Showing posts tagged vermillion

Beadle, GW and Ephrussi, B. 1936. The differentiation of eye pigments in Drosophila as studied by transplanation. Genetics 21(4) 225-247.

Beadle & Tatum are basically the Cheech & Chong of biology, in that they are complete geniuses who were way ahead of their time. These were the two heroes who showed up in the 1940s when everyone was wildly speculating about the physical nature of these mysterious things called “genes” and showed that each gene gives rise to one single protein product (the so-called “one gene - one enzyme” hypothesis). Their famous experiments were done by inducing x-ray mutations in a fungus called Neurospora, and then showing that each individual mutation could be rescued by supplying a single, specific nutrient - in other words, that a single genetic mutation causes a single, specific fuck-up in a single enzyme. They even went the extra step of confirming that each of these mutations is inherited like a Mendellian recessive and was therefore a single gene.

The spine-tingling thing about the Beadle and Tatum experiments, though, is that they are so outrageously perfect and beautiful that it is truly terrifying to anyone who has ever tried to do an experiment one’s self. When I read the first Beadle and Tatum pape, it makes me feel like I’m a particularly stupid and tone-deaf 6-year old banging on some pots and pans, hearing the congo playing on “Life’s a Gas” for the first time -  i.e. that it is time to throw in the towel because I’ll never achieve anything even approaching that level of perfection.

But buddy, if you are lucky enough (and have access to enough adderall) to have read Beadle’s Noble Prize acceptance speech, you will see that the elegance and clarity of his most famous work is largely the result of a set of earlier experiments done with Boris Ephrussi, which themselves are a LOT more like experiments most of us have attempted: insanely technically challenging, time-consuming and labor intensive, and although really suggestive of something potentially important, never really coming anywhere close to actually proving that potentially awesome thing because that goal won’t be attainable for decades.

Beadle and Ephrussi worked together at Caltech, studying the genetic control of eye-color in fruit flies. Fruit flies were already a powerful system for experimental genetics, so many different mutations had been isolated which gave rise to unusual eye-colors. Working with these different mutant lines, Beadle and Ephrussi physically transplanted the eye primordia from these different mutants into host larvae of different genotypes, making three-eyed flies (this was the psychotically difficult technical part). By reciprocally transplanting between these genotypes, they showed that two of the eye-color mutants (cinnabar and vermillion) were “non-autonomous,” meaning that it was the genotype of the host rather than the donor tissue that controlled the eye color. 

The next part, though, is where the scary-genius shit happens. When a cinnabar eye is transplanted into a vermillion hosts, the eye remains cinnabar-colored. But when a vermillion eye is put in a cinnabar host, the eye becomes normal colored! Although this typically shouldn’t make sense to anyone who isn’t on Peyote, Beadle and Ephrussi came up with the idea that perhaps vermillion and cinnabar represent mutations in different genes within a single biochemical pathway that ultimately produce eye pigment. In other words, their idea was that the eye color pathway would be: “Precusor Substance -> Vermillion substance -> Cinnabar substance -> Pigment.” where the substances are diffusible throughout the host body, but interpreted locally within organs, and ultimately control eye color. Even when you know the answer it’s still confusing to think clearly about how this works, so it’s really jaw-dropping how these dudes were able to figure it out from scratch, before anybody else in the entire world understood what it might mean.

These experiments and their interpretation are so hot that my computer battery starts smoking every time I open the PDF. It’s like Beadle and Ephrussi stepped into an ancient temple completely brimming with confusing symbols and death-traps, yet were instantly able to shine the laser on the one specific key symbol that opens the trap door to all the gold coins. And its particularly cool to realize that from these really complex reciprocal eye transplantations, Beadle and the boys were already thinking that genes give rise to distinct biochemical entities, and that because of this, he could design the Beadle and Tatum experiments precisely to prove what he already suspected: that each gene encodes one specific product. 

Contributed by benewencampen
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