The original recipe for gene soup may have been simple -- rain, a jumble of common molecules, warm sunshine, and nighttime cooling. Then add a pinch of thickener.
The last ingredient may have helped gene-like strands to copy themselves in puddles for the first time ever, billions of years ago when Earth was devoid of life, researchers at the Georgia Institute of Technology have found. Their novel discoveries add to a growing body of evidence that suggests first life may have evolved with relative ease, here and possibly elsewhere in the universe.
[...] Earliest life was based on RNA, or a similar polymer, according to a hypothesis called the RNA World. In that scenario, on the evolutionary timeline, the self-replication of RNA strands long enough to be potential genes would roughly mark the doorstep to life.
Those long nucleotide chains may have been mixed together in puddles with shorter nucleotide chains. Heat from the sun would have made long strands detach from their helix structures, giving short ones a chance to match up with them, and become their copies.
But there's a problem.
In water alone, when cooling sets in, the long chains snap back into their helix structure so rapidly that there's no time for the matching process with the shorter chains. That snapping shut, which happens in both RNA and DNA, is called "strand inhibition," and in living cells, enzymes solve the problem of keeping the long chains apart while gene strands duplicate.
A higher viscosity medium allows the self-replication process to occur.
(Score: 0) by Anonymous Coward on Sunday October 16 2016, @06:48PM
and in a small prison cell