For a carbon-neutral bioeconomy, processes are needed that can efficiently capture CO2 and convert it into valuable products.

The agriculture sector faces significant challenges due to increasing biotic and abiotic stresses that severely threaten the quality and quantity of crop ...

A team of researchers from Jiangnan University in China has developed a modified fungus that tastes like meat while also ...

Microbial systems are no longer confined to classical fermentation. In the face of global sustainability challenges, these ...

Terpenoids are among the most pharmacologically valuable plant metabolites, yet their biosynthetic gene clusters in Euphorbiaceae have remained largely unexplored. This study establishes a ...

Engineering remains a popular field for students in India. Historically, there were only a handful of engineering branches, ...

An octopus's mesmerizing skin can flit from orange to red in the blink of an eye, partly thanks to a natural pigment called xanthommatin. Scientists have long been intrigued by the chemical’s ...

Engineering has always been a top choice for students in India. While there were only 5 to 6 main branches of engineering in the past, today there are more than 40 different types of engineering ...

Scientists build a synthetic metabolism that converts CO2-derived formate into valuable chemicals outside living cells.

Natural biological systems cannot efficiently convert waste CO₂ or its derivatives into useful building-block chemicals at a scale that can keep pace with rising atmospheric carbon. Engineer a fully ...

Three early-career scientists who recently completed their PhDs at Northwestern have been named Chicago Biomedical Consortium ...

In a breakthrough that defies nature, Northwestern University and Stanford University synthetic biologists have created a new ...