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Ilmuwan
melacak aktivitas gen lebah madu : perbedaan yang signifikan
tergantung pada diet
Scientists track gene activity when honey bees do and don't eat honey:
Significant differences depending on diet
Date:
July 17,
2014
Source:
University of Illinois at
Urbana-Champaign
Summary:
Many beekeepers feed their honey bees sucrose or
high-fructose corn syrup when times are lean inside the hive. This practice has
come under scrutiny, however, in response to colony collapse disorder, the
massive -- and as yet not fully explained -- annual die-off of honey bees in
the U.S. and Europe. Some suspect that inadequate nutrition plays a role in
honey bee declines. Scientists took a broad look at changes in gene activity in
response to diet in the Western honey bee, and found significant differences
occur depending on what the bees eat.
.......................
Many beekeepers feed their honey bees sucrose or
high-fructose corn syrup when times are lean inside the hive. This practice has
come under scrutiny, however, in response to colony collapse disorder, the
massive -- and as yet not fully explained -- annual die-off of honey bees in
the U.S. and Europe. Some suspect that inadequate nutrition plays a role in
honey bee declines.
In a new
study, described in Scientific Reports, researchers took a broad look at
changes in gene activity in response to diet in the Western honey bee (Apis
mellifera), and found significant differences occur depending on what the
bees eat.
The
researchers looked specifically at an energy storage tissue in bees called the
fat body, which functions like the liver and fat tissues in humans and other
vertebrates.
"We
figured that the fat body might be a particularly revealing tissue to examine,
and it did turn out to be the case," said University of Illinois
entomology professor and Institute for Genomic Biology director Gene Robinson,
who performed the new analysis together with entomology graduate student Marsha
Wheeler.
The
researchers limited their analysis to foraging bees, which are older, have a
higher metabolic rate and less energy reserves (in the form of lipids stored in
the fat body) than their hive-bound nest mates -- making the foragers much more
dependent on a carbohydrate-rich diet, Robinson said.
"We
reasoned that the foragers might be more sensitive to the effects of different
carbohydrate sources," he said.
The researchers
focused on gene activity in response to feeding with honey, high-fructose corn
syrup (HFCS), or sucrose. They found that those bees fed honey had a very
different profile of gene activity in the fat body than those relying on HFCS
or sucrose. Hundreds of genes showed differences in activity in honey bees
consuming honey compared with those fed HFCS or sucrose. These differences
remained even in an experimental hive that the researchers discovered was
infected with deformed wing virus, one of the many maladies that afflict honey
bees around the world.
"Our
results parallel suggestive findings in humans," Robinson said. "It
seems that in both bees and humans, sugar is not sugar -- different
carbohydrate sources can act differently in the body."
Some of the
genes that were activated differently in the honey-eating bees have been linked
to protein metabolism, brain-signaling and immune defense. The latter finding
supports a 2013 study led by U. of I. entomology professor and department head
May Berenbaum, who reported that some substances in honey increase the activity
of genes that help the bees break down potentially toxic substances such as
pesticides.
"Our
results further show honey induces gene expression changes on a more global
scale, and it now becomes important to investigate whether these changes can
affect bee health," Robinson said.
Story
Source:
The above
story is based on materials provided by University of Illinois at Urbana-Champaign. Note: Materials may be edited
for content and length.
Journal
Reference:
- Marsha M. Wheeler and Gene E. Robinson. Diet-dependent gene expression in honey bees: honey vs. sucrose or high fructose corn syrup. Scientific Reports, 2014 DOI: 10.1038/srep05726