KAIST researchers have discovered a molecular switch that can revert cancer cells back to normal by capturing the critical ...

This important study demonstrates the potential of synthetic gene circuits to detect and target aberrant RAS activity in cancer cell lines. The circuit design is novel and the evidence supporting the ...

A new study has uncovered a previously unknown plastome structural variation in the variegated plant Dianella tasmanica, ...

"Our phone conversation sounded like a price negotiation in the final hour of a flea market as I bargained for my old ...

New research found that high levels of ‘good cholesterol’ in the blood were associated with an increased risk of glaucoma, an ...

Professor Kwang-Hyun Cho's research team of the Department of Bio and Brain Engineering at KAIST has captured the critical ...

Simultaneous profiling of the genome, methylome, epigenome and transcriptome using single-molecule chromatin fiber sequencing and multiplexed arrays isoform sequencing identifies the genetic and ...

DNA (deoxyribonucleic acid), the molecular "blueprint" carrying the genetic instructions that influence the growth, ...

Researchers at Hokkaido University have developed a new computational tool to help evolutionary biologists analyze complex genetic data to reconstruct the evolutionary history of species and the ...

Scientists from a collaboration of Australian research institutions have proposed that editing multiple genetic variants in human embryos could significantly lower the likelihood of developing ...

Their findings, published in Nature Aging, describe a never-before-seen link between the two most accepted explanations: random genetic mutations and predictable epigenetic modifications.