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  • Many organisms

  • pass their genes to their offspring

  • through sexual reproduction.

  • This begins

  • when two gametes unite to form an embryo

  • that is genetically unique

  • from the parent organisms.

  • The embryo then grows into an adult

  • who in turn passes their genetic information on to their own offspring.

  • Gametes are formed through a process called meiosis.

  • The cells that undergo meiosis to produce the gametes are called germ-line cells.

  • In diploid organisms,

  • germ-line cells have two copies

  • of each chromosome.

  • Germ-line cells undergo meiosis to produce

  • haploid gametes which only have one copy

  • of each chromosome.

  • These haploid gametes fuse to form a diploid

  • embryo that grows into the adult.

  • Meiosis is just one step

  • in the life cycle of a germ-line cell.

  • Similar to mitosis,

  • the cells also pass through the interphase,

  • G1, S, and G2 stages

  • before they enter meiosis.

  • The DNA inside a germ-line cell

  • is duplicated before meiosis begins

  • during the S phase.

  • The duplicated germ-line chromosomes

  • are called sister chromatids.

  • These chromatids remain attached to each other

  • until the second cell division event in meiosis.

  • There are two cell division events during meiosis.

  • The first division, meiosis I,

  • results in two unique daughter cells

  • that have half the amount of DNA

  • as the parent germ-line cell.

  • The second division, meiosis II,

  • results in four unique haploid cells

  • that only have one copy of each chromosome.

  • These haploid cells are the gametes

  • that could go on to produce an offspring through sexual reproduction.

  • Let’s look more closely at each of the division events.

  • Meiosis begins with prophase I.

  • In this stage,

  • the DNA condenses to form chromosomes.

  • Here we see the duplicated sister chromatids joined together at the centromere.

  • They stay fused at the centromere throughout Meiosis I.

  • Next,

  • each pair of homologous chromosomes

  • undergoes synapsis

  • to form a complex involving

  • two pairs of sister chromatids.

  • Chromosomal material is exchanged between the two pairs of sister chromatids.

  • This event is called recombination

  • or more commonly, crossing over.

  • After crossing over,

  • the sister chromatids for each chromosome

  • are no longer identical to one another.

  • This is one of the reasons why no two siblings (aside from twins) are genetically identical.

  • There are several more key steps in prophase I.

  • The nuclear membrane begins to break down.

  • Then the two centrosomes migrate to

  • opposite ends of the cell

  • and microtubules appear.

  • The microtubules then attach to the chromosomes.

  • The next phase of meiosis I is called metaphase I.

  • Here the synapsed chromosomes align at the equator of the cell.

  • The chromosomes align randomly which results in different combinations each time meiosis occurs.

  • The next phase is anaphase I.

  • During this phase, homologous chromosomes separate and migrate to the two poles of the cell.

  • Importantly, the sister chromatids remain attached at their centromeres.

  • The final steps of meiosis I

  • are telophase I and cytokinesis.

  • Here the cell divides into two daughter cells.

  • Each of these two cells now undergo meiosis II.

  • Meiosis II is similar to mitosis.

  • The first stage of meiosis II is prophase II.

  • Again, chromosomes condense,

  • the nuclear envelop breaks down,

  • and the spindle apparatus forms.

  • The major difference between prophase II and prophase I

  • is the fact that the daughter cells have only one copy of each homologous chromosome.

  • So, in prophase II, there is no synapsis of homologous chromosomes or crossing over.

  • In metaphase II, the chromosomes align

  • at the equator of the cell.

  • Again, the alignment is random.

  • Since the sister chromatids are no longer identical,

  • there will be many different possible ways for these chromosomes to align.

  • In anaphase II, the sister chromatids are pulled apart as the microtubules shorten.

  • Also, the ends of the cell are pushed further apart as microtubules elongate.

  • In telophase II, the nuclear membrane reforms,

  • and the cytoplasm is divided into the two haploid daughter cells.

  • This division is called cytokinesis.

  • Since meiosis II began with two cells,

  • and each of those cells were split into two cells,

  • we now have 4 unique haploid cells at the end of meiosis.

  • These cells are gametes.

  • Two gametes, one from the father and one from the mother,

  • may fuse to produce a diploid embryo.

  • The resulting embryo then grows through many cycles of mitosis.

Many organisms

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B2 中高級 美國腔

減數分裂 (Meiosis)

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    wshuang999 發佈於 2021 年 01 月 14 日
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