The Cell Cycle: Cell Growth, Cell Division. Where it all began… You started as a cell smaller than...
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Transcript of The Cell Cycle: Cell Growth, Cell Division. Where it all began… You started as a cell smaller than...
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The Cell Cycle:Cell Growth, Cell
Division
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Where it all began…
You started as a cell smaller than a period at the end of a sentence…
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How did you get from there
to here?
And now look at you…
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• Reproduction – asexual reproduction
• one-celled organisms
• Growth and Development– from fertilized egg to
multi-celled organism
• Repair and Replacement– replace cells that die
from normal wear & tear or from injury
Why do cells divide?
amoeba
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Cell Cycle
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Cell cycleM
Mitosis
G1Gap 1
G0Resting
G2Gap 2
SSynthesis
• Cell has a “life cycle”cell is formed from a mitotic division
cell grows & maturesto divide again
cell grows & matures to never divide again
G1, S, G2, M G1G0
epithelial cells,blood cells,stem cells
liver cells
brain / nerve cellsmuscle cells
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Interphase• 90% of cell life cycle
– cell doing its “everyday job”• produce RNA, synthesize proteins/enzymes
– prepares for duplication if triggered
I’m working here!
Time to divide& multiply!
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Interphase• Divided into 3 phases:
– G1 = 1st Gap• cell doing its “everyday job”• cell grows• A few hours to indefinitely
– S = DNA Synthesis• copies chromosomes• 3-6 hours
– G2 = 2nd Gap• prepares for division • cell grows (more)• produces organelles,
proteins, membranes• 2-5 hours
G0
signal to
divide
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Interphase• Longest phase of the
cell cycle– Consists of G1, S, G2
• Cell prepares for mitosis – replicates chromosome
• DNA & proteins
– produces proteins & organelles
green = key features
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Organizing DNA• DNA is organized in
Nucleosomes– double helix DNA molecule
– wrapped around Histones• like thread on spools
– DNA-protein complex =Chromatin• organized into long thin fiber
– condensed further during mitosis
DNA
histones
chromatin
duplicated mitotic chromosome
ACTGGTCAGGCAATGTC
double stranded chromosome
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Copying DNA & packaging it…• After DNA duplication, chromatin condenses
– coiling & folding to make a smaller package
DNA
chromatin
mitotic chromosome
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double-strandedmitotic humanchromosomes
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Mitotic Chromosome • Duplicated chromosome
– 2 chromatids
– narrow at centromere
– contain identical copies of original DNA
homologouschromosomes
homologouschromosomes
sister chromatidshomologous = “same information”single-stranded
double-stranded
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Mitosis • Dividing cell’s DNA between
2 daughter nuclei– “dance of the chromosomes”
• 4 phases– Prophase– Metaphase– Anaphase– Telophase
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Mitosis
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Overview of mitosis
interphase prophase (pro-metaphase)
metaphase anaphase telophase
cytokinesis
I.P.M.A.T.
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Prophase • Chromatin condenses
– Becomes chromosomes• chromatids
• Centrioles move to opposite poles of cell – animal cell
• Protein fibers cross cell to form mitotic spindle– microtubules
• actin, myosin
– coordinates movement of chromosomes
• Nucleolus disappears
green = key features
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Transition to Metaphase • Prometaphase
– Special proteins attach to the centromeres • creating kinetochores
– microtubules attach at kinetochores • connect centromeres to
centrioles
– Nuclear envelope fragments
green = key features
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Anaphase • Sister chromatids separate
– move to opposite poles
– pulled at centromeres
– pulled by motor proteins “walking”along microtubules
• actin, myosin• increased production of
ATP by mitochondria
• Poles move farther apart– polar microtubules lengthen
green = key features
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Telophase• Chromosomes arrive at
opposite poles– Nuclear envelop starts to
reappear
– nucleoli form
– Chromosomes uncoil • no longer visible under light
microscope
• Spindle fibers disperse
• Cytokinesis– cell division
green = key features
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Cytokinesis• Animals
– constriction belt of actin microfilaments around equator of cell
• cleavage furrow forms• splits cell in two• like tightening a draw
string
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Mitosis in whitefish blastula
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Cytokinesis in Plants• Plants
– Cell Plate• vesicles line up at
equator– derived from Golgi
• vesicles fuse to form 2 cell membranes
– new cell wall laid down between membranes
• new cell wall fuses with existing cell wall
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Cytokinesis in plant cell
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onion root tip
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G1/S checkpoint
• G1/S checkpoint is most critical
– primary decision point• “Go Ahead signal”
– if cell receives “GO” signal, it divides• internal signals: cell growth (size), cell nutrition • external signals: “growth factors”
– if cell does not receive signal, it exits cycle & switches to G0 phase
• non-dividing, working state
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What about Stem cells?
• What are stem cells?
• How can they be used?
• What are concerns about using stem cells?
• What are the types of stem cells?
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Multicellular organisms depend on interactions among different cell types.
• Tissues are groups of cells that perform a similar function.
• Organs are groups of tissues that perform a specific or related function.
• Organ systems are groups of organs that carry out similar functions.
CELL TISSUE ORGAN
vascular tissue
leaf
stem
lateralroots primary
root
SYSTEMS
roo
t sy
stem
sho
ot
syst
em
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Specialized cells perform specific functions.
• Cells develop into their mature forms through the process of cell differentiation.
• Cells differ because different combinations of genes are expressed.
• A cell’s location in an embryo helps determine how it will differentiate.
Outer: skin cells Middle: bone cells Inner: intestines
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Stem cells can develop into different cell types.
• Stem cells have the ability to– divide and renew themselves– remain undifferentiated in form– develop into a variety of specialized cell types
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• Stem cells are classified into three types.
– totipotent, or growing into any other cell type– pluripotent, or growing into any cell type but a
totipotent cell– multipotent, or growing into cells of a closely related
cell family
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First, an egg is fertilized by a sperm cell in a petri dish. The egg divides, forming an inner cell mass. These cells are then removed and grown with nutrients. Scientists try to control how the cells specialize by adding or removing certain molecules.
• Stem cells come from adults and embryos.
– Adult stem cells can be hard to isolate and grow.– The use of adult stem cells may prevent transplant
rejection.– The use of embryonic
stem cells raisesethical issues.
– Embryonic stem cellsare pluripotent andcan be grown indefinitelyin culture.
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• The use of stem cells offers many current and potential benefits.
– Stem cells are used to treat leukemia and lymphoma.– Stem cells may cure disease or replace damaged
organs.– Stem cells & Blindness
– Stem cells may revolutionize the drug development process.