Natural Affinities of RNA Components Could Have Led To Life

vinces99 writes "The chemical components crucial to the start of life on Earth may have primed and protected each other in never-before-realized ways, according to new research led by University of Washington scientists. That could mean a simpler scenario for how that first spark of life on the planet came about. Scientists have long thought that life started when the right combination of bases and sugars produced self-replicating ribonucleic acid, or RNA, inside a rudimentary 'cell' composed of fatty acids. Under the right conditions, fatty acids naturally form into bag-like structures similar to today's cell membranes. In testing one of the fatty acids representative of those found before life began – decanoic acid – the scientists discovered that the four bases in RNA bound more readily to the decanoic acid than did the other seven bases tested. By concentrating more of the bases and sugar that are the building blocks of RNA, the system would have been primed for the next steps, reactions that led to RNA inside a bag."

Re:I'll wait for the next headline

[elysiuan]

You know, our immune system as a whole is, to paraphrase Stephenson, stupendously badass. The reason pathogens still get us sick is because they too have had billions of years to adapt to combat our immune system. The chances of scientists (or some panspermic disaster scenario) introducing a pathogen that bypasses our immune system completely by accident are pretty infinitesimal.

If you want to create a bioweapon you don't start with something unknown and then try to hack around our immune system. You go find something that nature has brought 99% of the way to where you want it and tweak.

Incredibly Cool

[cusco]

I found this part from TFA to be the neatest bit of all:

Black, lead author of the paper, originated the ideas behind the work. A retired biochemist with Amgen Inc., Black contributed funding for the work to Keller’s lab – the work also received National Science Foundation funding – and became a UW affiliate professor volunteering in the Keller lab.
“I think that a pretty common story is that some young hotshot comes to UW to start her or his career and does a risky experiment that uncovers new fundamental science,” Keller said. “Here we have an older hotshot who came to UW at the end of his Amgen career to do a risky experiment that uncovers new fundamental science. I think the story also emphasizes that people don’t become scientists just because it is a good job – they do it because they love it,” she said. “Roy worked for a year and a half straight, volunteering his time to UW on something he didn’t get paid for, just for the joy and the curiosity.”