Computational biologists have created a neural network model capable of predicting how changes to non-coding DNA sequences in yeast affect gene expression. They also devised a unique way of ...

Computational biologists have created a neural network model capable of predicting how changes to non-coding DNA sequences in yeast affect gene expression. They also devised a unique way of ...

The remaining 99% is non-coding DNA sequences that don’t produce proteins. Some are regulatory components that work as a switchboard to control how other genes work.

Butterfly wing patterns have a basic plan to them, which is manipulated by non-coding regulatory DNA to create the diversity of wings seen in different species, according to new research.

Butterfly wing patterns have a basic plan to them, which is manipulated by non-coding regulatory DNA to create the diversity of wings seen in different species, according to new research.

This non-coding DNA is largely comprised of sequences of the four bases that make up the DNA in every cell. The four DNA bases are guanine, cytosine, thymine and adenine, forming G-C and T-A pairs.

The non-coding genome, once dismissed as "junk DNA", is now recognized as a fundamental regulator of gene expression and a key player in understanding complex diseases. Following the landmark ...

Advances in technology have enabled researchers to sequence the large regions of repetitive DNA that eluded the Human Genome Project.