Nanobes

A nanobe is a tiny filamental first found in some  and s.  Some scientists  that nanobes are the smallest form of, 1/10 the size of the.

No conclusive evidence exists that these structures are, or are not, living organisms, so their classification is controversial.

The 1996 discovery of nanobes was published in 1998 by Philippa Uwins et al., from the,. They were found growing from rock samples (both full-diameter and sidewall cores) of and  sandstones, originally retrieved from an unspecified number of  wells off Australia's west coast. Depths of retrieval were between 3400 m and 5100 m below the sea bed. While Uwins et al. present assertions against it, they do not exclude the possibility that the nanobes are from a surface contaminant, not from the rock units cited.

The smallest are just 20 in diameter. Some researchers believe that these structures are growths, but the staining of these structures with dyes that bind to  might indicate that they are living organisms. They are similar to the structures found in, a found in the. Nanobes are similar in size to, which are also structures that had been proposed to be extremely small living organisms. However, these two should not be confused. Nanobacteria were thought to be cellular organisms, while nanobes are hypothesized (by some) to be a previously unknown form of life or s.

Claims

 * It is a living organism (contains or some analogue, and reproduces).
 * Has a similar to  and.
 * Nanobes are about 20 in diameter, which may be too small to contain the basic elements for an organism to exist (DNA, ribosomes, etc.), suggesting that if they grow and reproduce they would need to do so in an unconventional way.
 * The, discovered in 1984 in the , contained similar tubular structures which some  suggested could be evidence of life at an earlier time on.

Responses
A review in Microbes and Environments of the various ultra-small forms of proposed life states that the main criticism of nanobes is that they appear too small to contain the biochemical machinery needed to sustain life. The review also states that there is no evidence that nanobes are organisms in themselves and not fragments of larger organisms.

Tony Taylor was one of the authors of the original nanobe paper. He argues that the conspicuous lack of phosphorus in the X-ray spectroscopy data and the failure to find DNA using various DNA amplification techniques demonstrates that nanobes do not have any DNA or RNA. He also argues that they may have a completely different mechanism for heredity, which would account for many of their unusual chemical and physical properties.