{"href":"https://api.simplecast.com/oembed?url=https%3A%2F%2Fspeaking-of-mol-bio.simplecast.com%2Fepisodes%2Fhow-rca-supercharges-ngs-library-prep-hH_WbKtc","width":444,"version":"1.0","type":"rich","title":"How RCA supercharges NGS library prep","thumbnail_width":300,"thumbnail_url":"https://image.simplecastcdn.com/images/7a191b39-13c9-4374-8a06-b81bf2ca67b4/1b016617-4299-4f96-8046-97d0dcf2e611/s3e24-molecular-20biology-20mini-20podcast-final-laurynas-20alijos-cc-8cius.jpg","thumbnail_height":300,"provider_url":"https://simplecast.com","provider_name":"Simplecast","html":"<iframe src=\"https://player.simplecast.com/768e1345-c091-4ef7-846f-221976ebd3df\" height=\"200\" width=\"100%\" title=\"How RCA supercharges NGS library prep\" frameborder=\"0\" scrolling=\"no\"></iframe>","height":200,"description":"Rolling Circle Amplification (RCA) is an isothermal technique that offers high-yield, primer-free DNA amplification, perfect for circular DNA and low-input samples. In this episode, Laurynas Alijošius explains how RCA fits into the pre-NGS workflow and how new engineered polymerases are improving speed, fidelity, and sensitivity. "}