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Deirdre Lockwood, "Flexible fossil shows tyrannosaur's softer side" (2005)
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Published online: 24 March 2005; |
doi:10.1038/news050321-13
Flexible fossil shows tyrannosaur's softer side
Deirdre Lockwood
Preserved soft tissue could reveal
inner workings of dinosaur bones.
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The discovery offers a valuable glimpse
at Tyrannosaurus rex's biology.
© Alamy
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A thigh bone from a
70-million-year-old Tyrannosaurus rex has given fossil
experts an unexpected treasure: well-preserved soft tissue. The
stretchy material, which may contain the remnants of blood vessels
and cells, could shed light on how dinosaurs' bodies worked.
Although palaeontologists have
had plenty of bones with which to work, they have struggled to find
relics of the muscles, organs and blood vessels that once kept
giants like T. rex on the move. These soft tissues decay
quickly and are rarely fossilized.
So far, the best view inside
dinosaurs has come from rocky fossils that preserve the shape of the
original tissue. Even these finds are extremely rare, as they are
only produced when minerals replace these soft parts or fill in the
cavities they leave after decaying.
This is not something I ever dreamed
I'd see. |
Mary
Schweitzer
North Carolina State University,
Raleigh, North Carolina |
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Now, however, researchers have
got their hands on the real thing. The fossil was unearthed in
Montana by a team led by Mary Schweitzer of North Carolina State
University in Raleigh.
"I've spent my career trying to
recover itty-bitty pieces of original proteins," Schweitzer says.
"This is certainly not something I ever dreamed I'd see." The
researchers report their discovery in Science
1.
Bred in the bone
Most palaeontologists don't look
inside bones, in fact, they do their best to keep them intact. But
Schweitzer and her colleague Jack Horner, of the Museum of the
Rockies in Bozeman, Montana, prefer to think of them as 'wrapping
paper' for the once-living material inside.
To isolate the soft tissue lining
the bone's marrow cavity, they co-opted a technique used to study
modern bone. Schweitzer likens it to sticking a chicken bone in
vinegar: the hard, calcium-containing component dissolves, leaving a
supple matrix behind.
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After stripping away the bone's hard
minerals, the white fibrous matrix can be seen.
© Science
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From this matrix, the treatment
released translucent vessels that floated freely in solution. They
were spotted with small, red-brown dots that may be nuclei of the
cells that formed the vessel.
Inside the vessels, the
researchers found tiny structures that look like bone cells, called
osteocytes. Surprisingly, they resembled cells from modern ostrich
bone, right down to details such as the oval shape of the putative
nuclei, and flexible extensions from the cell membrane that are used
to exchange waste.
Schweitzer intends to analyse the
sample to find out exactly what it comprises. Although the seeming
cells and blood vessels are organic, the researchers don't know
whether they represent the original material or a new type of
fossilization that has not been seen before.
If they could sequence actual
protein fragments from the sample, the researchers could learn much
more about how dinosaurs are related to modern animals, especially
birds. They might even find out whether T. rex was warm- or
cold-blooded.
Age-old riddle
Tissues from other ancient
organisms, such as insects trapped in amber, have been discovered
almost intact. But Schweitzer and her colleagues still don't know
how this dinosaur tissue has remained so well preserved for so
long.
It is
possible that other ancient vertebrate fossils could contain soft
tissue, potentially paving the way for comparisons between species,
says Derek Briggs, an expert on exceptionally preserved fossils at
Yale University in New Haven, Connecticut. "This sort of information
becomes a lot more significant if there's a chance of finding it for
a range of different types of dinosaurs and fossil vertebrates," he
says.
Schweitzer is reluctant to say
whether she is attempting to isolate DNA from the tissue. But could
such work lead to the recreation of dinosaurs, in the style of the
Hollywood blockbuster Jurassic Park? DNA cannot survive that long,
says Briggs, "My answer would be an emphatic no."
References
- Schweitzer M. H., Wittmeyer J. L.,
Horner J. R. & Toporski J. K. et al.
Science,307. 1952 - 1955 (2005). | Article | PubMed |
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