In a reflective article in the language of to know So the scientists who were not involved in the study are surprised and excited about the bacteria and the team’s study.
“When it comes to bacteria, I don’t say never, but this one pushes 10 times what we thought was possible for the size of the bacteria,” said Verena Carvalho, a microbiologist at the University of Massachusetts who eats sulfur. Study of giant bacteria.
He also said that the discovery of DNA-containing organelles means that the difference between the two main groups of life is not as great as previously thought. Petra Levine, a microbiologist at the University of Washington, agrees: “It may be time to rethink our definition of eukaryotes and prokaryotes.” “It’s a very cool story.”
These bacteria could be “the missing link in complex cell evolution,” said Kazuhiro Takemoto, a computational biologist at the Kyushu Institute of Technology in Japan.
The latter also relates to the study authors. They argue that the origin of biological complexity is one of the most important unanswered questions in biology.
The authors say that bias about the size of viruses has prevented the discovery of giant viruses for more than a century and the discovery of Thiomargarita magnifica Indicates that large, complex bacteria may be hidden in plain sight.
The authors said that examining their rare biological properties, their energy metabolism and the nature of their organelles will bring us closer to understanding the evolution of biological complexity.
An initial version of Volland and the team’s study, which has not been peer-reviewed, has appeared on bioRxiv† This article is based on the reflective study and article on to know†
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