The other day I walked into lunch thirty minutes late and sat at table with some familiar faces. They promptly left, and I met some new folks. One of them, David Edelman, went to Swarthmore, and we had a great conversation about the liberal arts experience on the Main Line. I also met Geoffrey Owens, whose most recent work (as I understand it) concerns extracting photosensitive genes from bacteria and using viruses to infect rats’ brains with them. He uses fiberoptics to shine a light onto the area of the brain where the gene is expressed and observes how it affects their behavior.
Today at the hospital, I mentioned this to one of the fellows and she was like, “Oh, that sounds sort of like gene therapy.” I’ve spent the past ten minutes on the Wikipedia page for gene therapy, and I’m pretty much in awe. It is essentially the insertion of genes into cells and tissue to treat conditions where a mutant gene is causing problems. Many of the vectors for this gene insertion are viruses, which have perfected the art of infiltrating cells with their own genetic material. Most notably, gene therapy has been quite a successful cancer treatment, but it is not yet widespread.
In recent history, when you hear “virus,” it is either being discussed in regard to H1N1 or some computer bug that managed to wipe away years of documents (and, if really unlucky, gigabytes of songs). Yet another popular application is the “viral video,” or a video that has gathered a substantial amount of Internet fame and on occasion, infiltration into other forms of media or intellectual engagement.
A perfect example of this “infiltration” is marked by one of Ani and John’s recent research forays. They came across the video of the cockatoo Snowball dancing to “Everybody” by the Backstreet Boys.
They noticed that it seemed to be keeping the beat as it danced and wanted to determine whether it actually was. As I noted in a much earlier post, vocal learning is the ability to produce complex sound patterns based on auditory input. This phenomenon also exists in songbirds, hummingbirds, whales, dolphins, bats, and seals.
Last Sunday, CBS Sunday Morning had a feature on Snowball and this research:
They left out an important finding, though. John and Ani changed the tempo of the same song to see if Snowball would be able to synchronize to the altered tempo, and he was! The study results have been published in several places, authored by Ani, John, a UCSD affiliate named Micah Bregman and Snowball’s owner Irena Schultz. One of them, “Experimental Evidence for Synchronization to a Musical Beat in a Nonhuman Animal,” is available here.