{"type":"video","version":"1.0","html":"<iframe src=\"https://www.loom.com/embed/7262fb1744b4447b80ddb1efc11db439\" frameborder=\"0\" width=\"1906\" height=\"1429\" webkitallowfullscreen mozallowfullscreen allowfullscreen></iframe>","height":1429,"width":1906,"provider_name":"Loom","provider_url":"https://www.loom.com","thumbnail_height":1429,"thumbnail_width":1906,"thumbnail_url":"https://cdn.loom.com/sessions/thumbnails/7262fb1744b4447b80ddb1efc11db439-cc4860cd7da0fafb.gif","duration":244.924,"title":"Heteroatom Molecule Design Tutorial: Creating Allopurinol 🧪","description":"In this tutorial, I guide you through the process of designing the heteroatom molecule allopurinol, a medication for treating high blood uric acid levels. We start by creating the base skeleton using cyclo-430-nonane, followed by adding pi bonds and substituting specific carbon atoms with nitrogen heteroatoms. I demonstrate how to add a double-bonded oxygen to complete the structure. Feel free to interact with the final molecule by dragging it around or zooming in and out. I encourage you to follow along and practice these steps to enhance your understanding of heteroatom molecule design."}