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Wednesday, October 5, 2011

A gene important for creating zombie caterpillars

Advancements in zombie science are coming fast and furious!  An email from a colleague (and fellow reader) noted that I missed a recent article in the journal Science concerning zombies.  The article, titled "A Gene for an Extended Phenotype", seemed pretty innocuous, however, after going back and reading it more carefully it turned out to be a pretty cool discovery.

First, a bit about zombie caterpillars.  There have been several documented reports of zombie-like behavior in moth larvae.  This report is focused on the infection of the gypsy moth (Lymantria dispar) by a baculovirus (known as LdMNPV).  During the various stages of molting, larvae typically hang out on the ground and away from The Very Hungry Birdie, but climb up into the trees at night to feed on leaves.  After infection by the baculovirus, their behavior changes (noticing a pattern here?).  As the virus replicates and ravages the inside of the caterpillar, the infected host climbs up into the leaves during the daylight hours and eventually dies.  The body then liquefies, and virus-laden particles rain down on the uninfected victims below.  Yeah, you can't script horror much better than that.

Ok, so Hoover et al. (from Penn State, see abstract) were interested in identifying which genes were important for the change in behavior.  To do this, they infected caterpillars with wild type baculovirus, as well as virus that had been genetically engineered to be missing certain genes.  The caterpillars were placed in 1 liter soda bottles equipped with a fiberglass screen for climbing (in true DIYbio fashion!!).  Interestingly, when a gene called egt was removed, the caterpillars died at ground level, suggesting that the behavioral control of the virus had been altered.  To make sure it wasn't an artifact of the mutated virus, they re-engineered the mutated constructs so that the egt gene was present again and the zombie caterpillars climbed up the mesh and died.  It would appear that the egt gene in the virus has evolved to make the caterpillars engage in high-risk behavior, and to place the caterpillars in a location where rain/gravity/hungry birdies can maximize viral spread. Genius.

The next step is to figure out the mechanism.  Interestingly, Hoover et al. mention that the egt gene encodes an enzyme which deactivates a hormone (20-hydroxyecdysone) involved in the process of molting.  It is intriguing that the virus blocks the molting process in order to give itself time to replicate inside the host, but it was hard for me to understand how the modification of the hormone leads to behavioral changes.  Perhaps entomologists already know that part.  Coincidentally, the hormone is also reported to have a variety of biological effects in humans, even though we do not molt and lack the endogenous receptor. What would the modified enzyme do in a human?  Until we find this stuff out, it's probably a good idea to check the trees around your house, particularly if you hear a dripping sound... and if your neighbor has been missing awhile.

Yes, there are zombies all around us.

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