, Inc.

12–1 DNA Photo credit: Jacob Halaska/Index Stock Imagery, Inc.
Chapter 10 Table of Contents Section 1 Discovery of DNA

Chapter 10 Table of Contents Section 1 Discovery of DNA
Chapter 12: DNA The Blueprint of Life.

Chapter 12: DNA The Blueprint of Life.
AIM What is the structure of DNA?. DNA Deoxyribonucleic Acid The material that contains the information that determines inherited characteristics.

AIM What is the structure of DNA?. DNA Deoxyribonucleic Acid The material that contains the information that determines inherited characteristics.
12.3 DNA Replication.

12.3 DNA Replication.
12.1 Identifying the Substance of Genes. Lesson Overview Lesson Overview Identifying the Substance of Genes THINK ABOUT IT How do genes work? To answer.

12.1 Identifying the Substance of Genes. Lesson Overview Lesson Overview Identifying the Substance of Genes THINK ABOUT IT How do genes work? To answer.
DNA: The Genetic Material

DNA: The Genetic Material
Griffith finds a ‘transforming principle.’

Griffith finds a ‘transforming principle.’
DNA Structure and Replication

DNA Structure and Replication
The Molecular Basis of Inheritance

The Molecular Basis of Inheritance

Similar presentations

Ads by Google