fig. 9-1b, p.138. fig. 9-1c, p.138 flowering plant fig. 9-3a, p.140 anther (where sexual spores that...
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Fig. 9-1b, p.138
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Fig. 9-1c, p.138
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Flowering plant
Fig. 9-3a, p.140
anther (wheresexual sporesthat give rise tosperm form)
ovules inside anovary (where sexualspores that giveto eggs form)
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Fig. 9-3b-c, p.140
testis(where sperm originate)
Human male Human female
ovary(where eggsdevelop)
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one chromatid
its sister chromatid
centromere
one chromosome in the duplicated state
p.141a
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p.141b
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p.141c
then the partners separate.
Each homologue in thecell pairs with its partner,
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one chromosome (duplicated)
two chromosomes (unduplicated)
p.141d
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Fig. 9-5a, p.142
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plasma membrane
spindle equator (midway between the two poles)
one pair of homologous chromosomes
Prophase I Metaphase I Anaphase I Telophase I
Meiosis I
Fig. 9-5a, p.142
newly formingmicrotubules ofthe spindle
breakupof nuclearenvelope
centrosome witha pair of centrioles,moving to oppositesides of nucleus
Chromosomes were duplicated earlier, ininterphase.
Prior to metaphase I, one set of microtubules had tethered one chromosome of each type to one spindle pole and another set tethered its homologue to the other spindle pole.
One of each duplicatedchromosome, maternal or paternal, moves to a spindle pole; its homologue moves to the opposite pole.
One of each typeof chromosome hasarrived at a spindlepole. In most species,the cytoplasm dividesat this time.
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Fig. 9-5b, p.142
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Prophase II Metaphase II Anaphase II Telophase II
Meiosis II
there is no DNA replication between the two divisions
Fig. 9-5b, p.142
In each cell, one of two centrioles moves to the opposite side of thecell, and a new bipolar spindle forms.
By now, microtubules fromboth spindle poles have finished a tug-of-war.
The sister chromatids of each chromosome move apart and are now individual, unduplicated
A new nuclear envelopeencloses each parcel ofchromosomes, so thereare now four nuclei.
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Fig. 9-6, p.144
a A maternal chromosome (purple) and paternal chromosome (blue) were duplicated earlier, duringinterphase. They become visible in microscopes early in prophase I, when hey star to condense tothreadlike form.
b Each chromosome and its homologous partner zippertogether, so all four chromatidsare tightly aligned.
mom’salleleB
mom’salleleA
mom’salleleA
mom’salleleA
mom’salleleB
dad’sallele
a
dad’salleleb
dad’salleleb
c Here is a simple way to think about crossing over. (Chromosomes are still condensed and threadlike,and each is tightly aligned with its homologous partner.)
d Their intimate contactpromotes crossing over at different places along the length of nonsister chromatids.
e At the crossover site, paternal and maternal chromatids exchangecorresponding segments.
f Crossing over mixesup maternal and paternalalleles on homologouschromosomes.
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Fig. 9-6c, p.144
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Fig. 9-6d, p.144
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Fig. 9-6e, p.144
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Fig. 9-6f, p.144
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Fig. 9-8, p.146
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a Growth b Meiosis I andcytoplasmic division
c Meiosis II and cytoplasmic division
spermatids (haploid)
secondary spermatocytes
(haploid)
primary spermatocyte
(diploid)
Fig. 9-9, p.147
diploid malegerm cell
sperm (mature,haploid male
gametes)
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a Growth b Meiosis I and cytoplasmic division
c Meiosis II and cytoplasmic division
ovum (haploid)
primary oocyte (diploid)
secondary oocyte
(haploid)
first polar body
(haploid)
three polar bodies
(haploid)
Fig. 9-10a, p.147
oogonium(diploidfemale
germ cell)
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Fig. 9-10b, p.147
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Telophase IProphase I Anaphase IMetaphase I
Fig. 9-11a, p.148
In a diploid (2n) germ cell,duplicated chromosomesnow condense. The bipolarspindle forms and tethers thechromosomes. Crossoversoccur between homologues.
Each maternal chromosomeand its paternal homologueare randomly aligned midwaybetween the two spindlepoles. Either one may getattached to either pole.
Homologouspartnersseparateand moveto oppositepoles.
There are two clustersof chromosomes. Newnuclear envelopes mayform and the cytoplasmmay divide beforemeiosis II begins.
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Fig. 9-11b, p.149
In a diploid (2n) body cell, the duplicated chromosomes nowcondense. Bipolar spindle formsand tethers the chromosomes.
All chromosomesaligned at thespindle equator.
Sister chromatids of each chromosomemoved to oppositespindle poles.
Two diploid (2n) nuclei form. After cytoplasmicdivision, there are two diploid body cells.
Prophase Metaphase Anaphase Telophase
Mitosis
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Fig. 9-11c, p.149
no interphaseand no DNAreplicationbetween thetwo nucleardivisions
Prophase II Metaphase II Anaphase II Telophase IIAll chromosomes stillduplicated. New spindleforms in each nucleus,tethers chromosomesto spindle poles.
All chromosomesaligned at thespindle equator.
Sister chromatids ofeach chromosomemoved to oppositespindle poles.
Four haploid (n) nucleiform. After cytoplasmicdivision, haploid cellsfunction as gametesor spores.
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Fig. 9-11d, p.149
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Fig. 9-12, p.150
gametes gametes
germ cell germ cell
each chromosomeduplicated during
interphase
MEIOSIS IIseparation of
sister chromatids
MEIOSIS Iseparation ofhomologues
diploid numberrestored atfertilization
zygote
2n
2n
n