292 CHAPTER 12 | Modern Human Diversity: Race and Racism
Biocultural ConnectionBeans, Enzymes, and Adaptation to Malaria
Some human adaptations to the deadly
malarial parasite are biological while
others are strictly tied to cultural practices
such as local cuisine. The phenotype
of the sickle-cell allele, for example,
manifests specifically in red blood cells.
Biological and dietary adaptations to ma-
laria converge with the interaction between
one form of the glucose-6-phosphate-
dehydrogenase (G-6-PD) enzyme and fava
bean consumption.
The fava bean is a broad flat bean
(Vivia faba) that is a dietary staplein malaria-endemic areas along the
Mediterranean coast. G-6-PD is an
enzyme that serves to reduce one
sugar, glucose-6-phosphate, to an-
other sugar—in the process releas-
ing an energy-rich molecule. The
malaria parasite lives in red blood
cells off of energy produced via G-
6-PD. Individuals with a mutation in
the G-6-PD gene, so-called G-6-PD-
deficiency, produce energy by an alter-
nate pathway not involving this enzyme
that the parasite cannot use. Further-
more, G-6-PD-deficient red blood cells
seem to turn over more quickly, thus al-
lowing less time for the parasite to grow
and multiply. While a different form
of G-6-PD deficiency is also found in
some sub- Saharan African populations,
the form found in Mediterranean popu-
lations is at odds with an adaptation
embedded in the cuisine of the region.
Enzymes naturally occurring in fava
beans also contain substances that
interfere with the development of the
malarial parasite. In cultures around
the Mediterranean Sea, where malaria
is common, fava beans are incorporated
into the diet through foods eaten at the
height of the malaria season. However,
if an individual with G-6-PD deficiency
eats fava beans, the result is that the
substances toxic to the parasite become
toxic to humans. With G-6-PD defi-
ciency, fava bean consumption leads to
hemolytic crisis (Latin for “breaking of
red blood cells”) and a series of chemi-
cal reactions that release free radicals
and hydrogen peroxide into the blood
stream. This condition is known as
favism.
The toxic effect of fava bean con-
sumption in G-6-PD individuals has
prompted a rich folklore around this
simple food, including the ancientGreek belief that fava beans contain
the souls of the dead. The link between
favism and G-6-PD deficiency has led
parents of children with this condition
to limit consumption of this favorite
dietary staple.
Unfortunately, this has sometimes
become a generalized elimination
of many excellent sources of protein
such as peanuts, lentils, chickpeas,
soy beans, and nuts. Another biocul-
tural connection is again at the root
of this unnecessary deprivation. The
Arabic name for fava beans is foul
(pronounced “fool”), while the soy
beans are called foul-al-Soya, and
peanuts are foul-al-Soudani; in other
words, the plants are linked linguisti-
cally even though they are unrelated
biologically.a
An environmental stressor as po-
tent as malaria has led to a number
of human adaptations. In the case of
fava beans and G-6-PD deficiency,
these adaptations can work at cross
purposes. Cultural knowledge of the
biochemistry of these interactions will
allow humans to adapt, regardless of
their genotype.BIOCULTURAL QUESTION
How does what you have learned from
this chapter about the falsehood of the
biological category of race relate to the
way the varied adaptations to malaria
described here work against one
another?aBabiker, M. A., et al. (1996). Unneces-
sary deprivation of common food items
in glucose-6-phosphate dehydrogenase
deficiency. Annals of Saudi Arabia
16 (4), 462–463.Fava beans, a dietary staple in the coun-
tries around the Mediterranean Sea, also
provide some protection against malaria.
However, in individuals with G-6-PD defi-
ciency, the protective aspects of fava beans
turn deadly. This dual role has led to a rich
folklore surrounding fava beans.© Charles O. Cecil/Alamyconsequence, when they are introduced to Western-style
diets (characterized by abundance, particularly of foods
high in sugar content), the incidence of obesity and dia-
betes skyrockets. This chapter’s Biocultural Connection
describes another example of genetic and cultural adapta-
tions working at cross purposes.
Skin Color: A Case Study in Adaptation
Generally, the notion of race is most commonly equated
with skin color. Skin color is subject to great variation and
is attributed to several key factors: the transparency or
thickness of the skin; a copper-colored pigment called car-
otene; reflected color from the blood vessels (responsible
for the rosy color of lightly pigmented people); and, most
significantly, the amount of melanin (from melas, a Greek
word meaning “black”)—a dark pigment in the skin’s outer
layer. People with dark skin have more melanin-producingmelanin The chemical responsible for dark skin pigmentation
that helps protect against damage from ultraviolet radiation.