chromosome A DNA
molecule together with
the proteins attached to it.
chromosome number The
sum of the chromosomes in
a species’ body cells.
diploid Having two of each
type of chromosome occur-
ing in a species; body cells
are diploid.
life cycle The recurring
series of events in which
individuals grow, develop,
maintain themselves, and
produce a new generation.
reproduction The process
in which a parent cell or
organism produces a new
individual cell or whole
organism.
n The continuity of life depends on the ability of cells to
faithfully reproduce themselves.
n Links to Life’s characteristics 1.1, Cell nucleus 3.6, Formation
of eggs and sperm 16.2, 16.4
In biology, reproduction is when a
“parent” cell produces a new gen-
eration of cells, or when parents pro-
duce a new individual. Reproduction
is part of a life cycle, a recurring
series of events in which individuals
grow, develop, maintain themselves,
and reproduce a new generation. The
instructions for the human life cycle
are encoded in our DNA, which we
inherit from our parents.
Remember from Section 3.6 that
DNA is organized into structures
called chromosomes in the nucleus
of a cell. When a cell is not divid-
ing, its threadlike chromosomes are
dispersed in the nucleus. As a cell
prepares to divide, however, each
chromosome is copied and each
copy is coiled and packed tightly. Each copy is condensed
as it coils back on itself again and again (Figure 18.1). Notice
that the DNA loops around some proteins (called histones),
forming beadlike structures. The “beads” then coil up into
a long fiber.
As a cell nucleus starts to divide, the DNA coils tighten up
even more to form the condensed chromosome shown at the
upper right in Figure 18.1. This tight coiling may help keep
chromosomes from getting tangled when they are moved
and sorted into parcels for daughter cells. When the coiling is
complete, a chromosome has its typical size and shape.
Body cells have two sets of 23 chromosomes
Every species of organism has a characteristic number of
chromosomes. In humans, DNA is carried on 23 differ-
ent types of chromosomes (Figure 18.2A). In all cells but
gametes, however—that is, in all somatic (“of the body”)
cells—each type of chromosome comes as a paired set, in
which one member of the pair comes from each parent.
The sum of the chromosomes in a species’ cells is called
the chromosome number. In humans the chromosome
number is 46.
A cell that has two of each type of chromosome is called
a diploid cell. The shorthand 2n indicates that a cell is
diploid. The n stands for the number of chromosomes in
one full set. All the body’s somatic cells are diploid. When
a soon-to-divide diploid cell copies its chromosomes, it
has four sets of them. The division process called mitosis,
which we consider shortly, puts half of this doubled genetic
reproduction: Continuing the Life Cycle
At its most condensed, a duplicated chromo-
some is packed tightly into an X shape.
A chromosome unravels as a hollow cylinder
formed by coiled coils.
The coiled coils consist of a long molecule of
DNA (blue) and the proteins that are associated
with it (purple).
At regular intervals, the DNA molecule is
wrapped twice around a core of proteins. In this
“beads-on-a-string” structure, the “string” is the
DNA, and each “bead” is called a nucleosome.
The DNA molecule itself has two strands that
are twisted into a double helix. Chapter 21
discusses DNA’s structure.
1
1
2
2
3
3
4
4
(^55)
6
6
The DNA inside the nucleus of a cell is
typically divided up into a number of chromo-
somes. Inset: a duplicated human chromosome.
Figure 18.1 Animated! DNA in a chromosome is looped and coiled. (© Cengage Learning; Andrew Syred/Science Source)
18.1
354 Chapter 18
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