I. History of DNA A. Friedrich Miescher 1. Identified DNA in the nucleus of white blood cells in 1871 2. It was a sugary, phosphate-rich chemical which.

Slides:

Advertisements

Similar presentations

The Race to Discover DNA

Advertisements

Scientists and their contributions to the theory of the DNA molecule.

Chapter 10 – DNA: The Chemical Nature of the Gene.

DNA History and Structure History. Friedrich Miescher  Published in 1871  First to isolate and identify DNA and suggested its role in heredity.

Zoology. I. Discovery of DNA A. Objectives i. Relate how Griffith’s bacterial experiments showed that a hereditary factor was involved in transformation.

Chapter 12 Notes, DNA, RNA, and Protein Synthesis.

DNA’s Discovery and Structure. Scientists that determined DNA’s Structure and Importance 1866 Gregor Mendel – demonstrated that parents pass traits.

The Discovery of DNA.

Part 1 Discovery of DNA & its structure

The History and Discovery of the Structure and Role of DNA

A lion hunter… In The Jungle Dark… And A Chinese Dentist… And A British Queen… All Fit Together.

Evidence that DNA is the Genetic Material

DNA video project SOME BACKGROUND INFO…. WHAT IS THE “STUFF” OF HEREDITY? WHAT IS ITS STRUCTURE? The following scientists helped to answer these questions.

20.1a History of DNA and Structure Cell Division, Genetics, Molecular Biology.

Chapter 8 Human Heredity by Michael Cummings ©2006 Brooks/Cole-Thomson Learning Chapter 8 DNA Structure and Chromosomal Organization.

Ch. 10 History of DNA. DNA Scientists: Frederick Griffith (1928): worked with bacterial cells; figured out ‘transformation’….transfer of genetic material.

History and Structure of DNA. Deoxyribonucleic Acid A double-stranded polymer of nucleotides (each consisting of a deoxyribose sugar, a phosphate, and.

A Short History of DNA Technology. The History Of DNA.

DNA The Hereditary Material. The Discovery of DNA 1869 – Friedrich Miescher investigated chemical composition of DNA using pus cells. At the time, proteins.

Chapter 10 DNA and RNA DNA Deoxyribonucleic Acid Experiments –Griffith – MICE!! pneumonia Determined that some how the harmful strain infected the.

The Molecular Basis of Inheritance Chapter 16 Biology – Campbell Reece.

Chapter 12 Notes, DNA, RNA, and Protein Synthesis

DNA – The Genetic Material

The Structure of DNA (Chapter 13.1). DNA: The Genetic Material Genes are made up of small segments of deoxyribonucleic acid or “DNA” DNA is the primary.

Chapter 14 DNA: The Molecule of Heredity. The Beginning of the Era 1800s – Scientists have discovered that traits are passed down through generations.

AP Biology DNA The Genetic Material AP Biology Scientific History  The march to understanding that DNA is the genetic material  T.H. Morgan.

DNA and RNA – DNA image.

The Structure of DNA (Chapter 13.1). DNA: The Genetic Material Genes are made up of small segments of deoxyribonucleic acid or “DNA” DNA is the primary.

DNA History. Fredrick Griffith  Identified transformation of rough coat bacteria ( non lethal) to smooth coat (lethal)  Injected mice  Showed that.

Unit 6: DNA & Protein Synthesis Ch. 9: Chemistry of the Gene Ch. 10: From Genes to Proteins DNA = Deoxyribonucleic Acid 300.

AP BIOLOGY DNA History & Structure. Nucleic Acid Structure.

History and Structure of DNA. Thomas Hunt Morgan (1904) Discovered that genes are on chromosomes, but didn’t know if it was the protein or DNA part of.

DNA Part I The History and Discovery of the Structure and Role of DNA.

Chapter 12. Background information Chromosomes are made of DNA and proteins. Until the 1940’s there was a debate about which was the genetic material.

Who: Frederick Griffith When: 1928  What did they do: Experimented with mice using 2 strains of pneumonia bacteria (one harmful and one harmless)  He.

Standards 5b. Know how to apply base- pairing rules to explain precise copying of DNA during semi- conservative replication.

The History of DNA How we know what we know Scientific History The march to understanding that DNA is the genetic material –T.H. Morgan (1908) –Frederick.

Unit 4: DNA & Protein Synthesis Ch 9: Chemistry of the Gene DNA = Deoxyribonucleic Acid.

DNA SBI3U. WHAT MACROMOLECULE CARRIES GENETIC INFORMATION? Agenda for October 22 nd Intro DNA notes 2.Create DNA.

Chapter #12 – DNA, RNA, & Protein Synthesis. I. DNA – experiments & discoveries A. Griffith and Transformation Frederick Griffith – British scientist.

DNA. DNA Vocabulary 0 DNA: Deoxyribonucleic acid 0 Trait: Inherited characteristic that DNA codes for 0 Heredity: The passing of traits from one generation.

DNA Chapter I. Time Frame and History of DNA Friedrich Meisher Recognized DNA as a chemical in the nucleus 1868.

The Race to Discover DNA

Discovery and Structure

Lecture 50 – Lecture 51 DNA: The Genetic Material Ozgur Unal

The Discovery of DNA HHMI video - 18 minutes

DNA Biology 11.

DNA and The Genome Structure of DNA: Experimental Evidence

Figure 16.1 Figure 16.1 How was the structure of DNA determined?

The Race to Discover DNA

When you pass the AP Exam…

DNA Deoxyribonucleic Acid

Video DNA Song- Jam Campus (Resources Page).

Unit 5: Genetics Learning Goal 3: Describe the structure of DNA, its discovery, and its importance in DNA replication.

Evidence that DNA is the Genetic Material

The Race to Discover DNA

DNA Deoxyribonucleic Acid

The Search for the Genetic Material "If I have seen further, it is by standing on the shoulders of giants." – Isaac newton.

Ch. 10 DNA (Deoxyribonucleic acid)

Compare DNA and RNA in terms of structure, nucleotides and base pairs.

The Race to Discover DNA

History of DNA.

Discovering DNA SBI4U.

The Molecular Basis of Inheritance

The Race to Discover DNA

The Race to Discover DNA

The Race to Discover DNA

DNA, RNA & Protein Synthesis

History of DNA.

Presentation transcript:

I. History of DNA A. Friedrich Miescher 1. Identified DNA in the nucleus of white blood cells in It was a sugary, phosphate-rich chemical which he called nuclein

B. Fredrick Griffith- The Transformation Experiment British bacteriologist whose focus was on the epidemiology and pathology of bacterial pneumonia 2. His experimentation is now known as the transformation experiment 3. He showed that Streptococcus pneumoniae, could transform from one strain into a different strain 4. The transforming principle was later identified as DNA

C. Oswald Avery- DNA is the Genetic Material The genetic information was thought to be contained in protein 2. Continuing the research done by Griffith in 1928, Avery worked with MacLeod and McCarty on the mystery of the transformation 3. His team made protein and DNA extracts of the capsulted strain (which has a smooth surface) and introduced the substance into a rough-surfaced type of bacterium 4. The rough-surfaced strain transformed into the smooth-surfaced type, he knew the substance he had extracted contained the gene that coded for the smooth surface 5. Avery published the results of his research in The paper led to more intensive studies of DNA, which eventually revealed it to be the common agent of heredity

D. Alfred Hershey and Martha Chase 1. “Waring Blender” Experiment 2. DNA is the Genetic Material- 1952

Food Blender Centrifuge

32 35 DNA P Labeled Protein S Labeled

E. Erwin Chargaff – 1940’s 1. Chargaff's rules a. The amount of guanine is equal to cytosine and the amount of adenine is equal to thymine b. The composition of DNA varies from one species to another, in particular in the relative amounts of A, G, T, and C bases

F. Discovery of the Structure of DNA 1. James Watson and Francis Crick a. Cambridge University 2. Maurice Wilkins and Rosalind Franklin a. Kings College

Photo 51 The Watson and Crick Model of the Structure of DNA

II. DNA Structure A. Double Helix

B. DNA Nucleotide C. Base Pairing

D. Purine and Pyrimidine Bases E. Antiparallel Nature of DNA

F. DNA Replication

G. Messelson and Stahl 1. DNA Replicates Semi-conservatively 2. Let E. coli replicate its DNA in Nitrogen- 15 for several generations

III. RNA Characteristics A. RNA Nucleotide

B. Types of RNA 1. Messenger RNA 2. Transfer RNA 3. Ribosomal RNA C. Transcription

D. RNA Processing in Eukaryotes

E. The Genetic Code: mRNA codons

IV. Translation of the Genetic Code A. Protein Synthesis

Polysomes

V. Mutations to the DNA Molecule

Missense

Nonsense

Frameshift Mutation

VI. The Operon Model of Gene Expression A. The Lac Operon