HUMAN BIOLOGY

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364 Chapter 18

the stages of Meiosis


Pairs of centrioles are positioned at the opposite sides of the
nucleus as the nuclear envelope breaks up (step 1). Micro-
tubules of the spindle link the chromosomes to the spindle
poles so that each chromosome is attached to one spindle
pole, and its homologous partner is attached to the other.
At metaphase I, all the chromosomes are aligned midway
between the spindle poles (step 2).
In anaphase I, the spindle microtubules separate the
homologous chromosomes and pull them toward opposite
spindle poles (step 3). During telophase I, the chromosomes
reach the spindle poles (step 4). New nuclear envelopes
form around the two clusters of chromosomes. Each of the
two haploid nuclei that form contains one set of duplicated
chromosomes. The cytoplasm divides at this point (by
cytokinesis), forming two haploid cells, but the cells’ DNA
is not copied before meiosis II begins.

n During meiosis, chromosomes of a diploid nucleus of a germ
cell are distributed into four haploid nuclei of gametes.

Before meiosis begins, DNA is replicated and a cell’s chro-
mosomes are duplicated, so each chromosome consists of
two sister chromatids. The starting nucleus is diploid—it
contains two sets of chromosomes, one from each parent.
Figure 18.11 takes us step by step through meiosis.

Meiosis i produces two haploid cells that
contain duplicated chromosomes
The first stage of meiosis I is prophase I. During this
phase, the chromosomes condense, align, and exchange
segments. (This “swap” is discussed in Section 18.8.) The
centrosome is duplicated along with its two centrioles.

No DNA
replication

nuclear envelope centrosome
breaking up

plasma
membrane spindle

one pair of
homologous chromosomes

Prophase I. Homologous
chromosomes condense, pair
up, and swap segments. Spindle
microtubules attach to them as
the nuclear envelope breaks up.


Metaphase I. The homologous
chromosome pairs are aligned
midway between spindle poles.

Anaphase I. The homologous
chromosomes separate and begin
heading toward the spindle poles.

Te lophase I. Two clusters of
chromosomes reach the spindle
poles. A new nuclear envelope
forms around each cluster, so
two haploid nuclei form.

Prophase II. The chromosomes
condense. Spindle microtubules
attach to each sister chromatid as
the nuclear envelope breaks up.

Metaphase II. The (still
duplicated) chromosomes are
aligned midway between poles
of the spindle.

Anaphase II. All sister chro-
matids separate. The now undu-
plicated chromosomes head to
the spindle poles.

Te lophase II. A cluster of
chromosomes reaches each
spindle pole. A new nuclear
envelope encloses each cluster,
so four haploid nuclei form.

1 2 3 4 5 6 7 8

Figure 18.11 Animated! The two consecutive divisions in meiosis reduce the parental number of chromosomes by half
(to the haploid number) for forthcoming gametes. Only two pairs of homologous chromo somes (blue and pink) are shown.
(© Cengage Learning; All photos: With thanks to the John Innes Foundation Trustees)

18.7


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