Scientific knowledge is an enabling power to do either good or bad - but it does not carry instructions on how to use it.
- Richard Feynman
Bioethics is the study of ethical questions and problems within the field of biology. Bioethical questions may concern the entire planet(What amount of change to the biosphere of the Earth is morally acceptable?), or could be on a deeply personal level, such as the selection of certain genetic traits for a future child. For the purposes of this course, we'll go even smaller, all the way down to microbes, and the ethics of using synthetic biology to modify and improve microbes in the service of humanity. Of course, the products of synthetic biology do not exist within perfectly impermeable bubbles, so the net impact of synthetic biology must be considered.
The Presidential Commission for the Study of Bioethical Issues (PCSBI) published a report in December 2010 regarding the ethical ramifications of synthetic biology. This report was requested by U.S. president Barack Obama, in response to the announcement in May 2010 of the first self-replicating synthetic genome, belonging to the organism Mycoplasma mycoides JCVI-syn1.0.
iGEM teams are required to document their safety practices and the ethical implications of their projects. This requirement could be extended to be the focus of the project, such as demonstrating the ease with which
Objections to synthetic biology
The term "synthetic biology" could almost be calculated to elicit a strongly negative response by anyone with a belief in the beauty of naturally evolved DNA.
- Ken Oye, Synbiosafe (2009)
According to the PCSBI, there were "...relatively few objections from religious or secular ethicists concerning the present status of the field". However, there are common concerns regarding the normal use (i.e. not abuses such as bioterrorism) that originate from both religious and secular philosophies. These objections are typically boiled down to the accusation of "playing god", or the semi-secular equivalent that scientists are interfering with Nature (although it should be noted that those who use the term "playing god" are often secular. Such objections are often due to hype by the mass media (especially headline writers), and can be easily dealt with by scientists that can interact with the general public. Therefore, deep-seated opposition to synthetic biology is only found at the fringe of society, and most mainstream religious philosophies are generally accepting of current synthetic biology technologies. Christianity justifies synthetic biology through stories from the bible, such as the parable of the talents. The standard Christina explanation of this parable is that it is wrong for humans to squander their intelligence, and we are morally obligated to increase our power and expand our scientific knowledge.
Secular objections to synthetic biology can be found in the "Deep Ecology" philosophy, which emphasizes the right to life of all living things without regard to their value to humanity. Intrinsic to this philosophy is opposition to humanity's current domination and control of Earth. Therefore, the efforts of synthetic biologists to finely control organisms (albeit simple single-celled organisms) represent the latest attack by humanity on Nature. It is doubtful any reconciliation between scientists and deep ecologists could be made, given that a fundamental property of science is the testing and quantification of the natural world. Opposition to the power of corporations is also a basis for criticizing advances in synthetic biology. Such objections are not opposed outright to the use of science, but rather to its abuse in the unchecked pursuit for profits.
Senator from Vermont: You're absolutely sure it worked? You'd better be!
Dr. Jeremy Stone: All reports continue to indicate that the experiment was successful, Senator.
Senator : Then we can feel confident your so-called "biological crisis" is over?
Stone: As far as Andromeda is concerned, yes. We have the organism at Wildfire, and we continue to study it. We know now beyond a doubt that other forms of life exist in the universe. However, with this new knowledge, there is no guarantee that another so-called "biological crisis" won't occur again.
Senator: Hmm. What do we do about that?
Stone: Precisely, Senator. What do we do?
The Andromeda Strain (1971)
The tools of synthetic biology can be considered "dual-use" technologies, which can be used for both productive, useful applications, but also for weapons of mass destruction. Therefore, synthetic biology's potential to benefit humanity must be weighed against the potential development of bioweapons. The creation of such bioweapons may be simply the reconstruction of a previously eradicated disease such as smallpox, increasing the lethality of existing diseases, or create entirely new diseases. A key consideration when weighing these possibilities is the resources and knowledge required to create a bioweapon. Will our biological future mirror the computing world, where malicious programs are easily available for relatively inexperienced hackers, and the most sophisticated are used in cyberwarfare between antagonistic nations?
Creating a bioweapon previously required resources and training that was only available to powerful industrial nations, such as the Soviet Union and the United States during the Cold War. This limited the possibility of a biological attack to a world war (and which would be the least of the worries of the irradiated survivors of such an event). The advance of science then rendered smaller nations able to develop bioweapons, and we are now in a situation where a single lab could develop a bioweapon. Extrapolating from current trends in DNA synthesis costs, computer aided design, and increases in the sophistication of DIY biology will likely lead to the ability of small groups, or even single individuals, to wreck havoc with home brewed bioweapons. Returning the computer virus analogy, humanity could experience a future where the biological equivalent of black-hat hackers release viruses into the world. However, instead of stealing credit card numbers or emptying bank accounts, these "biohackers" could be introducing a lethal strain of the common cold, or an aerosolized ebola virus. Unfortunately, it is difficult to imagine how such a future could be prevented without draconian restrictions on the use of tools and techniques required for beneficial biological research, and so the focus will have to be on the rapid detection, isolation, and treatment of bioweapon attacks.
The less thrilling side to biosafety is the possibility of accidental releases of modified organisms into the environment. Individuals and small groups of amateur biologists typically do not have access to standard biosafety tools found in research laboratories, and are therefore unable to follow biosafety guidelines. such as biological containment hoods, autoclaves, and biological waste disposal. Another type of accidental release could be the "release" of genes from one organism to another species, via horizontal gene transfer. Given the difficulties synthetic biologists have when trying to make genes from a different species function properly in another species, it seems unlikely that accidental transfers of genetic material could result in any significant biological hazards. It is possible that there are "invasive genes", just as there are invasive species that wreck ecosystems (although even this analogy implies that an "invasive gene" would be far more likely to harm or have no effect on the recipient organism)
- World Health Organisation
- Convention on Biological Diversity
- National Institute of Health
- American Biological Safety Association
- Centre for Disease Control
- Gibson DG, Benders GA, Andrews-Pfannkoch C, Denisova EA, Baden-Tillson H, Zaveri J, Stockwell TB, Brownley A, Thomas DW, Algire MA, Merryman C, Young L, Noskov VN, Glass JI, Venter JC, Hutchison CA 3rd, and Smith HO. . pmid:18218864.
Creation of the first self-replicating synthetic genome by JCVI. Sparked off the previously mentioned report on the ethics of synbio.
The iGEM connection: Teams are required to prove they're following correct safety procedures on their team wikis.
Report on the ethics of synthetic biology commissioned by President Obama. Provides a fairly exhaustive review of the state of synbio in 2010.
- edited by Mark A. Bedau and Emily C. Parke. The ethics of protocells. Cambridge, Mass.: MIT Press, 2009. isbn:9780262012621.
book on ethics of protocells, pdf available here
Cited passage in New International Version.
- Heavey P. . pmid:21535064.
Article predicting the likely official response of the Catholic Church to synbio, along with some common biblical-based arguments for and against synbio.
Press release by the ETC Group, which is primarily concerned with opposing geoengineering, which includes the activities of oil companies. JCVI gets money from BP, hence their opposition to JCVI's "synthetic" cell.
Article in The Guardian where the show how easy it was in 2006 to order parts of the smallpox genome. Scanning for viral code in large sequences (such as IDT's gene blocks) is now routine, although whether this prevents assembly of a virus from smaller parts, or sufficiently mutated sequences, is not known.
- Herfst S, Schrauwen EJ, Linster M, Chutinimitkul S, de Wit E, Munster VJ, Sorrell EM, Bestebroer TM, Burke DF, Smith DJ, Rimmelzwaan GF, Osterhaus AD, and Fouchier RA. . pmid:22723413.
Controversial paper that demonstrated that A/H5N1 could be aerosolized by site-specific mutagenesis and serial transfer in ferrets.
- Tyshenko MG. . pmid:17845462.
Management of natural and bioterrorism induced pandemics. Argues that preventing pandemics is impossible, and so the focus must be on rapidly detecting attacks, and treating them before they become epidemics and pandemics.