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Does the life on Earth originates from space ice dust?


Panspermia is the idea that life, or material essential to development of living creatures came to the Earth from out of space. (See: Proof for Panspermia) Whether our planet was dusted by passing comet or pockmarked by an asteroid, the panspermia theory holds that the molecules needed to create the most basic living things could not occurred during the early development of Earth. Researchers announced that they used a powerful telescope called the Green Bank Telescope to identify two of the most sought after life forming molecules, and they found them floating on ice grains near the center of the galaxy.

The data was collected by undergraduates while they were participating in a summer program at the telescope, come from a gigantic gas cloud some 25,000 light years away. The collected data was analized by with new spectroscopic method of identifying molecules in gasses. This method is called “Rotational spectroscopy” –the technique works by recording the distinctive fingerprint of microwave radiation given off by molecules in gas. Such free-floating units can switch freely between a set of discreet rotational states, and they do they emit or absorb radio waves with a very specific level of energy.
By comparing this interstellar fingerprint to those from known (or desired) molecules, astronomers can identify the gas even when, as in this case, those molecules are nearer to the galactic core than to Earth itself. This technique only works for gases, unfortunately, but that makes it a perfect method for peering into outer space — or into the atmospheres of distant worlds.


The two molecules in question are cyanomethanimine, a precursor to the DNA base adenine, and ethanamine, precursor to the amino acid alanine. Both adenine and alanine are widely referred to as necessary for the formation of life, though in reality only something chemically quite like these molecules might be needed.Even on Earth, life has evolved a substitution for one letter of the genetic code — switching Thymine’s “T” in DNA for Uracil’s “U” in RNA — and this split occurred so long ago biologists have yet to pinpoint its precise date of emergence. There’s no reason to believe that some hypothetical alien life form might need adenine or alanine, specifically. It would be more accurate to say that life requires molecules with some or all of the useful properties of these molecules, and that the forms found in life on Earth might simply be the ones most likely to form spontaneously.That’s part of the argument in favor of the panspermia hypothesis, actually, that alien molecules could pepper the Earth and be perfectly capable of interacting usefully with chemicals already here. As was eventually seen in the results of the famous Miller-Urey experiment, even just the conditions of primordial Earth might have produced more than 20 amino acids, the number used to make the vast majority of Earth-made proteins. The problem is that there’s no telling how delicate the interdependence between Earth’s specific set of 20 biological amino acids is, which gave rise to all the incredible variety we see in Earth proteins today. It could be that natural selection would have kneaded virtually any combination of building blocks into complex and effective frameworks. Or it could be that we represent the universe’s ultimate fluke.

Either way, the list of molecules which could not have been created spontaneously is steadily shrinking, and we see that even in its origins, life relied on imports. If the Earth was seeded with complex organic molecules at some point in its past, its the use of techniques such as these that will show us their source, and in so doing, our own.

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