Deep-sea microbes called missing link for complex cellular life


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Deep beneath the Atlantic Ocean between Greenland and Norway, scientists have found microorganisms they call a missing link connecting the simple cells that first populated Earth to the complex cellular life that emerged roughly 2 billion years ago.

The researchers said the group of microorganisms called Lokiarchaeota, or Loki for short, were retrieved from the inhospitable, frigid seabed about 1.5 miles (2.35 km) under the ocean surface.

they were found not too far from a hydrothermal vent system off Norway called Loki's Castle, named after a Norse mythological figure.

The Lokiarchaeota are part of a group called Archaea thathave relatively simple cells lacking internal structures such asa nucleus.

The Lokiarchaeota are part of a group called Archaea thathave relatively simple cells lacking internal structures such asa nucleus.

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The Lokiarchaeota are part of a group called Archaea that have relatively simple cells lacking internal structures such as a nucleus. 

But the researchers found the Lokiarchaeota share with eukaryotes a significant number of genes, many with functions related to the cell membrane.

These genes would have provided Lokiarchaeota 'with a 'starter-kit' to support the development of cellular complexity

It gives a new insight insight into how the larger, complex cell types that are the building blocks for fungi, plants and animals including people, a group called eukaryotes, evolved from small, simple microbes.

The Lokiarchaeota are part of a group called Archaea that have relatively simple cells lacking internal structures such as a nucleus. 

But the researchers found the Lokiarchaeota share with eukaryotes a significant number of genes, many with functions related to the cell membrane.

These genes would have provided Lokiarchaeota 'with a 'starter-kit' to support the development of cellular complexity,' said evolutionary microbiologist Lionel Guy of Sweden's Uppsala University.

Archaea and bacteria, another microbial form, are together known as prokaryotes.

'Humans have always been interested in trying to find an answer to the question, 'Where do we come from?' Well, now we know from what type of microbial ancestor we descend,' said Uppsala University evolutionary microbiologist Thijs Ettema, who coordinated the study.

'Essentially, Lokiarchaeota represent a missing piece of the puzzle of the evolution from simple cells - bacteria and archaea, prokaryotes - to complex cells - eukaryotes, which includes us humans,' Ettema added.

Earth's wide diversity of life would have been impossible without this transition from rudimentary cells into the more complicated ones seen in multicellular life. 

Microbial life originated about 3.5 billion years ago. 

The first complex cellular life came roughly 2 billion years ago.

The researchers said the group of microorganismscalled Lokiarchaeota, or Loki for short, were retrieved from theinhospitable, frigid seabed about 1.5 miles (2.35 km) under theocean surface.

The researchers said the group of microorganismscalled Lokiarchaeota, or Loki for short, were retrieved from theinhospitable, frigid seabed about 1.5 miles (2.35 km) under theocean surface.

How cellular complexity first developed has been one of the big puzzles of evolutionary biology, Guy said.

The Lokiarchaeota were retrieved from oxygen-starved sediment layers during voyages of a Norwegian research vessel, said microbiologist Steffen Jørgensen of Norway's University of Bergen.

While the Loki's Castle geothermal vents spew fluids reaching about 570 degrees Fahrenheit (300 degrees Celsius) about 9 miles (15 km) away, the Lokiarchaeota's locale was desolate, pitch dark and around the freezing point, Jørgensen added.

The research appears in the journal Nature. (Reporting by Will Dunham; Editing by Mohammad Zargham)



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