CELL DIVISION PART 2 Cell Cycle and Mitosis
Apr 01, 2015
CELL DIVISION PART 2
Cell Cycle and Mitosis
The Cell Cycle: life of a cell from first formation (from a dividing parent cell) to its own division into 2 cells.Before a cell divides, it must copy its genome, which is all
of its genetic information.2 types of Cells
○ Somatic Cells : all body cells except gametesThese have the diploid number of chromosomes (2n)Somatic cells divide by mitosis Making exact copies
○ Gametes : sperm and egg cellsAre haploid (n), have ½ the number of
chromosomesGametic cells are produced by meiosisMake genetically unique haploid cells
There are three main stages during a cell cycle:
Parts of the Cells CycleInterphase
○ G1 - growth○ S – DNA Replication○ G2 – replicate organelles, more growth
Mitosis○ Prophase, Metaphase, Anaphase,
TelophaseCytokinesis
This figure represents the amount of time that each stage of the cell cycle takes
G1
S
G2
Interphase
Mitosis
Cytokinesis
PM
AT
Stage 1: Interphase (3 parts) During this stage, a cell grows, copies its
chromosomes, and prepares to divide.
1. G1: most of cell’s life is spent here in growth and development.
2. S (synthesis): Chromosomes (in the form of chromatin) are copied in the nucleus = DNA replication, centrioles are also copied.
3. G2: Cell continues to grow, copies cell organelles, prepares to divide.
This part of cell cycle lasts the longest—cell spends the majority of its life here!
This figure represents the amount of time that each stage of the cell cycle takes
G1
S
G2
Interphase
Mitosis
Cytokinesis
PM
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There are checkpoints to control the rate that cells go through the cell cycle.
2 of the 3 checkpoints occur during interphase:
G1 checkpoint: most important checkpoint; cells are stopped during G1, and must receive chemical signals in order to continue on to the S phase.
○ If the cell does not receive a go-ahead signal, it will exit the cell cycle and go to G0, a non-dividing state (mature nerve cells and muscle cells typically do this!).
G2 checkpoint: makes sure that DNA has been replicated correctly during the S phase before allowing the cell to proceed to mitosis.
There is also an M phase checkpoint in mitosis
Cyclins and Cdks
Protein kinases are enzymes that activate or inactivate proteins by phosphorylating them
Kinases that control the cell cycle must be activated by cyclin, a protein = cyclin-dependent kinases (Cdks)
Cyclin + Cdk = MPF complex (mitosis or maturation-promoting factors)
Cyclin concentration rises during S and G2 creating a lot of MPF
Checkpoint Animation play partial animation (G1 and G2
checkpoints only)
MPF phosphorylates proteins, initiating mitosisPhosphorylation on the nuclear membrane =
breakdown of membraneMay help to signal chromosomes to condense
MPF is switched off in anaphase and the attached cyclin breaks down, inactivating the Cdk
This figure represents the area of each checkpoint
G1
S
G2
Interphase
Mitosis
Cytokinesis
PM
AT
G2 Checkpoint
G1 Checkpoint
Stage 2: Mitosis During this stage, a cell’s
nucleus divides into 2 new nuclei (4 phases in mitosis).
Mitosis checkpoint: makes sure a complete set of chromosomes will go into each daughter cell by checking if the spindle fibers are correctly attached to the chromosomes.
Checkpoint Animation play partial animation – 2nd half
(M checkpoint only)
This figure represents the area of each checkpoint
G1
S
G2
Interphase
Mitosis
Cytokinesis
PM
AT
M Checkpoint
G2 Checkpoint
G1 Checkpoint
Cytokinesis
Cells Alive Animation…
http://www.cellsalive.com/cell_cycle.htm
1. Prophase in Animals:
a) Chromatin condenses into chromosomes (with sister chromatids attached by centromeres).
b) Nuclear membrane starts to break down.
c) Centrosomes (containing 2 centrioles in animals) begin to separate and move to opposite ends of the cell and spindle fibers form from the centrosomes.
Animal Cells
Plant Cell Prophase (contain centrosomes but no centrioles)
Centrioles v. Centrosomes Centrosomes are in all
eukaryotic cells and aid in spindle formationCells have 1 centrosome but
it is copied before mitosis Centrioles are only in
animal cells (and a few types of fungi)Made of microtubulesNot required for spindle
formation – not sure of their purpose, thought to help with the spatial arrangement of the cell by influencing the placement of the nucleus.
centrioles
centrosome
Prometaphase
Condensed chromosomes are starting to organize themselves in the middle but all are not lined up yet
2. Metaphase:
a) Centrosomes/centrioles are at opposite ends of cell.
b) Sister chromatids line up in center of cell on the metaphase plate and attach to spindle fibers at their centromeres.
Animal Cells
Plant Cell Metaphase(spindle fibers come from centrosomes)
3. Anaphase:
a) Chromatids are pulled apart at the centromere.
b) Spindle fibers pull chromatids toward opposite ends of cell (toward centrosomes/centrioles).
Animal Cells
Plant Cell Anaphase(chromatids move toward centrosomes)
4. Telophase:a) Chromosomes reach opposite ends of the cell
b) New nuclear membranes form around chromosomes at each end of cell.
c) The chromosomes uncoil into chromatin
d) Cleavage furrow begins to form
Animal Cells
Plant Cell Telophase Cell plate begins to form in plant cells only
Early Telophase Late Telophase
Stage 3: Cytokinesis During this stage, the cytoplasm completely divides
to make 2 new identical cells.The cell’s organelles are divided between the 2 new
cells.In animal cells, the cleavage furrow completely pinches
in to make 2 cells.In plant cells, the cell plate becomes the cell wall and
completely separates the 2 cells.At the end of cytokinesis, 2 new identical daughter cells
are formed!
Mitosis animation
This figure represents the amount of time that each stage of the cell cycle takes as well the
various checkpoints.
G1
S
G2
Interphase
Mitosis
Cytokinesis
PM
AT
M Checkpoint
G2 Checkpoint
G1 Checkpoint
C