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Was reading through the arXiv blog, and came across an interesting paper.
20 amino acids make up proteins on Earth. Experiments intended to approximate the conditions of early Earth replicated many of them (i.e. 10 of them in a classic Miller-Urey experiment). There are also ideas about interstellar synthesis, and a lot of the same amino acids are measured in meteorites.
A couple guys decided to rank the biological amino acids observed in these systems (principally the meteorites). This ranking was compared with the energy associated with formation (a thermodynamic potential called the Gibbs free energy) of these amino acids, under conditions resembling the Earth surface.
Sure enough, they agreed. Very well (see the attachment - the ranking is R and the potential is delta G). The order associated with the first 10 actually matches up almost exactly.
Quoting the paper:
20 amino acids make up proteins on Earth. Experiments intended to approximate the conditions of early Earth replicated many of them (i.e. 10 of them in a classic Miller-Urey experiment). There are also ideas about interstellar synthesis, and a lot of the same amino acids are measured in meteorites.
A couple guys decided to rank the biological amino acids observed in these systems (principally the meteorites). This ranking was compared with the energy associated with formation (a thermodynamic potential called the Gibbs free energy) of these amino acids, under conditions resembling the Earth surface.
Sure enough, they agreed. Very well (see the attachment - the ranking is R and the potential is delta G). The order associated with the first 10 actually matches up almost exactly.
Quoting the paper:
Our results also indicate that a certain degree of universality would be expected in the types of organic molecules seen on other earth-like planets. Should life exist elsewhere, it would not be surprising if it used at least some of the same amino acids we do. Simple sugars, lipids and nucleobases might also be shared. Our analysis suggests that the first genetic code was a stripped down version of our present code, one whose simpler structure reflected the limited set of available amino acids in the prebiotic environment. Although there are countless ways that the code could have developed from those origins, the combined actions of thermodynamics and subsequent natural selection suggest that the genetic code we observe on the Earth today may have significant features in common with life throughout the cosmos.
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