"New Evidence" -Origin of Life in Deep-Sea Hydrothermal Vents – The Daily Galaxy

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By Editorial Team Published on November 13, 2019 17:22

Posted on Nov 4, 2019 in Biology, Evolution, Science

Francis Crick,  responsible for discovering, along with James Watson, the double-helix structure of DNA, once described the origin of life as ‘almost a miracle, so many are the conditions which would have had to have been satisfied to get it going’. Now, by creating protocells in hot, alkaline seawater, an undaunted University College London-led research team has added to evidence that the origin of life could have been in deep-sea hydrothermal vents rather than shallow pools. Some of the world’s oldest fossils discovered originated in such underwater vents.

Previous experiments had failed to foster the formation of protocells—seen as a key stepping stone to the development of cell-based life—in such environments, but the new study, published in Nature Ecology & Evolution, finds that heat and alkalinity might not just be acceptable, but necessary to get life started.

“There are multiple competing theories as to where and how life started. Underwater hydrothermal vents are among most promising locations for life’s beginnings—our findings now add weight to that theory with solid experimental evidence,” said the study’s lead author, Professor Nick Lane (UCL Genetics, Evolution & Environment).

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“Space missions have found evidence that icy moons of Jupiter and Saturn might also have similarly alkaline hydrothermal vents in their seas,” observed Lane. “While we have never seen any evidence of life on those moons, if we want to find life on other planets or moons, studies like ours can help us decide where to look.”

Deep under the Earth’s seas, there are vents where seawater comes into contact with minerals from the planet’s crust, reacting to create a warm, alkaline (high on the pH scale) environment containing hydrogen. The process creates mineral-rich chimneys with alkaline and acidic fluids, providing a source of energy that facilitates chemical reactions between hydrogen and carbon dioxide to form increasingly complex organic compounds.

Scientists researching the origins of life have made great progress with experiments to recreate the early chemical processes in which basic cell formations would have developed. The creation of protocells has been an important step, as they can be seen as the most basic form of a cell, consisting of just a bilayer membrane around an aqueous solution—a cell with a defined boundary and inner compartment.

Previous experiments to create protocells from naturally-occurring simple molecules—specifically, fatty acids—have succeeded in cool, fresh water, but only under very tightly controlled conditions, whereas the protocells have fallen apart in experiments in hydrothermal vent environments.

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The study’s first author, Dr. Sean Jordan (UCL Genetics, Evolution & Environment), said he and his colleagues identified a flaw in the previous work: “Other experiments had all used a small number of molecule types, mostly with fatty acids of the same size, whereas in natural environments, you would expect to see a wider array of molecules.”

For the current study, the research team tried creating protocells with a mixture of different fatty acids and fatty alcohols that had not previously been used.

The researchers found that molecules with longer carbon chains needed heat in order to form themselves into a vesicle (protocell). An alkaline solution helped the fledgling vesicles keep their electric charge. A saltwater environment also proved helpful, as the fat molecules banded together more tightly in a salty fluid, forming more stable vesicles.

For the first time, the researchers succeeded at creating self-assembling protocells in an environment similar to that of hydrothermal vents. They found that the heat, alkalinity and salt did not impede the protocell formation, but actively favored it.

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“In our experiments, we have created one of the essential components of life under conditions that are more reflective of ancient environments than many other laboratory studies,” Dr. Jordan said. “We still don’t know where life first formed, but our study shows that you cannot rule out the possibility of deep-sea hydrothermal vents.”

The Daily Galaxy-Great Discoveries Channel, Andy Johnson, via University College London and Francis Crick, Life Itself: Its Origin and Nature (Simon & Schuster 2009); doi: 10.1002/iub.146.

Image credit: NOAA

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