Researchers identified a maize mutant, ven2, with impaired sucrose metabolism, leading to changes in protein accumulation. The study highlights the ...

For decades, the dream of fixing harmful mutations in mitochondrial DNA felt out of reach. Scientists have long known these ...

Researchers report that eight healthy babies were born with the help of an experimental technique that uses DNA from three ...

This AI system can analyze up to one million DNA letters at once, predicting how tiny changes in noncoding regions trigger ...

Gene editing technologies—such as those used in agriculture and de-extinction projects—can be repurposed to offer what an ...

Eight children have been born in the UK using genetic material from three people, which appears to have prevented them from developing serious genetic conditions ...

A new international study suggests that ancient viral DNA embedded in our genome, which were long dismissed as genetic "junk, ...

A gene called SDR42E1 has been identified as a key player in how our bodies absorb and process vitamin D. Researchers found that disabling this gene in colorectal cancer cells not only crippled their ...

Lab study findings increase understanding of the molecular mechanisms underpinning vitamin D deficiency and highlight SDR42E1 ...

A research team uncovers a crucial molecular pathway by which sucrose, long known as a key energy source, also acts as a ...

This study reports the important development and characterization of next-generation analogs of the molecule AA263, which was previously identified for its ability to promote adaptive ER proteostasis ...

Recent advances in genome-editing technologies have unlocked the potential to directly correct pathogenic genetic mutations.