Scientists are exploring how DNA’s physical structure can store vast amounts of data and encode secure information.

In today’s rapidly evolving scientific landscape, eliminating barriers to progress is more critical than ever. Precision medicine and targeted therapies hold great promise but are dependent on the ...

New collaboration empowers customers with sequence-perfect constructs as long as50 kb Integrated DNA Technologies (IDT), a Danaher company and a global leader in genomics, and Ansa Biotechnologies, ...

DNA, the blueprint of life, is best known for its fundamental role as genetic material—storing and transmitting biological information through the precise sequence of its bases. For decades, this ...

In a remarkable fusion of biology and technology, a DNA-based computer that performs effectively has been created by scientists. This innovative breakthrough promises to redefine the boundaries of ...

Australian scientists have discovered that DNA barcoding can be used to track cancer cells in solid and liquid biopsies, empowering future research into more reliable breast cancer diagnosis and ...

Since the dawn of the computer age, researchers have wrestled with two persistent challenges: how to store ever-increasing ...

Over the past two decades, researchers have learned that DNA inside the cell nucleus naturally folds into a network of ...

For decades, the central dogma of molecular biology—DNA makes RNA, RNA makes protein, protein makes phenotype—was the guiding framework for understanding inheritance and disease. This model explained ...

While the central dogma of molecular biology outlines the linear flow of genetic information from DNA to RNA to proteins (black lines), glycomics introduces a “3rd code of life”—glycans—that operates ...