350 Chapter 17
summary
section 17.1 The fertilization of an
oocyte by a sperm launches several key
stages in early development.
During cleavage, the fertilized egg
undergoes cell divisions that form the early
multicellular embryo. The destiny of various
cell lines is established in part by the portion of cytoplasm
inherited at this time.
Gastrulation lays out the organizational framework of the
whole body. Endoderm, ectoderm, and mesoderm form; all
the tissues of the adult body will develop from these three
germ layers.
Differentiation is the process during which cells come to
have specific structures and functions.
In morphogenesis, tissues form and become organized into
organs. Tissues and organs continue to mature as the fetus
develops and even after birth.
sections 17.2, 17.3 During the first
week or so after fertilization, cell divisions
and other changes transform the zygote into
a multicellular blastocyst, which attaches to
the mother’s uterus during implantation. The
blastocyst includes the inner cell mass, a small clump of cells
from which the embryo develops.
expLoreon your oWn
section 17.4 Gastrulation and morpho-
genesis shape the body’s basic plan. A key
step is the formation of the neural tube, the
forerunner of the brain and spinal cord, from
ectoderm. The skeleton and most muscles
develop from blocks of cells called somites
that arise from mesoderm. In morphogenesis,
sheets of cells fold and cells migrate to new locations in the
developing embryo.
sections 17.5, 17.6 During implant-
ation, the inner cell mass is transformed into
an embryonic disk. Some of its cells give
rise to four extraembryonic membranes:
the yolk sac, the allantois, the amnion, and
the chorion. Table 17.4 summarizes their
functions. The embryo and its mother exchange nutrients,
gases, and wastes by way of the placenta, a spongy organ
that is a combination of endometrium and extraembryonic
membranes.
section 17.7 The first 8 weeks of
development are the embryonic period;
thereafter the developing individual is
considered a fetus. By the ninth week of
development, the fetus clearly looks human.
Housecats can carry the parasite that causes toxoplasmosis. In an otherwise
healthy person the disease may only produce flulike symptoms, but it is dangerous for a
pregnant woman and her fetus. A mother-to-be may suffer a miscarriage, and if the para-
site infects a fetus it causes birth defects. An infected cat may not appear to be ill, but its
feces will contain infectious cysts. This is why some physicians advise pregnant women to
avoid contact with cats and not to clean sandboxes, take care of housecat “accidents,” or
empty a litterbox.
All that said, toxoplasmosis is not especially common—so is it something a cat-loving
expectant mother should take seriously? To explore this health concern, research the
kinds of birth defects caused by toxoplasmosis and find out what stance (if any) public
health authorities in your community take on this issue. Is the disease more common
in some regions or settings than in others? Can cat owners have their pets tested for
the disease?
Lauren and Homer. Photography by Gary Head
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