{"href":"https://api.simplecast.com/oembed?url=https%3A%2F%2Ftranslation.simplecast.com%2Fepisodes%2Fnew-crispr-new-function-with-leo-vo-4Su0YWR1","width":444,"version":"1.0","type":"rich","title":"New CRISPR, New Function with Leo Vo ","thumbnail_width":300,"thumbnail_url":"https://image.simplecastcdn.com/images/09cb9aea-ab39-4c4f-a0c3-746a022b8798/c8979e42-b28e-4d4a-a079-b0753179e2a3/podcast-cover-3000px.jpg","thumbnail_height":300,"provider_url":"https://simplecast.com","provider_name":"Simplecast","html":"<iframe src=\"https://player.simplecast.com/188c4c39-48c0-4de4-b258-ceb9562372ef\" height=\"200\" width=\"100%\" title=\"New CRISPR, New Function with Leo Vo \" frameborder=\"0\" scrolling=\"no\"></iframe>","height":200,"description":"In a single decade, CRISPR has made a dramatic impact on literally every facet of biotechnology. This game-changing system is traditionally programmed to make cuts at very specific parts of the genome, altering the code to cure disease. But a new class of CRISPRs discovered by Leo’s colleagues don’t simply cut DNA -- they integrate entirely new genetic material at targeted locations. With it, Leo generates a new method to perform very specific and highly efficient genome engineering on bacteria and describes the multitude of ways it can generate strains that revolutize commodity molecule synthesis and medicine.\n"}