The Cell Cycle Year 12 Biology C9. Draw a circle to the left hand side of the page.

Slides:

Advertisements

Similar presentations

Cell Cycle and Mitosis Cell Division part 2.

Advertisements

Overview G2 S G1 Mitosis Click on the shape to get more information (if you want to pass). Start here.

Chapter 6 Section 2 The Cell Cycle Grade 10 Biology Fall 2010.

Biology of cultured cells conti- Part 4 By : Saib al owini.

6-2 Notes: Mitosis and Cell Cycle

Mitosis, Meiosis, Cell Cycle Control, Cyclin, Checkpoints, Cyclin-Dependent kinase, External and Internal WHAT THEY ARE!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!

Overview G2 S G1 Mitosis Click on the shape to get more information (if you want to pass). Start here.

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

Complete Guided Reading Workbook 10-1 and 10-2

10-1 Cell Growth Complete Guided Reading Workbook 10-1 and 10-2.

Cell Division. Prokaryotes Binary fission is the way in which bacteria divide and produce two new cells.

10-1 Cell Division Photo Credit: © CAMR/A.B. Dowsett/Science Photo Library/Photo Researchers, Inc.

How does your skin repair itself when you get a cut?

Biology I Section 9.3 SQ3R Quiz

Cancer. Mitosis. M Phase Interphase. Cell Cycle Regulation Cell Growth FINAL JEOPARDY FINAL JEOPARDY.

Cell Growth and Division. Why do cells divide? DNA “Overload” DNA “Overload” –Not enough information for a big cell Exchanging Materials Exchanging Materials.

Limits to Cell Growth Why do cells divide rather than continuing to grow indefinitely?  The larger a cell becomes, the more demands the cell places on.

Chapter10: Cell Growth and Division

Chapter 10 Review. You must answer in complete sentences! 1. Explain TWO problems that can occur when a cell gets too big.

Cell Reproduction. Why Cells Divide Cell death Repair of injury Growth/development Maintains cell size.

HAPPY MONDAY Bellwork: Draw and fill in the missing blanks with the following words G1 PhaseG2 PHASES PHASEM PHASE HAPPY MONDAY Bellwork: Draw and fill.

Mitosis Ch. 10. Why Divide? Growth of organism Repairs Reproduction Genetic Variation 2 Types: Mitosis: – Parent cell produces genetically identical diploid.

If I started like that, how did I get to this? CELL CYCLE Over time, organisms grow; many cells die and need to be replaced. The process in a cell’s.

Unit: Cell Structure and Function Lesson: The Cell Cycle Agriscience Instructor:

You are performing mitosis. Where is this occurring? Describe what is happening.

Cell undergoes intense growth. Cells spend most of their lives in this stage. Chromosome consists of only one chromatid. DNA is copied. Chromosome consist.

Cell Cycle The cell cycle describes the fate of body (somatic) cells There are distinct stages to the cell cycle – Interphase… preparing for Mitosis Replication.

Cell Cycle and Mitosis AP Biology Unit 3 Cell Cycle Cell Cycle = the entire cycle of a cell from one division to the next –Interphase (G1, S, G2) = between.

Chapter 5 – Cell Growth and Division. The cell cycle is the regular pattern of growth for cells and has 4 main phases 3.Gap 2 (G 2 ) More growth Another.

Regulation of Cell Division Coordination of cell division A multicellular organism needs to coordinate cell division across different tissues & organs.

You are performing mitosis. Where is this occurring? Describe what is happening.

Cell Cycle. Stages and division of cell /student_view0/chapter2/animat ion__how_the_cell_cycle_works.html.

CELL CYCLE How many cells do we begin with? 2 How do we get more?

Part IV and Chapter 11 Biology Sixth Edition Raven/Johnson (c) The McGraw-Hill Companies, Inc.

Cell Growth Cell cycle and Mitosis Why are cells small? Surface area to volume ratio As a cell grows bigger, its internal volume enlarges and the cell.

Cell Cycle Regulation. The Cell Cycle What can be learned from this experiment? There are different signals (proteins) present that aid in the progression.

Mitosis Lab. Interphase

CELL REPRODUCTION SB1. Students will analyze the nature of relationships between structures and functions in living things a. Explain the role of cell.

Mitosis and Meiosis Comparison

Ch 10 Mitosis. Cell Growth Limits to Cell Growth –Why do cells divide? The larger a cell gets, the more demands the cell puts on the DNA.

Cell Growth Cell Cycle Chapter 10. Cell Cycle Events of the Cell Cycle.

Cell Cycle & Checkpoints Lecture 1. Eukaryotic organisms Heritable information is passed to the next generation via processes that include cell cycle.

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

The Cell Cycle What are the 3 phases of the cell cycle? What are the 4 phases of Mitosis? What is differentiation?

IB Biology 1.6 – Cell Division. Important Terms Mitosischromatids Cytokinesiskintochore Cell cyclemicrotubule Interphasecentriole Prophasecentromere Metaphasecyclins.

Cell Cycle: Mitosis How you got from one to trillions!!

Describe the process of binary fission. What type of organisms have this reproduction? Differentiate between the prokaryotic and eukaryotic chromosomes.

Cell Growth and Division. When cells get too big, two problems happen 1. DNA gets overloaded 2. Materials can’t get exchanged 1. Can’t get into and out.

+ Cell checkpoints and Cancer. + Introduction Catastrophic genetic damage can occur if cells progress to the next phase of the cell cycle before the previous.

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

Cellular Growth. The Life Cycle of the Average Cell It is important to know each of these general stages At different points there are checks to ensure.

The Cell Cycle. The Life Cycle of a Cell Cell Cycle = events from one cell division to the next.

CELL CYCLE The events in the life of a cell. Interphase Interphase is the time between cell divisions where the cell grows to full size, duplicates its.

Cell Growth and Division. Why do cells divide? DNA “Overload” DNA “Overload” –Not enough information for a big cell Exchanging Materials Exchanging Materials.

Cell cycle 김다은 성균관대학교 / 약학과

Discuss with your neighbor, how you started as one cell and are now made up of over 3 trillion cells.

The events in the life of a cell

Cell Cycle and Mitosis.

Journal: What is mitosis? Why is it important?

Mitosis Cell Division.

Journal: What is mitosis? Why is it important?

How Cells Divide Chapter 10.

Chapter 10/11 Cell Division.

Station 1 Put the phases in the correct order then label!

The cell cycle has four main stages.

The cell cycle has four main stages.

The cell cycle: The continuity of life depends on cells growing, replicating their genetic material, and then dividing. The cell cycle consists of two.

Cell Division and Regulation of the Cell Cycle

Presentation transcript:

The Cell Cycle Year 12 Biology C9

Draw a circle to the left hand side of the page

Divide the circle into four sections

Divide the right- hand quarter into fourths.

Label the quarters G1 Phase S Phase G2 Phase M PhaseM Phase M PhaseM Phase

Label the phases of M-phase (Mitosis) G1 Phase S Phase G2 Phase M PhaseM Phase M PhaseM Phase Prophase Metaphase Anaphase Telophase

Add details of each phase of mitosis. G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase

Add details of each phase of mitosis. G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase

Add details of each phase of mitosis. G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase

Add details of each phase of mitosis. G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase

Add details of each phase of the cell cycle G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase

Add details of each phase of the cell cycle G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles

Add details of each phase of the cell cycle G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis

Add details of each phase of the cell cycle G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy

Add checkpoints G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy Check for DNA Damage Cell big enough?

Add checkpoints G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy Check for DNA Synthesis Cell size Check for DNA Damage Cell big enough?

Add checkpoints G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy Check for DNA Synthesis Cell size Check for DNA Damage Cell big enough?

Add checkpoints G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy Check for DNA Synthesis Cell size Hold to break down cyclins Check for DNA Damage Cell big enough?

Add checkpoints G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy Check for DNA Synthesis Cell size Pause to break down cyclins Check for DNA Damage Cell big enough?

Add checkpoints G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy Check for DNA Synthesis Cell size Pause to break down cyclins Check for DNA Damage Cell big enough?

Add external growth factors… G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy Mitosis promoting factor (e.g. hormone) Nucleus

Nucleus makes internal regulators.. G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy Mitosis promoting factor (e.g. hormone) Nucleus Kinase Cyclin

Nucleus makes internal regulators.. G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy Mitosis promoting factor (e.g. hormone) Nucleus CDK complex

CDKs build up… G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy CDK complex

CDKs build up… G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy CDK complex

CDKs build up… G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy CDK complex

CDKs build up… G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy CDK complex

CDKs build up… G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy CDK complex

CDKs start to break down… G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy CDK complex

CDKs start to break down… G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy CDK complex

Only when all CDK has broken down can the cell proceed to Metaphase… G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy

G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy Only when all CDK has broken down can the cell proceed to Metaphase…

G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy G0 phase At telophase the cell can go into G0 phase (and remain there) or continue on to the cell cycle…

G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy G0 phase Differentiation The cell may then become differentiated into any one of the 200 body cells in humans..

Role of inhibitors… p27blocks the build up of CDK complex during G1 and prevents movement to S phase G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy CDK complex p27

Role of inhibitors… p27blocks the build up of CDK complex during G1 and prevents movement to S phase p53 stops cell cycle at any point if DNA is damaged. G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy CDK complex p53

Role of inhibitors… If mutations occur to inhibitors – cancer may result i.e. uncontrolled cell cycle. G1 Phase S Phase G2 Phase Prophase Metaphase Anaphase Telophase Cell growth Energy Organelles DNA Synthesis Cell Growth Energy CDK complex