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Presented At: LabRoots - Cannabis Sciences Virtual Event 2019 Presented By: Benjamin Chiarelli - Founder and Chief Executive Officer, Cellibre Speaker Biography: Ben is the founder and CEO of Cellibre, a next-generation biotechnology company that is ushering in the next great industrial revolution by treating biology as a manufacturing technology, turning cells into specialized, sustainable factories for the manufacture of globally significant products at scale. Ben formally worked with Dr. J Craig Venter and Nobel Laureate Dr. Ham Smith as the Vice President of Corporate Development and Strategy at Synthetic Genomics (SGI) where he was responsible for defining, evolving and implementing SGI's strategy across all of its franchises. Ben joined SGI from Millennium Health, a leading medication solutions company focused on solving the opioid epidemic, where he led the strategy and corporate development efforts. Webinar: The Future of the Cannabis Supply Chain Webinar Abstract: Imagine the need for agriculture being removed completely from the cannabis supply chain. Cellibre’s vision is to leverage biology to make products more sustainable, efficiently and reliably across industries by employing the multidisciplinary science known as cellular agriculture. We leverage our expertise in cellular agriculture to turn cells into specialized, sustainable factories for the manufacture of globally significant products at scale. Cells are inherently superior producers of products for a variety of reasons. First, nature’s machinery can conduct complex reactions at nanoscale precision that are difficult and, in some cases, impossible to achieve by any other means. This ability leads to improved quality and consistency over many legacy manufacturing processes and enable the potential to develop completely novel products. Next, cells copy themselves through cellular division which serves to multiple their natural brick and mortar infrastructure, often with minimal nutrients. This means that production scales itself. In addition, cells repair themselves. Cells have natural machinery that reacts when cell production is impaired to repair the damaged parts and return to regular course. This translates into lower maintenance costs and less downtime. Lastly, cell-based production is uniquely sustainable. Cells very efficiently convert inputs, typically low cost media, into high-value products. In addition, byproducts created as a resulted of bioproduction are generally non-toxic because harmful substances would terminate the cells and stop production of all materials, including the toxins themselves. Earn PACE Credits: 1. Make sure you’re a registered member of LabRoots (https://www.labroots.com/virtual-even...) 2. Watch the webinar on YouTube or on the LabRoots Website (https://www.labroots.com/virtual-even...) 3. Click Here to get your PACE credits (Expiration date – March 27, 2021 10:30 AM): https://www.labroots.com/credit/pace-... LabRoots on Social: Facebook: / labrootsinc Twitter: / labroots LinkedIn: / labroots Instagram: / labrootsinc Pinterest: / labroots SnapChat: labroots_inc