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DNA Ötzi's non-human : patogen
oportunistik ditemukan pada jaringan biopsy Iceman
Ötzi's non-human DNA: Opportunistic pathogen discovered in Iceman tissue
biopsy
Date:
July 15,
2014
Source:
European Academy of Bozen/Bolzano
Summary:
Ötzi’s human genome was decoded from a hip bone sample
taken from the 5,300 year old mummy. However the tiny sample weighing no more
than 0.1 g provides so much more information. A team of scientists analyzed the
non-human DNA in the sample. They found evidence for the presence of Treponema
denticola, an opportunistic pathogen involved in the development of periodontal
disease.
....................
Ötzi's human genome was decoded from a hip bone sample taken
from the 5,300 year old mummy. However the tiny sample weighing no more than
0.1 g provides so much more information. A team of scientists from EURAC in
Bolzano/Bozen together with colleagues from the University of Vienna
successfully analysed the non-human DNA in the sample. They found evidence for
the presence of Treponema denticola, an
opportunistic pathogen involved in the development of periodontal disease.
Thus, by just looking at the DNA, the researchers could support a CT-based
diagnosis made last year which indicated that the Iceman suffered from
periodontitis. The results of the current study have recently been published in
the online scientific journal PLOS ONE.
Much of what
we know about Ötzi -- for example what he looked like or that he suffered from
lactose intolerance -- stems from a tiny bone sample which allowed the decoding
of his genetic make-up. Now, however, the team of scientists have examined more
closely the part of the sample consisting of non-human DNA. "What is new
is that we did not carry out a directed DNA analysis but rather investigated
the whole spectrum of DNA to better understand which organisms are in this
sample and what is their potential function," is how Frank Maixner, from
the EURAC Institute for Mummies and the Iceman in Bozen/Bolzano, described the
new approach which the team of scientists are now pursuing.
"This
'non-human' DNA mostly derives from bacteria normally living on and within our
body. Only the interplay between certain bacteria or an imbalance within this
bacterial community might cause certain diseases. Therefore it is highly
important to reconstruct and understand the bacterial community composition by
analysing this DNA mixture," said Thomas Rattei, Professor of
Bioinformatics from the Department of Microbiology and Ecosystem Science at the
University of Vienna.
Unexpectedly
the team of scientists, specialists in both microbiology as well as
bioinformatics, detected in the DNA mixture a sizeable presence of a particular
bacterium: Treponema denticola, an opportunistic pathogen involved in
the development of periodontitis. Thus this finding supports the computer
tomography based diagnosis that the Iceman suffered from periodontitis. Even
more surprising is that the analysis of a tiny bone sample can still, after
5,300 years, provide us with the information that this opportunistic pathogen
seems to have been distributed via the bloodstream from the mouth to the hip
bone. Furthermore, the investigations indicate that these members of the human
commensal oral microflora were old bacteria which did not colonise the body
after death.
Besides the
opportunistic pathogen, the team of scientists led by Albert Zink -- head of
the EURAC Institute for Mummies and the Iceman -- also detected Clostridia-like
bacteria in the Iceman bone sample which are at present most presumably in a
kind of dormant state. Under hermetically sealed, anaerobic conditions,
however, these bacteria can re-grow and degrade tissue. This discovery may well
play a significant part in the future conservation of the world-famous mummy.
"This finding indicates that altered conditions for preserving the glacier
mummy, for example when changing to a nitrogen-based atmosphere commonly used for
objects of cultural value, will require additional micro-biological
monitoring," explained the team of scientists who will now look closer at
the microbiome of the Iceman.
Story
Source:
The above
story is based on materials provided by European Academy of Bozen/Bolzano. Note: Materials may be edited
for content and length.
Journal
Reference:
- Frank Maixner, Anton Thomma, Giovanna Cipollini, Stefanie Widder, Thomas Rattei, Albert Zink. Metagenomic Analysis Reveals Presence of Treponema denticola in a Tissue Biopsy of the Iceman. PLoS ONE, 2014; 9 (6): e99994 DOI: 10.1371/journal.pone.0099994
