HUMAN BIOLOGY

(nextflipdebug2) #1
n Like all animals, humans begin life as a single cell from
which tissues and organs soon begin to develop.
n Links to Organ systems 4.8, How eggs and sperm form
16.2, 16.4, Fertilization 16.6

after fertilization, the zygote soon
becomes a ball of cells
Section 16.6 described how fertilization produces a zygote,
the first cell of a new individual. Within a day or two after
fertilization, cell divisions convert the zygote to a ball of
cells (Figure 17.1). This process is
called cleavage. It occurs while the
zygote is traveling down the ovi-
duct toward the uterus. By the time
it reaches the uterus, the zygote is
a cluster of sixteen cells called a
morula (moe-roo-lah), from a Latin
word for mulberry.
Each new cell that forms during
cleavage is called a blastomere.
Each one ends up with a differ-
ent portion of the egg’s cytoplasm.
Which bit of cytoplasm a blastomere
receives helps determine the devel-
opmental fate of cells that arise from
it later on. For example, its fate may
be to become the forerunner of some
kind of nervous tissue or perhaps
of epithelium.

Three primary tissues are the first to form


After cleavage comes gastrulation (gas-tru-lay-shun), a
process that rearranges the morula’s cells. It lays out the
basic organization for the body as cells are arranged into

three primary tissues, the germ layers (Table 17.1). The
outer one is called ectoderm, the middle one mesoderm,
and the inner one endoderm. Body tissues and organs will
develop from groups of cells in each layer.

Next, cells become specialized


In the germ layers, different genetic instructions begin
to operate in different groups of cells. This is the start of
cell differentiation. In simple terms, this process makes
cells “specialists” for a particular function. For example,
you may remember from Chapter 9 how various subsets of
T cells, each with a different function, differentiate in
the thymus.
There are about 200 types of differentiated cells in the
body of an adult. In each type, the genetic instructions
needed for its specialized function operate. For instance,
as your eyes developed, certain cells turned on genes for a
transparent protein called crystallin. These differentiated
cells then formed the lens of each eye. They are the only
body cells that make crystallin.
Although each type of differentiated cell has its own
particular genetic marching orders, a differentiated cell
still has all the genes that parents pass to an embryo.
Efforts to “reverse engineer” adult cells back into stem
cells, as described in the introduction to Chapter 4, rely on
this fact. It also is why scientists have been able to clone
adult animals—that is, to create a genetic copy—from some
types of differentiated cells. Chapter 21 discusses some
examples of cloning.

17.1 Overview of Early Human Development


F i g u r e 17.1 Cleavage in a zygote creates a ball of cells. In
the diagram of the first cleavage, on the left, the small spheres
are the polar bodies described in Section 16.2. They contain
unneeded material and will disintegrate. Cleavage produces a
morula by the fourth day after fertilization. (© Cengage Learning)

zygote after
first cleavage

morula

polar
bodies

Germ Layer Body Parts in an Adult
Ectoderm Nervous system and sense organs
Pituitary gland
Outer layer of skin (epidermis) and its
associated structures, such as hair
Mesoderm Cartilage, bone, muscle, and various
connective tissues
Cardio vascular system and blood
Lymphatic system
Urinary system
Reproductive system
Outer layers of the digestive tube and of structures
that develop from it, including parts of the
respiratory system
Endoderm Lining of the digestive tube and of structures
that develop from it, such as the lining of the
respiratory airways

Table 17.1 The Three Germ Layers and Tissues
and Organs That Form from Them

blastomere Cell that forms
during cleavage of a zygote.


cell differentiation Process
by which newly formed cells
become specialized for a
certain function.


cleavage Rounds of cell
division that transform a
zygote into a ball of cells.


gastrulation Process of
early development that pro-
duces the three germ layers.


germ layers The three pri-
mary tissues that form as an
early embryo develops. The
outer tissue is ectoderm,
the middle one is meso-
derm, and the inner one is
endoderm.


330 Chapter 17

Copyright 2016 Cengage Learning. All Rights Reserved. May not be copied, scanned, or duplicated, in whole or in part. Due to electronic rights, some third party content may be suppressed from the eBook and/or eChapter(s).
Free download pdf