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Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings
PowerPoint Lectures for!Biology: Concepts and Connections, Fifth Edition! – Campbell, Reece, Taylor, and Simon
Lectures by Chris Romero
Chapter 8
The Cellular Basis of Reproduction and Inheritance
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• Objective: • a. Recognize the chromosomes of daughter
cells, formed through the processes of asexual reproduction and mitosis, the formation of somatic (body) cells in multicellular organisms, are identical to the chromosomes of the parent
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!
•Reproduction is one phase of an organism's life cycle!– Sexual reproduction!• Fertilization of sperm and egg produces
offspring
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– Asexual reproduction!• Offspring are produced by a single parent,
without the participation of sperm and egg!• Cell division is at the heart of organismal
reproduction
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CONNECTIONS BETWEEN CELL DIVISION AND REPRODUCTION
Like begets like, more or less!• Asexual reproduction!– Chromosomes are duplicated and cell divides !– Each daughter cell is genetically identical to
the parent and the other daughter!• Sexual reproduction!– Each offspring inherits a unique combination
of genes from both parents!– Offspring can show great variation
Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings
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Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings
Cells arise only from preexisting cells!• 1858 Rudolf Virchow: "Every cell from a cell" !• This is at the heart of the perpetuation of life !– Can reproduce an entire unicellular organism!– Is the basis of sperm and egg formation!– Allows for development from a single fertilized
egg to an adult organism!– Functions in an organism's renewal and repair
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Prokaryotes reproduce by binary fission!• Prokaryotic cells reproduce asexually by a type
of cell division called binary fission!– Genes are on one circular DNA molecule!– The cell replicates its single chromosome!– The chromosome copies move apart!– The cell elongates!– The plasma membrane grows inward
(cleaves), dividing the parent into two daughter cells
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LE 8-3a
Continued elongation of the !cell and movement of copies
Duplication of chromosome!and separation of copies
Plasma!membrane
Cell wall
Prokaryotic!chromosome
Division into!two daughter cells
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LE 8-3b
Prokaryotic chromosomes
Col
oriz
ed T
EM 3
2,50
0
×
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THE EUKARYOTIC CELL CYCLE AND MITOSIS
The large, complex chromosomes of eukaryotes duplicate with each cell division!• Eukaryotic genes !– Many more than in prokaryotes!– Grouped into multiple chromosomes in the
nucleus
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• Eukaryotic chromosomes !– Contain a very long DNA molecule associated
with proteins!– Most of the time occur in the form of thin,
loosely packed chromatin fibers!– Condense into visible chromosomes just
before cell division
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• Eukaryotic cell division!1. Chromosomes replicate!• Sister chromatids joined together at the
centromere!2. Sister chromatids separate!• Now called chromosomes!
3. Cell divides into two daughter cells!• Each with a complete and identical set of
chromosomes
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LE 8-4bSister chromatids
Centromere
TEM
36,
600×
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LE 8-4c
Centromere
Chromosome!duplication
Sister !chromatids
Chromosome!distribution!
to!daughter!
cells
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The cell cycle multiplies cells!• The cell cycle: an ordered series of events
extending from the time a cell is formed until it divides into two !
• 3 Major processes:!I. Interphase!II. Mitosis!III. Cytokinesis
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• Most of the time of cell cycle is in interphase!• 3 Stages:!– G1: cell grows in size!– S: DNA synthesis (replication) occurs!– G2: Cell continues to grow and prepare for
division!
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• The cell actually divides in mitotic (M) phase!– Mitosis: nuclear division!– Cytokinesis: cytoplasmic division!– Duplicated chromosomes evenly distributed
into two daughter nuclei
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LE 8-5
INTERPHASE
G1
G2
S!(DNA synthesis)
CytokinesisMito
sis
MITOTIC!PHASE (M)
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Cell division is a continuum of dynamic changes!• Interphase: Duplication of the genetic material
ends when chromosomes begin to become visible !
• Prophase (the first stage of mitosis): The mitotic spindle is forming. Centrosomes migrate to opposite ends of the cell Chromatins completely coil into chromosomes; nucleoli and nuclear membrane disperse
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• Metaphase: The spindle is fully formed; chromosomes are aligned single file with centromeres on the metaphase plate !
• Anaphase: Chromosomes separate from the centromere, dividing to arrive at poles!
• Telophase: Cell elongation continues, a nuclear envelope forms around chromosomes, chromosomes uncoil, and nucleoli reappear!
• Cytokinesis: The cytoplasm divides
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LE 8-6a
INTERPHASE PROPHASE PROPHASE
KinetochoreFragments!of nuclear!envelope
CentrosomeEarly mitotic!spindleChromatin
Centrosomes!(with centriole pairs)
LM 2
50 ×
Nucleolus Nuclear!envelope!
Plasma!membrane!
Chromosome, consisting!of two sister chromatids!
Centromere! Spindle !microtubules!
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LE 8-6b
METAPHASE ANAPHASE TELOPHASE AND CYTOKINESIS
Metaphase!plate
Spindle Daughter!chromosomes
Nuclear!envelope!forming
Cleavage!furrow
Nucleolus!forming
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Cytokinesis differs for plant and animal cells!• Animals !– Ring of microfilaments contracts into cleavage
furrow!– Cleavage occurs!
• Plants !– Vesicles fuse into a membranous cell plate !– Cell plate develops into a new wall between
two daughter cells
Animation: Cytokinesis
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LE 8-7a
Cleavage furrow
Cleavage!furrow
Daughter cells
Cleavage!furrow
Contracting ring of!microfilaments
SEM
140×
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LE 8-7bCell plate!forming
Wall of!parent cell
Daughter!nucleus
New cell wallCell wall
TEM
7,5
00×
Daughter cellsVesicles containing!cell wall material
Cell plate
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8.8 Anchorage, cell density, and chemical growth factors affect cell division!• An organism must be able to control the timing
of cell division!• Anchorage dependence ! !– Most animal cells must be in contact with a
solid surface to divide
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• Density-dependent inhibition!– Cells form a single layer!– Cells stop dividing when they touch one
another!– Inadequate supply of growth factor causes
division to stop
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LE 8-8aCells anchor to!dish surface!
and divide.
When cells have!formed a complete!single layer, they!stop dividing!(density-dependent!Inhibition).
If some cells are!scraped away, the!remaining cells!divide to fill the dish!with a single layer!and then stop!(density-dependent!inhibition).
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LE 8-8b
After forming a!single layer,!cells have!stopped dividing.
Providing an!additional supply of!growth factors!stimulates!further cell division.
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8.9 Growth factors signal the cell cycle control system!• The cell cycle control system regulates the
events of the cell cycle!• If a growth factor is not released at three major
checkpoints, the cell cycle will stop!– G1 of interphase !– G2 of interphase!– M phase
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Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings
PowerPoint Lectures for!Biology: Concepts and Connections, Fifth Edition! – Campbell, Reece, Taylor, and Simon
Lectures by Chris Romero
LE 8-9a
G1 checkpointG0
G1
G2
G2 checkpoint
M checkpoint
M
SControl!system
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• How a growth factor might affect the cell cycle control system!– Cell has receptor protein in plasma
membrane!– Binding of growth factor to receptor triggers a
signal transduction pathway!• Molecules induce changes in other molecules!
– Signal finally overrides brakes on the cell cycle control system
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Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings
PowerPoint Lectures for!Biology: Concepts and Connections, Fifth Edition! – Campbell, Reece, Taylor, and Simon
Lectures by Chris Romero
LE 8-9b
G1 checkpoint
G1
G2M
SControl!system
Growth factor
Plasma membrane
Relay!proteins
Signal!transduction!pathway
Receptor!protein
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CONNECTION
8.10 Growing out of control, cancer cells produce malignant tumors!• Cancer cells do not respond normally to the cell
cycle control system!– Divide excessively!– Can invade other tissues!– May kill the organism
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• If an abnormal cell avoids destruction by the immune system, it may form a tumor!– Benign: abnormal cells remain at original site!– Malignant: abnormal cells can spread to other
tissues and parts of the body!– Metastasis: spread of cancer cells through the
circulatory system
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Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings
PowerPoint Lectures for!Biology: Concepts and Connections, Fifth Edition! – Campbell, Reece, Taylor, and Simon
Lectures by Chris Romero
LE 8-10
Tumor
Glandular!tissue!
Lymph!vessels!
Blood vessel!
A tumor grows from a!single cancer cell. !
Cancer cells invade!Neighboring tissue. !
Cancer cells spread through!lymph and blood vessels to!other parts of the body. !
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• Cancers are named according to location of origin!– Carcinoma: external or internal body
coverings!– Sarcoma: tissues that support the body!– Leukemia and lymphoma: blood-forming
tissues!• Radiation and chemotherapy are effective as
cancer treatments because they interfere with cell division
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8.11 Review of the functions of mitosis: growth, cell replacement, and asexual reproduction!• When the cell cycle operates normally, mitotic
cell division functions in!– Growth!– Replacement of damaged or lost cells!– Asexual reproduction
Video: Hydra Budding
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Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings