SEC. 3. DEFINITIONS.
In this Act:
(1) BIOMANUFACTURING.—The term “biomanufacturing” means the utilization of biological systems to develop new and advance existing products, tools, and processes at commercial scale.
(2) ENGINEERING BIOLOGY.—The term “engineering biology” means the application of engineering design principles and practices to biological systems, including molecular and cellular systems, to advance fundamental understanding of complex natural systems and to enable novel or optimize functions and capabilities.
(3) INITIATIVE.—The term “Initiative” means the National Engineering Biology Research and Development Initiative established under section 4.
(4) OMICS.—The term “omics” refers to the collective technologies used to explore the roles, relationships, and actions of the various types of molecules that make up the cells of an organism.
SEC. 4. NATIONAL ENGINEERING BIOLOGY RESEARCH AND DEVELOPMENT INITIATIVE.
(a) In General.—The President, acting through the Office of Science and Technology Policy, shall implement a National Engineering Biology Research and Development Initiative to advance societal well-being, national security, sustainability, and economic productivity and competitiveness through—
(1) advancing areas of research at the intersection of the biological, physical, chemical, and information sciences and engineering to accelerate scientific understanding and technological innovation in engineering biology;
(2) advancing areas of biomanufacturing research to optimize, standardize, scale, and deliver new products and solutions;
(3) supporting social and behavioral sciences and economics research that advances the field of engineering biology and contributes to the development and public understanding of new products, processes, and technologies;
(4) supporting risk research, including under subsection (d);
(5) supporting the development of novel tools and technologies to accelerate scientific understanding and technological innovation in engineering biology;
(6) expanding the number of researchers, educators, and students with engineering biology training, including from traditionally underserved populations;
(7) accelerating the translation and commercialization of engineering biology research and development by the private sector; and
(8) improving the interagency planning and coordination of Federal Government activities related to engineering biology.
(b) Initiative Activities.—The activities of the Initiative shall include—
(1) sustained support for engineering biology research and development through—
(A) grants to individual investigators and teams of investigators, including interdisciplinary teams;
(B) projects funded under joint solicitations by a collaboration of no fewer than two agencies participating in the Initiative; and
(C) interdisciplinary research centers that are organized to investigate basic research questions, carry out technology development and demonstration activities, and increase understanding of how to scale up engineering biology processes, including biomanufacturing;
(2) sustained support for databases and related tools, including—
(A) support for curated genomics, epigenomics, and all other relevant omics databases, including plant and microbial databases, that are available to researchers to carry out engineering biology research;
(B) development of standards for such databases, including for curation, interoperability, and protection of privacy and security; and
(C) support for the development of computational tools, including artificial intelligence tools, that can accelerate research and innovation using such databases; and
(D) an inventory and assessment of all Federal government omics databases to identify opportunities for consolidation and inform investment in such databases as critical infrastructure for the engineering biology research enterprise;
(3) sustained support for the development, optimization, and validation of novel tools and technologies to enable the dynamic study of molecular processes in situ, including through grants to investigators at institutions of higher education and other nonprofit research institutions, and through the Small Business Innovation Research Program and the Small Business Technology Transfer Program, as described in section 9 of the Small Business Act (15 U.S.C. 638);
(4) education and training of undergraduate and graduate students in engineering biology, in biomanufacturing, in bioprocess engineering, and in areas of computational science applied to engineering biology;
(5) activities to develop robust mechanisms for tracking and quantifying the outputs and economic benefits of engineering biology; and
(6) activities to accelerate the translation and commercialization of new products, processes, and technologies by—
(A) identifying precompetitive research opportunities;
(B) facilitating public-private partnerships in engineering biology research and development;
(C) connecting researchers, graduate students, and postdoctoral fellows with entrepreneurship education and training opportunities; and
(D) supporting proof of concept activities and the formation of startup companies including through programs such as the Small Business Innovation Research Program and the Small Business Technology Transfer Program.
(c) Expanding Participation.—The Initiative shall include, to the maximum extent practicable, outreach to primarily undergraduate and minority-serving institutions about Initiative opportunities, and shall encourage the development of research collaborations between research-intensive universities and primarily undergraduate and minority-serving institutions.
(d) Ethical, Legal, Environmental, Safety, Security, And Societal Issues.—Initiative activities shall take into account ethical, legal, environmental, safety, security, and other appropriate societal issues by—
(1) supporting research, including in the social sciences, and other activities addressing ethical, legal, environmental, and other appropriate societal issues related to engineering biology, including integrating research on such topics with the research and development in engineering biology, and ensuring that the results of such research are widely disseminated, including through interdisciplinary engineering biology research centers described in subsection (b)(1);
(2) supporting research and other activities related to the safety and security implications of engineering biology, including outreach to increase awareness among federally-funded researchers at institutions of higher education about potential safety and security implications of engineering biology research, as appropriate;
(3) ensuring that input from Federal and non-Federal experts on the ethical, legal, environmental, security, and other appropriate societal issues related to engineering biology is integrated into the Initiative; and
(4) ensuring, through the agencies and departments that participate in the Initiative, that public input and outreach are integrated into the Initiative by the convening of regular and ongoing public discussions through mechanisms such as workshops, consensus conferences, and educational events, as appropriate.