Everything Everywhere Daily: History, Science, Geography & More - The Miller-Urey Experiment

Episode Date: July 20, 2021

One of the fundamental questions of humanity is where did we come from? How did life on Earth come about? While there have been many theories as to how this could have happened, in 1952, two men deci...ded to actually run an experiment to see if they could replicate the early conditions on Earth. The results were eye-opening. Learn more about the Miller-Urey Experiment and how it changed our ideas on the genesis of life, on this episode of Everything Everywhere Daily. Learn more about your ad choices. Visit megaphone.fm/adchoices

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Starting point is 00:00:00 One of the fundamental questions of humanity is where did we come from? How did life on Earth come about? While there have been many theories as to how this could have happened, in 1952, one man decided to actually run an experiment to see if they could replicate the early conditions on Earth. The results were eye-opening. Learn more about the Miller-Ure experiment and how it changed our ideas of the Genesis of Life on this episode of Everything Everywhere Daily.
Starting point is 00:00:25 What if your perceptions about the past were wrong? The Thulein is a podcast that takes you back in time to uncover the parts of the story that may have gone unnoticed. It effectively turned day into night. And how it shaped the world now. Time travel with us every week on the Thulein podcast from NPR. This episode is sponsored by Expedia's OutTravel the System podcast. I know you love to hear the story behind the story. So let me tell you why I think you might want to listen to the Expedia podcast.
Starting point is 00:01:12 out travel the system. This season alone, the show talks to someone on a mission to visit every country in the world. In case you're wondering, the tally stands at 194 out of 197 countries. There's the man who's visited and stayed at literally thousands of hotels who share some of his favorite unique accommodations and experiences. Or how about the woman who has reached some deep philosophical conclusions about travel and privilege in no small part because of the pandemic? Get all of this and more when you tune into the show, including larger insights about the future of travel, as well as tips and tricks to maximize your savings for your next trip, whenever you feel ready to head out into the world again. You can find OutTravel
Starting point is 00:01:52 the System on your podcast platform of choice. Ever since Charles Darwin proposed the theory of natural selection, evolutionary biologists and paleontologists have gotten a better grip on how life developed on Earth. However, there was always one nagging question. How did it all start? There are no fossils that date back that far. In fact, if you're If you go back 4 billion years, the Earth would be totally unrecognizable from what it is today. The atmosphere wouldn't have any oxygen in it. There would have been no biology at all because there wasn't any life yet. The only thing there would have been is chemistry.
Starting point is 00:02:28 The metaphor, which has commonly been used to describe this environment, is a primordial soup, probably water in an atmosphere of simple common chemicals. This transition from chemistry to biology is known as abiogenesis. speculation for how simple chemical compounds became the basis for more complex organic compounds, and then the building blocks for life itself were just that. Speculation. It happened so long ago that there wasn't a lot of evidence one way or the other, and it isn't something we can observe today because the Earth is so different, and there's life everywhere.
Starting point is 00:03:01 In 1952, a 22-year-old student from the University of Chicago named Stanley Miller proposed a rather simple experiment to see if simple chemical compounds could produce more complex organic compounds. He and his advisor, Harold Urey, put together a sealed system of glass, flas, and tubes, which contained what they thought the early Earth's atmosphere was like. There were only four chemical compounds in this closed glass system, water, hydrogen, ammonia, and methane. The water in one of the flas would be boiled, causing the liquid water to become a gas. This was designed to mimic natural evaporation. The water vapor was then condensed back into a liquid. In between, there was a glass speaker that the gases passed through with two electrodes
Starting point is 00:03:45 running at 60 kilovolts. These electrodes would create electrical sparks, adding energy to the system replicating lightning. That was the whole experiment. The idea was to set it up, let it run, and then see what would happen, and they honestly had no clue what the results would be. After the first day of running, the water started to turn pink. And over the next several days, the water began to turn a deeper red and finally became opaque. At the end of the week, the experiment was stopped, and they tested the water to see what was in it. They found evidence of five different amino acids, the building blocks of proteins. They found glycine, alpha-alinin, and trace amounts of asperic acid and alpha-amuduric acid.
Starting point is 00:04:28 What Miller found was that with a few simple chemicals and some external energy, you can generate the building blocks of life. This experiment ushered in the entire discipline of prebiotic chemistry. Because of the simplicity of the experiment, many people were able to replicate it using different base assumptions. In 1961, a Catalan researcher named Joanne Oro found that you could make adenine, one of the four base molecules of DNA from hydrogen cyanide and ammonia. A team of Czech researchers found that with just ammonia, carbon monoxide, and water, they could create all the nucleo bases of RNA by shooting it with powerful lasers, to replicate shockwaves and plasma from early asteroid impacts.
Starting point is 00:05:09 One of the criticisms of Miller's experiment is that over time, researchers began to believe that the gases used in Miller's experiment didn't in fact represent the early atmosphere of Earth. Miller replicated the experiment in 1983 with carbon dioxide, carbon monoxide, and nitrogen. This time, nothing happened because it made the water very acidic. However, when that experiment was run again, this time with iron and carbonate in the water, to neutralize the pH level, amino acids were found. Stanley Miller kept studying prebiotic chemistry throughout his life,
Starting point is 00:05:41 conducting many different versions of his original 1952 experiment. He was able to create dozens of amino acids and 11 of the 20 amino acids used in human biology, all from prebiotic chemicals. One of the interesting things which was discovered is that Miller saved the equipment from his original experiment and the products of the experiment which were kept in 11 different vials. After his death in 2007, several of his students analyzed the original results from his
Starting point is 00:06:08 1953 experiment where he found five amino acids. This time, they were able to analyze the specimens using modern techniques, and they found 25 different amino acids at various concentrations. Stanley Miller's experiment was even more successful than he had realized at the time. Moreover, they found the products of an experiment he ran in 1958, where he conducted a similar experiment, but this time with the chemical cyanomide. He never published the results of this experiment, but they found peptides in the vials, which are strings of amino acids. He had another 1958 experiment that used hydrogen sulfide, and he produced even more organic compounds than
Starting point is 00:06:46 anything else he had tried up until that point. Almost whenever some version of the Miller-Ure experiment was run, researchers have been able to come up with similar results. These laboratory results have found corroboration with other evidence as well. In 1969, a meteor landed in Merchison, Australia that was rich in organic compounds. Over 90 different amino acids were found in the meteor, which included 19 of the 20 amino acids necessary for life on Earth. In 2003, the simplest amino acid glycine was found by astronomers in three different giant molecular clouds. While the process by which it was created isn't known, it might have involved ice molecules, organic molecules, and strong ultraviolet radiation. In 2009, NASA's stardust mission,
Starting point is 00:07:32 which actually returned a sample from a comet and brought it back to Earth, found amino acids. Based on the experimental and observational evidence we have, it might not only be possible, that may be even probable that the chemical building blocks of life could be found on Mars, Saturn's Moon Titan, and maybe even some of the moons of Jupiter. We already know that the prebiotic chemistry is already there. There's still a whole lot we don't know. There's a lot that has to occur between creating amino acids and getting full-blown cellular life. But we do at least know, in no small part thanks to Stanley Miller's groundbreaking experiment, that the basic building blocks of life may be relatively abundant all over the universe. The associate producer
Starting point is 00:08:18 of Everything Everywhere Daily is Thor Thompson. If you'd like to support the show, please donate over at patreon.com. There is content only available to supporters, merchandise, and even opportunities for a show producer credit. If you know someone you think would enjoy the show, please share it with them. Also remember, if you leave a five-stop review, I'll read your review on the show.

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