Chapter 7 Opener. Figure 7.1 The Importance of Cell Division.

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Presentation transcript:

Chapter 7 Opener

Figure 7.1 The Importance of Cell Division

Figure 7.1 The Importance of Cell Division (Part 1)

Figure 7.1 The Importance of Cell Division (Part 2)

Figure 7.1 The Importance of Cell Division (Part 3)

Figure 7.2 Asexual Reproduction on a Large Scale

Figure 7.3 All Sexual Life Cycles Involve Fertilization and Meiosis

Figure 7.3 All Sexual Life Cycles Involve Fertilization and Meiosis (Part 1)

Figure 7.3 All Sexual Life Cycles Involve Fertilization and Meiosis (Part 2)

Figure 7.3 All Sexual Life Cycles Involve Fertilization and Meiosis (Part 3)

Figure 7.4 Prokaryotic Cell Division

Figure 12.3 Chromosome duplication and distribution during mitosis

Figure 19.1 Levels of chromatin packing

Figure 7.5 The Phases of the Eukaryotic Cell Cycle

Figure 7.5 The Phases of the Eukaryotic Cell Cycle (Part 1)

Figure 7.5 The Phases of the Eukaryotic Cell Cycle (Part 2)

Figure 7.5 The Phases of the Eukaryotic Cell Cycle (Part 3)

In-Text Art, Ch. 7, p. 129

Figure 7.6 The Phases of Mitosis (1)

Figure 7.6 The Phases of Mitosis (2)

Figure 7.6 The Phases of Mitosis (1)

Figure 7.6 The Phases of Mitosis (2)

Figure 7.6 The Phases of Mitosis (Part 1)

Figure 7.6 The Phases of Mitosis (Part 2)

Figure 7.6 The Phases of Mitosis (Part 3)

Figure 7.6 The Phases of Mitosis (Part 4)

Figure 7.6 The Phases of Mitosis (Part 5)

Figure 7.6 The Phases of Mitosis (Part 6)

Figure 7.7 Cytokinesis Differs in Animal and Plant Cells

Figure 7.7 Cytokinesis Differs in Animal and Plant Cells (Part 1)

Figure 7.7 Cytokinesis Differs in Animal and Plant Cells (Part 2)

Figure 7.8 The Eukaryotic Cell Cycle

Figure 7.9 Regulation of the Cell Cycle

Figure 7.9 Regulation of the Cell Cycle (Part 1)

Figure 7.9 Regulation of the Cell Cycle (Part 2)

Figure Mechanical analogy for the cell cycle control system

Figure Molecular control of the cell cycle at the G 2 checkpoint

Figure 7.10 Cyclins Are Transient in the Cell Cycle

Figure 7.11 Mitosis and Meiosis: A Comparison

Figure 7.12 Meiosis: Generating Haploid Cells (1)

Figure 7.12 Meiosis: Generating Haploid Cells (2)

Figure 7.12 Meiosis: Generating Haploid Cells (1)

Figure 7.12 Meiosis: Generating Haploid Cells (2)

Figure 7.12 Meiosis: Generating Haploid Cells (Part 1)

Figure 7.12 Meiosis: Generating Haploid Cells (Part 2)

Figure 7.12 Meiosis: Generating Haploid Cells (Part 3)

Figure 7.12 Meiosis: Generating Haploid Cells (Part 4)

Figure 7.12 Meiosis: Generating Haploid Cells (Part 5)

In-Text Art, Ch. 7, p. 138

Figure 7.13 Crossing Over Forms Genetically Diverse Chromosomes

In-Text Art, Ch. 7, p. 140

Apply the Concept, Ch. 7, p. 140

Figure 7.14 Apoptosis: Programmed Cell Death

Figure 7.14 Apoptosis: Programmed Cell Death (Part 1)

Figure 7.14 Apoptosis: Programmed Cell Death (Part 2)

Figure 7.15 Molecular Changes Regulate the Cell Cycle in Cancer Cells

Figure Signaling pathways that regulate cell growth (Layer 1)

Figure Signaling pathways that regulate cell growth (Layer 2)

Figure Signaling pathways that regulate cell growth (Layer 3)

Figure A multi-step model for the development of colorectal cancer

Figure The effect of a growth factor on cell division

Figure Density-dependent inhibition of cell division