Cell Division Mitosis and Meiosis

Cell Division Mitosis & Meiosis

Cell Division What is it? Why do Cells do it? Why is it important to me?

Cell Division Also known as Mitosis Takes place in Regular Body Cells Keeps Cells Living and Growing

Mitosis The Basic Phases of a Cell’s Life: Interphase Prophase Metaphase Anaphase Telophase Cytokinesis

Interphase The longest stage of a Cell’s life The time spent between divisions Produces all materials required for growth Preparation for division

Part of Interphase is also known as the G1 Phase of the Cell Cycle (Growth Phase)

The Second part of Interphase is known as the S Phase of the Cell Cycle (Synthesis Phase – when DNA duplicates)

The third part of the Cell Cycle, G2 , is just a checkpoint to make sure the DNA is correct. Next step – Mitosis

Mitosis: Cell Division The last part of the Cell Cycle is called Mitosis and has 4 phases during which the cell divides into 2 cells

Prophase The Cell begins the division process The nucleolus disappears, The nuclear membrane breaks apart

3. The chromosomes become visible 4. The spindle apparatus forms and attaches to the centromeres of the chromosomes

Metaphase The Second Phase of Mitosis The Nuclear Membrane is completely gone 2. The duplicated chromosomes line up along the cell's equator.

Anaphase The third phase of Mitosis Diploid sets of daughter chromosomes separate They are pushed and pulled toward opposite poles of the cell by the spindle fibers

Telophase The nuclear membrane and nucleoli (nucleus) reform. Cytokinesis is nearly complete,

The Cell Plate begins to form The Cell prepares for finial division

Cytokinesis – The final stage of Mitosis The cytoplasm, organelles, and nuclear material are evenly split and two new cells are formed. Cell Plate

The two new cells – each exactly like the other – are called Daughter Cells

Quick Review: The following slides are drawings of the stages of Mitosis. On your notes, please draw each phase and label it.

Interphase – The Cell spends the majority of its life here, growing and functioning. During the S Phase of the Cell Cycle, the DNA replicates, in anticipation of Mitosis

In Early Prophase of Mitosis the Chromosomes get small, centrioles move to the poles of the nucleus, and spindle fibers develop Pair of Centrioles Spindle Fibers Chromosomes consisting of 2 Sister Chromatids

Late Prophase happens when the Nuclear Envelope disintegrates and spindle fibers begin to move Chromosomes toward the center of cell. Spindle Fibers Chromosomes

During Metaphase the Chromosomes line up across center of the cell, also called the equator, or Metaphase plate. Spindle Fibers Chromosomes Equator, or Metaphase Plate

In Anaphase the Chromatids that make up each Chromosome move apart and travel to opposite ends of cellular spindle Daughter Chromosomes Chromosome Chromatid

In Telophase an envelope surrounds each set of Chromatids to form new Nucleus and the Cytoplasm starts to divide Cleavage Furrow

Cytokinesis takes place when the Cytoplasm divides and two cells with identical genetic material are formed Daughter Cells

A B C D E Quick Review – Place Cells in Mitosis Order

Quick Review: Identify What happens in each phase of Mitosis: Prophase Metaphase Anaphase Telophase Interphase

Why Do Cells Divide? The larger a cell becomes, the more demands the cell places on it's DNA. It also has more trouble moving enough food and wastes across its cell membrane.

The bigger the cell gets the harder it becomes to move food and waste across the membrane Food goes in Waste goes out

This happens because the surface area and volume ratio does not stay the same as the cell size increases. Protein Pumps

The cell's ability to either get substances from the outside or eliminate waste from the inside is related to the surface area of the cell membrane. (outside)

How much food and other material is required, and how much waste the cell produces and has to get rid of, is related to the volume of the cell. (inside)

As a cell gets bigger there comes a time when its surface area is not large enough to meet the demands of the cell's volume and the cell stops growing.

So, once cells reach a certain size they must divide in order to continue to function – or they will no longer be able to take in nutrients and eliminate waste.

Why Is Cell Division Important? 1. All Living Things are made of Cells

2. The Cell is the basic unit of Structure and Function in Living Things.

3. All Cells come from pre existing Cells

You are a living organism, made of cells. In order to keep living, your cells must stay alive. In order for cells to keep living, they must divide and multiply

Meiosis Takes place in the Gametes of an organism People have a Chromosome count of 46 When an egg joins a sperm the count must stay at 46 to remain human So, the egg can only have 23 chromosomes, and the sperm can only have 23 chromosomes But, the integrity of the organism must be maintained. How does this happen?

During Meiosis gamete (sex) cells undergo a “double division”, maintaining the DNA, but reducing the chromosomal count to 23 + = Sperm (23) + Egg (23) = Fertilized Cell (46)

Chromosome after S Phase Chromosomes at beginning of Mitosis After Mitosis After Meiosis

Original Gamete Metaphase Anaphase Telophase Cytokinesis 2 Daughter Cells Metaphase 2 Anaphase 2 Telophase 2 Cytokinesis – 4 Gametes

At the end of Meiosis the individual Gamete cell has divided from one cell to four. Males produce 4 viable sperm. Females produce 1 viable egg and 3 non functioning polar bodies.

Meiosis ensures that all living organisms will maintain both Genetic Diversity and Genetic Integrity

Catherine Patterson Santa Rita High School Tucson, Arizona 2008

Cell Division Mitosis and Meiosis

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Cell Division Mitosis and Meiosis