Fully sequenced deer genome made publicly available – Phys.Org

Posted: June 5, 2017 at 6:54 am

June 5, 2017

Researchers at Baylor College of Medicine have played a leading role in sequencing the whole genome of the common white-tailed deer, which has recently been made public by the National Center for Biotechnology Information.

The deer genome has the potential to provide insights into bone behavior, more specifically how deer are able to regenerate and repair bone after it is lost or damaged.

"We are hoping that by understanding the deer genome in greater detail, we will be able to better consider how to approach and treat bone-related illnesses and disease, such as osteoporosis," said Dr. Brendan Lee, chair of the Department of Molecular and Human Genetics at Baylor. "For example, antler growth each season is an example of the fastest and largest regenerating organ in nature."

By allowing the deer genome to be publicly accessible to researchers around the world, the NCBI is fostering collaboration among institutions when faced with solving complex cases or unidentified genetic conditions.

"Sharing data is incredibly important in developing therapies for bone disease," added Lee, who also holds the Robert and Janice McNair Endowed Chair and Professor in Molecular and Human Genetics.

Explore further: Notch1 and osteoblasts play role in bone cancer initiation

(Medical Xpress)A new mouse model of osteogenic sarcoma, a potentially deadly form of bone cancer, shows that high levels of Notch1, a gene that helps determine cell fate, can drive osteoblasts (cells that normally lead ...

Endangered deer in the Florida Keys are no longer receiving anti-parasite medication to protect against flesh-eating screwworms.

On first glance, Yakushima Island in Japan and Dorchester County, Maryland, wouldn't appear to have a lot in common, but a closer ecological look reveals one stark similarity: both are home to populations of sika deer.

A team of researchers in Seoul, Korea have reported finding evidence that deer antlers - unique in that they regenerate annually - contain multipotent stem cells that could be useful for tissue regeneration in veterinary ...

With the ability to use next generation sequencing technology, researchers have a broadened understanding of the association of genetic changes and disease causation to a much greater resolution, driving new discoveries, ...

A new study shows that deer species capable of building and shedding their antlers already existed about 20 to 15 million years ago, in the Miocene. The finding sheds new light on the evolution of deer.

The DNA vital to the life of a cell is packaged in chromosomes, and a variety of checkpoints, repair mechanisms, and other cellular safeguards exist to maintain the integrity of the chromosomes during cell growth and division. ...

Scientists are now confident animal life on solid ground started with a few short bursts of marine creatures making the leap from the oceans.

Scientists have watched a cell's genetic machinery in the first stages of 'reading' genes, giving a potential way to stop the process in bacteria.

As the United Nations Oceans Conference convenes in New York, a new paper calls on marine scientists to focus on social issues such as human rights violations in the seafood industry.

Passing skills down through the generations, previously thought to be unique to humanity, has been discovered in chimpanzees.

The flightless cormorant is one of a diverse array of animals that live on the Galapagos Islands, which piqued Charles Darwin's scientific curiosity in the 1830s. He hypothesized that altered evolutionary pressures may have ...

Please sign in to add a comment. Registration is free, and takes less than a minute. Read more

Read this article:
Fully sequenced deer genome made publicly available - Phys.Org

Related Posts