This research introduces a novel method for inferring DNA methylation patterns in non-skeletal tissues from ancient specimens, providing new insights into human evolution. As DNA methylation is a ...
Research published in Nature Ecology & Evolution introduces a novel method for inferring DNA methylation patterns in non-skeletal tissues from ancient specimens, providing new insights into human ...
Developing reliable methods to replace dead or damaged tissue is one of the primary goals of regenerative medicine. With ...
Skeletal muscle tissue demonstrates global hypermethylation with aging. However, methylome changes across the time-course of ...
Connective tissues consist of ligaments, cartilage and tendons. A joint is held together by ligaments which give the joints their stability. Cartilage is found at the ends of bones and where ...
Patients with degenerative diseases that attack skeletal muscle tissues, such as Duchenne muscular dystrophy, may soon benefit from novel stem cell therapies. A study has demonstrated how new ...
A new study introduces a method to infer DNA methylation patterns in non-skeletal tissues from ancient DNA, offering insights ...
Developing reliable methods to replace damaged tissue remains a central goal in tissue engineering and regenerative medicine.
It has been demonstrated in animal studies that antifibrotic agents that inactivate transforming growth factor (TGF)-β1 have been effective at decreasing scar tissue formation. Several studies have ...