<p>You can see it with the naked eye and pick it up with a pair of tweezers -- not bad for a single bacteria.</p>.<p>Scientists say they have discovered the world's largest variety in the mangroves of Guadeloupe -- and it puts its peers to shame.</p>.<p>At up to two centimetres (three-quarters of an inch), "Thiomargarita magnifica" is not only around 5,000 times bigger than most bacteria -- it boasts a more complex structure, according to a study published in the journal Science on Thursday.</p>.<p>The discovery "shakes up a lot of knowledge" in microbiology, Olivier Gros, professor of biology at the University of the Antilles and co-author of the study, told AFP.</p>.<p>In his laboratory in the Caribbean island group city of Pointe-a-Pitre, he marvelled at a test tube containing strands that look like white eyelashes.</p>.<p>"At first I thought it was anything but a bacterium because something two centimetres (in size) just couldn't be one", he said.</p>.<p>The researcher first spotted the strange filaments in a patch of sulphur-rich mangrove sediment in 2009.</p>.<p>Techniques including electronic microscopy revealed it was a bacterial organism, but there was no guarantee it was a single cell.</p>.<p>Molecular biologist Silvina Gonzalez-Rizzo, from the same laboratory, found it belonged to the Thiomargarita family, a bacterial genus known to use sulphides to grow. And a researcher in Paris suggested they were indeed dealing with just one cell.</p>.<p>But a first attempt at publication in a scientific journal a few years later was aborted.</p>.<p>"We were told: 'This is interesting, but we lack the information to believe you'," Gros said, adding that they needed stronger images to provide proof.</p>.<p>Then a young researcher, Jean-Marie Volland, managed to study the bacterium with the Lawrence Berkeley National Laboratory, run by the University of California.</p>.<p>With financial backing and access to some of the best tools in the field, Volland and his colleagues began building up a picture of the colossal bacteria.</p>.<p>It was clearly enormous by bacterial standards -- scaled up to human proportions, it would be like meeting someone "as tall as Mount Everest", Volland said.</p>.<p>Specialist 3D microscope images finally made it possible to prove that the entire filament was indeed a single cell.</p>.<p>But they also helped Volland make a "completely unexpected" discovery.</p>.<p>Normally, a bacterium's DNA floats freely in the cell. But in the giant species, it is compacted in small structures surrounded by a membrane, he explained.</p>.<p>This DNA compartmentalisation is "normally a feature of human, animal and plant cells, complex organisms... but not bacteria," Volland said.</p>.<p>Future research will have to determine if these characteristics are unique to Thiomargarita magnifica, or if they can be found in other species of bacteria, Gros said.</p>
<p>You can see it with the naked eye and pick it up with a pair of tweezers -- not bad for a single bacteria.</p>.<p>Scientists say they have discovered the world's largest variety in the mangroves of Guadeloupe -- and it puts its peers to shame.</p>.<p>At up to two centimetres (three-quarters of an inch), "Thiomargarita magnifica" is not only around 5,000 times bigger than most bacteria -- it boasts a more complex structure, according to a study published in the journal Science on Thursday.</p>.<p>The discovery "shakes up a lot of knowledge" in microbiology, Olivier Gros, professor of biology at the University of the Antilles and co-author of the study, told AFP.</p>.<p>In his laboratory in the Caribbean island group city of Pointe-a-Pitre, he marvelled at a test tube containing strands that look like white eyelashes.</p>.<p>"At first I thought it was anything but a bacterium because something two centimetres (in size) just couldn't be one", he said.</p>.<p>The researcher first spotted the strange filaments in a patch of sulphur-rich mangrove sediment in 2009.</p>.<p>Techniques including electronic microscopy revealed it was a bacterial organism, but there was no guarantee it was a single cell.</p>.<p>Molecular biologist Silvina Gonzalez-Rizzo, from the same laboratory, found it belonged to the Thiomargarita family, a bacterial genus known to use sulphides to grow. And a researcher in Paris suggested they were indeed dealing with just one cell.</p>.<p>But a first attempt at publication in a scientific journal a few years later was aborted.</p>.<p>"We were told: 'This is interesting, but we lack the information to believe you'," Gros said, adding that they needed stronger images to provide proof.</p>.<p>Then a young researcher, Jean-Marie Volland, managed to study the bacterium with the Lawrence Berkeley National Laboratory, run by the University of California.</p>.<p>With financial backing and access to some of the best tools in the field, Volland and his colleagues began building up a picture of the colossal bacteria.</p>.<p>It was clearly enormous by bacterial standards -- scaled up to human proportions, it would be like meeting someone "as tall as Mount Everest", Volland said.</p>.<p>Specialist 3D microscope images finally made it possible to prove that the entire filament was indeed a single cell.</p>.<p>But they also helped Volland make a "completely unexpected" discovery.</p>.<p>Normally, a bacterium's DNA floats freely in the cell. But in the giant species, it is compacted in small structures surrounded by a membrane, he explained.</p>.<p>This DNA compartmentalisation is "normally a feature of human, animal and plant cells, complex organisms... but not bacteria," Volland said.</p>.<p>Future research will have to determine if these characteristics are unique to Thiomargarita magnifica, or if they can be found in other species of bacteria, Gros said.</p>