biology 201 chapter 10
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Chapter 10
Lecture and Animation Outline
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How Cells DivideChapter 10
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Bacterial Cell Division• Bacteria divide by binary fission
– No sexual life cycle– Reproduction is clonal
• Single, circular bacterial chromosome is replicated
• Replication begins at the origin of replication and proceeds in two directions to site of termination
• New chromosomes are partitioned to opposite ends of the cell
• Septum forms to divide the cell into 2 cells
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Prior to cell division,the bacterial DNAmolecule replicates.The replication of thedouble-stranded,Circular DNA mole-cule that constitutesthe genome of abacterium begins at aspecific site, calledthe origin of replica-tion (green area).
The replicationenzymes move outin both directionsfrom that site andmake copies of eachstrand in the DNAduplex. The enzymes continue until they meet at another specific site, the terminus of replication (red area).
As the DNA isreplicated, the cellelongates, and theDNA is partitioned in the cell such that the origins are at the ¼ and ¾ positions in the cell and the termini are oriented toward the middle of the cell.
1.
2.
3.
Bacterial cell
Bacterial chromosome:Double-stranded DNA
Origin ofreplication
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5.
Septation then begins, in which new membrane and cell wall materialbegin to grow and form a septum at approximately the midpoint of the cell. A protein molecule called FtsZ (orange dots) facilitates this process.
When the septum is complete, the cell pinchesin two, and two daughter cells are formed,each containing a bacterial DNA molecule.
4.
Septum
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Septation– Production of septum separates cell’s other
components– Begins with formation of ring of FtsZ proteins– Accumulation of other proteins follow– Structure contracts radially to pinch cell in two– FtsZ protein found in most prokaryotes
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1 µm 1 µm
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FtsZ protein has a structure similar to eukaryotic tubulin•Cell division in different organisms involves protein assemblies
– Prokaryote protein assemblies involve FtsZ– Eukaryotic protein assemblies involve microtubules
formed from tubulin
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Septum
FtsZ protein
Chromosome
ChromosomeMicrotubule
Nucleus
Kinetochore microtubule
Centrioles Kinetochore
Polar microtubule
Spindle pole body
Kinetochore microtubule
Centriole
Prokaryotes Some Protists Other Protists Animals
Kinetochore microtubule
Polar microtubule
No nucleus, usually have single circularchromosome. After DNA is replicated, it ispartitioned in the cell.After cell elongation,FtsZ protein assemblesinto a ring and facilitatesseptation and celldivision.
Nucleus present andnuclear enveloperemains intact duringcell division.Chromosomes line up.Microtubule fibers passthrough tunnels in thenuclear membrane andset up an axis forseparation of replicatedchromosomes, and celldivision.
A spindle of micro-tubules forms betweentwo pairs of centrioles atopposite ends of thecell. The spindle passes through one tunnel inthe intact nuclearenvelope. Kinetochoremicrotubules formbetween kinetochoreson the chromosomesand the spindle polesand pull the chromo-somes to each pole.
Nuclear enveloperemains intact; spindlemicrotubules form inside the nucleus between spindle pole bodies. A single kinetochore microtubule attaches to each chromosome andpulls each to a pole.
Spindle microtubulesbegin to form betweencentrioles outside ofnucleus. Centrioles moveto the poles and thenuclear envelope breaksdown. Kinetochoremicrotubules attachkinetochores ofchromosomes to spindlepoles. Polar microtubulesextend toward the centerof the cell and overlap.
Yeasts
Central spindleof microtubules
Fragmentsof nuclearenvelope
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Eukaryotic Chromosomes
• Every species has a different number of chromosomes
• Humans have 46 chromosomes in 23 nearly identical pairs– Additional/missing
chromosomes usually fatal
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950x
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Chromosomes• Composed of chromatin – complex of DNA and protein• DNA of a single chromosome is one long continuous
double-stranded fiber• RNA associated with chromosomes during RNA
synthesis• Typical human chromosome 140 million nucleotides
long• In the nondividing nucleus
– Heterochromatin – not expressed– Euchromatin – expressed
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Chromosome Structure
• Nucleosome– Complex of DNA and histone proteins– Promote and guide coiling of DNA– DNA duplex coiled around 8 histone proteins
every 200 nucleotides– Histones are positively charged and strongly
attracted to negatively charged phosphate groups of DNA
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DNA Double Helix (duplex) Nucleosome
Histone core DNA
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• Nucleosomes wrapped into higher order coils called solenoids– Leads to a fiber 30 nm in diameter– Usual state of nondividing (interphase)
chromatin• During mitosis, chromatin in solenoid
arranged around scaffold of protein to achieve maximum compaction– Radial looping aided by condensin proteins
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Mitotic Chromosome
Chromatin loop
Solenoid
Scaffoldprotein
Scaffold protein
Chromatin LoopRosettes of Chromatin Loops
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Karyotype• Particular array of chromosomes in an individual
organism– Arranged according to size, staining properties, location of
centromere, etc.• Humans are diploid (2n)
– 2 complete sets of chromosomes– 46 total chromosomes
• Haploid (n) – 1 set of chromosomes– 23 in humans
• Pair of chromosomes are homologous– Each one is a homologue
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16500x
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Replication
• Prior to replication, each chromosome composed of a single DNA molecule
• After replication, each chromosome composed of 2 identical DNA molecules– Held together by cohesin proteins
• Visible as 2 strands held together as chromosome becomes more condensed– One chromosome composed of 2 sister
chromatids
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Homologous chromosomes Homologous chromosomes
Cohesinproteins
Kinetochores
Sister chromatidsSister chromatids
Kinetochore
Centromere
Replication
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Eukaryotic Cell Cycle
1. G1 (gap phase 1)– Primary growth phase, longest phase
2. S (synthesis)– Replication of DNA
3. G2 (gap phase 2)– Organelles replicate, microtubules
organize4. M (mitosis)
– Subdivided into 5 phases5. C (cytokinesis)
– Separation of 2 new cells
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Interphase
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Duration• Time it takes to complete a cell cycle varies
greatly• Fruit fly embryos = 8 minutes• Mature cells take longer to grow
– Typical mammalian cell takes 24 hours– Liver cell takes more than a year
• Growth occurs during G1, G2, and S phases– M phase takes only about an hour
• Most variation in length of G1
– Resting phase G0 – cells spend more or less time here
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M Phase
MetaphaseAnaphase
TelophasePrometaphaseProphase
S
G2
G1
Interphase
M Phase
G1
CytokinesisMitosis
SG2
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Interphase
• G1, S, and G2 phases– G1 – cells undergo major portion of growth– S – replicate DNA– G2 – chromosomes coil more tightly using motor
proteins; centrioles replicate; tubulin synthesis• Centromere – point of constriction
– Kinetochore – attachment site for microtubules– Each sister chromatid has a centromere– Chromatids stay attached at centromere by cohesin
• Replaced by condensin in metazoans
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Cohesinproteins
Centromereregion ofchromosome
Kinetochoremicrotubules
Kinetochore
Metaphasechromosome
Sisterchromatids
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NucleusNucleolus
Aster
Centrioles(replicated;animalcells only)
Nuclearmembrane
• DNA has been replicated• Centrioles replicate (animal cells)• Cell prepares for division
Chromatin(replicated)
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M phase
Mitosis is divided into 5 phases:1. Prophase2. Prometaphase3. Metaphase4. Anaphase5. Telophase
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Prophase
• Individual condensed chromosomes first become visible with the light microscope– Condensation continues throughout prophase
• Spindle apparatus assembles– 2 centrioles move to opposite poles forming spindle
apparatus (no centrioles in plants)– Asters – radial array of microtubules in animals (not
plants)• Nuclear envelope breaks down
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• Chromosomes condense and become visible• Chromosomes appear as two sister chromatids held together at the centromere• Cytoskeleton is disassembled: spindle begins to form• Golgi and ER are dispersed• Nuclear envelope breaks down
Mitotic spindlebeginning to form
Condensedchromosomes
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Prometaphase
• Transition occurs after disassembly of nuclear envelope
• Microtubule attachment– 2nd group grows from poles and attaches to
kinetochores– Each sister chromatid connected to opposite poles
• Chromosomes begin to move to center of cell – congression – Assembly and disassembly of microtubules– Motor proteins at kinetochores
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• Chromosomes attach to microtubules at the kinetochores• Each chromosome is oriented such that the kinetochores of sister chromatids are attached to microtubules from opposite poles.• Chromosomes move to equator of the cell
Centromere andkinetochore
Mitoticspindle
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Metaphase
• Alignment of chromosomes along metaphase plate– Not an actual
structure– Future axis of cell
division
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PolarmicrotubuleCentrioles
Metaphaseplate
Aster
Kinetochoremicrotubule
Sister chromatids
57µm
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• All chromosomes are aligned at equator of the cell, called the metaphase plate• Chromosomes are attached to opposite poles and are under tension
Polar microtubule
Chromosomesaligned on
metaphase plateKinetochoremicrotubule
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Anaphase
• Begins when centromeres split• Key event is removal of cohesin proteins
from all chromosomes• Sister chromatids pulled to opposite poles• 2 forms of movements
– Anaphase A – kinetochores pulled toward poles
– Anaphase B – poles move apart
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Chromosomes
• Proteins holding centromeres of sister chromatids are degraded, freeing individual chromosomes• Chromosomes are pulled to opposite poles (anaphase A)• Spindle poles move apart (anaphase B)
Kinetochoremicrotubule
Polarmicrotubule
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Telophase
• Spindle apparatus disassembles• Nuclear envelope forms around each set
of sister chromatids– Now called chromosomes
• Chromosomes begin to uncoil• Nucleolus reappears in each new nucleus
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Polar microtubule
Nucleus reforming
• Chromosomes are clustered at opposite poles and decondense• Nuclear envelopes re-form around chromosomes• Golgi complex and ER re-form
Kinetochoremicrotubule
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Cytokinesis
• Cleavage of the cell into equal halves• Animal cells – constriction of actin
filaments produces a cleavage furrow• Plant cells – cell plate forms between the
nuclei• Fungi and some protists – nuclear
membrane does not dissolve; mitosis occurs within the nucleus; division of the nucleus occurs with cytokinesis
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Vesicles containingmembrane componentsfusing to form cell plate
Cell wall
19,000×
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Control of the Cell Cycle
Current view integrates 2 concepts1.Cell cycle has two irreversible points
– Replication of genetic material– Separation of the sister chromatids
2.Cell cycle can be put on hold at specific points called checkpoints
– Process is checked for accuracy and can be halted if there are errors
– Allows cell to respond to internal and external signals
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3 Checkpoints
1. G1/S checkpoint– Cell “decides” to divide– Primary point for external signal influence
2. G2/M checkpoint– Cell makes a commitment to mitosis– Assesses success of DNA replication
3. Late metaphase (spindle) checkpoint– Cell ensures that all chromosomes are attached
to the spindle40
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G2
M
S
G2/M checkpoint Spindle checkpoint
G1/S checkpoint(Start or restriction point) G1
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Cyclin-dependent kinases (Cdks)
• Enzymes that phosphorylate proteins• Primary mechanism of cell cycle control• Cdks partner with different cyclins at different
points in the cell cycle• For many years, a common view was that cyclins
drove the cell cycle – that is, the periodic synthesis and destruction of cyclins acted as a clock
• Now clear that Cdk itself is also controlled by phosphorylation
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G2/M Checkpoint
Cdc2/Mitotic Cyclin
• DNA integrity
• Replication completed
Spindle Checkpoint
APC
• Chromosomes attached at metaphase plate
M
G2
G1S
G1/S Checkpoint
• Size of cell
• Nutritional state of cell
• Growth factors
Cdc2/G1 Cyclin
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• Cdk – cyclin complex– Also called mitosis-promoting factor (MPF)
• Activity of Cdk is also controlled by the pattern of phosphorylation– Phosphorylation at one site (red) inactivates Cdk– Phosphorylation at another site (green) activates Cdk
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Cyclin-dependent kinase(Cdk)
Cyclin
P
P
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MPF
• Once thought that MPF was controlled solely by the level of the M phase-specific cyclins
• Although M phase cyclin is necessary for MPF function, activity is controlled by inhibitory phosphorylation of the kinase component, Cdc2
• Damage to DNA acts through a complex pathway to tip the balance toward the inhibitory phosphorylation of MPF
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Anaphase-promoting complex (APC)
• Also called cyclosome (APC/C)• At the spindle checkpoint, presence of all
chromosomes at the metaphase plate and the tension on the microtubules between opposite poles are both important
• Function of the APC/C is to trigger anaphase itself
• Marks securin for destruction; no inhibition of separase; separase destroys cohesin
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Control in multicellular eukaryotes
• Multiple Cdks control the cycle as opposed to the single Cdk in yeasts
• Animal cells respond to a greater variety of external signals than do yeasts, which primarily respond to signals necessary for mating
• More complex controls allow the integration of more input into control of the cycle
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G2/M Checkpoint
Cdk1/Cyclin B
• DNA integrity
• Replication completed
Spindle Checkpoint
APC
• Chromosomes attached at metaphase plate
M
G2
G1S
G1/S Checkpoint
• Size of cell
• Nutritional state of cell
• Growth factors
Cdk2/Cyclin E
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Growth factors
• Act by triggering intracellular signaling systems
• Platelet-derived growth factor (PDGF) one of the first growth factors to be identified
• PDGF receptor is a receptor tyrosine kinase (RTK) that initiates a MAP kinase cascade to stimulate cell division
• Growth factors can override cellular controls that otherwise inhibit cell division
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GTP
5. MAP kinase (ERK)activates proteins toproduce cellular responses, includingtranscription factors that alter gene expression
4. MEK activatesMAP kinases (ERK)
1. Proteins bound toreceptor activateRas by exchangingGDP for GTP.
2. Ras activatesthe firstkinase (Raf)
3. Raf activatesthe secondKinase (MEK)
Growth factor
RAS
Cyclins/proteinsfor Sphase
ChromosomeP
Rb
NucleusE2F
Rb
ERK
MEK
PP P
P
RAF
MEK
RAF
ERK
P
PE2F
PP
P
P
RAS
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GDP
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Cancer
Unrestrained, uncontrolled growth of cells•Failure of cell cycle control•Two kinds of genes can disturb the cell cycle when they are mutated1. Tumor-suppressor genes2. Proto-oncogenes
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Tumor-suppressor genes
• p53 plays a key role in G1 checkpoint• p53 protein monitors integrity of DNA
– If DNA damaged, cell division halted and repair enzymes stimulated
– If DNA damage is irreparable, p53 directs cell to kill itself
• Prevent the development of mutated cells containing mutations
• p53 is absent or damaged in many cancerous cells
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1. DNA damage is caused by heat, radiation, or chemicals.
2. Cell division stops, and p53 triggers enzymes to repair damaged region.
3. p53 triggers the destruction of cells damaged beyond repair.
p53 allows cells withrepaired DNA to divide.
1. DNA damage is caused by heat, radiation, or chemicals.
2. The p53 protein fails to stop cell division and repair DNA. Cell divides without repair to damaged DNA.
3. Damaged cells continue to divide. If other damage accumulates, the cell can turn cancerous.
DNA repair enzyme
Cancer cell
p53protein
Nor
mal
p53
A
bnor
mal
p53
Abnormalp53 protein
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Proto-oncogenes
• Normal cellular genes that become oncogenes when mutated– Oncogenes can cause cancer
• Some encode receptors for growth factors– If receptor is mutated in “on,” cell no longer depends on
growth factors• Some encode signal transduction proteins• Only one copy of a proto-oncogene needs to
undergo this mutation for uncontrolled division to take place
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Tumor-suppressor genes
• p53 gene and many others• Both copies of a tumor-suppressor gene
must lose function for the cancerous phenotype to develop
• First tumor-suppressor identified was the retinoblastoma susceptibility gene (Rb)– Predisposes individuals for a rare form of
cancer that affects the retina of the eye
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• Inheriting a single mutant copy of Rb means the individual has only one “good” copy left– During the hundreds of thousands of divisions that
occur to produce the retina, any error that damages the remaining good copy leads to a cancerous cell
– Single cancerous cell in the retina then leads to the formation of a retinoblastoma tumor
• Rb protein integrates signals from growth factors– Role to bind important regulatory proteins and prevent
stimulation of cyclin or Cdk production
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Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Proto-oncogenes
Growth factor receptor: more per cell in many breast cancers.Ras protein: activated by mutations in 20–30% of all cancers.Src kinase: activated by mutations in 2–5% of all cancers.
Tumor-suppressor Genes
Rb protein: mutated in 40% of all cancers.
p53 protein: mutated in 50% of all cancers.
Cell cyclecheckpoints
Rasprotein
Rbprotein p53
protein
Srckinase
Mammalian cell
Nucleus
Cytoplasm
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