DNA and Protein Synthesis

Slides:

Advertisements

Similar presentations

Discovering the Structure of DNA. What is DNA? DNA = deoxyribonucleic acid Stores, transmits and copy all information Located in the cell’s nucleus.

Advertisements

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

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

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

DNA Structure and Function

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.

Warm Up Where is DNA located within a cell? Why is DNA important?

The Structure of DNA.

Unit 3: Molecular Genetics Section1-DNA and RNA. I. Ancient Ideas a. Hippocrates suggested traits passed through pangenes- any alterations made to self.

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

DNA and Protein Synthesis. What is DNA? Contains the genetic information for making all the proteins in the cell.

1928 Frederick Griffith 1944 Oswald Avery - repeated Griffith’s experiment Proves DNA stores and transmits information.

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

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

DNA. DNA is the organic molecule Deoxyribonucleic Acid The function of DNA is as a molecule that permanently stores the information or instructions necessary.

 DNA contains the instructions (codes) for making all the proteins in the body.

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

DNA and RNA. Rosalind Franklin Worked with x-ray crystallography Discovered: That DNA had a helical structure with two strands.

CELL REPRODUCTION. Lesson Objectives Describe the coiled structure of chromosomes made of DNA and proteins formed after DNA replicates and are the form.

DNA 분자구조의 중요성 DNA : 유전 정보가 저장된 물질 Hereditary information is encoded in DNA. 유전 정보 발현의 중심 - DNA directs the development of biochemical, anatomical, physiological,

DNA The Language of Life.

DNA History and Structure

Discovering the Structure of DNA

DNA Biology 11.

Discovery of DNA and DNA Structure

copyright cmassengale

History of DNA H Biology Winter 2018.

DNA and Protein Synthesis

11.2 Structure of DNA.

Deoxyribonucleic Acid or DNA

DNA Structure and Function

Leads to DNA: Griffith’s Experiment

Discovering the Structure of DNA

Chapter 12.1 DNA.

Discovery and Structure

DNA Deoxyribonucleic Acid

DNA Structure Unit 4.

Introduction to DNA February 9th, 2016.

DNA & Replication.

A molecule that can copy itself!

Deoxyribonucleic Acid

Discovering the Structure of DNA

Copyright Pearson Prentice Hall

11.2 Structure of DNA.

DNA Structure Standard 3.1.1

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 ______________.

DNA: The Genetic Material

DNA Structure and Function

The History of DNA TSW explain how the genetic code is contained within DNA TSW investigate the exploration of DNA structure.

Discovering the Structure of DNA

Unit 7: DNA Structure and Function

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.

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

Chapter 12 Section 12-1 Pages

copyright cmassengale

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

Deoxyribonucleic Acid Found in the Nucleus Carries your genes

Scientists who Identified DNA

DNA Deoxyribonucleic Acid

CHAPTER 12 POWERPOINT MR. GUILLEN BIOLOGY 9.

Ch. 10 DNA (Deoxyribonucleic acid)

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

High School Biology Class

Discovering the Structure of DNA

What are genes made of and how do they work?

Chapter 12 DNA and RNA 12-1: DNA.

DNA, RNA & Protein Synthesis

Presentation transcript:

DNA and Protein Synthesis

What is DNA? Contains the genetic information for making all the proteins in the cell

In the Beginning….. The world of science debated on what the genetic material was Some thought it was protein Others believed it was DNA

Evidence for a Genetic “Factor” 1928 – Frederick Griffith’s “Transforming Factor” Experiment Conclusion: “Something” from Heat-treated Strain 1 “transformed” Strain 2 to become deadly

DNA is Proven to be that Genetic Factor 1944 – Oswald Avery and colleagues focused on two of the genetic factor candidates: protein and DNA Repeated Griffith’s experiment, but with a modification   Proteases Mouse dies   DNases Mouse lives Conclusion – DNA is the transforming, thus genetic material

Avery Questioned In the Scientific Community

Final Proof that DNA is the Genetic Material 1952 – Hershey-Chase Experiment Virus = DNA (inside) + protein (outside) Conclusion: DNA was the genetic material due to viruses passing on DNA for reproduction

The DNA “Twist” DNA is a double helix Every 10 nucleotides there is a 360 degree rotation The structure of DNA is accredited to James Watson, Francis Crick and Rosalind Franklin

Frame of Reference Where is the DNA located in eukaryotes? Prokaryotes?

The Structure of DNA DNA = deoxyribonucleic acid DNA is a polymer built up from monomers Monomers are called nucleotides

The Structure of DNA Continued Phosphate Group – provides the “backbone” of DNA 5’ end (5 prime end) Sugar – called a deoxyribose; also part of the DNA “backbone” 3’ end (3 prime end) Backbone of DNA called the sugar-phosphate backbone

Nitrogenous Bases of DNA Two Types Pyrimidines  Thymine (T)  Cytosine (C) Purines  Adenine (A)  Guanine (G) Purines are double ringed, pyrimidines are single ringed

Pairing of Bases In DNA G hydrogen bonds with C T hydrogen bonds with A G C C A T G T A C G T A T C G G T A C A T G C A T A

Chargaff’s Rule 1950 – Erwin Chargaff discovered: A approximately equals T G approximately equals C This is true for all species! In humans A = 30.9% and T = 29.4% G = 19.9% and C = 19.8%

Let’s Put the Structure Together Notice the following: 5’ and 3’ ends A:T and G:C Hydrogen bond numbers Sugar-phosphate backbone Two strands are antiparallel