A new “find-and-replace” genome editing method enables scientists to make large-scale changes to the genetic code of a living cell, faster than previous editing technology by a factor of two. The new method could be used to engineer cells that produce new proteins, or to design genetic “firewalls” that would prevent engineered cells from spreading their DNA.
Plant and human genome researchers have uncovered myriad pathways toward understanding health and longevity, determining genes that code for things like disease tolerance and nutrient needs. A new bug gene-sequencing project aims to do the same — only the goal is to find genomic Achilles’ heels, to help people kill insects more easily.
Scientists have sequenced the genome of an ancient human for the first time. An international team extracted DNA from 4,000-year-old hair found in Greenland's permafrost. They were able to sequence an impressive 79 percent of the genetic material and shared a thing or two about this ancient Homo sapiens in this week's issue of the journal Nature.
Five amazing, clean technologies that will set us free, in this month's energy-focused issue. Also: how to build a better bomb detector, the robotic toys that are raising your children, a human catapult, the world's smallest arcade, and much more.