Transcript Slide 1
MITOSIS
MITOSIS
Mitosis and cell division results in two cells with identical
chromosomes and chromosome number as the original cell
CELLS GO THROUGH MITOSIS FOR 3 REASONS:
1. GROWTH – AS ORGANISM INCREASES IN SIZE
2. REPLACEMENT OF OLD CELLS THAT SLOUGH OFF
3. REPAIR DAMAGED CELLS
MITOSIS
pair of
centrioles
plasma
membrane nucleus
nuclear
envelope
chromosomes
EARLY PROPHASE
two dark blue
chromosomes
inherited from female
parent-- two green
inherited from the
male parent
• mitosis begins
• DNA coils and folds
to condense
LATE PROPHASE
• microtubules become assembled & move the
two pairs of centrioles to opposite ends of cell
• nuclear envelope starts to break up
• microtubules then penetrate the nucleus
• microtubuoles (“spindle”) will hook onto the
two sister chromatids of each chromosome
METAPHASE
all chromosomes line
up at the spindle
equator with each sister
chromatid facing an
opposite pole
ANAPHASE
TELOPHASE
• attachments between
the sister chromatids
break
• there are two clusters
of chromosomes,
which decondense
• microtubuoles shorten
pulling each sister
chromatid to opposite
poles (“reeling in”)
• fragments of old
membrane fuse to
form a new nuclear
envelope
INTERPHASE
Now there are two
daughter cells. Each
is diploid; its
nucleus has two of
each type
of chromosome, just
like the parent cell.
Early Prophase Mitosis Begins
Duplicated chromosomes begin to condense
Late Prophase
• New microtubules are
assembled
• One centriole pair is
moved toward
opposite pole of
spindle
• Nuclear envelope
starts to break up
Late Prophase cont’d
• Spindle forms
• Spindle
microtubules
become attached to
the two sister
chromatids of each
chromosome
Metaphase
• All chromosomes
are lined up at the
spindle equator
• Chromosomes are
maximally
condensed
Anaphase
• Sister chromatids of
each chromosome
are pulled apart
• Once separated,
each chromatid is a
chromosome
Telophase
• Chromosomes
decondense
• Two nuclear
membranes form,
one around each set
of unduplicated
chromosomes
Results of Mitosis
• Two daughter nuclei
• Each with same
chromosome
number as parent
cell
• Chromosomes in
unduplicated form
Cytoplasmic Division
Cytokinesis (cytoplasmic division) is very different for plant and animal cells
Two mechanisms:
– Cell plate formation (plants)
– Cleavage (animals)
plant cells have a cell wall that must be built between the two newly formed cells
cell wall
former
spindle
equator
cell plate
vesicles
converging
cytokinesis in an animal cell (no cell wall – only a plasma membrane)
Contractions
continue until
the ring cuts
the cell in two.
Mitosis is
over, and the
spindle is now
disassembling.
At the former spindle equator, a ring of
microfilaments attached to the plasma
membrane contracts. As its diameter
shrinks, it pulls the cell surface inward.
to watch a short animation of mitosis:
http://www.biology.arizona.edu/cell_bio/tutorials/cell_cycle/cells3.html