This engineered genome will help experts tailor organisms to fit the needs of their ever-changing environments.

Mitosis orchestrates eukaryotic cell division, maintaining genetic fidelity and playing a key role in development, tissue homeostasis, and cancer progression.

Macquarie University researchers, alongside an international team, have achieved a significant milestone in synthetic biology by completing the final chromosome of the world's first synthetic yeast ...

After more than a decade of work, researchers have reached a major milestone in their efforts to re-engineer life in the lab, ...

This study details the design and optimization of synXVI, a synthetic yeast chromosome, overcoming growth challenges through innovative genomic strategies.

Quantification and characterization of these multiple HML-2 insertions in the human chromosome has been challenging due to their size, sequence homology with each other, and their repetitive nature.

Scientists have completed construction of the final chromosome in the worlds' first ... Sc2.0 project to create the world's first synthetic eukaryotic genome from Saccharomyces cerevisiae ...

This achievement represents the completion of the global Sc2.0 project to create the world’s first synthetic eukaryotic genome ... Saccharomyces cerevisiae chromosome,” published in Nature ...

This achievement represents the completion of the global Sc2.0 project to create the world's first synthetic eukaryotic genome ... demonstrates how engineered chromosomes can be designed, built ...

This achievement represents the completion of the global Sc2.0 project to create the world's first synthetic eukaryotic genome ... demonstrates how engineered chromosomes can be designed, built ...