- Jeffrey E. Barrick 23:23, 30 January 2013 (EST):It might be good to parse out the page into various headings so that it's easier to find the right thread.
- Neil R Gottel 03:32, 28 January 2013 (EST): Technical question: how do I properly format quotes? I tried using formatting from wikipedia, but I couldn't get it to work properly, so I'm just using the blockquote command.
- Evan Weaver 12:00, 28 January 2013 (EST): I was able to add quotes by adding " around the text. "Like this" Is this what you needed?
- Thomas Wall 11:32, 28 January 2013 (EST): I saw George Church made the news because he inadvertently scared a lot of people by saying technology will be available for bringing Neanderthals back from extinction. http://www.evolutionnews.org/2013/01/an_apology_for_068591.html
- Max E. Rubinson 13:23, 28 January 2013 (EST): “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.” Comments like this seem rather arrogant. There will always be a potential for biological hazards that we may never fully understand or live long enough to realize. As Dr. Ian Malcolm aptly states in Jurassic Park, “…life, uh, finds a way.”
- Andre C Maranhao 14:03, 28 January 2013 (EST): Maybe it is arrogant, but it's probably just an overreaction to all the sensationalism from anti-GMO groups and the bioethics community. Yes, there are hazards associated with any human activity and maybe to a greater degree the activities of synthetic biology. Still, take a look at hydrofracking. It utterly destroys the local water-table, which has serious, long-term consequences for the environment and biosphere. Yet, we as a country 'need' to tap that vast source of domestic energy. Now, the country is discussing how the technology will be used/implemented whilst minimizing the repercussion. The same thing is necessary for synthetic biology. So in the end, debate is good, but both side should avoid extremes of hand-waving disregard and doomsday fear-mongering.
- Gabriel Wu 15:54, 28 January 2013 (EST): Minor point: It's good to keep the tone light, but captions for Cynthia--while funny, I admit--may be interpreted wrong by those who are looking for material to use against the synthetic biology committee.
- Jeffrey E. Barrick 20:43, 30 January 2013 (EST):I added a "?" to the end of this caption, which might defuse it a little bit.
- Gabriel Wu 16:22, 28 January 2013 (EST):Suggestion: Include discussion on flu debate?
- Kevin Baldridge 16:42, 28 January 2013 (EST):There was an interesting article on privacy with genomic information available in public databases in Nature doi:10.1038/493451a
- Siddharth Das 17:31, 28 January 2013: Minor fix: Christina to Christian
- Gabriel Wu 16:44, 30 January 2013 (EST): Very good (and recent) review on some of the considerations and current directions at addressing the risks involved in synthetic biology .
- Jeffrey E. Barrick 23:23, 30 January 2013 (EST):This project mentioned in the article sponsored by the Woodrow Wilson International Center for Scholars has a LOT of information. Should be linked. If you click through, it seems like there is no audience for a lot of the stuff though. The "Ask a biosafety professional your question" seems to have only had one question, ever, in its history.
Black hat vs white hat hackers
Is it feasible to think that, just like today, "white hat hackers" for synthetic biology could create the "patches" or cures to counter the malicious work of black hat hackers, in a continually escalating yet mostly benign tit-for-tat? -*Dwight Tyler Fields 16:11, 28 January 2013 (EST):
- Gabriel Wu 16:15, 28 January 2013 (EST): Problem is in software development it's easier to develop a patch then in biology. If we could "patch" human health the way we can computer hacks, we wouldn't be in such a panic about antibiotics and vaccines right now.
- Kevin Baldridge 16:12, 28 January 2013 (EST):We talk about the doomsday scenario of "biohackers" ruining the environment to where you'd have to wear respirators etc. Is that a genuine concern as well, because we do have the hacker culture in the computer world, but it hasn't ruined our ability to use computers altogether. The regulatory/antivirus industries have stayed ahead as hackers develop their malware, would we see a similar development in the protective bodies against biohacker culture? Apologies if this repeats -- it seems that Dwight had the same idea during class.
- Siddharth Das 17:30, 28 January 2013 (EST): Although the analogy may hold true in terms of understood constructs, for both electronic and biological, the emphasis of the possible dangers of synthetic organisms arise misunderstood regulatory metabolic pathways and moreover it evolution. For example, scientist can easily design organism with a "fail safe code" that terminates the organism before it grows beyond control. In the case of DIY biologists (a.k.a. biohackers), they can easily design an organism with an unrealized gene expression that harm an individual. Furthermore, unlike code, the genetic code in vivo can mutate dangerously and even out compete their wild-type counterparts. Thus, inexperienced biohackers can prove to be dangerous.
- Catherine I. Mortensen 01:54, 30 January 2013 (EST): I guess it would depend on the viability of the harmful organism. If biohacking seriously became a problem, I'd expect the process of discovering and manufacturing a cure to be a much more timely process than that of creating antivirus computer programs. Complexity of the genome exceeds that of computer viruses and there would health risks involved with white hacking.
- Benjamin Gilman 20:03, 30 January 2013 (EST): I think the argument that the government and private industry (i.e. antivirus software makers) have stayed ahead of malicious hackers is false, because they are always forced to react to unforeseen developments. Every time a novel computer virus is introduced, it takes time to come up with a defense against it. While those solutions often come in a matter of hours or days, they are the result of potentially thousands of programmers trying to correct a flaw that may have been successfully exploited by a lone hacker. This imbalance is even worse in the case of bioterrorism or state-produced biological weapons, because even with infinite resources it takes a significant amount of time to (hopefully) come up with a treatment or vaccine. Though we have some idea about what agents are likely to be weaponized, we've probably wasted billions of dollars researching diseases like tularemia when the next successful bioweapon will be based on an idea nobody else ever had.
- Gabriel Wu 16:13, 28 January 2013 (EST): What are the major limitations to "successful" bioterrorism? We talk about accessibility to materials and equipment, but is that really the major barrier? The idea of chemical/biological warfare has been out there for a while. Heuristically, it feels like it's not been a easy as people fear. Is this true?
- Benjamin Gilman 20:32, 30 January 2013 (EST): The idea of somebody engineering a weaponized virus in their garage is probably pretty ridiculous, but recreating a natural virus that you don't have access to isn't so far fetched. It wouldn't be fast, cheap, or easy, which is why we'd expect a well funded group or small nation to be the likely backers. Larger nations (US, Russia) have tons of effective biological weapons, we just know better than to use them.
- Jeffrey E. Barrick 20:11, 30 January 2013 (EST):A lack of opportunities for testing? -- which slows down any development effort. You can test ballistic missles or nukes under realistic conditions and gather data about failures. Not so with a disease.
- Benjamin Gilman 20:32, 30 January 2013 (EST): I'm not sure testing is really necessary in the case of bioterrorism because any attack doesn't actually have to be all that effective. If a few people die, it creates enough panic to achieve the goal, but if it doesn't work nobody notices and you can go back to the drawing board. There is also quite a bit of information out there from the instances where biological weapons have been tested on people (like the Japanese experiments in China during WWII) which might eliminate the need for testing of dispersal mechanisms.