Chapter 12: The Cell Cycle

Slides:

Advertisements

Similar presentations

Chapter 12: The Cell Cycle

Advertisements

AP Biology Regulation of Cell Division.

Introduction The timing and rates of cell division in different parts of an animal or plant are crucial for normal growth, development, and maintenance.

Reading Assignments for this Material Chapter 9-Section 9.3 (pages ). Chapter 16-section 16.3 (pages ) Pages will be the material.

Cell Division Control the biochemicals that control cell division Mike Clark, M.D.

Tumor Supressor Gene Non-functional TSG Mutations increasing risk of cancer “Loss of function” mutation Proto-oncogene Oncogene (Hyperactive or unregulated.

The Cell Cycle Chapter 12. Mitosis  Cell division  Produce 2 daughter cells  Same genetic information.

CH 12 NOTES, part 2: Regulation of the Cell Cycle (12.3)

AP Biology Mitosis.

 Since the cell cycle is known, now we must ask what controls it  Noted that healthy cells in contact will not divide ◦ Essentially, this is how our.

Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings INTERPHASE G1G1 S (DNA synthesis) G2G2 Cytokinesis Mitosis MITOTIC (M) PHASE Ch.

CH 12 The Cell Cycle. Why cell division? 1.Single cell organisms reproduce this way. 2.Multicellular Organisms a.Need this to grow from a fertilized egg.

Regulation of the Cell Cycle. Molecular Control System Normal growth, development and maintenance depend on the timing and rate of mitosis Cell-cycle.

Cell Cycle Regulation The cell cycle is driven by an internal clock regulated at certain checkpoints by both external (ex: faucets) and internal (ex: sensor)

1. Cancer and the cell cycle

Chapter 12 The Cell Cycle. Fig. 12-UN1 Telophase and Cytokinesis Anaphase Metaphase Prometaphase Prophase MITOTIC (M) PHASE Cytokinesis Mitosis S G1G1.

AP Biology Regulation of Cell Division.

Chapter 12: The Cell Cycle

Cell Cycle Regulation and Cancer Lecture #20 Honors Biology Ms. Day.

 Cell cycle is known, so now we ask what controls it  We have observed many factors that influence a cell’s ability to move forward in the cycle ◦ Kinetochores.

LE 12-2b Growth and development 200 µm. LE 12-2c Tissue renewal 20 µm.

Frequency of Cell Division

Notes: Regulation of the Cell Cycle. The cell cycle is regulated by a molecular control system ● The frequency of cell division varies with the type of.

CAMPBELL BIOLOGY IN FOCUS © 2014 Pearson Education, Inc. Urry Cain Wasserman Minorsky Jackson Reece Lecture Presentations by Kathleen Fitzpatrick and Nicole.

Warm-up 1. Place the following terms in order as they occur: prometaphase, G2, telophase, prophase, anaphase, G1, metaphase, S, and cytokinesis. 2. Answer.

AP Biology Chapter 12: The Cell Cycle. Important concept from previous units: 1) Enzymes are proteins that catalyze and regulate cellular processes.

Chapter 12 G1G1 G2G2 S (DNA synthesis) INTERPHASE Cytokinesis MITOTIC (M) PHASE Mitosis The Cell Cycle.

AP Biology The Cell Cycle Part 1. One cell becoming two.

Genetics of Cancer Genetic Mutations that Lead to Uncontrolled Cell Growth.

100 µm200 µm 20 µm (a) Reproduction (b) Growth and development (c) Tissue renewal 1.

Control of the Cell Cycle, Cell Signaling and Cancer Chapter 10 Section 9.3 & Chapter 5 Section 5.6 Biology In Focus AP Biology 2014 Ms. Eggers.

The Cell Cycle and Cancer AP Biology. Cell Cycle Numerous genes control the cell cycle They regulate the progression through checkpoints. A sensor detects.

The Cell Cycle. Key Concepts Most division results in genetically identical cells Cell cycle consists of alternating periods of mitosis and interphase.

Mitosis and Cancer PART 3 Honors Genetics Ms. Gaynor.

In the early 1970s, a variety of experiments led to the hypothesis that the cell cycle is driven by specific signaling molecules present in the cytoplasm.

Cell Cycle Regulation. A. The cell-cycle control system triggers the major processes of the cell cycle B. The control system can arrest the cell cycle.

Cell reproduction and the division of the NUCLEUS and CYTOPLASM.

Chapter 12 The Cell Cycle. Fig. 12-UN1 Telophase and Cytokinesis Anaphase Metaphase Prometaphase Prophase MITOTIC (M) PHASE Cytokinesis Mitosis S G1G1.

Mitosis During interphase, the DNA is not condensed and individual chromosomes cannot be discerned As the cell enters prophase, the chromosomes condense.

Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings Chapter 12 The Cell Cycle.

Chapter 12 The Cell Cycle. 2 Fig. 12-UN1 Telophase and Cytokinesis Anaphase Metaphase Prometaphase Prophase MITOTIC (M) PHASE Cytokinesis Mitosis S G1G1.

Chapter 12: The Cell Cycle

* Cells * Pre-existing cells (cell theory) * Mitosis.

Types of Genes Associated with Cancer

MITOSIS: CELL CYCLE CONTROL. OVERVIEW: Has 4 phases – G 1, S, G 2, and M Driven by specific molecular signals present in the cytoplasm Controlled by a.

© 2012 Pearson Education, Inc. Lecture by Edward J. Zalisko PowerPoint Lectures for Campbell Biology: Concepts & Connections, Seventh Edition Reece, Taylor,

AP Biology Regulation of Cell Division.

Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings The Key Roles of Cell Division The continuity of life is based upon the reproduction.

SC430 Molecular Cell Biology Welcome to Unit 8 Seminar with Dr Hall-Pogar Tonight we will discuss –Cell Cycle –I will be available at AIM:KaplanHallPogar.

Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings PowerPoint Lectures for Biology, Seventh Edition Neil Campbell and Jane Reece.

CELL CYCLE REGULATION Cell Cycle Review hill.com/sites/ /student_vi ew0/chapter2/animation__mitosis_and _cytokinesis.html.

Regulation of the Cell Cycle & Cancer. Concept 9.3: The eukaryotic cell cycle is regulated by a molecular control system The frequency of cell division.

Cell Cycle Regulation Chapter – Pt. 1 Pgs Objective: I can describe and how the cell cycle is regulated and controlled to occur at certain.

Cell cycle – Core mechanism CDK+Cyclin APC & SCF E3 UB ligases.

Controlling cell division The cells within an organism’s body divide and develop at different rates: Ex. Skin cells(continue to divide), muscle and nerve.

AP Biology Regulation of Cell Division.

Cell Cycle Regulation and Cancer

Regulation of the Cell Cycle & Cancer

AP Biology The Cell Cycle Part 1.

Genetics of Cancer.

Chapter 12: The Cell Cycle

CH 12 NOTES, part 2: Regulation of the Cell Cycle (12.3)

PART 3 Honors Genetics Ms. Day

Chapter 12: The Cell Cycle

Chapter 12: The Cell Cycle

AP Biology The Cell Cycle.

Chapter 12: The Cell Cycle

Chapter 12: The Cell Cycle

Presentation transcript:

Chapter 12: The Cell Cycle AP Biology Chapter 12: The Cell Cycle

Checkpoints (Is all going according to plan?)

Relative concentration . M G1 S G2 M G1 S G2 M MPF activity Cyclin Relative concentration Time Fluctuation of MPF activity and cyclin concentration during the cell cycle

Molecular mechanisms that help regulate the cell cycle . G1 Cyclin S Cdk Degraded cyclin M G2 accumulation G2 checkpoint Cdk Cyclin is degraded Cyclin MPF Molecular mechanisms that help regulate the cell cycle

Chromosome movement Kinetochore Tubulin subunits Motor Microtubule . Chromosome movement Kinetochore Tubulin subunits Motor protein Microtubule Chromosome

Cells anchor to dish surface and divide (anchorage dependence). When cells have formed a complete single layer, they stop dividing (density-dependent inhibition). If some cells are scraped away, the remaining cells divide to fill the gap and then stop (density-dependent inhibition). 25 µm Normal mammalian cells

Cancer cells do not exhibit anchorage dependence . Cancer cells do not exhibit anchorage dependence or density-dependent inhibition. 25 µm Cancer cells

Malignant cancer cells from the breast (See the ABNORMAL “crab” shape of the cells.)

Mutations and Cancer MUTATION Cell cycle-stimulating pathway NUCLEUS Growth factor MUTATION Hyperactive Ras protein (product of oncogene) issues signals on its own G protein Cell cycle-stimulating pathway Receptor Protein kinases (phosphorylation cascade) NUCLEUS Transcription factor (activator) DNA Gene expression Protein that stimulates the cell cycle Cell cycle-inhibiting pathway Protein kinases MUTATION Defective or missing transcription factor, such as p53, cannot activate Active form of p53 UV light DNA damage in genome DNA Protein that inhibits the cell cycle