the cell cycle chapter 12 cells have to divide in order to multiply
TRANSCRIPT
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The Cell Cycle
Chapter 12
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Cells have to divide in order to multiply
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Why Cells Divide?
Reproduction of a single celled organism (asexual reproduction )
Growth & development Tissue repair/ growth & replacement To maintain a favourable Surface area to
volume ratio
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Cell cycle Life of a cell from origin
to division into 2 new daughter cells
Who are the players: Nucleus
chromosomes DNA
Cytoskeleton Centrioles (in animals) microtubule spindle fibers
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Nucleus Function
protects DNA Structure
nuclear envelope double membrane membrane fused in spots to create pores
allows large macromolecules to pass through
histone protein
chromosome
DNA
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Cytoskeleton Function
structural support maintains shape of cell provides anchorage for organelles
protein fibers microfilaments, intermediate filaments, microtubules
motility cell locomotion cilia, flagella, etc.
regulation organizes structures
& activities of cell
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Centrioles Cell division
in animal cells, pair of centrioles organize microtubules
spindle fibers guide chromosomes in mitosis
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Cell division Distribution of identical genetic material -
packaged as DNA (genome) - to two daughter cells Prokaryotes, the genome is often a single long
DNA molecule. Eukaryotes, the genome consists of several
DNA molecules. DNA is passed along, without dilution, from one
generation to the next A dividing cell duplicates its DNA, allocates
the two copies to opposite ends of the cell, and then splits into two daughter cells
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Chromosomes
DNA molecules are packaged into chromosomes
Every eukaryotic species has a characteristic number of chromosomes in the nucleus.
Human somatic cells (body cells) have 46 chromosomes.
Human gametes (sperm or eggs) have 23 chromosomes, half the number in a somatic cell
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Chromosomes Eukaryotic chromosome consists of a long,
linear DNA molecule has hundreds or thousands of genes, the units that specify an organism’s inherited traits
Associated with DNA are proteins that maintain its structure and help control gene activity
This DNA-protein complex, chromatin, is organized into a long thin fiber.
After the DNA duplication, chromatin condenses, coiling and folding to make a smaller package
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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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Distribution of Chromosome Duplicated chromosome
2 sister chromatids narrow at centromeres contain identical
copies of original DNAhomologous
chromosomeshomologous
chromosomes
sister chromatidshomologous = “same information”
single-strandeddouble-stranded
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Mitosis and Cytokinesis
Mitosis formation of the two daughter nuclei
Cytokinesis division of the cytoplasm
These processes take one cell and produce two cells that are the genetic equivalent of the parent
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Cell Division in Sex cells (Gametes)
Humans 23 pairs of chromosomes from each parent: one set in an egg and one set in sperm.
Gametes (eggs or sperm) are produced only in gonads (ovaries or testes)
In the gonads, cells undergo a variation of cell division, meiosis, which yields four daughter cells, each with half the chromosomes of the parent.
In humans, meiosis reduces the number of chromosomes from 46 to 23.
Fertilization fuses two gametes together and doubles the number of chromosomes to 46 again.
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The Cell Cycle
An orderly sequence of events that extends from the birth of a cell till the time it divides itself
All Eukaryotic cells undergo this cycle Cycle is divided into
InterphaseMitotic Phase
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The Cell Cycle
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Interphase 90% of the Cell Cycle
1. G1(gap)phase: cell spends most of its functional life. Gap bet. DNA syn
& cell div Cell grows,
protein & organelles synthesized
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Interphase contd. S-Phase the DNA
synthesis phase. DNA molecules are
copied or replicated, single stranded DNA in G1 phase to double stranded DNA in G2.
G2 Phase completion of DNA syn. & onset of cell division
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Mitotic Phase Division of the nucleus plus
cytokinesis, produces two identical daughter cells
StagesProphaseMetaphaseAnaphaseTelophase
Interphase is not part of mitosis, it encompasses stages G1, S, and G2 of the cell cycle.
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Interphase
Chromatin not visible
DNA replicated New organelles are
formed cell grows by
producing proteins and cytoplasmic organelles
prepares for cell division.
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Prophase Chromosomes
condensed and visible with sister chromatids joined together
The nucleoli disappear
Centrioles at opposite poles of cell
The mitotic spindle begins to form
Phase ends with the breakdown of the nuclear membrane
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Transition to Metaphase Prometaphase
spindle fibers attach to centromeres
creating kinetochores microtubules attach at
kinetochores connect centromeres to
centrioles chromosomes begin
moving
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Metaphase The second stage Chromosomes
gather in the a plate across the middle of the cell
Mitotic spindle is fully formed
All chromosomes are attached to the spindle microtubules
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Anaphase The third stage of
mitosis The sister
chromatids suddenly separate from their partners.
Each chromatid daughter chromosomes move toward the poles
Microtubules shorten, bringing the chromosomes closer to the poles.
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Kinetochores use motor proteins that “walk” chromosome along attached microtubulemicrotubule
shortens by dismantling at kinetochore (chromosome) end
Chromosome Movement
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Telophase The final stage of mitosis The chromosomes reach
the poles of the spindle. This processes is the
reverse of prophase spindle disappears, nuclear envelopes reform, the chromosomes uncoil and lengthen, and nucleoli reappear.
Mitosis, the division of one nucleus into two
genetically identical daughter nuclei, is now finished.
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Cytokinesis Division of the cytoplasm Occurs along with telophase Two daughter cells separate Difference in animal and plant cells
Animal Cell cell membrane pinches off to form a cleavage furrow
Plant Cell Cell plate is formed to divide cell into two
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Animal Cell 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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Plant Cell Plants
cell plate forms 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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Plant Cell
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Binary Fission
Reproduction of Bacteria and Archae
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Evolution of mitosis A possible
progression of mechanisms intermediate between binary fission & mitosis seen in modern organisms
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Regulation of the Cell Cycle
What drives the process? Evidence supports that it is specific
chemicals present in the cytoplasm
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Cell Cycle Control System
A cyclically operating set of molecules that triggers key events
Analogous to a washing machine control panel
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Checkpoints Cell cycle controlled
by STOP & GO chemical signals at critical points
Signals indicate if key cellular processes have been completed correctly
Located at end of G1, G2 and M
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G1 checkpoint
G1 checkpoint is most critical primary decision point 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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G0 phase
MMitosis
G1Gap 1
G0Resting
G2Gap 2
SSynthesis
G0 phasenon-dividing, differentiated statemost human cells in G0 phase liver cells
in G0, but can be “called back” to cell cycle by external cues
nerve & muscle cells highly specialized arrested in G0 & can
never divide
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“Go-ahead” signals Protein signals that promote cell
growth & division internal signals
“promoting factors”external signals
“growth factors”
Primary mechanism of controlphosphorylation
kinase enzymes either activates or inactivates cell signals
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Cell Cycle Signals Cell cycle controls
cyclins regulatory proteins Fluctuates during cell cycle
Cdks at a constant concentration cyclin-dependent kinases phosphorylates cellular proteins
activates or inactivates proteins
Cdk-cyclin complex Will phosphorylate messenger
compounds
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M- Checkpoint
Internal checkpoint Anphase does not begin till chromosomes
are hooked to spindle If kinetochores are not correctly attached
anaphase promoting complex is kept inactive
If correctly attached releases proteolytic enzymes that break down cyclin and centromere proteins
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Control of Cell Division
Growth FactorsPlatelet derived growth factor
Density dependent inhibition Anchorage dependence
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Growth Factors Coordination between cells
protein signals released by body cells that stimulate other cells to divide
Body has many different types Each stimulates only cells with that
type of receptor PDGF stimulates fibroblasts
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Density dependent inhibition
Cultured cells normally divide until they form a single layer on the inner surface of the culture container
If a gap is created, the cells will grow to fill the gap.
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Anchorage dependence
Cells must be anchored to a substratum, typically the extracellular matrix of a tissue.
Cancer cells are free of both density-dependent inhibition and anchorage dependence.
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What Causes Cancer? Cells do not have a properly
functioning “cell cycle” control system
Cells divide excessively and result in an abnormal mass of cells
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Tumors and Cancer Benign mass of normal cells
Can be removed surgicallyAlways remain at their original site
MalignantMass of cancer cellsSpread to other tissues by entering
the circulatory system Metastasis spread of cancer
cells beyond site
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Metastasis Malignant tumors invade surrounding
tissues and can metastasize Exporting cancer cells to other parts of
the body where they may form secondary tumors
Cancer cells invade neighboring tissue.
2 A small percentage of cancer cells may survive and establish a new tumor in another part of the body.
4Cancer cells spread through lymph and blood vessels to other parts of the body.
3A tumor grows from a single cancer cell.
1
Tumor
Glandulartissue
Cancer cell
Bloodvessel
Lymphvessel
MetastaticTumor
Figure 12.19
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Types of Cancer Carcinoma external or internal
coverings of the body-skin, intestinal linings
Sarcoma bone and muscle Leukemia and Lymphoma- blood
forming tissues
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Treatment of Cancer Surgery Radiation therapy high energy
radiation disrupts cell division Chemotherapy drugs that inhibit
cell division Side effects:
Radiation can lead to sterilityChemotherapy can cause nausea,
hair loss
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Growth Factors and Cancer Growth factors can create cancers
proto-oncogenes normal growth factor genes that become
oncogenes (cancer-causing) when mutated
stimulates cell growth if switched “ON” can cause cancer example: RAS (activates cyclins)
tumor-suppressor genes inhibits cell division if switched “OFF” can cause cancer example: p53