How Cells Divide Chapter 10. Prokaryotic Chromosome Prokaryotes typically have only one chromosome...
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Transcript of How Cells Divide Chapter 10. Prokaryotic Chromosome Prokaryotes typically have only one chromosome...
![Page 1: How Cells Divide Chapter 10. Prokaryotic Chromosome Prokaryotes typically have only one chromosome This chromosome contains all of the genes required.](https://reader035.fdocuments.us/reader035/viewer/2022062322/56649eb55503460f94bbd9b6/html5/thumbnails/1.jpg)
How Cells DivideChapter 10
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Prokaryotic Chromosome• Prokaryotes typically have only one
chromosome• This chromosome contains all of the
genes required for this cell to survive• Prokaryotes are ‘Haploid’ – They have
only one copy of each gene– Compare this to humans: Humans are
Diploid – They have 2 copies of each gene arranged in 46 chromosome pairs (23 pairs of chromosomes)
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Prokaryotic DNA• The prokaryotic chromosome is located in a region of
the cytosol called the Nucleiod• Recall: The Nucleiod is not surrounded by a membrane
like the nucleus of eukaryotic cell
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Photo Courtesy of Dr. O’Steen
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Prokaryotic DNA• Recall: DNA is molecule that stores the
genetic information of a cell
The genetic information
is stored in the order of
the nitrogenous bases
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DNA Replication
• Before a cell can divide, the DNA must be copied
• James Watson and Francis Crick were British scientists who discovered the structure of DNA in 1953
• Their publication ended with this statement: “It has not escaped our notice that the specific pairing we have postulated immediately suggests a possible copying mechanism for the genetic material”
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Complementary Strands
• The complementary property of double stranded DNA allows each strand to serve as a template for DNA Replication
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DNA Replication
• This model for replication is known as Semi-Conservative Replication because in each copy, one old strand is conserved (saved) and paired with a newly made strand
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Bacterial Cell Division
Bacteria divide by binary fission.-the single, circular bacterial chromosome is
replicated-replication begins at the origin of replication
and proceeds bidirectionally-new chromosomes are partitioned to
opposite ends of the cell-a septum forms to divide the cell into 2
cells
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Bacterial Cell Division
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Fig. 10.2
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Eukaryotic Chromosomes
Eukaryotic chromosomes –
-linear chromosomes
-every species has a different number of chromosomes
-composed of chromatin – a complex of DNA and proteins
-heterochromatin – not expressed
-euchromatin – expressed regions
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Eukaryotic Chromosomes
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Eukaryotic Chromosomes
Chromosomes are very long and must be condensed to fit within the nucleus.
-nucleosome – DNA wrapped around a core of 8 histone proteins
-nucleosomes are spaced 200 nucleotides apart along the DNA
-further coiling creates the 30-nm fiber or solenoid
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Eukaryotic Chromosomes
The solenoid is further compacted:
-radial loops are held in place by scaffold proteins
-scaffold of proteins is aided by a complex of proteins called condensin
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Eukaryotic Chromosomes
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karyotype: the particular array of chromosomes of an organism
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Eukaryotic Chromosomes
Chromosomes must be replicated before cell division.
-Replicated chromosomes are connected to each other at their kinetochores
-cohesin – complex of proteins holding replicated chromosomes together
-sister chromatids: 2 copies of the chromosome within the replicated chromosome
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Eukaryotic Cell Cycle
• The eukaryotic cell cycle has 5 main phases:
1. G1 (gap phase 1)2. S (synthesis)
3. G2 (gap phase 2)4. M (mitosis)5. C (cytokinesis)
• The length of a complete cell cycle varies greatly among cell types.
interphase
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Interphase
Interphase is composed of:
• G1 (gap phase 1) – time of cell growth
• S phase – synthesis of DNA (DNA replication)- 2 sister chromatids are produced
• G2 (gap phase 2) – chromosomes condense
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Interphase
• Following S phase, the sister chromatids appear to share a centromere.
• In fact, the centromere has been replicated but the 2 centromeres are held together by cohesin proteins.
• Proteins of the kinetochore are attached to the centromere.
• Microtubules attach to the kinetochore.
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Interphase
• During G2 the chromosomes undergo condensation, becoming tightly coiled.
• Centrioles (microtubule-organizing centers) replicate and one centriole moves to each pole.
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Mitosis
Mitosis is divided into 5 phases:
1. Prophase
2. Prometaphase
3. Metaphase
4. Anaphase
5. Telophase
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Mitosis
1. Prophase:
-chromosomes continue to condense
-centrioles move to each pole of the cell
-spindle apparatus is assembled
-nuclear envelope dissolves
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Mitosis
2. Prometaphase:
-chromosomes become attached to the spindle apparatus by their kinetochores
-a second set of microtubules is formed from the poles to each kinetochore
-microtubules begin to pull each chromosome toward the center of the cell
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Mitosis
3. Metaphase:
-microtubules pull the chromosomes to align them at the center of the cell
-metaphase plate: imaginary plane through the center of the cell where the chromosomes align
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Mitosis
4. Anaphase:
-removal of cohesin proteins causes the centromeres to separate
-microtubules pull sister chromatids toward the poles
-in anaphase A the kinetochores are pulled apart
-in anaphase B the poles move apart
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Mitosis
5. Telophase:
-spindle apparatus disassembles
-nuclear envelope forms around each set of sister chromatids
-chromosomes begin to uncoil
-nucleolus reappears in each new nucleus
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Cytokinesis
Cytokinesis – cleavage of the cell into equal halves
-in animal cells – constriction of actin filaments produces a cleavage furrow
-in plant cells – plasma membrane forms a cell plate between the nuclei
-in fungi and some protists – mitosis occurs within the nucleus; division of the nucleus occurs with cytokinesis
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Control of the Cell Cycle
• The cell cycle is controlled at three checkpoints:
1. G1/S checkpoint– the cell “decides” to divide
2. G2/M checkpoint– the cell makes a commitment to mitosis
3. late metaphase (spindle) checkpoint– the cell ensures that all chromosomes are
attached to the spindle
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Control of the Cell Cycle
cyclins – proteins produced in synchrony with the cell cycle– regulate passage of the cell through cell cycle
checkpoints
cyclin-dependent kinases (Cdks) – enzymes that drive the cell cycle– activated only when bound by a cyclin
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Control of the Cell Cycle
• At G1/S checkpoint:
– G1 cyclins accumulate
– G1 cyclins bind with Cdc2 to create the active G1/S Cdk
– G1/S Cdk phosphorylates a number of molecules that ultimately increase the enzymes required for DNA replication
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Control of the Cell Cycle
• At the spindle checkpoint:– the signal for anaphase to proceed is
transmitted through anaphase-promoting complex (APC)
– APC activates the proteins that remove the cohesin holding sister chromatids together
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Control of the Cell Cycle
Growth factors:– influence the cell cycle– trigger intracellular signaling systems– can override cellular controls that otherwise
inhibit cell division
platelet-derived growth factor (PDGF) triggers cells to divide during wound healing
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Control of the Cell Cycle
Cancer is a failure of cell cycle control.
Two kinds of genes can disturb the cell cycle when they are mutated:
1. tumor-suppressor genes2. proto-oncogenes
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Control of the Cell Cycle
Tumor-suppressor genes:
-prevent the development of many cells containing mutations
-for example, p53 halts cell division if damaged DNA is detected
-p53 is absent or damaged in many cancerous cells
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Control of the Cell Cycle
Proto-oncogenes:
-some encode receptors for growth factors
-some encode signal transduction proteins
-become oncogenes when mutated
-oncogenes can cause cancer when they are introduced into a cell
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Sexual Reproductionand Meiosis
Chapter 11
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Overview of Meiosis
Meiosis is a form of cell division that leads to the production of gametes.
gametes: egg cells and sperm cells
– contain half the number of chromosomes of an adult body cell
– Adult body cells (somatic cells) are diploid, containing 2 sets of chromosomes.
– Gametes are haploid, containing only 1 set of chromosomes.
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Overview of Meiosis
• Sexual reproduction includes the fusion of gametes (fertilization) to produce a diploid zygote.
• Life cycles of sexually reproducing organisms involve the alternation of haploid and diploid stages.
• Some life cycles include longer diploid phases, some include longer haploid phases.
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Features of Meiosis
• Meiosis includes two rounds of division – meiosis I and meiosis II.
• During meiosis I, homologous chromosomes (homologues) become closely associated with each other. This is synapsis.
•Proteins between the homologues hold them in a synaptonemal complex.
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Features of Meiosis
• Crossing over: genetic recombination between non-sister chromatids
• Physical exchange of regions of the chromatids
chiasmata: sites of crossing over
• The homologues are separated from each other in anaphase I.
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Features of Meiosis
• Meiosis involves two successive cell divisions with no replication of genetic material between them.
• Meiosis I resembles mitosis
• Results in a reduction of the chromosome number from diploid to haploid.
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The Process of Meiosis
Prophase I:
-chromosomes coil tighter
-nuclear envelope dissolves
-homologues become closely associated in synapsis
-crossing over occurs between non-sister chromatids
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The Process of Meiosis
Metaphase I:-terminal chiasmata hold homologues
together following crossing over-microtubules from opposite poles attach to
each homologue, not each sister chromatid
-homologues are aligned at the metaphase plate side-by-side
-the orientation of each pair of homologues on the spindle is random
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The Process of Meiosis
Anaphase I:
-microtubules of the spindle shorten
-homologues are separated from each other
-sister chromatids remain attached to each other at their centromeres
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The Process of Meiosis
Telophase I:
-nuclear envelopes form around each set of chromosomes
-each new nucleus is now haploid
-sister chromatids are no longer identical because of crossing over
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The Process of Meiosis
Meiosis II resembles a mitotic division:-prophase II: nuclear envelopes dissolve
and spindle apparatus forms-metaphase II: chromosomes align on
metaphase plate-anaphase II: sister chromatids are
separated from each other-telophase II: nuclear envelope re-forms;
cytokinesis follows
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Meiosis vs. Mitosis
Meiosis is characterized by 4 features:
1. Synapsis and crossing over
2. Sister chromatids remain joined at their centromeres throughout meiosis I
3. Kinetochores of sister chromatids attach to the same pole in meiosis I
4. DNA replication is suppressed between meiosis I and meiosis II.
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Meiosis vs. Mitosis
• Meiosis produces haploid cells that are not identical to each other.
• Genetic differences in these cells arise from:
- crossing over
- random alignment of homologues in metaphase I (independent assortment)
Mitosis produces 2 cells identical to each other.
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