Navel Gazing ■ 281microbes as the bad guys that our bodies were
constantly at war with. But now we recognize that
our ecosystems wouldn’t function without microbes:
we would have no oxygen to breathe, no plants to
eat. And microbes in our gut and on our skin, when
in healthy balance, promote human health.
We emphasize a healthy balance because it is
possible for communities in the human microbiome
to shift out of balance—a phenomenon called dysbi-
osis, which may cause illness. Alternatively, patho-
genic bacteria can make us sick as well. Although
the great majority of bacteria are harmless and
many are actually beneficial to humans, some cause
mild to deadly disease. Interestingly, archaeans are
not known to be pathogens of any organism.
The biodiversity of microbes on our skin actu-
ally helps keep pathogens away. When a danger-
ous microbe lands on your skin, even before
it meets the immune system it meets other
microbes. If the skin has a diversity of microbes,
odds are “one of them has the ability to kick the
butt” of the pathogen, says Dunn.
After the overwhelming response to the
belly button project, the lab kicked off a new
citizen science spectacular: “Armpit-pa-looza”
(Figure 15.12). As with the belly button, the
team began collecting swabs of microbes
living in people’s armpits. In a preliminary
study, the team found that the use of antiper-
spirants or deodorants dramatically inhibits
bacterial growth, affecting the composition
of the microbial populations on the skin more
strongly than any other factor. “It now looks
like one of the biggest things affecting skin
microbes in general is the use of antiperspi-
rant or anti-odor products,” says Dunn.
Now the team is taking a look at microbes on
the skin of dogs. Skin wounds on pet pooches
actually heal about four times faster than human
skin wounds do, says Dunn, and he suspects that
skin microbes are involved. “We’re starting to
figure out if we can predict wound healing rates
as a function of which microbes are there to start
with,” says Dunn. “I’m pretty excited about that.”Figure 15.12
Sampling armpits for science
Citizen scientists volunteer to have samples taken of the prokaryotes living
under their arms.● (^) The non-Eukarya, or prokaryotes, fall into two
domains: Bacteria and Archaea.
● (^) All prokaryotes are microbes—microscopic,
single-celled organisms—but the Bacteria and
Archaea differ in significant ways, such as in
their DNA, plasma membrane structure, and
metabolism.
● (^) Prokaryotes can reproduce extremely rapidly and are
the most numerous life-forms on Earth. They also
have the most widespread distribution.
● (^) Many prokaryotes, particularly bacteria, have
specialized structures. Bacteria with a capsule
surrounding the cell wall can avoid detection by
REVIEWING THE SCIENCE
organisms’ immune systems. Short, hairlike pili
help bacteria attach to surfaces and to each other.
Whiplike flagella assist in locomotion.● (^) Some prokaryotes, particularly archaeans, thrive in
extreme environments. Thermophiles, for example,
live in extremely hot places, and halophiles, in very
salty places.
● (^) Prokaryotes typically reproduce by binary fission,
and they may acquire DNA from each other or their
environment via horizontal gene transfer.
● (^) Some prokaryotes use quorum sensing to
communicate with each other, and some undergo
sporulation for protection.