SynBioBeta Speaker
Leonardo Magneschi
Ingenza
VP Research & Tech Dev.
Dr. Leonardo Magneschi holds a PhD in Plant and Microbial Biotechnology and has over 15 years’ experience in microbiology and the genetic engineering of alternative hosts for the recombinant expression of challenging proteins. He currently leads an integrated team of molecular biologists, bioprocess development scientists, and analytical chemists, advancing world-class biotechnology solutions across agritech, pharmaceuticals, consumer products, biofuels, food and beverages, and renewable materials. Leonardo joined Ingenza in 2016 and, in his role as Vice President of Research and Technology Development, strategically advances the company’s biotechnology platform. He has authored 17 peer-reviewed publications and is listed as an inventor on five international patents.
SynBioBeta 2026 Tickets are Live
Confirmed Speakers
Sessions Featuring
Leonardo
This Year
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Biomanufacturing
inGenius®: Engineering Biology Beyond the Hype
For 20+ years, the synthetic biology community has generated breakthrough targets, but too many continue to stall at the same choke points: freedom-to-operate, productivity, process robustness, CMC readiness, and the leap from “works in the lab” to “works at scale.” In this lightning talk, Ingenza will share how we’ve repeatedly helped teams cross that valley of death, turning innovative discoveries into manufacturable realities across industrial biotech and therapeutics. We’ll spotlight our inGenius® platform: a proven panel of high-performing microbial and mammalian production hosts paired with AI/ML-driven enzyme discovery and gene design optimisation (codABLE®), scalable upstream and downstream platform process workflows, and a comprehensive suite of high-end analytical tools that accelerate and de-risk the path from early discovery to market readiness. Powered by 20+ years of successful delivery, expect rapid, real, case study driven lessons from the front lines: what fails most often, what fixes it fastest, and how to design with manufacturability from day one without slowing innovation. If you’re engineering biology to improve human health or the planet, this talk is your shortcut to faster timelines and better outcomes that help SynBio move at the speed it promises.
Get a Ticket
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Biomanufacturing
inGenius®: Engineering Biology Beyond the Hype
For 20+ years, the synthetic biology community has generated breakthrough targets, but too many continue to stall at the same choke points: freedom-to-operate, productivity, process robustness, CMC readiness, and the leap from “works in the lab” to “works at scale.” In this lightning talk, Ingenza will share how we’ve repeatedly helped teams cross that valley of death, turning innovative discoveries into manufacturable realities across industrial biotech and therapeutics. We’ll spotlight our inGenius® platform: a proven panel of high-performing microbial and mammalian production hosts paired with AI/ML-driven enzyme discovery and gene design optimisation (codABLE®), scalable upstream and downstream platform process workflows, and a comprehensive suite of high-end analytical tools that accelerate and de-risk the path from early discovery to market readiness. Powered by 20+ years of successful delivery, expect rapid, real, case study driven lessons from the front lines: what fails most often, what fixes it fastest, and how to design with manufacturability from day one without slowing innovation. If you’re engineering biology to improve human health or the planet, this talk is your shortcut to faster timelines and better outcomes that help SynBio move at the speed it promises.
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Session lineup still growing
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Featuring
Speaker Coming Soon
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Human Health
From Cells to Patients: Solving the Scale Mismatch in Virtual Biology
Drug discovery often measures biology at the cell level while interventions work at the tissue, organ, or whole-patient scale. This mismatch can make accurate cell-level predictions irrelevant in the clinic. This session dives into strategies to bridge that gap: multiscale modeling that nests single-cell dynamics within organ-level simulations, spatial transcriptomics that preserve context, and surrogate models that translate cell-level outputs into clinical biomarkers. Speakers will ask: how do we ensure virtual biology reflects not just what cells do in isolation, but how biology behaves in the real complexity of patients?
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Featuring
Speaker Coming Soon
