Saving the Honeybees: A Synthetic Biology Approach

Amber Foster

Department

Biological Sciences

Major

Chemical Engineering and Biological Sciences

Research Advisor

Westenberg, David J.

Advisor's Department

Biological Sciences

Funding Source

The International Genetically Engineered Machines Team (iGEM), American Beekeeping Federation, Missouri State Beekeepers Association, United States Department of Agriculture, Almond Board of California, National Science Foundation, Monsanto, Bayer

Abstract

Since 2006-2007, beekeepers in the US have seen dramatic losses in honeybees, which could potentially cost billions of dollars in agriculture. The phenomenon has been termed Colony Collapse Disorder (CCD), and is characterized by rapid losses of adult honeybees that do not return to the hive to die. Even more puzzling is that damaging levels of normal bee parasites are not present at the time of collapse. Researchers have yet to determine a specific cause of the disorder, although most agree that CCD is caused by multiple factors that either work individually or in combination. A newly suspected cause of CCD is the fungus-virus combination of Nosema and invertebrate iridescent virus. This research project will focus on solving this possible cause of CCD using a synthetic biology approach. The use of genetically engineered microorganisms to test the theory could be an important step in solving the mystery of CCD.

Biography

Amanda is a second-year student at Missouri S&T. She is currently majoring in Biological Sciences and Chemical Engineering with a Biochemical Engineering emphasis. She is and has been involved in a number of research projects through the International Genetically Engineered Machines Team (iGEM) and through the Office of Undergraduate Studies and the Department of Biological Sciences. She is also the vicepresident of iGEM. Amanda enjoys reading, playing ultimate frisbee, playing disc golf, skiing, and scuba diving.

Research Category

Research Proposals

Presentation Type

Poster Presentation

Document Type

Poster

Award

Research proposal poster session, First place

Location

Upper Atrium/Hallway

Presentation Date

06 Apr 2011, 1:00 pm - 3:00 pm

Comments

Joint project with April Pummill

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Apr 6th, 1:00 PM Apr 6th, 3:00 PM

Saving the Honeybees: A Synthetic Biology Approach

Upper Atrium/Hallway

Since 2006-2007, beekeepers in the US have seen dramatic losses in honeybees, which could potentially cost billions of dollars in agriculture. The phenomenon has been termed Colony Collapse Disorder (CCD), and is characterized by rapid losses of adult honeybees that do not return to the hive to die. Even more puzzling is that damaging levels of normal bee parasites are not present at the time of collapse. Researchers have yet to determine a specific cause of the disorder, although most agree that CCD is caused by multiple factors that either work individually or in combination. A newly suspected cause of CCD is the fungus-virus combination of Nosema and invertebrate iridescent virus. This research project will focus on solving this possible cause of CCD using a synthetic biology approach. The use of genetically engineered microorganisms to test the theory could be an important step in solving the mystery of CCD.