In a thought-provoking article Science So the scientists who did not participate in the study expressed surprise and excitement about the bacteria and the team’s study.
“In the case of bacteria, I would never say, but it’s 10 times the size of bacteria we’ve thought possible,” said Verina Carvalho, a microbiologist at the University of Massachusetts who eats sulfur. Learning about giant bacteria.
The discovery of DNA-containing organs indicates that the difference between the two major groups of life is not as large as previously thought. Petra Levine, a microbiologist at the University of Washington, agrees: “Perhaps it’s time to rethink our definition of eukaryote and prokaryote,” she said. “This is a super cool story.”
Kazuhiro Takemoto, a computational biologist at the Kyushu Institute of Technology in Japan, said the bacterium could be a “missing link in the evolution of complex cells.”
The second concerns the authors of the study as well. The origin of biological complexity is one of the most important unanswered questions in biology, they argue.
Virus size bias has prevented the discovery of giant viruses for more than a century, the authors say. Theomargarita magnifica Indicates that large and complex bacteria may be hidden from view.
The authors say that examining their rare biological properties, their energy metabolism, and the nature of their organs will bring us closer to understanding the evolution of biological complexity.
A preprint of a study by Woland and team that has not yet undergone a peer review has appeared on bioRxiv.This article is based on the study and reflection article Science.
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