Fig. 12-11-4
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Transcript of Fig. 12-11-4
Fig. 12-11-4
Origin ofreplication
Two copiesof origin
E. coli cellBacterialchromosome
Plasmamembrane
Cell wall
Origin Origin
Fig. 12-2
100 µm 200 µm 20 µm
(a) Reproduction (b) Growth and development
(c) Tissue renewal
Fig. 12-5
S(DNA synthesis)
MITOTIC(M) PHASE
Mito
sis
Cytokinesis
G1
G2
Fig. 12-40.5 µm Chromosomes
Chromosomeduplication(including DNAsynthesis)
Chromo-some arm
Centromere
Sisterchromatids
DNA molecules
Separation ofsister chromatids
Centromere
Sister chromatids
Fig. 12-6
G2 of Interphase
Centrosomes(with centriolepairs)
Chromatin(duplicated)
Nucleolus Nuclearenvelope
Plasmamembrane
Early mitoticspindle
Aster Centromere
Chromosome, consisting of two sister chromatids
Prophase Prometaphase
Fragmentsof nuclearenvelope
Nonkinetochoremicrotubules
Kinetochore Kinetochoremicrotubule
Metaphase
Metaphaseplate
Spindle Centrosome atone spindle pole
Anaphase
Daughterchromosomes
Telophase and Cytokinesis
Cleavagefurrow
Nucleolusforming
Nuclearenvelopeforming
Prophase
Fig. 12-6a
PrometaphaseG2 of Interphase
Fig. 12-6b
PrometaphaseProphaseG2 of Interphase
Nonkinetochoremicrotubules
Fragmentsof nuclearenvelope
Aster CentromereEarly mitoticspindle
Chromatin(duplicated)
Centrosomes(with centriolepairs)
Nucleolus Nuclearenvelope
Plasmamembrane
Chromosome, consistingof two sister chromatids
Kinetochore Kinetochoremicrotubule
Fig. 12-6c
Metaphase Anaphase Telophase and Cytokinesis
Fig. 12-6d
Metaphase Anaphase Telophase and Cytokinesis
Cleavagefurrow
Nucleolusforming
Metaphaseplate
Centrosome atone spindle pole
SpindleDaughterchromosomes
Nuclearenvelopeforming
Fig. 12-7
Microtubules Chromosomes
Sisterchromatids
Aster
Metaphaseplate
Centrosome
Kineto-chores
Kinetochoremicrotubules
Overlappingnonkinetochoremicrotubules
Centrosome 1 µm
0.5 µm
Fig. 12-6d
Metaphase Anaphase Telophase and Cytokinesis
Cleavagefurrow
Nucleolusforming
Metaphaseplate
Centrosome atone spindle pole
SpindleDaughterchromosomes
Nuclearenvelopeforming
Fig. 12-9
Cleavage furrow100 µm
Contractile ring ofmicrofilaments
Daughter cells
(a) Cleavage of an animal cell (SEM) (b) Cell plate formation in a plant cell (TEM)
Vesiclesformingcell plate
Wall ofparent cell
Cell plate
Daughter cells
New cell wall
1 µm
Cleavage furrow
Fig. 12-9a
100 µm
Daughter cells
(a) Cleavage of an animal cell (SEM)
Contractile ring ofmicrofilaments
Fig. 12-9b
Daughter cells
(b) Cell plate formation in a plant cell (TEM)
Vesiclesformingcell plate
Wall ofparent cell
New cell wallCell plate
1 µm
Fig. 12-10
Chromatincondensing
Metaphase Anaphase TelophasePrometaphase
Nucleus
Prophase1 2 3 54
Nucleolus Chromosomes Cell plate10 µm
Fig. 12-14
SG1
M checkpoint
G2M
Controlsystem
G1 checkpoint
G2 checkpoint
Fig. 12-15
G1
G0
G1 checkpoint
(a) Cell receives a go-ahead signal
G1
(b) Cell does not receive a go-ahead signal
Fig. 12-17
M G1S G2
M G1S G2
M G1
MPF activity
Cyclinconcentration
Time(a) Fluctuation of MPF activity and cyclin concentration during the cell cycle
Degradedcyclin
Cdk
G 1S
G 2
M
CdkG2
checkpointCyclin isdegraded
CyclinMPF
(b) Molecular mechanisms that help regulate the cell cycle
Cy
clin
ac
cu
mu
latio
n
Fig. 12-19
Anchorage dependence
Density-dependent inhibition
Density-dependent inhibition
(a) Normal mammalian cells (b) Cancer cells25 µm25 µm
Fig. 12-20
Tumor
A tumor growsfrom a singlecancer cell.
Glandulartissue
Lymphvessel
Bloodvessel
Metastatictumor
Cancercell
Cancer cellsinvade neigh-boring tissue.
Cancer cells spreadto other parts ofthe body.
Cancer cells maysurvive andestablish a newtumor in anotherpart of the body.
1 2 3 4