HUMAN BIOLOGY

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How many genes for a trait does a person
inHerit?


  • Each of us inherits two copies of each gene, one on each
    member of a pair of homologous chromosomes.

  • If the two inherited alleles of a gene are identical, the person
    is homozygous for the trait. If the two inherited alleles are
    different, the person is heterozygous for the trait.


taKe-Home messaGe

allele Term for each chemi-
cal version of a gene.
gene A unit of DNA that
provides the chemical
instructions for building a
protein.
genotype All the alleles a
person inherits.
heterozygous Having two
different alleles for a trait.
homozygous Having the
same two alleles for a trait.
locus The location of a
gene on a chromosome.
phenotype Observable
genetic traits.

n Genes provide the instructions for all human traits,
including physical features and how body parts function.
Each person inherits a particular mix of maternal and
paternal genes.
n Link to Reproduction and the chromosome number 18.1

Genes are units of DNA that provide chemical instruc-
tions for building proteins. The proteins in turn provide
information necessary to produce
specific traits. Each gene has a spe-
cific location, called a locus, on a
given chromosome. In all, humans
have about 21,500 genes, which pass
from parents to offspring by way of
the parental chromosomes that are
united in the nucleus of a fertilized
egg. All diploid body cells have two
copies of each gene—one on each
member of each pair of homologous
chromosomes in the nucleus (Fig-
u r e 19.1).
All copies of a gene deal with the
same trait, but the genetic informa-
tion about it may vary somewhat
due to chemical differences between
copies. Each version of the gene is
called an allele. Some genes have two alleles; others, like
the gene for inherited freckles, have more. For a given trait,
however, a person may inherit only two, one from each
parent. The two alleles may be chemically identical or
chemically different. Differences between alleles produce
much of the variation we see in traits.
If a person inherits two
identical copies (alleles) of
a gene, then for that trait
the person is said to be
homozygous (homo-, “same”;
zygo, “joined together”). If the
two inherited copies are dif-
ferent, the person is said to
be heterozygous (hetero-,
“different”) for the trait.
An allele is dominant when
its effect on a trait masks that
of any recessive allele paired
with it. Dominant alleles are
represented by uppercase let-
ters, recessive ones by lower-
case (for instance, A and a, B
and b, and so on).
Someone who is homozy-
gous dominant for a trait has a

Basic Concepts of Heredity


pair of dominant alleles for the trait. Someone who is homo-
zygous recessive for the trait has a pair of recessive alleles.
A heterozygous person has a pair of nonidentical alleles.
The alleles a person inherits are his or her genotype
for the trait being considered. Observable functional
or physical traits are the phenotype (Figure 19.2 and
Ta ble 19.1).

Figure 19.1 Animated! Knowing a few basic genetic
terms will help you understand principles of inheritance.

A A pair of homologous chromosomes,
each in the unduplicated state (most
often, one from a male parent and its
partner from a female parent)

B A gene locus (plural, loci), the
location for a specific gene on
a specific type of chromosome
C A pair of alleles (each being
one chemical form of a gene)
at corresponding loci on a pair
of homologous chromosomes

D Three pairs of genes (at three
loci on this pair of homologous
chromosomes); same thing as
three pairs of alleles

19.1


Table 19.1 Freckling Genotypes and Phenotypes

Genotype Described as Phenotype
FF Homozygous dominant Freckles
Ff Heterozygous (one of Freckles
each allele; dominant
form of trait observed)
ff Homozygous recessive No freckles

© Cengage Learning

Figure 19.2 Many genetic traits,
including inherited freckling, are
governed by genes that have
dominant and recessive forms.
This mother and daughter both
must have at least one dominant
form of the freckling gene.


374 Chapter 19

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