Thursday, October 7, 2010

Garage bilogist

This reminds the old saying, that science can be absorbing interest to whoever with relentless curiosity and passions. Across Europe and US, a number of people are cropping up termed the so-called 'DIYbio'. They do biological experiments in their garage or kitchen or other places. They are not furnished with high-tech labs, but they run for their passions. Now they even begin to meet regularly to converse with each other. In a way, scientific activities should become common in people's daily life and not be exclusive to scientists. It is the spirit of inquiring into the Nature and liberating one's self from the ego. Unfortunately, normal education seems destroying rather than corroborating.

Nature, 467 :634 doi:10.1038/467634a

Amateur scientists who experiment at home should be welcomed by the professionals.

For the past two years, a group of molecular-biology enthusiasts has met regularly in Cambridge, Massachusetts, to discuss science. Their conservation is not entirely theoretical: they swap stories about the experiments they perform in rudimentary labs built in their kitchens, basements and garages. These meetings are not unique: similar gatherings are cropping up across the United States and Europe, as amateur scientists get together to compare protocols and results from experiments they design and conduct at home.

Do-it-yourself biologists emerged into the spotlight after the first meeting, in a Cambridge pub, in 2008. Their exploits have since earned them a moniker fit for the headlines of the twenty-first century: biohackers (see page 650). Media coverage has taken its toll on the public's perception of 'DIYbio'. Stories in the press are often peppered with sweeping claims of the monumental advances to be made by unleashing the talents of the public at large on important biological questions. Equally common are breathless warnings that a bioterrorist is busy crafting the next plague in a garage, safe from the watchful eye of the authorities.

Neither image rings true. Most biohackers are hobbyists who delight in crafting their own equipment and who tackle projects no more sophisticated than those found in an advanced high-school biology lab. This is not to belittle their achievements — the most basic lab experiments can be a challenge without the institutional infrastructure professional scientists take for granted. And it is not necessarily the sophistication of the techniques, but the questions to which they are applied, that makes for compelling science. Nevertheless, the high financial and educational barriers to cutting-edge molecular biology means that garage labs are unlikely to solve the world's energy or health problems any time soon. As for that imagined bioterrorist, US experts at the FBI's Weapons of Mass Destruction Directorate have investigated and found no sign of a biohacker who intends harm.

Nevertheless, the bureau is wise to plan ahead. The FBI has embarked on a laudable and proactive programme to establish ties with the amateur biology community. FBI agents attend DIYbio meetings and invite DIYbio leaders to conferences on bioterrorism. This has yielded some practical plans, such as notifying police and fire stations about local garage labs, to avoid unpleasant surprises or false alarms in the event of an emergency. But some in the biohacking community worry that the constant focus on bioterrorism has taken attention and resources away from a more pressing issue: basic biosafety. How should a biohacker dispose of unwanted genetically engineered bacteria? How does an amateur biologist avoid exposure to fumes from the chemicals used to isolate and manipulate DNA? What is a safe bacterium for a hobbyist to play with?

These are questions that crop up daily in a garage lab, and amateur biologists have struggled to find answers. Although institutions such as the US National Institutes of Health (NIH) and the Centers for Disease Control and Prevention have established biosafety guidelines, these are aimed at institutional biosafety officers with training in the field. Laden with jargon and focused on advanced work with dangerous chemicals and pathogens that hobbyists are unlikely to encounter, the guidelines are little help in the garage. Does this knowledge gap provide an opportunity for professional scientists to engage and support the DIYbio community? Some researchers argue it does, with professionals helping garage biologists craft safety guidelines and standards that could be understood by the enthusiast. Biohackers could also be brought onto biosafety committees at their local university or medical centre. These committees are required by the NIH to include at least one member who is not a professional scientist. Serving on a such committee would expose the hobbyist to the regulations and protocols that research institutions use to protect workers and the environment.

Biohackers are an example of the growing 'citizen science' movement, in which the public takes an active role in scientific experiments. Citizen science can help stimulate public support for science, and can introduce fresh ideas from novel disciplines. Science is a professional business but it would be a shame if the only interested knock on the hobbyists' doors came from those in law enforcement.

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