There has been a lot of controversy recently about
genetically modified organisms (GMOs) and the ethics of making GMOs commercially
available, especially when it comes to the food we eat and potential health
risks and benefits. However, genetically modified organisms have actually been
around since the early 90’s, and was pretty revolutionary in the scientific
community. As scientists learned more about the structure of DNA and how to
manipulate it, they began to play around with modifying bacteria, then plants,
food, and finally the most complex: animals. Now, I’m not here to convince you
that genetic modification is ethical- some believe that it could be the step
that leads to curing diseases, others think it could lead to a world that is
not as nature intended. Whether or not you believe that genetic modification is
ethical, it certainly is creative in its applications.
You may have seen GloFish in your local pet store- they are
little fish that come in all sorts of bright colors. This sounds like any other
fish, except that under UV lights their colors become much more vibrant and
they actually glow in the dark! This phenomenon is called biofluorescence and is
achieved through genes passed down generation to generation, meaning that it is
not a dye or injection and does not harm the fish in any way.
Now, biofluorescence wasn’t created by GloFish founders Alan
Blake and Richard Crockett. In fact, it is a natural occurrence
in many fish used as communication. It is also found in jellyfish, which
have something called Green Fluorescent Protein (GFP) that allows them to
essentially glow in the dark. This discovery is what made GloFish possible! The
scientists that discovered GFP originally wanted to use the idea to create fish
that glow in the presence of polluted water. They were definitely innovative, but
unsuccessful in their end goal. Alan Blake and Richard Crockett, however, saw a
commercial application for this scientific discovery.
Alan Blake is a UT grad with a degree in finance and Richard
Crockett is a biology grad who went to Yale. Timing played a big role for these
men; Blake was in Austin, Texas during “the height of the
dot-com bubble, and startups were everywhere.” Extrinsic motivation was all
around in the form of jobs and money, and intrinsic motivation was fueled by
the competition between startups like the one Blake worked for just before
Crockett contacted him with the big idea: pets that glow in the dark. It took
them two years to perfect the idea, and GloFish went on the market in 2003. It
was an instant success because genetically modified pets were not heard of
previously, and media debate got word out fast. Plus, what kid doesn’t want a
glow in the dark pet fish?
Crockett went on to medical school, so Blake managed the
company once it took off; I will analyze Blake only because he has been the
voice of the company since it began and was crucial in connecting the science
with the business world.
Now, Blake gives advice to
future entrepreneurs, saying that breaking new ground is worth the hard work. “Blake
has found passion to be the most important driving force behind the business.”
Clearly, intrinsic motivation is what really matters to Blake. In the article “Rewarding
creativity: when does it really matter?”, Baer et. Al. considers job type and
motivation:
“complex jobs (i.e., those characterized by high levels of
autonomy, skill variety, identity, significance, and feedback) are expected to
encourage higher levels of intrinsic motivation and creativity than jobs that
are relatively simple and routine in nature.”
In this context, it makes sense that
Blake focuses on the intrinsic motivators; bringing something completely new to
the market is probably pretty challenging and complex, and significance and
feedback play large roles in his job.
The creation and sale of GloFish is a great example of how scientific
discoveries can be utilized outside of the laboratory. They are not only fun
pets, but can be used as a science lesson for kids or even a PSA that GMOs may
be less harmful than the public believes. There may even be future creatives working
off of Crockett and Blake’s ideas as GloFish seem to be only the beginning of commercialized
genetic modification. The possibilities are endless!
This is a really cool post! I like that you chose to write about this because it takes the GMO debate out of the crazy, often political context it's usually found it and focuses on the really amazing scientific side. Genetically modifying anything really is a creative process, especially using genetic modification to create a pet like these guys did. I wish this information was more public because everyone knows these fish, and it could help remove some of the paranoia surrounding GMOs. I am curious as to what role extrinsic motivation did play in the development of the fish, despite the intrinsic point you talk about- after all, the two did develop a commercial business for the sake of making a profit.
ReplyDeleteThis post does a great job of showing that creating a product is not always a straight path, and that often ideas are meant to end one way, but finalize in an entirely new product. Pollution alerts from the inhabitants of a body of water would be incredible, I hope someone is still working on this! But, Blake seems to be benefitting from their decade-old project, and I am sure has benefitted consumers with a fun new pet. These kinds of stories are important, I think, when the debate on GMOs is wary of creation. I wonder if these creators faced backlash from their meddling in nature?
ReplyDeleteI've always seen these fish at pet stores, and I remember always thinking how cool they looked! It's interesting that this started out the way it did, because I would never think that you could end up creating pets when you were looking to create pollution detectors. I would be interested in knowing whether Crockett still has interest in GMOs after going to medical school, and if he would still work toward creating a genetically modified organism in order to detect pollution. I feel like we hear so much about there being GMOs in our food and how they are not good for us, that we don't even realize that these GMOs can be used for good, as well! Do you think Blake encourages GMO research? Do you think that he should?
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