Cell Cycle PowerPoint
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Transcript Cell Cycle PowerPoint
Cell Reproduction
Prokaryotes
Bacteria
Eukaryotes
Plants & animals
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Prokaryotes
Lack
a nucleus
Have a single chromosome
Reproduce by binary fission
Include bacteria
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Steps in Binary Fission
Used by bacteria
Cells increase their
cell mass slightly
DNA & cell
components are
replicated
Each cell divides into
2 daughter cells
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Binary Fission of Bacterial Cell
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E. Coli Dividing by Binary
Fission
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Eukaryotes
Contain
a nucleus &
membrane bound organelles
Asexually reproduce cells by
mitosis
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Cell Cycle
Stages in growth &
division
G1 Phase
S Phase
G2 Phase
M Phase
Cytokinesis
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G1 Phase
First
growth stage
Cell increases in size
Cell prepares to copy its
DNA
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Synthesis Phase
Copying
of all of DNA’s
instructions
Chromosomes duplicated
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G2 Phase
Time
between DNA synthesis
& mitosis
Cell continues growing
Needed proteins produced
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M Phase
Cell
growth & protein
production stop
Cell’s energy used to make 2
daughter cells
Called mitosis or
karyokinesis (nuclear
division)
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Life Cycle of a Cell
Mitosis is a cycle with no beginning or end.
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Interphase – Resting Stage
Cells
carrying on normal
activities
Chromosomes aren’t visible
Cell metabolism is occurring
Occurs before mitosis
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Interphase
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Stages of Mitosis
Prophase
Metaphase
Anaphase
Telophase
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Cells Undergoing Mitosis
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Steps in Prophase
DNA coils
tightly & becomes visible
as chromosomes
Nuclear membrane disappears
Nuceolus disappears
Centrioles migrate to poles
Spindle begins to form
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Prophase
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Eukaryotic Chromosome
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Human Chromosomes
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Steps in Metaphase
Spindle
fibers from centrioles
attach to each chromosome
Cell preparing to separate its
chromosomes
Cell aligns its chromosomes in
the middle of the cell
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Metaphase
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Steps in Anaphase
Cell chromosomes are
separated
Spindle fibers shorten so
chromosomes pulled to ends of
cell
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Mitotic Spindle
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Anaphase
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Steps in Telophase
Separation
of chromosomes
completed
Cell Plate forms (plants)
Cleavage furrow forms(animals)
Nucleus & nucleolus reform
Chromosomes uncoil
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Telophase
Plant
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Animal
Cytokinesis
Occurs
after chromosomes
separate
Forms two, identical
daughter cells
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Cytokinesis
Cell Plate Forming in Plant Cells
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Prophase
Spindle
forming
(PREPARE)
Centrioles
Nuclear
envelope
Chromatin
Interphase
Centromere
Chromosomes
(paired chromatids)
Prophase
Cytokinesis
Spindle
Centriole
Telophase
Nuclear
envelope
reforming
Centriole
Individual
chromosomes
Anaphase
Metaphase
Metaphase
Spindle
forming
Centrioles
Nuclear
envelope
Chromatin
Interphase
Centromere
Chromosomes
(paired chromatids)
Prophase
Cytokinesis
Spindle
Centriole
Telophase
Nuclear
envelope
reforming
Centriole
Individual
chromosomes
Anaphase
Metaphase
(MIDDLE)
Anaphase
Spindle
forming
Centrioles
Nuclear
envelope
Chromatin
Interphase
Centromere
Chromosomes
(paired chromatids)
Prophase
Cytokinesis
Spindle
Centriole
Telophase
Nuclear
envelope
reforming
Centriole
Individual
chromosomes
Anaphase
(AWAY)
Metaphase
Telophase
Spindle
forming
Centrioles
Nuclear
envelope
Chromatin
Interphase
Centromere
Chromosomes
(paired chromatids)
Prophase
Cytokinesis
Individual
chromosomes
Anaphase
(TWO)
Spindle
Centriole
Telophase
Nuclear
envelope
reforming
Centriole
Metaphase
Cytokinesis
Spindle
forming
Centrioles
Nuclear
envelope
Chromatin
Interphase
Centromere
Chromosomes
(paired chromatids)
Prophase
Cytokinesis
Spindle
Centriole
Telophase
Nuclear
envelope
reforming
Centriole
Individual
chromosomes
Anaphase
(TWO IDENTICAL DAUGHTER CELLS)
Metaphase
Let’s Review…
IV. Cell Specialization
A. Cells in Unicellular
Organisms…
1. One cell makes up entire organisms.
• No cell specialization.
B. Cells in Multicellular
Organisms…
1. Cell Specialization
• All of an organism’s cells have the same DNA
• Different cells use different genes to perform different functions
• Why do prokaryotes NOT have cell specialization?
Cells in Multicellular
Organisms…
• Cell Specialization Examples:
• Blood cells carry oxygen
• Muscle cells control movement
• Nerve cells used for response