Scientists Have Grown "Dinosaur Legs" on a Chicken For The First Time
Until very recently, one of the biggest
myths in science was that all dinosaurs have been extinct for the past
65 million years. But thanks to new fossil discoveries that filled in
our knowledge about avian dinosaurs, we now know that only some dinosaurs went extinct following an asteroid collision with Earth - others survived and gave rise to the birds we live with today.
To figure out how this evolution
occurred, researchers in Chile have manipulated the genes of regular
chickens so they develop tubular, dinosaur-like fibulas on their lower
legs - one of the two long, spine-like bones you’ll find in a drumstick.
In avian dinosaurs such as the Archaeopteryx,
the fibula was a tube-shaped bone that reached all the way down to the
ankle. Another bone, the tibia, grew to a similar length alongside it.
As evolution progressed through to a group of avian dinosaurs known as the Pygostylians, the
fibula became shorter than the tibia, and sharper and more
splinter-like towards the end, and it no longer reached the ankle.
While
modern bird embryos still show signs of developing long, dinosaur-like
fibulae, as they grow, these bones become shorter, thinner, and also
take on the splinter-like ends of the Pygostylian bones, and never make
it far enough down to the leg to connect with the ankle.
Researchers
led by Joâo Botelho from the University of Chile decided to investigate
how this transition from a long, tubular fibula in dinosaurs to a
short, splinter-like fibula in birds actually came to be.
They
achieved this by inhibiting the expression of a gene called IHH or
Indian Hedgehog (seriously), which saw their chickens continue to grow
the long, dinosaur-like fibulae that originated in their embryonic
form.
In doing so, the team
discovered something bizarre. Regular bone development sees cell
division and therefore growth halt in the shaft long before the ends
stop growing, but in modern chickens, the growth of the fibula halts
first at the ends. This means the fibulae of modern chickens are
actively blocked from reaching the lengths of their ancient relatives’
bones.
Publishing their observations in the journal Evolution,
the researchers suggest that the early maturation of the lower end of
the fibula in modern chickens is prompted by a bone in the ankle, called
the calcaneum.
"Unlike other animals, the calcaneum in bird embryos presses against the lower end of the fibula," the team explains in a press release. "They are so close, they have even been mistaken for a single element by some researchers."
The
team suggests that in regular chickens, interactions between the
calcaneum and the end of the fibula result in signals that are similar
to the ones that prompt the bone shaft to stop growing, preventing the
fibula from reaching anywhere near the ankle bone.
But
when the Indian Hedgehog gene was turned off, the calcaneum strongly
expresses the gene Parathyroid-related protein (PthrP), which allows for
growth at the ends of bones. This caused their chickens to grow long
fibulae that connected with the ankle, just like they would in the Archaeopteryx.
"Experimental downregulation of IHH signalling at a postmorphogenetic stage led to a tibia and fibula of equal length," the team writes in the report. "The fibula is longer than in controls and fused to the fibulare, whereas the tibia is shorter and bent."
Unfortunately,
the 'dino-chickens' did not make it to the hatching stage, but the
point of the research wasn't to raise them into adulthood, but to figure
out the biological processes that led to the transition from dinosaur
legs to modern bird legs.
"The experiments are focused on single traits to test specific hypotheses," one of the team, Alexander Vargas, explains. "Not
only do we know a great deal about bird development, but also about the
dinosaur-bird transition, which is well-documented by the fossil
record. This leads naturally to hypotheses on the evolution of
development, that can be explored in the lab."
This isn't the first time dinosaur traits have been 'recreated' in modern chickens. Last year, the same team achieved the growth of dinosaur-like feet on their chickens, and a separate team in the US managed to grow a dinosaur-like 'beak' on its chicken embryos. Watch below to see how lead researcher and renowned palaeontologist, Jack Horner, managed to do it:
Nenhum comentário:
Postar um comentário
Observação: somente um membro deste blog pode postar um comentário.