|
|
|
|
|
|
|
|
Thursday,
March 24, 2005
Associated Press
WASHINGTON — For
more than a century, the study of dinosaurs has been limited to
fossilized
bones. Now, researchers have recovered 70-million-year-old soft tissue,
including what may be blood vessels and cells, from a Tyrannosaurus rex.
If
scientists
can isolate proteins from the material, they may be able to learn new
details
of how dinosaurs lived, said lead researcher Mary Higby Schweitzer of
North
Carolina State University.
"We're
doing a lot of stuff in the lab right now that looks promising," she
said
in a telephone interview. But, she said, she does not know yet if
scientists
will be able to isolate dinosaur DNA from the materials.
It
was
recovered dinosaur DNA — the blueprint for life — that was featured in
the
fictional recreation of the ancient animals in the book and film
"Jurassic
Park."
The
soft
tissues were recovered from the thighbone of a T. rex, known as MOR
1125, that
was found in a sandstone formation in Montana. The dinosaur was about
18 years
old when it died.
The
bone was
broken when it was removed from the site. Schweitzer and her colleagues
then
analyzed the material inside the bone.
"The
vessels
and contents are similar in all respects to blood vessels recovered
from ...
ostrich bone," they reported in a paper bring published Friday in the
journal Science.
Because
evidence has accumulated in recent years that modern birds descended
from dinosaurs,
[Falsified evidence - Mt. Blanco F. M.
(more on this later)] Schweitzer said she chose to compare
the dinosaur remains with those of an
ostrich, the largest bird available.
Brooks
Hanson,
a deputy editor of Science, noted that there are few examples of soft
tissues,
except for leaves or petrified wood, that are preserved as fossils,
just as
there are few discoveries of insects in amber or humans and mammoths in
peat or
ice.
Soft
tissues
are rare in older finds. "That's why in a 70-million-year-old fossil it
is
so interesting," he said.
Matthew
Carrano, curator of dinosaurs at the Smithsonian's National Museum of
Natural
History, said the discovery was "pretty exciting stuff."
"You
are
actually getting into the small-scale biology of the animal, which is
something
we rarely get the opportunity to look at," said Carrano, who was not
part
of the research team.
In
addition, he
said, it is a huge opportunity to learn more about how fossils are
made, a
process that is not fully understood.
Richard
A.
Hengst of Purdue University said the finding "opens the door for
research
into the protein structure of ancient organisms, if nothing else. While
we
think that nature is conservative in how things are built, this gives
scientists an opportunity to observe this at the chemical and cellular
level." Hengst was not part of the research team.
John
R. Horner
of the Museum of the Rockies at Montana State University, said the
discovery is
"a fantastic specimen," but probably is not unique. Other researchers
might find similarly preserved soft tissues if they split open the
bones in
their collections, said Horner, a co-author of the paper.
Most
museums,
he said, prefer to keep their specimens intact.
Schweitzer
said
that after removing the minerals from the specimen, the remaining
tissues were
soft and transparent and could be manipulated with instruments.
The
bone matrix
was stretchy and flexible, she said. Also, there were long structures
like
blood vessels. What appeared to be individual cells were visible.
She
did not
know if they were blood cells. "They are little round cells,"
Schweitzer
said.
She
likened the
process to placing a chicken bone in vinegar. The minerals will
dissolve,
leaving the soft tissues.
|
|
|
|
|
|
|
|