Mitosis

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Transcript Mitosis 

Eukaryotic
Cell
Division:
Mitosis
Pre-Assessment
1. Examine the picture of the cell. What phase is the cell in?
A. prophase
B. anaphase
C. metaphase
D. telophase
2. What is the structure labeled "X" on the picture?
A. centriole
B. spindle
C. chromosome
D. chromatid
3. During which phase does the DNA make a copy of itself?
A. prophase
B. metaphase
C. interphase
D. anaphase
4. During which phase do chromosome first become visible?
A. interphase
B. telophase
C. metaphase
D. prophase
• Growth (example: baby  adult)
• Reproduction (asexual reproduction in
single celled organisms)
• Replacement of dead/damaged/infected
(example: skin/red blood cells/bone cells)
• Gamete formation in multi-cellular
organisms (meiosis)
• In eukaryotes: made up of
DNA and proteins
• At different times,
proteins cause the DNA to:
– be spread out like spaghetti in a
bowl
– be tightly condensed into the Xshaped (these we can see in the
microscope)
• Central constricted region
called centromere that
serves as an attachment
point for the spindle fibers
during mitosis.
• Chromosomes exist in 2
different states:
- before DNA replication,
chromosomes have one
chromatid.
- after DNA replication,
chromosomes have 2 sister
chromatids, held together at
the centromere. Each
chromatid is one piece of DNA
with its supporting proteins.
• Why is DNA replication
necessary?
**Note: Two
chromatids
make up a
chromosome
Cell Cycle
• The cell cycle describes the behavior of
cells as they grow and divide
– We will study the cycle which includes Mitosis
and Cytokinesis
• Tumors (cancer) are the result of
uncontrolled cell division and these can
occur in any organ/tissue
• http://highered.mcgrawhill.com/sites/0072495855/student_view0/
chapter2/animation__mitosis_and_cytokin
esis.html
For a typical rapidly proliferating human cell with a total cycle time of 24 hours, the
G1 phase might last about 11 hours, S phase about 8 hours, G2 about 4 hours, and
M about 1 hour.
Cell Cycle
Interphase:
Longest part of the cell cycle
Includes G1, S and G2
G1: cell growth
S: cell growth; replication of cell’s DNA
G2: cell growth; organelles replicate
DNA begins to condense into
chromosomes
• Mitosis is the division of the eukaryote
nucleus, which goes on throughout life in
all parts of the body.
• Organelles can be randomly separated
into the daughter cells but chromosomes
must be precisely divided so that each
daughter cell gets exactly the same DNA.
• Every human cell has the same 46
chromosomes
• Mitosis is usually divided into 4 phases:
•
•
•
•
Prophase (P)
Metaphase (M)
Anaphase (A)
Telophase (T)
PMAT
Prophase
Phases of Mitosis:
1. Prophase
Chromatin finishes condensing into
chromosomes (visible under light microscope)
Nucleolus/nuclear envelope broken down
Spindle fibers form from centrosomes/centrioles
with microtubules extending out
Chromosomes appear as 2 identical sister
chromatids joined together at centromeres
Metaphase
2. Metaphase
Longest stage of mitosis
Chromosomes move to middle of cell
(metaphase plate)
Chromosome’s centromeres are on
metaphase plate with sister chromatids
each facing opposite sides of cell
Centrosomes at opposite sides of cell
Anaphase
3. Anaphase:
Shortest stage of mitosis
Sister chromatids separate and begin moving
towards opposite ends of cell (spindle fibers
pull sister chromatids in via the centromere)
and each one is now a “chromosome”
Cell elongates
At end of phase, each end of the cell contains
complete and identical chromosomes
Telophase
and
Cytokinesis
Cytokinesis:
cell divides in two
4. Telophase:
-Chromosomes are at each side of
cell and nuclear envelope begins to
re-form around
-Chromosomes elongate to form
chromatin
-Spindle fibers disintegrate
-Cell is elongated and ready for
cytokinesis
Animal Cell
Cytokinesis
inward pinching of
plasma membrane to
form cleavage furrows
Plant Cell
Cytokinesis
cell plate forms
and moves
outward towards
the sides of the
cell from central
region
Prophase
Prometaphase
Mid-prometaphase
Metaphase
Anaphase
Telophase
• Tumors = result of uncontrolled cell division
http://learn.gen
etics.utah.edu/c
ontent/begin/cel
ls/signals/
• The genetic checks that stop cells from reproducing fail to
work and they grow out of control
• Oncogene = gene that turns a normal cell into a cancer cell
• Tumors can occur in any organ or tissue, though are most
common after exposure to carcinogens (e.g. tobacco
smoke) or in particularly active tissues (e.g. breast, skin)
• Angiogenesis: tumor recruits blood vessels and grows
larger
• Metastasis: part of the tumor invades the blood vessel,
travels through the blood and starts to forma a tumor in
another part of the body
Normal cells are controlled by several factors:
Normal cells stay in the G1 stage of the cell cycle until
they are given a specific signal. Cancer cells enter the
S phase without waiting for a signal.
Normal cells are mortal. This means that they can
divide about 50 times and then they lose the ability to
die. This “clock” gets re-set during the formation of the
gametes. Cancer cells escape this process of
mortality: they are immortal and can divide endlessly.
Normal cells that suffer significant chromosome
damage destroy themselves due to the action of a
gene called “p53”. Cancer cells either lose the p53
gene or ignore its message and fail to kill themselves
(process known as apoptosis)