Why mutation is not as random as we thought

Challenging the dogma of gene evolution, and how chiral nanoparticles could give vaccines a boost.In this episode:00:45 Genome mutations may be less random than previously thoughtA long-standing doctrine in evolution is that mutations can arise anywhere in a genome with equal probability. However, new research is challenging this idea of randomness, showing that mutations in the genome of the plant Arabidosis thaliana appear to happen less frequently in important regions of the genome.Research article: Munroe et al.News and Views: Important genomic regions mutate less often than do other regions13:45 Research HighlightsHow hallucinogenic beer helped cement an ancient superpower’s control, and a surprisingly enormous colony of breeding fish.Research Highlight: Drug-fuelled parties helped ancient Andean rulers to hold powerResearch Highlight: Vast fish breeding colony is more than twice the size of Paris16:11 How a left-handed nanoparticle could give vaccines a boostThe chirality of a molecule – whether it has a left- or right-handed orientation – can have significant impacts on how it works. This week, a team show that left-handed gold nanoparticles can stimulate the immune system of mice, and boost the activity of a flu vaccine.Research article: Xu et al.News and Views: Nanoparticle asymmetry shapes an immune response23:04 Briefing ChatWe discuss some highlights from the Nature Briefing. This time, Tasmanian devils’ discerning diets break...
Source: Nature Podcast - Category: Science Authors: Source Type: podcasts