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

A method for genetically barcoding Drosophila is developed and used to tag defined cell populations in vivo for single-cell transcriptomics experiments and to enable multiplexed behavioral analysis.

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, ...

How cells respond to mitochondrial DNA (mtDNA) damage is not fully understood. This study uncovers a mechanism of mtDNA ...

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

Microbial factories provide a sustainable alternative to tree sap for producing elusive plant molecules, offering new ...

State Key Laboratory of Microbial Metabolism, Joint International Research Laboratory of Metabolic & Developmental Sciences, School of Life Sciences and Biotechnology, Shanghai Jiao Tong University, ...

The completion of chromosome synXVI allows scientists to explore new possibilities in metabolic engineering and strain optimization.

Scientists led by a Macquarie University team have completed construction of the final chromosome in the worlds’ first synthetic yeast genome following more than a decade of work, opening new ...