chapter 12 - the cell cycle. how did you develop from a single-celled zygote to a...
TRANSCRIPT
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Chapter 12 - The Cell Cycle
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How did you develop from a single-celled zygote to a 300-trillion-celled organism?
How does the genetic information in a cell from your toe compare to the genetic information in a cell from your arm?
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Cell Theory
All living matter is composed of one or more cells.
The cell is the structural and functional unit of life.
All cells come from cells.
So how does cell divide?
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Roles of Cell Division
Reproduction Growth Repair In all cases, cell division must distribute
identical genetic material to two daughter cells.
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Genome
Genome – the sum total of an organism’s genetic material
A typical human cell has about 2m of DNA (250,000 x a cell’s diameter)!
Usually packaged into chromosomes for manageability.
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Chromosomes
Made of a DNA and protein complex called Chromatin.
During cell division, the chromatin becomes highly condensed into the chromosomes.
Why condense? – You have to separate a bowl of pasta into two plates. What’
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Chromosomes - Structure
At cell division, each chromosome has been duplicated.
The duplicated chromosome consists of two sister chromatids.
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Centromere
The point where two sister chromatids are connected.
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Goal of cell division
To split the sister chromatids and give one to each new cell.
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Draw out mitosis with 1 chromosome starting before DNA replication and then the resulting daughter cells.
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Cell Cycle - parts
1. Interphase - (90% of cycle) - when the cell grows and duplicates the chromosomes.
2. Mitotic Phase (M) - when the chromosomes are split into separate cells.
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Interphase
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Interphase - parts
G1 (Gap 1) - Cell grows and carries out regular biochemical functions.
S – synthesis - When the DNA is replicated or synthesized. Chromosomes are replicated.
G2 – (Gap 2)- Cell completes preparations for division.
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Mitotic Phase - parts
1. Mitosis - division of replicated chromosomes.
2. Cytokinesis - division of the cell’s cytoplasm.
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Mitosis - Purpose
To divide the 2 copies of the DNA equally. To separate the sister chromatids into
separate cells.
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Mitosis Steps Prophase Prometaphase Metaphase Anaphase Telophase
You DO NOT need to know what happens in each stage. You do need to know the logic of the sequence of events
http://highered.mheducation.com/sites/0072495855/student_view0/chapter2/animation__mitosis_and_cytokinesis.html
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The Mitotic Spindle Mitotic Spindle: network of
microtubules and proteins; assembles during prophase• Centrosome (animal cell): region
that organizes microtubules; (where they start growing)
• Interphase: single centrosome replicates
• Prophase and prometaphase: centrosomes move apart and microtubles begin growing out of them
• Aster: radial array of short microtubules (centrosomes at each pole)
• SPINDLE = centrosomes, spindle microtubules, and asters
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What are microtubules?
Part of cytoskeleton Hollow tubes of tubulin Function:
• Maintain cell shape• Cell motility• Cell division• Organelle Movement
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Prophase
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Prophase
Nucleoli disappear. Chromatin condenses into the
chromosomes. Centrioles separate to opposite ends of
the cell. Mitotic spindle begins to form.
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Prometaphase
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Prometaphase
Nuclear envelope dissolves. Spindle fibers join with the kinetochore of the
centromeres.
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Metaphase
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Metaphase
Centrioles now at opposite ends of the cell. Chromosomes line up on the metaphase
plate. Spindle apparatus fully developed.
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Anaphase
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Anaphase
Centromeres break and the duplicated chromosomes are pulled away from each other toward opposite ends of the cell.
Cell elongates; poles move slightly further apart.
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Kinetochores
Specialized regions of the centromeres where spindle microtubules attach.
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Kinetochores
Structure on the chromosome Appear to “ratchet” the chromosome down
the spindle fiber microtubule with a motor protein.
Microtubules dissolve behind the kinetochore.
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Telophase
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Telophase
Chromosomes uncoil back to chromatin. Nuclear envelope reforms. Nucleoli reappear. Spindle fibers disappear. Cytokinesis usually starts.
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Cytokinesis
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Cytokinesis - Animal
Cleavage furrow forms. Microfilaments contracts and divides the
cytoplasm into two parts.
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Cytokinesis - Plants
Cell plate develops from Golgi vesicles. New cell wall developed around the cell
plate.
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Cell Plate
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Cell Division
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Animal Cell - Mitosis
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Plant Cell - Mitosis
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Regulation of Cell Division
Must be controlled. Rate of cell division depends on the cell
type.• Ex - skin: frequently• liver - as needed• brain - rarely or never
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Checkpoints
A critical control point in the cell cycle. Several are known. Cells must receive a “go-ahead” signal
before proceeding to the next phase.
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G1 Checkpoint
Also called the “restriction point” in mammalian cells.
Places cells in a non-dividing phase called the Go phase.
Most important checkpoint according to some.
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GO
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Go Phase
Non-dividing state. Most cells are in this state. Some cells can be reactivated back into M
phase from the Go phase.
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Protein Kinase Checkpoint - G2
Uses protein kinases to signal “go-ahead” for the G2 phase.
Activated by a protein complex whose concentration changes over the cell cycle.
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MPF
M-phase Promoting Factor. Protein complex required for a cell to
progress from G2 to Mitosis. Role of MPF - to trigger a chain of protein
kinase activations.
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Active MPF has:
1. Cdk
2. Cyclin
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CDK
Protein Kinase (enzyme that adds phosphate to a molecule to energize it).
Amount remains constant during cycle. Inactive unless bound with cyclin.
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Cyclin
Protein whose concentration builds up over G1, S and G2.
When enough cyclin is present, active MPF is formed.
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Active MPF
Triggers Mitosis. Activates a cyclin-degrading enzyme,
which lowers the amount of cyclin in the cell.
Result - no active MPF to trigger another mitosis until the cycle is repeated.
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Growth Factors
External signals that affect mitosis. Examples:
• PDGF• Density-dependent inhibition• Anchorage dependence
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PDGF
Platelet-Derived Growth Factor.
Growth Factor – protein released by cells that stimulate other cells to divide (over 50 different kinds)
Platelets release this protein when an injury occurs
Stimulates cell division to heal injuries.
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Density-Dependent Inhibition
The number of cells in an area force competition for nutrients, space, and growth factors .
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Density-Dependent Inhibition
When density is high - no cell division. When density is low - cells divide.
Mechanism: surface protein on a cell comes in contact with its counterpart, triggering a growth-inhibiting signal to both cells
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Anchorage Dependence
Inhibition of cell division unless the cell is attached to a substratum (extracellular matrix of a tissue or the inside of a culture jar)
Prevents cells from dividing and floating off in the body.
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Apoptosis
Programmed cell death Uses cell signaling pathways DNA is chopped up Cell shrinks and becomes lobed
(blebbing) Pieces are digested by specialized
scavenger cells
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WBC before and after
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Apoptosis
Balance between signals for “live” or “die”
Triggered by mitochondria damage, neighbor cells, internal signals
Involved with Parkinson’s Alzheimer’s, Cancer
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Apoptosis video
http://www.youtube.com/watch?v=DR80Huxp4y8
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Cancer Cells
Do not stop dividing. The control mechanisms for cell
division have failed.
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Evolution of Mitosis
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Comment
Regulation of cell division is a balance between:
Mitosis - making new cells.
Apoptosis - cell suicide or death Cancer can result if either process doesn’t
work.
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Summary
Know the phases and steps of the cell cycle. Be able to discuss the “regulation” of the cell
cycle.