Theoretical origin of life; using plasmas and electricity (Introduction)

by David Turell @, Sunday, April 23, 2017, 20:18 (2771 days ago) @ David Turell

A more modern approach to the early Miller Urey experiment produces all the RNA bases needed for life:

https://phys.org/news/2017-04-rna-nucleobases-simulated-primordial-earth.html

In 1952, chemists Stanley Miller and Harold Urey conducted a famous experimental simulation of the conditions thought to prevail on early Earth in order to determine possible pathways to the creation of life. The Miller-Urey experiment used water (H2O), methane (CH4), ammonia (NH3) and hydrogen (H2) sealed inside a glass flask. They introduced water vapor from a separate flask while firing electrical sparks between electrodes to simulate lightning.

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the experiment has been criticized over the years because the gas mixture Miller and Urey used was considered to be too reducing, and because the production of only amino acids was of limited

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Their experimental setup was similar to the original experiment, using a simple reducing mixture of NH3 + CO and H2O. In addition to electric discharge in water vapor, they also subjected the solution to powerful laser discharges to simulate the plasmas resulting from asteroid impact shock waves. The results of the experiment demonstrated that all RNA nucleobases were synthesized, strongly supporting the emergence of biologically relevant chemicals in a reducing atmosphere.

In their paper, the authors write, "As the most important finding, discharge treatment of NH3 + CO + H2O led to the formation of a significant amount of formamide and hydrogen cyanide (HCN)." This result is key, as formamide has been experimentally shown to create guanine, an RNA nucleobase, at high temperatures under ultraviolet light.

"Additionally," the authors write, "we detected all of the RNA canonical nucleobases—uracil, cytosine, adenine and guanine—together with urea and the simplest amino acid, glycine… these findings support the idea that a NH3 + CO + H2O atmosphere can substitute for pure formamide and act as a starting environment not only for the formation of amino acids, but also of RNA nucleobases."

The researchers also demonstrated that any nucleic acid base can be decomposed to a reducing gaseous atmosphere by electric discharges in the presence of water, and these gases can react in turn to produce all the RNA nucleobases. They also note that their results do not preclude other scenarios, but demonstrate that multiple pathways to the production of RNA nucleobases are possible.

Comment: This laboratory designed result shows the bases for RNA could have been created on Earth. However, the next step is not easy. Creating a complex carbon molecule that is RNA itself is also very difficult by chance.


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