CLSY3 (fused with a yellow fluorescent protein) is specifically expressed in the tapetal cells surrounding the germ cells. Credit: John Innes Centre CLSY3 (fused with a yellow fluorescent protein) is ...

Explore the decades-long journey to map the full human genome, from early breakthroughs to the first complete, gapless DNA ...

Scientists testing a new method of sequencing single cells have unexpectedly changed our understanding of the rules of genetics. The genome of a protist has revealed a seemingly unique divergence in ...

Clues to the genetic code’s origin may be hidden in tiny protein fragments, revealing a synchronized and highly structured ...

More than 20 years after scientists first released a draft sequence of the human genome, the book of life has been given a long-overdue rewrite. A more accurate and inclusive edition of our genetic ...

The genome has thousands of genes that code for proteins, which help carry out many of the cell's important functions. But ...

Scientists have developed an AI model capable of reading, analyzing and generating genetic code across all known domains of life—a development with vast implications for understanding human disease, ...

DNA sequencing is one of today's most critical scientific fields, powering leaps in humanity's understanding of genetic causes of cancer, neurodegenerative diseases, and diabetes. One issue facing the ...

Researchers at the University of Bristol have caught DNA-copying enzymes generating long stretches of genetic code without ...