ch 8: the cellular basis of reproduction and inheritance
TRANSCRIPT
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CH 8: The Cellular Basis of Reproduction and Inheritance
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– Asexual reproduction
• Chromosomes are duplicated and cell divides
• One copy of each chromosome is placed in each cell
• Each “daughter” cell is genetically identical to the parent and the other daughter– Type of eukaryotic cellular division required:
mitosis
Methods of Reproduction
Advantage = fast and convenientDisadvantage = very little genetic variation
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Sexual reproduction
• Offspring inherit DNA from both of their parents– Type of eukaryotic cellular division required:
meiosis
• Offspring can show great variation
– Advantage = lots of genetic variation
– Disadvantage = metabolically expensive
Methods of Reproduction
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Prokaryotic cells reproduce asexually
by a type of cell division called binary fission
• The circular DNA molecule replicates to form 2 chromosomes
• The chromosome copies move apart• The cell elongates• The plasma membrane grows inward, dividing the
parent into two daughter cells
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Continued elongation of the cell and movement of copies
Duplication of chromosomeand separation of copies
Plasmamembrane
Cell wall
Prokaryoticchromosome
Division intotwo daughter cells
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Eukaryotic Asexual Reproduction
• Mitosis:– Purpose:
• Asexual reproduction in single celled organisms• Growth and repair in multicelled organisms
– An exact copy of the cell’s DNA is made*, the copies separated, and each copy is put in a new cell.
• *Put another way…an exact copy of each chromosome is made
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Mitosis
• Mitosis involves one cellular division.– 1 cell 2 cells (called daughter cells)
– Daughter cells are genetically identical– Chromosome number does not change.
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Eukaryotic Chromosomecondensed form
– Sister chromatids have identical DNA
– Centromere • Kinetechore on
centromere provides binding site for microtubules
Sister chromatids
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Eukaryote Chromosome Structure
Histone core is made up of 8 proteins
Histone core shown in greater detail, see page 212
A nucleosome is 2 wraps of DNA around a histone core
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Cell Cycle
• Cell cycle describes the “life cycle” of a cell- Cell cycle is tightly controlled– G1– S Interphase– G2
Mitotic Phase– Mitosis
• Prophase, metaphase, anaphase, telophase
– Cytokinesis
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Mitosis
– Mitosis = division of the cell’s DNA and nucleus in a eukaryotic cell
– Cytokinesis = division of the cytoplasm (cell)
– Mitosis occurs in somatic cells such as….
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Cell Cycle
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Cell Cycle
Interphase G 1 - period of cell growth
S - DNA synthesis • An exact copy is made of each chromosome• Copies are joined at the ________
G 2 – cell continues to grow and prepares to divide• e.g. centrioles duplicate in animal cells
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G1 CheckpointChecks Cell Size, Organelles, Nutrition
M Checkpoint• Chromosomes Aligned?• Spindle Fibers Attached?
G2 Checkpoint• DNA Replicated?• Cell Division Machinery OK?
GO SIGNAL
Cell Completes Cell Cycle
STOP SIGNAL
Waits to Grow Larger
Control of the Cell Cycle - Checkpoints
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Mitosis
• Mitosis (division of nucleus/chromosomes) follows interphase – see pages 130/131 – 4/5 phases
• Prophase,Prometaphase• Metaphase• Anaphase• Telophase (and cytokinesis)
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Prophase
• Chromosomes condense, become visible under microscope
• Centriole pairs* move towards poles (animal only)
• Nucleoli disappear
• *centriole pair = centrosome
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Prometaphase
• Transition from prophase to metaphase– Nuclear envelope breaks up and forms
vesicles– Microtubules arranged as spindle fibers attach
the kinetechore on the centromere of each sister chromatid to opposite poles
• Attach to centrioles in animal cells
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Plant Prometaphase
• Prometaphase in a plant cell
• Chromosomes are visible
• Nuclear envelope is breaking down
• Spindle fibers cannot be seen in this micrograph.
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Metaphase
• Spindle microtublules push and pull chromo to middle of cell
• Centromeres line up across the middle of the cell
• Microtubules running pole to pole elongate the cell– Not visible in this
micrograph
Animal Metaphase
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Plant Metaphase
• Chromosomes tend to be “messier” in plant metaphase
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Anaphase
• Sister chromatids separate at the centromere
• MT* pull sister chromatids to opposite poles
• MT continue to elongate cell– This also helps to
separate chromatids
* MT = microtubules
•Animal anaphase
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Plant Anaphase
• Separated sister chromatids (daughter chromosomes) clearly visible
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Telophase
• Telophase starts when chromatids reach poles
• Goal is to make 2 new nuclei– Chromo. unwind– Nucleoli reappear– Nuclear envelope
reforms from vesicles
• Animal cell shown
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Cytokinesis
• Cytokinesis – division of cytoplasm
• Begins during telophase
• Different in plant and animal cells
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Animal Cytokinesis
• Microfilaments wrap around the center of the cell and then contract
• Creates cleavage furrow
• Cell “squeezed” in 2
Page 132
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Plant Cytokinesis
• Vesicles containing cell wall material line up across middle of cell
• Vesicles merge and form cell plate
• Cell plate grows until it divides the cell in 2
Cell plate
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MITOSIS
2N
2N
2N
1. Interphase2. Prophase3. Metaphase4. Anaphase5. Telophase6. Cytokenesis
Is this a plant or an animal cell?
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Mitosis Review
• Comparison Plant and Animal Mitosis
• Mitosis
• Animal Cell Mitosis
• Plant Cell Mitosis
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Meiosis
• Meiosis is needed for sexual reproduction– Purpose of meiosis is to create gametes
• Egg and sperm in humans• Needed for sexual reproduction• Gametes have only one copy of each type of
chromosome
– Occurs in germ cells• Ovaries and testes of humans
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Related Terms
• Diploid = 2 copies of each type of chromosome present (2N)
• One copy came from mom’s egg and the other from dad’s sperm
• Human diploid number = 46 (also say 2N = 46)
• Haploid = 1 copy of each type of chromosome present (N)
• Human haploid number = 23 (N = 23)• Gametes are haploid
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Overview Meiosis
• Meiosis separates homologous chromosomes and produces cells with a single set of chromosomes– Homologous Chromosomes: pair of
chromosomes with genetic information about the same traits, page 136
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Human KaryotypeHomologous Chromosomes
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Meiosis
• The process of meiosis requires 2 cellular divisions – page 137
– One division to separate homologous chromosomes
– Second division to separate duplicated chromosomes
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MEIOSIS
MEIOSIS I
Begins With:
•Duplicated Chromosomes
•Diploid (2N) Cells
Functions:
•Separate Homologous Chromosomes
•Go From Diploid (2N) to Haploid (N)
Meiosis 1
Homologous Pair
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MEIOSIS II
Begins With:
•Duplicated Chromosomes
• Haploid (N) cells
Function:
•Separate Sister Chromatids•Creates gametes
Meiosis II
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Crossing over occurs in meiosis I
2N = 2
2 cells, N = 1 for each
Sister chromatids separate in meiosis II
4 cells, N = 1 for each.Chromosomes are different due to crossing over
Homologous chromosomes separate in meiosis I
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Meiosis I
• Prophase I – Cell is diploid – Chromosomes are duplicated
• Duplicated chromosomes form tetrads• Tetrad = pair of homologous chromosomes
– Crossing over occurs • Exchange of genetic material between
homologous chromosomes
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CROSSING OVER
• During Prophase I
Exchange of genetic material between Homologous Chromosomes
Produces new genetic combinations--Chromosomes with both
Maternal & Paternal components
Meiosis 1
Meiosis 2
Gametes
M F
occurs at CHIASMA
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Meiosis I
• Prophase I, continued
– Chromosomes condense (super-coil)– Centrioles move towards opposite poles
(animal only)– Spindle fibers begin to assemble – Nuclear envelope breaks down (always
signals end of a prophase )
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Meiosis I
Metaphase I– Spindle fibers push
and pull the tetrads to the middle of the cell.
– Spindle fibers attach each chromosome of the pair to one pole
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Meiosis I
• Anaphase I– Homologous
chromosomes are separated and pulled to opposite poles by the spindle fibers
– Microtubules running pole to pole lengthen and elongate the cell
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Meiosis I
• Telophase I and Cytokinesis– Chromosomes reach
the poles – still duplicated
– Cell divides in two• Animal cells - cleavage
furrow squeezes cell in two
• Plant cells – cell plate divides cell in two
– Generally, the nucleus does not reform
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At the end of Meiosis I
– Homologous chromosomes have been separated
• Chromosomes are still duplicated• Sister chromatids are no longer identical due to
crossing over
– Chromosome number has been cut in half (to haploid number)
• Count centromeres to count chromosomes
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Crossing over occurs in meiosis I
2N = 2
2 cells, N = 1 for each
Sister chromatids separate in meiosis II
4 cells, N = 1 for each.Chromosomes are different due to crossing over
Homologous chromosomes separate in meiosis I
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Meiosis II
• Prophase II – in each cell – Centriole pairs separate and move to opposite
poles (animal only)– Spindle fibers attach to kinetechore
(centromere) of each chromosome• Remember chromosomes are still duplicated• Notice that each chromo is attached to both poles
(as in mitosis)
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Meiosis II
• Metaphase II– Spindle fibers push and pull duplicated
chromo. To the center of the cell
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Metaphase II
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METAPHASE I – tetrads line up across the center of the cell
METAPHASE II – duplicated chromosomes line up
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Anaphase II
– Spindle fibers separate the sister chromatids
– One copy of each chromosome moves to each pole
– Microtubules running pole to pole lengthen and elongate the cell
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Telophase II
• Telophase II and Cytokinesis– Nucleus reforms in
each cell (4 cells in total)
– Cytoplasm divides
• Meiosis web link
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Meiosis
• Two cellular/nuclear divisions– 1st division separates homologous
chromosomes (each in its duplicated state)– 2nd division separates duplicated
chromosomes
• 1 cell with 2N chromo 2 cells with N duplicated chromo 4 cells with N chromo
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Meiosis
• End result of meiosis– 4 cells are made– Each cell has the haploid number of chromo.
• One copy of each type of chromo
– No two gametes are identical due to:• independent assortment of homologous
chromosomes (page 141)• crossing over during meiosis I
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Cell Division Summary
• Page 140 provides a summary of the 2 types of cellular division.
• Given a picture of a phase of mitosis or meiosis you should be able to:– Identify the phase and division type– Label as appropriate: spindle fibers,
centrioles, sister chromatids, homologous chromosomes, centromere/kinetechore, nuclear envelope…