Defense Advanced Research Projects AgencyTagged Content List

Synthetic Biology

Leveraging biotechnology to develop new organisms with unprecedented behaviors and capabilities

Showing 10 results for Syn-Bio + Programs RSS
The Advanced Plant Technologies (APT) program seeks to develop plants capable of serving as next-generation, persistent, ground-based sensor technologies to protect deployed troops and the homeland by detecting and reporting on chemical, biological, radiological, nuclear, and explosive (CBRNE) threats. Such biological sensors would be effectively energy-independent, increasing their potential for wide distribution, while reducing risks associated with deployment and maintenance of traditional sensors. These technologies could also potentially support humanitarian operations by, for example, detecting unexploded ordnance in post-conflict settings.
The Biological Control program seeks to support a wide range of potential Department of Defense (DoD) applications by establishing design and control principles that lead to reliable performance in biological systems. Leveraging technologies developed under this program will enable consistent operation of systems that combat biological threats; speed healing after physical trauma; and support military readiness by complementing the body’s natural defenses against emerging diseases.
The Biological Robustness in Complex Settings (BRICS) program aims to transform engineered microbial biosystems into reliable, cost-effective strategic resources for the Department of Defense (DoD), enabling future applications in the areas of intelligence, readiness, and force protection. Examples include the identification of the geographical provenance of objects; protection of critical systems and infrastructure against corrosion, biofouling, and other damage; sensing of hazardous compounds; and efficient, on-demand bio-production of novel coatings, fuels, and drugs.
The DoD requires timely and comprehensive threat detection to support overall readiness, counter the spread of disease, and promote stabilization missions. State of the art diagnostic and biosurveillance systems are unable to keep pace with disease outbreaks and fail to support decision-making at the time and place of need. The “Detect It with Gene Editing Technologies” (DIGET) program aims to leverage advances in gene editing technologies to develop field-forward diagnostic and biosurveillance technologies that enable detection of any threat, anytime, anywhere.
The goal of the Engineered Living Materials (ELM) program is to develop living materials that combine the structural properties of traditional building materials with attributes of living systems, including the ability to rapidly grow, self-repair, and adapt to the environment. Living materials represent a new opportunity to leverage engineered biology to solve existing problems associated with the construction and maintenance of our built environments, as well as new capabilities to craft smart infrastructure that dynamically responds to the surroundings.