 | The honey bee’s “waggle dance” is the only symbolic language found beyond the primates. New genomic data yielded by grid-powered research could help reveal the basis for this and other social interactions.
Stock image from sxc.hu
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The humble honey bee: pollinator, producer of honey, and potential key to unlocking the secrets of human social interaction. Why is it some bees can be queen? How can a nurse bee suddenly transform into a forager, just when foragers are needed most? And how can these furry flying insects cast light on our own human behaviors? The answers lie in the interactions of genes in the honey bee genome. And Saurabh Sinha needs grid computing to seek these answers out. “The honey bee can be a model to understand complex societies,” explains Sinha, a professor of computer science and affiliate of the University of Illinois’s Institute for Genomic Biology. “By studying the social regulation of gene expression, we hope to extrapolate the biology to humans.” “It’s not as if a particular honey bee behavior is exactly mapped in humans,” he says. “But, if we can discover some general principles for the genetic basis of social behavior, we hope they will largely carry forward to human behavior.” Preliminary evidence suggests that social changes may be triggered by age or social cues, and are enforced by the complex interactions of several hundred of more than 10,000 honey bee genes. Which genes are interacting? Saurabh Sinha is using grid computing to find out.
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