128 ■ CHAPTER 07 Patterns of Inheritance
GENETICSGENETICS
depending on which allele of the expression
gene (E or e) is present. Dogs with a domi-
nant E allele deposit a pigment called melanin
in their fur and are therefore able to express
whatever fur color genotype is present. But a
recessive ee genotype blocks the deposition of
melanin in fur, so the dog is yellow, regardless
of the genotype at the B/b gene (BB, Bb, or bb).
If the environment affects the phenotype, it
becomes nearly impossible to predict the pheno-
type when given only the genotype of an indi-
vidual or its parents. The effects of many genes
depend on internal and external environmental
conditions, such as body temperature, carbon
dioxide levels in the blood, external tempera-
ture, and amount of sunlight.
For example, cats have a gene that codes
for an enzyme called tyrosinase, which is
involved in melanin production. Siamese cats
have a special Ct allele of the gene. The Ct allele
codes for a tyrosinase that works well at colder
temperatures (≤35°C) but does not function at
warmer temperatures (≥37°C), so the produc-
tion of melanin depends on the temperature of
the surroundings (Figure 7.10). Because a cat’s
extremities tend to be colder than the rest of its
body, melanin is produced there, and hence the
paws, nose, ears, and tail of a Siamese cat tend
to be dark. If a patch of light hair is shaved
from the body of a Siamese cat and the skin is
covered with an ice pack, the hair that grows
back will be dark. Similarly, if dark hair is
shaved from the tail and allowed to grow back
under warm conditions, it will be light-colored.Man’s Best Friend
After describing the inheritance of size in
Portuguese water dogs, Lark and Ostrander
looked at the IGF1 gene in over 350 dogs repre-
senting 14 small breeds and 9 giant breeds. The
genotype BB was common in small dogs and
virtually nonexistent in large dogs. “All small
dog breeds had them. It didn’t matter when
they were bred or how; they all had the exact
same pattern,” says Ostrander.
“It was amazing,” adds Lark. Breeders have,
over time, been selecting for these alleles to
create smaller and smaller dogs. “What mankind
can do, without any genetic tools but just knowl-
edge of heritability, is just extraordinary,” he says.B-, E-
BlackGenotype:
Phenotype:--, ee
Yellowbb, E-
BrownFigure 7.9
Epistasis in coat color
These Labrador retrievers show complex
inheritance of coat color. The yellow dog
carries two alleles that interfere with the
deposition of melanin in hair. Both the brown
and the black dogs must carry at least one
allele that allows melanin deposition. A dash
indicates that the allele is unknown, based on
phenotype.Q1: What are the possible genotypes (at
both genes) of the black dog? The yellow
dog? The brown dog?Q2: Draw a Punnett square showing
possible matings between the black dog
(assuming it is heterozygous at both
genes) and the yellow dog (assuming it
is heterozygous at the B gene). List
all the possible phenotypes of their
offspring. (See Figure 7.6 for an example
of a Punnett square made with two
traits.)Q3: If you wanted the most variable litter
possible, what colors of Labrador retrievers
would you cross?ELAINE OSTRANDER
The “mother of all dog projects,” Elaine Ostrander is
chief and NIH distinguished investigator of the Cancer
Genetics and Comparative Genomics Branch, as
well as head of the Comparative Genetics Section at
the National Institutes of Health. She studies genes
important to growth, size variation, and cancer in dogs.