Cell Division Mitosis and Meiosis
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Nov 01, 2008
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About This Presentation
An introduction to Mitosis and Meiosis, including cell growth, division and replication. For use at the High School level.
Slide Content
Cell Division
Mitosis & Meiosis
Mitosis & Meiosis
Cell Division
What is it?
Why do
Cells do it?
Why is it
important to
me?
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
Also known as
Mitosis
Takes place in
Regular Body Cells
Keeps Cells Living
and Growing
Phases of Mitosis
Mitosis
The Basic Phases
of a Cell’s Life:
•Interphase
•Prophase
•Metaphase
•Anaphase
•Telophase
•Cytokinesis
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
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)
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)
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
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
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
4.The nucleolus
disappears,
5.The nuclear
membrane
breaks apart
The Cell begins
the division
process
4.The nucleolus
disappears,
5.The nuclear
membrane
breaks apart
3. The chromosomes
become visible
4. The spindle
apparatus forms
and attaches to
the centromeres
of the
chromosomes
become visible
4. The spindle
apparatus forms
and attaches to
the centromeres
of the
chromosomes
Metaphase
The Second Phase
of Mitosis
4.The Nuclear
Membrane is
completely gone
2. The duplicated
chromosomes line
up along the cell's
equator.
The Second Phase
of Mitosis
4.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
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
Spindle Fibers
Telophase
The nuclear
membrane and
nucleoli (nucleus)
reform.
Cytokinesis is
nearly complete,
The nuclear
membrane and
nucleoli (nucleus)
reform.
Cytokinesis is
nearly complete,
The Cell Plate
begins to form
The Cell
prepares for
finial division
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 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
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.
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
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
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
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
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
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
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
divides and two cells with identical genetic
material are formed
Daughter Cells
A B C
D E
Quick Review – Place Cells in Mitosis Order
D E
Quick Review – Place Cells in Mitosis Order
Quick Review:
Identify What
happens in each
phase of Mitosis:
Prophase
Metaphase
Anaphase
Telophase
Interphase
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 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
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
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)
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)
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.
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.
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
1. All Living Things are made of Cells
2. The Cell is the basic unit of Structure and
Function in Living Things.
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
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
Why We Are Who We Are
Why We Are Who We Are
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?
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)
“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
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
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.
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.
SPERMATOGENESIS
OOGENESIS
OOGENESIS
Meiosis
ensures that
all living
organisms
will maintain
both Genetic
Diversity and
Genetic
Integrity
ensures that
all living
organisms
will maintain
both Genetic
Diversity and
Genetic
Integrity
Catherine Patterson
Santa Rita High School
Tucson, Arizona
2008
Santa Rita High School
Tucson, Arizona
2008
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