Tevard Biosciences and Zogenix Collaborates to Identify and Develop Novel tRNA-based Gene Therapies for Dravet Syndrome and other Genetic Epilepsies

Tevard Biosciences | December 04, 2020

Tevard Biosciences, a privately-held biotechnology organization pioneering tRNA-based gene therapies, and Zogenix, a worldwide biopharmaceutical organization creating and commercializing uncommon infection treatments, today reported that the organizations have gone into a cooperation to recognize and create novel tRNA-based quality treatments for Dravet syndrome and other genetic epilepsies.

Under the collaboration, Tevard will use its two interesting tRNA-based discovery platforms focused with respect to mRNA Stabilization and Nonsense Codon Suppression to find and advance novel drug candidates for the treatment of Dravet condition and other genetic epilepsies. Zogenix will additionally build up the up-and-comers through cutting edge preclinical examinations and clinical turn of events, and be responsible for overall commercialization.


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Evonetix Granted Patent for Technology Enabling Thermally-Controlled DNA Synthesis

evonetix | April 04, 2022

EVONETIX LTD (‘Evonetix’), the synthetic biology company bringing semiconductor technology to DNA synthesis, today announced it has been granted patent EP3551331B1 in Europe for its proprietary thermal control technology for DNA synthesis, as well as the design and manufacture of its silicon chips. This patent extends Evonetix’s IP portfolio and is a key step in the Company’s strategy to develop a benchtop DNA synthesis platform, to change how DNA is accessed, made, and used. Evonetix’s novel approach to parallel DNA synthesis is underpinned by precise, independent, control of temperature at thousands of individual synthesis sites across the surface of a silicon chip. In contrast to conventional approaches, which use acid deprotection to control the synthesis cycle, Evonetix uses thermal control with semiconductor-based arrays. This offers greater accuracy and selectivity to deprotect sequences at the correct point to add the next nucleotide and remove mismatching sequences. Thermal control of DNA synthesis enables highly parallel synthesis and gives the ability to work through sequences that are hard to synthesise using conventional techniques and to remove errors during the assembly of gene sequences through temperature mediated error removal. There is currently an unmet need in the synthetic biology industry for long, accurate, DNA sequences, and the ability to remove errors during assembly allows researchers to achieve longer strands of DNA, and run applications such as gene synthesis, CRISPR screening, and protein engineering. Securing this patent to cover our core technology adds further strength to our IP portfolio and underlines Evonetix’s position as leaders in our field. Our technology will give researchers the capabilities of service centres in their own lab, accelerating the advancement of synthetic biology and opening new possibilities in this exciting market.” Matthew Hayes, Chief Technology Officer at Evonetix.

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Element Biosciences Becomes the Newest Member of 10x Genomics’ Compatible Partner Program (CPP) Across Multiple Single Cell Applications

Element Biosciences, Inc. | March 01, 2022

Element Biosciences, Inc., developer of a new and disruptive DNA sequencing platform, announced a partnership with 10x Genomics, a life sciences leader focused on mastering biology to advance human health, that demonstrates the seamless integration of the Element AVITI™ System and 10x Genomics’ single cell technologies. 10x Genomics’ Chromium Single Cell and Visium Spatial platforms enable researchers to examine biology at true resolution, combining hardware, chemistry, and software to give single cell and spatial views of biology at a scale and efficiency that is unprecedented. The combination of the AVITI System’s performance, cost, and flexibility with 10x Genomics’ leading single cell assays provides customers more access and choice for their biological research. “We are excited about the partnership we’ve established with 10x Genomics and our new status as a validated CPP member. As one of the most exciting new areas in NGS, we believe this will help bring 10x Genomics’ and Element Biosciences’ customers together for our combined performance and cost advantages in single cell and spatial analysis.” Shawn Levy, Senior Vice President of Applications and Scientific Affairs, Element Biosciences “At 10x Genomics, part of our commitment to supporting our customers with single cell and spatial analysis is ensuring they have access to advanced sequencing solutions through rigorous validation,” said Brad Crutchfield, Chief Commercial Officer, 10x Genomics. “We are excited to certify Element through our Compatible Partner Program and provide our customers with more ways to adopt single cell and spatial analysis to enhance their research and fuel scientific discoveries.” About 10x Genomics 10x Genomics is a life science technology company building products to interrogate, understand and master biology to advance human health. The company's integrated solutions include instruments, consumables and software for analyzing biological systems at a resolution and scale that matches the complexity of biology. 10x Genomics products have been adopted by researchers around the world including in all of the top 100 global research institutions as ranked by Nature in 2020 based on publications and all of the top 20 global pharmaceutical companies by 2020 research and development spend, and have been cited in over 3,300 research papers on discoveries ranging from oncology to immunology and neuroscience. The company's patent portfolio comprises more than 1,300 issued patents and patent applications. About Element Biosciences, Inc. Element Biosciences is a multi-disciplinary life science company currently focused on developing disruptive DNA sequencing technology for research and diagnostic markets. Through innovating every fundamental element of a sequencing system, Element will empower customers with affordable high-quality data and an improved user experience, which in turn will accelerate scientific discoveries and broaden the use of genomic medicine.

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BigHat Biosciences Completes First Stage of Research Collaboration with Amgen

BigHat Biosciences, Inc. | January 12, 2022

BigHat Biosciences, Inc., a biotechnology company with an artificial intelligence/machine learning-guided antibody discovery and development platform, announced the successful completion of the first stage of a previously undisclosed research collaboration and licensing agreement with Amgen applying BigHat’s platform for multi-objective optimization of a next-generation antibody. BigHat’s antibody design platform integrates a high-speed characterization with AI/ML technologies to engineer antibodies with more complex functions and better biophysical properties. This approach reduces the difficulty of designing antibodies and other therapeutic proteins to tackle conditions ranging from chronic illness to life-threatening disease. BigHat’s experimental platform massively speeds up candidate discovery and validation. “This is an important milestone for BigHat, and the AI/ML biologics drug discovery field more broadly, as it demonstrates the ability of their platform to quickly and significantly optimize next-generation antibodies,” said Steve Doberstein, BigHat Independent Board Member and former Chief R&D Officer at Nektar Therapeutics, Inc. Achievement of this first milestone shows that BigHat’s platform has the potential to design high-quality therapeutic antibodies effectively and efficiently. Its platform can synthesize, express, purify, and characterize antibodies in a fraction of the time compared to traditional labs to guide the search for better molecules. “BigHat's platform for data-driven antibody design generated several antibodies significantly better than the starter molecules found using traditional technologies. Now that Amgen has validated the capabilities of BigHat's unique approach to antibody development, we're excited to continue working with them towards a lead antibody for their discovery research.” Vineeta Agarwala, MD, PhD, General Partner at Andreessen Horowitz and BigHat Board Director This successful milestone triggers the initiation of work to create a lead panel of VHH antibodies for patients in need. “We are excited to show the power of our platform to rapidly improve biophysical characteristics and function by directing and learning from each cycle of our AI/ML-enabled experimental platform. We are looking forward to continuing our productive collaboration,” said Peyton Greenside, BigHat’s CSO and Co-Founder. About BigHat Biosciences, Inc. BigHat Biosciences is reimagining antibody discovery and engineering with an AI-first experimental platform that integrates a high-speed wet lab with machine learning to create better antibodies faster and undertake novel designs far beyond what’s possible today. BigHat applies these design capabilities to develop new generations of safer and more effective treatments for patients suffering from today’s most challenging diseases. BigHat is a Series A stage biotechnology company based in the San Francisco Bay Area with a team-oriented, inclusive, and family-friendly culture. BigHat is backed by a16z, 8VC, AME Cloud Ventures, and Innovation Endeavors and counts among its employees and advisors a Nobel Laureate, a serial life-science entrepreneur, and leaders in fields from antibody development to machine learning.

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Light Bio Partners with Ginkgo Bioworks to Optimize the Brightness of Glowing Plants through Bioluminescence Engineering

Light Bio | April 18, 2022

Light Bio, Inc., a company that is creating bioluminescent plants for home and garden, and Ginkgo Bioworks (NYSE: DNA), the leading horizontal platform for cell programming, today announced a collaboration to leverage Ginkgo's plant cell assays for bioluminescence engineering. Through the agreement, Ginkgo aims to help improve the luminescent output and efficiency of the enzymes within Light Bio's glowing ornamental plants. The scientists at Light Bio have discovered a new type of bioluminescence mechanism and are using synthetic biology to engineer plants to efficiently emit light. The original light emission pathway Light Bio uses in its glowing plants comes from bioluminescent mushrooms, and the company is now focused on expanding its engineering capabilities to support the creation of glowing plants. We are excited to collaborate with Ginkgo toward additional multifold output and efficiency improvements powered by Ginkgo's plant cell engineering capabilities across both individual enzyme and metabolic pathway improvements, Light Bio has already achieved strong light emission results on our glowing plant luminescence to date." Keith Wood, CEO, Light Bio. Nothing captures the wonder of biology quite like seeing glowing plants in person, Our platform enables developers to imagine with biology and to design all types of cells, from bacteria and yeast to mammalian and plant cells. We're so excited to bring this unique application onto our platform and to help Light Bio bring the magic of glowing plants to people." Jason Kelly, CEO, Ginkgo Bioworks. About Light Bio Light Bio creates novel biodesigns in living light. Through consumer-led applications of synthetic biology, Light Bio is opening new markets with products that have never existed before. Led by a team with deep experience in the development and commercialization of bioluminescence products, the company is sustained by its proprietary technologies backed by a strong patent portfolio. About Ginkgo Bioworks Ginkgo is building a platform to enable customers to program cells as easily as we can program computers. The company's platform is enabling biotechnology applications across diverse markets, from food and agriculture to industrial chemicals to pharmaceuticals. Ginkgo has also actively supported a number of COVID-19 response efforts, including K-12 pooled testing, vaccine manufacturing optimization and therapeutics discovery.

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