International Engagement Bootcamp

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Join us for this EBRC member-exclusive event!

Tuesday, January 27th, 2026
11:30am – 5:30pm Eastern | 8:30am – 2:30pm Pacific
Virtual — Zoom details will be provided to registrants

This EBRC virtual workshop is a focused “bootcamp” designed to inform and prepare EBRC members interested in participating in international governance processes, such as the UN Convention on Biological Diversity (CBD), the International Union for Conservation of Nature (IUCN), and related international groups. The workshop will provide an overview of how international bodies operate, why their decisions matter for engineering biology, and how scientific input is incorporated through peer review, online forums, expert technical groups, and formal intergovernmental negotiations.

Drawing on the experience of scientists, policymakers, and practitioners who have participated in these processes over many years, the sessions will cover substantive issue areas (ecology and conservation, biosecurity, and the bioeconomy), as well as practical guidance on how to contribute constructively in written reviews, online discussions, expert meetings, and consensus-based negotiations.

The goal is to equip interested members of EBRC with the context, skills, and confidence needed to participate meaningfully in these activities, including the upcoming CBD activities (which will take place in 2026).

[Full Agenda Coming Soon]

Community Education & Outreach Activities

EBRC has collected a lightly-curated list of education and outreach activities in engineering biology from the wider community. This list includes workshops and short-courses, classroom activities and hands-on training opportunities. The list is intended to serve as a resource for existing opportunities you may want to engage in, as well as ideas for activities you may want implement at your own institution.

Suggest an Activity

Engineering Biology Across the U.S.

Across the U.S., engineering biology is sparking local innovation, creating jobs, and strengthening supply chains. Explore these state one-pagers and other resources to see how this field is helping communities, and the nation, tackle critical challenges across health, sustainability, food, and more.

Global Center for Biofoundry Applications

EBRC has been named a key partner in the newly launched Global Center for Biofoundry Applications (GCBA), which was awarded funding in October 2024 as part of the NSF Global Centers for Use-Inspired Research program. This global collaboration will drive innovation in the bioeconomy by addressing one of the field’s key challenges: the lack of global standards for biofoundry applications.

The GCBA will go beyond just technical innovation. It aims to create comprehensive frameworks for ethics and governance, promote public engagement, and develop education initiatives—all aimed at fostering a responsible and inclusive biofoundry community worldwide. These efforts will accelerate the practical application of engineering biology to address critical challenges.

This international effort brings together over 30 investigators from five countries and seven leading biofoundries, including:

  • iBioFAB at the University of Illinois Urbana-Champaign
  • Agile BioFoundry supported by the U.S. Department of Energy
  • Living Measurement Systems Foundry at NIST
  • London Biofoundry at Imperial College London
  • FinBioFAB at VTT Technical Research Centre
  • Kobe BioFoundry at Kobe University
  • Korea Biofoundry at the Korea Research Institute of Bioscience and Biotechnology (KRIBB)

Additionally, experts from institutions including Arizona State University, the University of Edinburgh, Osaka University, the University of Tokyo, Keio University, Aalto University, and the Korea Advanced Institute of Science and Technology (KAIST) will contribute to the GCBA’s success.

The GCBA is one of six new centers funded through the NSF Global Centers program, representing an investment of nearly $82 million by NSF and its international partners, including agencies from Canada, Finland, Japan, the Republic of Korea, and the United Kingdom. These centers will address critical global challenges, such as air pollution reduction, waste management, food security, the development of sustainable bioplastics, biofuel production, and leveraging seaweed for sustainable fuel and food production. We are proud that EBRC members are involved as leaders and collaborators in several of these transformative centers, helping to advance global solutions through engineering biology.

We look forward to sharing more updates with you as this exciting project progresses! In the meantime, please also check out our other projects building standards across the engineering biology ecosystem.

Enabling Quality, Measurable Synthetic DNA Sequence Screening

This project aims to improve DNA synthesis screening by enabling the development of better tools and mechanisms for screening performance evaluation. Synthetic DNA enables life sciences research that can be applied to pressing societal challenges across many sectors, but could also be used in the development of biological parts, systems, or organisms that cause great harm to human, public, or environmental health. Many companies that produce and sell synthetic DNA screen ordered sequences to prevent customers from inappropriately accessing Sequences of Concern (SOCs). However, they lack tools to evaluate the performance of their screening systems. Such tools are crucial as technical capabilities in engineering biology, artificial intelligence, and other areas grow.

End-to-End Stress Testing (E2EST) of DNA Synthesis Screening

DNA synthesis is a powerfully enabling capability for engineering biology to address important challenges across sectors, but as these capabilities become more accessible, the biosecurity risks they pose rises. In 2024 and 2025, EBRC, with support from Sentinel Bio, will conduct end-to-end stress testing (E2EST) of nucleic acid synthesis providers. We will use customers with different attributes and sequences with different biorisk profiles to learn about provider customer, sequence, and follow-up screening practices.

Building International Best Practices For Robust Synthetic Nucleic Acid Screening

This project aims to establish a set of internationally recognized best practices for nucleic acid synthesis screening through a coordinated global approach. By engaging with academic, industry, government, and non-profit stakeholders, this initiative will build on EBRC’s previous work to enhance biosecurity and ensure screening practices are robust and resilient to evolving technological risks.

New Publication: Engineering Biology Metrics and Technical Standards for the Global Bioeconomy

A new report responding to engineering biology’s need for clear standards and metrics to enable the rapid development of a sustainable bioeconomy.

Mary Tomagan

Mary Tomagan is currently the Senior Administrator at EBRC, providing operation support and event planning. Prior to her position at EBRC, Mary was the Business Office and Operations Coordinator at the Graduate Theological Union in Berkeley, CA and a Membership Program Manager at the American Academy of Ophthalmology. She is a soccer and baseball mom of two very active boys and a foodie.

New Publication: Addressing the Climate Crisis Through Engineering Biology

A companion piece to EBRC’s 2022 roadmap, Engineering Biology for Climate & Sustainability. Published in npj Climate Action.

Workshops on Engineering Biology Metrics and Technical Standards for the Global Bioeconomy

EBRC is co-hosting three regional workshops to identify stakeholder-driven metrics, metrology, and standards to enhance the performance of engineering biology for commercial and industrial activity, with a focus on the needs of start-ups and small companies that are working to bring a tool or product to market. Highlighted topics include supporting translation and scale-up capabilities, improving reproducibility, and enabling clear regulatory frameworks. The information gathered in these workshops will lay the groundwork to establish necessary metrics and open voluntary standards for engineering biology that enable the rapid growth and success of the bioeconomy.

Moonshots for the 21st-Century Bioeconomy

Publication Date: December 2022

In response to the Bioeconomy Executive Order, EBRC envisions moonshots for achievements in engineering biology across five sectors, highlighting the promise and potential of biotechnology. We also link to our interactive EBRC roadmaps, which provide more expansive visions of the innovations that are possible through engineering biology research and application.

Compilation: EBRC Policy Papers in Response to the 2022 Bioeconomy Executive Order

Publication Date: December 2022 (updated 2023)

On September 12, 2022, President Biden released an Executive Order on Advancing Biotechnology and Biomanufacturing Innovation for a Sustainable, Safe, and Secure American Bioeconomy. This Executive Order calls for “a whole-of-government approach to advance biotechnology and biomanufacturing towards innovative solutions in health, climate change, energy, food security, agriculture, supply chain resilience, and national and economic security.” The Executive Order follows additional action by the United States Congress to support the bioeconomy and biomanufacturing, most notably the passage of Title IV—Bioeconomy Research and Development in the Chips and Science Act.

To capitalize on this moment of importance and enthusiasm for a growing and robust U.S. bioeconomy, EBRC is publishing a series of policy white papers on topics of importance to EBRC members and the engineering biology community that we believe can provide guidance and recommendations to the federal agencies tasked with responding to the Executive Order. Below you will find a compilation of the papers published on December 1, 2022.

Actions to Enable an Equitable and Innovative U.S. Bioeconomy

Publication Date: May 2022

The fourth industrial revolution will likely be fueled by operationalizing biomanufacturing and engineering biology. Critical to realizing the benefits of these opportunities will be a diverse workforce and ensuring that the benefits of biotechnology will be equitably dispersed across the United States. In this policy paper, Albert Hinman discusses workforce development, resource cultivation, and open science opportunities for a more inclusive and equitable bioeconomy.

Slide 1: Strengthening a Safe and Secure Nucleic Acid Synthesis Ecosystem: Outcomes of EBRC Stakeholder Engagement

Strengthening a Safe and Secure Nucleic Acid Synthesis Ecosystem: Outcomes of EBRC Stakeholder Engagement

Sifang Chen

Bioindustrial Manufacturing And Design Ecosystem

We are excited to announce that we have been selected to establish the Department of Defense’s Bioindustrial Manufacturing Innovation Institute. You can find some initial information below and we encourage you to subscribe for updates.

Press Release

U.S. Department of Defense awards $87.5 million to EBRC-led BioMADE establishing the Bioindustrial Manufacturing Innovation Institute

EMERYVILLE, Calif. – The U.S. Department of Defense (DoD) has awarded a Cooperative Agreement to establish the Bioindustrial Manufacturing And Design Ecosystem, or BioMADE. Established by the Engineering Biology Research Consortium (EBRC), BioMADE joins eight DoD-sponsored Manufacturing Innovation Institutes (MII) as part of the Manufacturing USA network and becomes the 16th institute creating an end-to-end ecosystems for domestic manufacturing to secure America’s future through manufacturing innovation, education, and collaboration. The 7-year award includes $87.5M in federal funds and is being matched by more than $180M from non-federal sources.

“The Department of Defense is committed to promoting U.S. biotechnology innovation and securing America’s bioindustrial base. Through today’s award, we are pleased to work with new partners to accelerate the Department’s biotechnology modernization and the development of this field which is so critical to our Nation’s future security and prosperity,” said Michael Kratsios, Acting Under Secretary of Defense for Research and Engineering.

For over a century, America has used biology to manufacture products like fuels and solvents. In recent decades, products such as lactic acid have led to the development of renewable plastics not dependent on crude oil. Today, a vast array of renewable products produced by the latest advances in engineering biology are entering nearly every sector of the economy.

“Bridging the gap between lab-scale research and at-scale manufacturing, BioMADE builds an on-ramp to accelerate commercialization of biotechnology inventions originating from American R&D in universities, start-ups, and National Labs. I am grateful to the proposal team of more than 30 companies, 33 universities, 24 community colleges, and 6 nonprofits across 31 states that worked with us to develop a winning proposal” says Douglas Friedman, Executive Director of EBRC and CEO of BioMADE.

Modern biotechnology benefits from a rapid convergence of technologies which historically have not worked in concert. Specifically, biomanufacturing materials at scale with biology requires complex coordination of automation, computational sciences, process engineering, and materials sciences in an environment that promotes safe and equitable deployment of technologies. BioMADE will marshal insights from manufacturers and innovators advancing bioindustrial manufacturing technologies while simultaneously enhancing the structure of this young but robust innovation ecosystem.

Minnesota-based Cargill was an active participant in BioMADE’s development and looks forward to bringing its longstanding biomanufacturing capabilities to the institute. “We are excited that the Department of Defense has selected BioMADE to establish the Bioindustrial Manufacturing Innovation Institute.” says Florian Schattenmann, CTO of Cargill. “We are excited to work with BioMADE and the rest of the industry to identify and innovate on shared challenges in scaleup and downstream processing to further strengthen the US economy in the production of bioindustrial products.”

BioMADE is poised to be headquartered on the St. Paul campus of the University of Minnesota, a top ten U.S. public research university and a leader in chemical engineering, materials science, genomics, computational biology, and high-performance computing.

“We are honored to host BioMADE and believe that this institute will advance a new and significant biomanufacturing innovation ecosystem,” said University President Joan T.A. Gabel. “Our region–the Bold North–is home to 16 Fortune 500 companies and a highly sought-after educated workforce. We anticipate many future industrial biomanufacturing firms being created here, taking advantage of proximity to the agricultural raw materials needed for their production, the depth of talent we offer, and the business infrastructure that already serves related firms like Cargill, General Mills, CHS, and Land O’Lakes.”

Slated to join the University’s soon-to-be-constructed Microbial Cell Production Facility (MCPF), BioMADE’s internal efforts will focus on scale-up and downstream processing of laboratory R&D to commercial production. Working seamlessly with satellite offices in Berkeley, CA and Cambridge, MA, and with partners across the country, BioMADE will focus on catalyzing the creation of a secure domestic supply chain of bioindustrial products.

Zach Serber, CSO and co-founder of Zymergen – a Bay Area science and materials innovation company – says, “Zymergen is thrilled to work with BioMADE to identify industry needs and advance technologies and programs that will help the entire bio economy by bringing innovative, high performance and sustainable products to market faster. The BioMADE team fills an important role in this emerging category; providing proof-of-concept manufacturing capacity and helping develop key capabilities in the manufacturing workforce, both of which are critical to strengthening U.S. competitiveness. We are proud to be a part of this initiative and look forward to working with other partner organizations.”

In addition to its focus on technical innovation, education and workforce development are central to BioMADE’s mission to train and ready a robust domestic workforce for manufacturing jobs across the industry. Collaborating with a national network of biotechnology focussed training institutions and organizations, BioMADE will reach across the educational spectrum and across the country to expand biotechnology training to include biomanufacturing.

A commitment to incorporating ethical, legal, and social implications (ELSI) will be part of the fabric of BioMADE. All technical, educational, workforce, and community projects will include effort dedicated to relevant ELSI topics. Members will have access to experts in bioethics, biosecurity, biosafety, and other ELSI topics while dedicated ELSI advisors will work alongside BioMADE’s technical and workforce leadership.

“We at EBRC could not have led this team without the critical insights and involvement of our partner institutions, and their commitment to the vision of a thriving public-private solution to advance domestic biomanufacturing,” said Friedman. “Turning to the future, we look forward to an inclusive and comprehensive ecosystem of institutions across the country, unified with the goal of advancing US biomanufacturing capabilities, creating products that are as high performing as they are environmentally sustainable.”

Modular cell-free expression plasmids to accelerate biological design in cells

Ashty S Karim, Fungmin Eric Liew, Shivani Garg, Bastian Vögeli, Blake J Rasor, Aislinn Gonnot, Marilene Pavan, Alex Juminaga, Séan D Simpson, Michael Köpke, Michael C Jewett.  ACS Synthetic Biology.

Read EBRC’s response to the National Defense Education Program’s RFI

Read EBRC’s response to the DoD’s Request for Information (RFI) on Biotechnology Education and Workforce Development. (August 2020)