Author Archives: christiewlchan

Microbes with Arsenic DNA Backbones: Fact or Science Fiction?

Posted on October 20, 2012 | 2 comments

In December of 2010, the National Aeronautics and Space Administration (NASA) took the scientific world by storm with a press release stating that a news conference would be held to “discuss an astrobiology finding that will impact the search for evidence of extraterrestrial life”. At the press conference, NASA scientist Felisa Wolfe-Simon claimed to have found a microbe that was able to incorporate arsenic as a substitute for phosphate in the DNA backbone. This conclusion was reached since the microbe managed to grow even in conditions with high arsenic concentrations and low phosphate concentrations. This microbe, strain GFAJ-1 of the Halomonadaceae, was isolated from Mono Lake, California, a lake known for its toxicity in the form of extremely high concentrations of arsenic.

Picture of GFAJ-1: (Creative Commons License: image by Jodi Switzer Blum)

Wolfe-Simon’s reasoning was that because arsenic is directly below phosphate in the periodic table, it has a similar chemical reactivity which allows it to be substituted for phosphate in the DNA backbone. According to NASA, the implication of this research is that the long-held assumption that all life on earth, from the tiniest microbe to large mammals, depends on six essential elements, one being phosphorus, may be wrong.

NASA sensationalized the implications of Wolfe-Simon’s research; it was claimed that the exploration for alien life that previously only included searching for the six essential elements, would have to be modified to include arsenic. A whole new branch of previously unexplored life forms could exist.

 However, the scientific community was not as receptive as the public to Wolfe-Simon’s work. Shortly after the online publication of Wolfe-Simon’s paper, an avalanche of criticism descended on the paper in the form of dozens of technical responses and online responses to the paper by skeptical scientists. The methodology of Wolfe-Simon’s experiment, the data analysis and the interpretation of results were all thoroughly criticized.

Here’s a video of the NASA Press Conference announcing Wolfe-Simon’s work. From 0-2:55, Wolfe-Simon provides the motivation for her work and from 2:56-9:39, Dr. Steven Benner, Founder and Distinguished Fellow of the Foundation of Applied Molecular Evolution, discusses why he is skeptical of Wolfe-Simon’s conclusions.   (attribution: rrhea22)

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Rosie Redfield, a microbiology professor at the University of British Columbia, has been one of the leading voices in the criticism of Wolfe-Simon’s work; along with a scathing blog post about Wolfe-Simon’s research two days after it was published,  she later published an article refuting Wolfe-Simon’s conclusions about the ability of GFAJ-1 to incorporate arsenic in its DNA backbone entirely. Redfield showed that GFAJ-1 was unable to substitute arsenic for phosphate in the DNA backbone through growing the microbe in the same conditions described by Wolfe-Simon, then analyzing the DNA strands for arsenic incorporation.

For all of us out there in the world fervently hoping for a new avenue of previously unexplored alien life forms, it looks like GFAJ-1 does not provide proof that there is an organism able to incorporate arsenic in place of phosphorus. This doesn’t mean there aren’t any organisms able to do this out there in the world, it just means we have to keep on exploring and researching!

References:

http://science.nasa.gov/science-news/science-at-nasa/2010/02dec_monolake/

https://www.youtube.com/watch?v=W_Nz_6Pbydo&feature=related

https://www.youtube.com/watch?v=5GKmKyfXuFw

http://www.slate.com/articles/health_and_science/science/2010/12/this_paper_should_not_have_been_published.html

http://www.washingtonpost.com/wp-dyn/content/article/2010/12/02/AR2010120204183.html

http://www.sciencemag.org/content/332/6034/1163.abstract

http://www.sciencemag.org/content/337/6093/470.short

 

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Posted in Biological Sciences, Issues in Science, Science in the News

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“Trust me, I’m an Engineer”

Posted on September 27, 2012 | 2 comments

Ever seen the “Trust Me, I’m an Engineer” meme on the Internet? As it turns out, the slime mold Physarum polycephalum can claim the title of engineer as well!

Physarum polycephalum is a single-celled organism, which when in the plasmodium phase of the life cycle, will grow continuously, expanding tendrils into unknown territory, as long as nutrients are present.  Tendrils with high volumes of nutrients will expand, while those that are used less will gradually disappear, leaving an efficient network.

Fig 1: Physarum Polycephalum colony growing on a rock
Reproduced under a Creative Commons license from Wikipedia (original author: Jerry Kirkhart)

For background information on slime molds and their life cycle, click here.

Researchers in Japan and the UK experimented with slime mold, presenting it with a model where geographical locations of cities around Tokyo were represented by oat flakes. The slime mold was allowed to grow into the arena, creating a transport network. Amazingly, the network formed was comparable in efficiency to the real Tokyo rail system, even though the slime mold has no brain, no central planning process.

Here’s a video showing slime mold growing out into the Tokyo arena: (attribution: sjtkg001)

You say, wait a second, what exactly do the researchers mean by efficiency? 3 main factors were taken into account: total length (TL), average minimum distance (AMD) and fault tolerance (FT). Average minimum distance represents how easy it is to get between the food sources, which is analogous to how easy it is to get between cities (transport efficiency). Fault tolerance measures how resilient the network would be, i.e. if it still functions if connections are broken. A high-performing system is one with a low TL representing minimal cost, low AMD representing high transport efficiency, and high FT representing high resilience.

Here’s a podcast from CBC with Dr. Mark Fricker who headed the Tokyo rail slime mold experiment; he gives details on this experiment:

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If you’re suspicious that the slime mold got lucky, researchers replicated their experiment with transport networks in Germany, the UK and even Canada! They found that again, the slime mold built a network with comparable performance.

Here’s a link to an article testing slime mold growth with a trans-Canada highway model.

Drawing inspiration from the slime mold, researchers around the world are now using biological systems to model real-world infrastructure problems in arenas such as computing, transport, and communication. They take the real-world conditions of problems in these arenas, such as spatial boundaries (i.e. rivers, cities, mountains), and apply these boundary conditions on slime mold by manipulating variables such as light intensity and antibiotic concentration. They then observe the growth networks and patterns of slime mold that arise, and can use these as a preliminary model for a solution.

Interested in reading more? Researchers are also utilizing the slime mold to model the blood vessel networks feeding tumors. With this understanding, they hope to come up with a method to starve the tumor of blood by cutting off key connections.

-Christie Chan

References:

Tero, A., Seiji, T., Saigusa, T., Ito, K., Bebber, D.P., Fricker, M.D., Yumiki, K., Kobayashi, R., Nakagaki, T. (2010, January 22). Rules for biologically inspired adaptive network design. Science, 327, 439-442.

Video: https://www.youtube.com/watch?v=BZUQQmcR5-g

Websites used:

http://scienceblogs.com/notrocketscience/2010/01/21/slime-mould-attacks-simulates-tokyo-rail-network/

http://esciencenews.com/articles/2010/01/21/slime.design.mimics.tokyos.rail.system

http://news.sciencemag.org/sciencenow/2012/08/a-slimy-insight-into-treating-ca.html

Podcast:

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Posted in Biological Sciences

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