Vibrio cholerae presents a unique model of bacterial genome organisation through its bipartite genome, comprising two distinct chromosomes that replicate in a carefully orchestrated manner. The ...

For many years, scientists have delved into human chromosomes and the DNA they carry, studying the genetic code in each cell ...

By simulating the life cycle of a minimal bacterial cell, from DNA replication to protein translation to metabolism and cell ...

By simulating the life cycle of a minimal bacterial cell—from DNA replication to protein translation to metabolism and cell ...

A study explains how broken DNA during cell division can trigger chromoanasynthesis when two repair pathways combine, causing ...

The DNA packed inside every human cell contains instructions for life, written in billions of letters of genetic code. Every time a cell divides, the complete code, divided among 46 chromosomes, must ...

A remarkably small bacterium containing fewer than 500 genes serves as the basis for one of the most detailed digital life ...

E. coli divides faster than it can replicate its genome, while simultaneously expressing its genes. Scientists recently revealed the intricate molecular coordination that makes this possible. “It’s as ...

Half a century ago, scientists Jim Watson and Alexey Olovnikov independently realized that there was a problem with how our DNA gets copied. A quirk of linear DNA replication dictated that telomeres ...