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Analisis genom Kura-kura pada
evolusi keturunan dan shell
Turtle genome analysis sheds light on turtle ancestry and shell evolution
Date:
April 28,
2013
Source:
RIKEN
Summary:
From which ancestors have turtles evolved? How did
they get their shell? New data provides evidence that turtles are not primitive
reptiles but belong to a sister group of birds and crocodiles. The work also
sheds light on the evolution of the turtle’s intriguing morphology and reveals
that the turtle’s shell evolved by recruiting genetic information encoding for
the limbs.
..........................
From which ancestors have turtles evolved? How did they get
their shell? New data provided by the Joint International Turtle Genome
Consortium, led by researchers from RIKEN in Japan, BGI in China, and the
Wellcome Trust Sanger Institute in the UK provides evidence that turtles are
not primitive reptiles but belong to a sister group of birds and crocodiles.
The work also sheds light on the evolution of the turtle's intriguing
morphology and reveals that the turtle's shell evolved by recruiting genetic
information encoding for the limbs.
Turtles are
often described as evolutionary monsters, with a unique body plan and a shell
that is considered to be one of the most intriguing structures in the animal
kingdom.
"Turtles
are interesting because they offer an exceptional case to understand the big
evolutionary changes that occurred in vertebrate history," explains Dr.
Naoki Irie, from the RIKEN Center for Developmental Biology, who led the study.
Using
next-generation DNA sequencers, the researchers from 9 international
institutions have decoded the genome of the green sea turtle and Chinese
soft-shell turtle and studied the expression of genetic information in the
developing turtle.
Their
results published in Nature Genetics show that turtles are not primitive
reptiles as previously thought, but are related to the group comprising birds
and crocodilians, which also includes extinct dinosaurs. Based on genomic
information, the researchers predict that turtles must have split from this
group around 250 million years ago, during one of the largest extinction events
ever to take place on this planet.
"We
expect that this research will motivate further work to elucidate the possible
causal connection between these events," says Dr. Irie.
The study
also reveals that despite their unique anatomy, turtles follow the basic
embryonic pattern during development. Rather than developing directly into a
turtle-specific body shape with a shell, they first establish the vertebrates'
basic body plan and then enter a turtle-specific development phase. During this
late specialization phase, the group found traces of limb-related gene
expression in the embryonic shell, which indicates that the turtle shell
evolved by recruiting part of the genetic program used for the limbs.
"The
work not only provides insight into how turtles evolved, but also gives hints
as to how the vertebrate developmental programs can be changed to produce major
evolutionary novelties." explains Dr. Irie.
Another
unexpected finding of the study was that turtles possess a large number of
olfactory receptors and must therefore have the ability to smell a wide variety
of substances. The researchers identified more than 1000 olfactory receptors in
the soft-shell turtle, which is one of the largest numbers ever to be found in
a non-mammalian vertebrate.
Story
Source:
The above
story is based on materials provided by RIKEN. Note: Materials may be edited
for content and length.
Journal
Reference:
- Zhuo Wang, Juan Pascual-Anaya, Amonida Zadissa, Wenqi Li, Yoshihito Niimura, Zhiyong Huang, Chunyi Li, Simon White, Zhiqiang Xiong, Dongming Fang, Bo Wang, Yao Ming, Yan Chen, Yuan Zheng, Shigehiro Kuraku, Miguel Pignatelli, Javier Herrero, Kathryn Beal, Masafumi Nozawa, Qiye Li, Juan Wang, Hongyan Zhang, Lili Yu, Shuji Shigenobu, Junyi Wang, Jiannan Liu, Paul Flicek, Steve Searle, Jun Wang, Shigeru Kuratani, Ye Yin, Bronwen Aken, Guojie Zhang, Naoki Irie. The draft genomes of soft-shell turtle and green sea turtle yield insights into the development and evolution of the turtle-specific body plan. Nature Genetics, 2013; DOI: 10.1038/ng.2615
