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Topic Name: Fluorescence microscopy : medical, commercial applications
Category: Biomedical
Research persons:
Ido Braslavsky,an assistant professor of physics and astronomy at Ohio University
Peter Davies, biology at Queen’s University in Canada
Location:
120 Research and Technology Center,Athens, OH 45701-2979, Greece
Details
Antifreeze or “ice structuring” proteins – found in some fish, insects,
plants, fungi and bacteria – attach to the surface of ice crystals to inhibit
their growth and keep the host organism from freezing to death. Scientists have
been puzzled, however, about why some ice structuring proteins, such as those
found in the spruce budworm, are more active than others.
Fluorescence microscopy now has shown how those aggressive proteins protect the
cells of the insect, which is native to U.S. and Canadian forests.
The finding could have future applications in medical, agricultural and
commercial food industries, according to a team of scientists led by Ido
Braslavsky, an assistant professor of physics and astronomy at Ohio University,
and Peter Davies, a professor of biochemistry and biology at Queen’s University
in Canada. They presented the work today at the March meeting of the American
Physical Society in Denver, Colo.
In the recent study, Davies’ lab combined spruce budworm and fish antifreeze
proteins with a fluorescent tag. Using a fluorescent microscope, Braslavsky and
postdoctoral fellow Natalya Pertaya could observe how the proteins interacted
with the surfaces of ice crystals. They found that the hyperactive antifreeze
protein from the spruce budworm stops ice crystals from growing in particular
directions. The antifreeze proteins from fish are less effective.
Antifreeze proteins, especially the hyperactive type found in the spruce budworm
and other organisms, have various potential applications, according to
Braslavsky. They could be used to preserve organs and tissues for medical
applications such as transplants, and also could prevent frostbite. They also
can inhibit crystal growth in ice cream – an application already in use by at
least one commercial food manufacturer – as well as protect against agricultural
frost damage.
Contact researchers:
Contacts: Ido Braslavsky, (740) 274-1809, braslavs@ohio.edu; Andrea Gibson, (740) 597-2166, gibsona@ohio.edu.
Funded by:
The research was funded by Ohio University’s NanoBioTechnology Initiative and the Canadian Institutes of Health Research.
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