Nanobacterium

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Structures found on meteorite fragment Allan Hills 84001

Nanobacterium (NAH-no-bak-TEER-ee-əm, pl. nanobacteria NAH-no-bak-TEER-ee-uh) is the unit or member name of a proposed class of living organisms, specifically cell-walled microorganisms with a size much smaller than the generally accepted lower limit for life (about 200 nm for bacteria, like mycoplasma). Originally based on observed nano-scale structures in geological formations (including one meteorite), the status of nanobacteria has been controversial, with some researchers suggesting they are a new class of living organism^[1][2] capable of incorporating radiolabeled uridine,^[3] and others attributing to them a simpler, abiotic nature.^[4][5] One skeptic dubbed them "the cold fusion of microbiology", in reference to a notorious episode of supposed erroneous science.^[6] The term "calcifying nanoparticles" (CNPs) has also been used as a conservative name regarding their possible status as a life form.

Research tends to agree that these structures exist, and appear to replicate in some way.^[7] However, the idea that they are living entities has now largely been discarded, and the particles are instead thought to be nonliving crystallizations of minerals and organic molecules.^[8]

1981–2000

In 1981 Torella and Morita described very small cells called ultramicrobacteria. Defined as being smaller than 300 nm, by 1982 MacDonell and Hood found that some could pass through a 200 nm membrane. Early in 1989, geologist Robert L. Folk found what he later identified as nannobacteria (written with double "n"), that is, nanoparticles isolated from geological specimens^[9] in travertine from hot springs of Viterbo, Italy. Initially searching for a bacterial cause for travertine deposition, scanning electron microscope examination of the mineral where no bacteria were detectable revealed extremely small objects which appeared to be biological. His first oral presentation elicited what he called "mostly a stony silence", at the 1992 Geological Society of America's annual convention.^[10] He proposed that nanobacteria are the principal agents of precipitation of all minerals and crystals on Earth formed in liquid water, that they also cause all oxidation of metals, and that they are abundant in many biological specimens.^[10]

In 1996, NASA scientist David McKay published a study suggesting the existence of nanofossils — fossils of Martian nanobacteria — in ALH84001, a meteorite originating from Mars and found in Antarctica.^[11]

Nanobacterium sanguineum was proposed in 1998 as an explanation of certain kinds of pathologic calcification (apatite in kidney stones) by Finnish researcher Olavi Kajander and Turkish researcher Neva Ciftcioglu, working at the University of Kuopio in Finland. According to the researchers the particles self-replicated in microbiological culture, and the researchers further reported having identified DNA in these structures by staining.^[12]

A paper published in 2000 by a team led by an NIH scientist John Cisar further tested these ideas. It stated that what had previously been described as "self-replication" was a form of crystalline growth. The only DNA detected in his specimens was identified as coming from the bacteria Phyllobacterium mysinacearum, which is a common contaminant in PCR reactions.^[4]

2001–present

In 2004 a Mayo Clinic team led by Franklin Cockerill, John Lieske, and Virginia M. Miller, reported to have isolated nanobacteria from diseased human arteries and kidney stones. Their results were published in 2004 and 2006 respectively.^[3][13] Similar findings were obtained in 2005 by László Puskás at the DNA Lab, University of Szeged, Hungary. Dr. Puskás identified these particles in cultures obtained from human atherosclerotic aortic walls and blood samples of atherosclerotic patients but the group was unable to detect DNA in these samples.^[14]

In 2005, Ciftcioglu and her research team at NASA used a rotating cell culture flask, which simulates some aspects of low-gravity conditions, to culture nanobacteria suspected of rapidly forming kidney stones in astronauts. In this environment, they were found to multiply five times faster than in normal Earth gravity. The study concluded that nanobacteria might have a potential role in forming kidney stones and may need to be screened for in crews pre-flight.^[15]

The February 2008 PLoS Pathogens article focused on the comprehensive characterization of nanobacteria. The authors say that their results rule out the existence of nanobacteria as living entities and that they are instead a unique self-propagating entity, namely self-propagating mineral-fetuin complexes.^[16]

An April 2008 PNAS article also reported that blood nanobacteria are not living organisms and stated that "CaCO₃ precipitates prepared in vitro are remarkably similar to purported nanobacteria in terms of their uniformly sized, membrane-delineated vesicular shapes, with cellular division-like formations and aggregations in the form of colonies."^[5] The growth of such "biomorphic" inorganic precipitates was studied in detail in a 2009 Science paper, which showed that unusual crystal growth mechanisms can produce witherite precipitates from barium chloride and silica solutions that closely resemble primitive organisms.^[17] The authors commented on the close resemblance of these crystals to putative nanobacteria, stating that their results showed that evidence for life cannot rest on morphology alone.

See also

• Protocell
• Prion — smallest known infectious agent (≈10 nm)
• Parvovirus — smallest known viruses (18-28 nm)
• Nanobe — possible smallest lifeforms (20 nm)
• Ultramicrobacteria — possible dormant forms of larger cells (200 nm)
• Mycoplasma — smallest known bacteria (300 nm)
• Nanoarchaeum — smallest known archaeum (400 nm)
• Pandoravirus — one of the largest known viruses (1000 nm)
• Pithovirus — largest known virus (1500 nm)

References

External links

• Nanobacteria: Facts or Fancies?
• From Scum, Perhaps the Tiniest Form of Life, NY Times December 23, 2006
• Abstract: American Journal Physiology — Heart and Circulatory Physiology May 13, 2004
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• Are Nanobacteria Making Us Ill?, Wired News, Mar. 14, 2005
• Claim made for new form of life, BBC News, May 19, 2004
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• Infectious Microorganism Linked to Kidney Stones and other Diseases, February 2005
• Nannobacteria Research Page of the Department of Geosciences, Mississippi State University
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• New Scientist article about nanobacteria
• The Calcium Bomb — The Nanobacteria Link to Heart Disease and Cancer
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• The Time Travelers Academy, a science fiction novel; it tells a story about the nanobacteria found in Martian meteorites.
• Nannobacteria Research associated with Robert Folk.
• The Rise and Fall of Nanobacteria; January 2010; Scientific American Magazine; by John D. Young; Jan Martel; 8 Pages.
• [1] Selected publications of Robert L. Folk on nanobacteria
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