Presentation is loading. Please wait.

Presentation is loading. Please wait.

Chapter 9 Opener. Figure 9.1 DNA in the Nucleus and in the Cell Cycle.

Published byShawn Carter Modified over 8 years ago

Similar presentations

Presentation on theme: "Chapter 9 Opener. Figure 9.1 DNA in the Nucleus and in the Cell Cycle."— Presentation transcript:

1 Chapter 9 Opener

2 Figure 9.1 DNA in the Nucleus and in the Cell Cycle

3

4 Figure 9.1 DNA in the Nucleus and in the Cell Cycle (Part 1)

5 Figure 9.1 DNA in the Nucleus and in the Cell Cycle (Part 2)

6 In-Text Art, Ch. 9, p. 166

7 Figure 9.2 Viral DNA and Not Protein Enters Host Cells

8

9 Figure 9.2 Viral DNA and Not Protein Enters Host Cells (Part 1)

10 Figure 9.2 Viral DNA and Not Protein Enters Host Cells (Part 2)

11 Figure 9.3 Transformation of Eukaryotic Cells

12

13 Figure 9.3 Transformation of Eukaryotic Cells (Part 1)

14 Figure 9.3 Transformation of Eukaryotic Cells (Part 2)

15 Figure 9.4 X-Ray Crystallography Helped Reveal the Structure of DNA

16

17 Figure 9.4 X-Ray Crystallography Helped Reveal the Structure of DNA (Part 1)

18 Figure 9.4 X-Ray Crystallography Helped Reveal the Structure of DNA (Part 2)

19 In-Text Art, Ch. 9, p. 169

20

21 Figure 9.5 DNA Is a Double Helix

22

23 Figure 9.5 DNA Is a Double Helix (Part 1)

24 Figure 9.5 DNA Is a Double Helix (Part 2)

25 Figure 9.6 Base Pairs in DNA Can Interact with Other Molecules

26

27 In-Text Art, Ch. 9, p. 172

28 Figure 9.7 Each New DNA Strand Grows by the Addition of Nucleotides to Its 3′ End

29

30 Figure 9.8 The Origin of DNA Replication

31

32 Figure 9.8 The Origin of DNA Replication (Part 1)

33 Figure 9.8 The Origin of DNA Replication (Part 2)

34 Figure 9.9 DNA Forms with a Primer

35

36 Figure 9.10 DNA Polymerase Binds to the Template Strand

37 Figure 9.10 DNA Polymerase Binds to the Template Strand (Part 1)

38 Figure 9.10 DNA Polymerase Binds to the Template Strand (Part 2)

39 Apply the Concept, Ch. 9, p. 175

40 Figure 9.11 The Two New Strands Form in Different Ways

41

42 Figure 9.12 The Lagging Strand Story

43

44 Figure 9.12 The Lagging Strand Story (Part 1)

45 Figure 9.12 The Lagging Strand Story (Part 2)

46 Figure 9.12 The Lagging Strand Story (Part 3)

47 Figure 9.13 Telomeres and Telomerase

48

49 Figure 9.13 Telomeres and Telomerase (Part 1)

50 Figure 9.13 Telomeres and Telomerase (Part 2)

51 Figure 9.14 DNA Repair Mechanisms

52

53 Figure 9.14 DNA Repair Mechanisms (Part 1)

54 Figure 9.14 DNA Repair Mechanisms (Part 2)

55 Figure 9.15 The Polymerase Chain Reaction

56

57 Figure 9.16 Mutation and Phenotype

58 In-Text Art, Ch. 9, p. 180

59 In-Text Art, Ch. 9, p. 181

60 Figure 9.17 Chromosomal Mutations

61

62 Figure 9.17 Chromosomal Mutations (Part 1)

63 Figure 9.17 Chromosomal Mutations (Part 2)

64 Figure 9.17 Chromosomal Mutations (Part 3)

65 Figure 9.17 Chromosomal Mutations (Part 4)

66 Figure 9.18 Spontaneous and Induced Mutations

67

68 Figure 9.18 Spontaneous and Induced Mutations (Part 1)

69 Figure 9.18 Spontaneous and Induced Mutations (Part 2)

70 Figure 9.18 Spontaneous and Induced Mutations (Part 3)

71 Figure 9.19 5-Methylcytosine in DNA Is a “Hotspot” for Mutations

72

73 Apply the Concept, Ch. 9, p. 184

74 Figure 9.20 A Neanderthal Child

Download ppt "Chapter 9 Opener. Figure 9.1 DNA in the Nucleus and in the Cell Cycle."

Similar presentations

Figure 16.0 Watson and Crick. Figure 16.0x James Watson.

Figure 16.0 Watson and Crick. Figure 16.0x James Watson.
Goal: Students will be able to explain how DNA was identified as the genetic material, describe the basic processes of replication, transcription, and.

Goal: Students will be able to explain how DNA was identified as the genetic material, describe the basic processes of replication, transcription, and.
DNA: Structure and Replication

DNA: Structure and Replication
KEY CONCEPT DNA replication copies the genetic information of a cell.

KEY CONCEPT DNA replication copies the genetic information of a cell.
12-2 Chromosomes and DNA Replication Pg. 295. A. DNA and Chromosomes 1. Prokaryotes have no nucleus; contain a single, circular strand of DNA.

12-2 Chromosomes and DNA Replication Pg A. DNA and Chromosomes 1. Prokaryotes have no nucleus; contain a single, circular strand of DNA.
9 DNA and Its Role in Heredity: identification, structure and replication.

9 DNA and Its Role in Heredity: identification, structure and replication.
In-Text Art, Ch. 9, p. 166. In-Text Art, Ch. 3, p. 37.

In-Text Art, Ch. 9, p In-Text Art, Ch. 3, p. 37.
DNA Sequencing PCR REPLICATION AND ITS APPLICATIONS.

DNA Sequencing PCR REPLICATION AND ITS APPLICATIONS.
Chapter 11: DNA and Its Role in Heredity Exit Next Previous Home Discussion topics Chapter summaries CHAPTER 11 DNA and Its Role in Heredity.

Chapter 11: DNA and Its Role in Heredity Exit Next Previous Home Discussion topics Chapter summaries CHAPTER 11 DNA and Its Role in Heredity.
THE MOLECULAR BASIS OF INHERITANCE

THE MOLECULAR BASIS OF INHERITANCE
Frederick Griffith uncovered genetic role of DNA Transformation- change in genotype and phenotype due to assimilation of external DNA by a cell Pathogenicity.

Frederick Griffith uncovered genetic role of DNA Transformation- change in genotype and phenotype due to assimilation of external DNA by a cell Pathogenicity.
Copyright © 2005 Brooks/Cole — Thomson Learning Biology, Seventh Edition Solomon Berg Martin Chapter 11 DNA: The Carrier of Genetic Information.

Copyright © 2005 Brooks/Cole — Thomson Learning Biology, Seventh Edition Solomon Berg Martin Chapter 11 DNA: The Carrier of Genetic Information.
DNA Replication. When? S (synthesis) phase of cell cycle Creates copy of DNA and two copies are held together by centromere. Thousands of times per second.

DNA Replication. When? S (synthesis) phase of cell cycle Creates copy of DNA and two copies are held together by centromere. Thousands of times per second.
THE MOLECULAR BASIS OF INHERITANCE Chapter 16. THE SEARCH FOR GENETIC MATERIAL Frederick Griffith (1928) – something changed normal cells into pneumonia.

THE MOLECULAR BASIS OF INHERITANCE Chapter 16. THE SEARCH FOR GENETIC MATERIAL Frederick Griffith (1928) – something changed normal cells into pneumonia.
Review Where and in what form in prokaryotic DNA found

Review Where and in what form in prokaryotic DNA found
Chapter 12.3 (Pgs: 350-353): DNA Replication. The Replication Process 1.DNA separates into two strands -Accomplished by the enzyme helicase -Creates a.

Chapter 12.3 (Pgs: ): DNA Replication. The Replication Process 1.DNA separates into two strands -Accomplished by the enzyme helicase -Creates a.
Reminder: where we started CAMPBELL : exploring life, chapter 1.

Reminder: where we started CAMPBELL : exploring life, chapter 1.
KEY CONCEPT DNA replication copies the genetic information of a cell.

KEY CONCEPT DNA replication copies the genetic information of a cell.
III. DNA Replication A. Each chain of nucleotides of the DNA double helix has all the information needed to reconstruct the complementary chain of nucleotides.

III. DNA Replication A. Each chain of nucleotides of the DNA double helix has all the information needed to reconstruct the complementary chain of nucleotides.
Regents Biology Paired bases  DNA structure  double helix  2 sides like a ladder  Bases match together  A pairs with T  A : T  C pairs with.

Regents Biology Paired bases  DNA structure  double helix  2 sides like a ladder  Bases match together  A pairs with T  A : T  C pairs with.

Similar presentations

Ads by Google