DNA: History and Structure. A Brief History of DNA (deoxyribonucleic acid): –Discovery of DNA by many different scientists –1928 – Griffith – studied.

Slides:

Advertisements

Similar presentations

Advertisements

Genes are made of DNA (11.1) Objectives Key Terms

Griffith and Transformation

12. 1 DNA: The Genetic Material. 1)Griffith injects mice with disease causing bacteria  the mice die 2)Griffith injects mice with harmless bacteria 

Nucleic Acids The Genetic Material. Two types of Nucleic acids RNA RNA DNA DNA.

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

EQ: How did the structure of DNA lead scientist to the function of the molecule?

Copyright Pearson Prentice Hall

What are you looking at?. What are you looking at now?

DNA: Deoxyribonucleic Acid. I. Molecule for Heredity A. Scientists needed a molecule that could carry 3 main functions: 1. Carry genes from generation.

What we’ve learned so far… Cells make proteins Genetic information is passed on through chromosomes Compacted DNA and proteins= chromosomes Genetic information.

DNA Structure and Function

WARM UP Which scientists performed experiments with viruses?

DNA Structure The Genetic Material.

13.1: The Structure of DNA.

Chapter 8 From DNA to Protein. 8-2 DNA Structure 3 understandingsGenes 1. Carry information for one generation to the next 2. Determine which traits are.

 Deoxyribo- nucleic Acid is made up of nucleotides.

KEY CONCEPT DNA structure is the same in all organisms.

Chapter 12 DNA and Genes Vocabulary: Transformation Bacteriophage Nucleotide Base pairing Double helix Key Concepts: What did scientists discover about.

DNA Structure Review. Questions 1.Name the term used to describe the shape of the DNA molecule. 2.What does DNA stand for? 3.What 3 chemicals make up.

Chapter 12 The Structure of DNA. DNA the Genetic Carrier! Now, thanks to Griffith, Avery, Hershey and Chase’s experiment Biologists are equipped with.

DNA. Nucleic Acids Informational polymers Made of C,H,O,N and P No general formula Examples: DNA and RNA.

DNA DeoxyriboNucleic Acid

Unit 5: DNA Section 1. Vocabulary Nucleotide- –monomer of a nucleic acids made up of a 5-carbon sugar, a phosphate group, and a nitrogenous base. Base-pairing-

Objective: What is the structure of DNA?

Unit 4: Molecular Genetics Left sidePg #Right SidePg # Unit Page58Table of contents59 Double Bubble60C.N. – DNA & RNA Structure 61 DNA & RNA Coloring62.

Figure 12–7 Structure of DNA

Chap. 10 : Nucleic Acids & Protein Synthesis I. DNA – deoxyribonucleic acid - function – store and use information to direct activities of the cell and.

Functions of DNA DNA must do three important things: 1. Carry information from one generation to the next 2. Put that information to work – (Determine.

Chapter 11: DNA & the Language of Life – Genes are made of DNA Review: – 1928: Griffith used bacteria in mice to discover “transforming factor”

NUCLEIC ACIDS  P GENERAL CHARACTERISTICS MADE UP OF C, H, O, N, AND P A NUCLEOTIDE MONOMER : THAT INCLUDES A 5 CARBON SUGAR, A NITROGEN BASE AND.

8.2 Structure of DNA TEKS 3F, 6A, 6B The student is expected to: 3F research and describe the history of biology and contributions of scientists; 6A identify.

DNA DeoxyriboNucleic Acid. What can DNA do? Carries information from one generation to the next Determines the heritable characteristics of organisms.

Characteristic of Life!!

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

Review What organelle is the “control center” of the cell? The nucleus What structures are found in the nucleus? Chromosomes What structures are located.

DNA. DNA History Griffith – Experimented on mice and observed some harmless strains of bacteria could change into harmful strains. He called this transformation.

DNA The Discovery of DNA. Griffith and Transformation: Transformation: One strain of bacteria (harmless) had changed into disease-causing strain Meant.

DNA and Genes. Prokaryotes VS Eukaryotes Prokaryotes: no defined nucleus and a simplified internal structure Eukaryotes: membrane limited nucleus and.

The Secret Code. Genes Genes, which are sections of DNA, are known to: –Carry information from one generation to the next. –Put that information to work.

DNA Introduction. What is DNA? Genetic information of life Type of Nucleic Acid Double Stranded.

Aim: How does DNA store the genetic information? DNA.

8.2 Structure of DNA KEY CONCEPT DNA structure is the same in all organisms. Deoxyribonucleic Acid.

The Structure of DNA. DNA DNA (deoxyribonucleic acid) is found in the nuclei of all cells. It is the DNA that carries the genetic information which will.

1 Chapter 9 DNA the Genetic Material. 2 Transformation-Griffith Griffith discovery about transformation occurred by accident. Griffith’s transformation.

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

Section 2 DNA Structure  DNA Double Helix  Watson and Crick created a model of the DNA.  Illustration:

The Structure of DNA What is genetic material composed of?

Discovery of DNA and DNA Structure

Structure of DNA and the history of its discovery

DNA The Secret Code.

Chapter 12.1 DNA.

DNA Deoxyribonucleic Acid

DNA Structure Unit 4.

DNA The Secret Code.

DNA Structure Standard 3.1.1

What is the structure and function of DNA?

What are you looking at?.

Warm Up 2 1/27 1. From this experiment, Griffith concluded that one strain of bacteria is changed in form by the gene of another. This is called ______________.

What is the structure and function of DNA?

DNA DNA is a type of organic macromolecule called Deoxyribonucleic Acid DNA is made up of repeating monomers called Nucleotides DNA has a distinct shape.

Deoxyribonucleic Acid Found in the Nucleus Carries your genes

DNA Deoxyribonucleic Acid

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

Unwinding the mystery of DNA

Modern Genetics.

DNA: History and Structure.

Presentation transcript:

DNA: History and Structure

A Brief History of DNA (deoxyribonucleic acid): –Discovery of DNA by many different scientists –1928 – Griffith – studied how bacteria made people sick; found that a gene could change harmless bacteria into disease-causing ones –1944 – scientists led by Avery – DNA is a nucleic acid that stores and transmits the genetic information from one generation of an organism to the next –1952 – Hershey & Chase – studied viruses that killed bacteria; viruses have DNA too

Structure of DNA Three important jobs of DNA: –Carry information from one generation to the next –Put information to work by determining the heritable characteristics of organisms –Has to be easily copied

Structure of DNA (continued) DNA is a long molecule made up of units called nucleotides and has two strands/sides Each nucleotide is made up of three basic parts –A–A 5-carbon sugar (deoxyribose) –A–A phosphate –A–A nitrogenous (nitrogen-containing) base 4 bases found in DNA –A–Adenine and Guanine (both purines) –C–Cytosine and Thymine (both pyrimidines) Backbone of DNA formed by sugar and phosphate groups Four nucleotides can be strung together in many different ways to carry coded genetic information

DNA Nucleotides PurinesPyrimidines AdenineGuanine CytosineThymine Phosphate group Deoxyribose

Structure of DNA Hydrogen bonds Nucleotide Sugar-phosphate backbone Key Adenine (A) Thymine (T) Cytosine (C) Guanine (G)

Chargoff’s Rule – “Base-Pairing” –Adenine (A) can ONLY bond with one Thymine (T) –Cytosine (C) can ONLY bond with one Guanine (G)

“Base-Pairing” Tool Here’s an excellent tool to help you remember which nucleotides bond together and why: A = T G = C

Using the Base-Pairing Rule Because of the structure of DNA, the Base-Pairing Rule, and the “tool” from the previous slide, if given ONE side of DNA, you can give the “other side.” Ex: What is the “other side,” or complimentary strand, to this strand of DNA: –GGGGTTCGAAATTTCGCGAAT CCCCAAGCTTTAAAGCGCTTA

Double Helix –1953 – Watson & Crick – built a 3D model of DNA that was a double helix, in which two strands were wound around each other –Hydrogen bonds form between certain bases to help form the helix