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Understanding the Rules of Life: Building a Synthetic Cell NSF Wide Programs


CONTACTS
Name Email Phone Room
Charles  Cunningham chacunni@nsf.gov (703) 292-2283   
Mitra  Basu mbasu@nsf.gov (703) 292-8649   
Krastan  B. Blagoev kblagoev@nsf.gov (703) 292-4666   
Ellen  Carpenter elcarpen@nsf.gov (703) 292-5104   
Joseph  T. Miller jtmiller@nsf.gov (703) 292-7214   
John  Parker joparker@nsf.gov 703 292 5034   
Steven  W. Peretti speretti@nsf.gov (703) 292-7029   
Margaret  Fraiser mfraiser@nsf.gov 703-292-8172   


PROGRAM GUIDELINES

Solicitation  18-599

Important Information for Proposers

ATTENTION: Proposers using the Collaborators and Other Affiliations template for more than 10 senior project personnel will encounter proposal print preview issues. Please see the Collaborators and Other Affiliations Information website for updated guidance.

A revised version of the NSF Proposal & Award Policies & Procedures Guide (PAPPG) (NSF 18-1), is effective for proposals submitted, or due, on or after January 29, 2018. Please be advised that, depending on the specified due date, the guidelines contained in NSF 18-1 may apply to proposals submitted in response to this funding opportunity.


DUE DATES

Preliminary Proposal Deadline Date

    December 28, 2018

Full Proposal Deadline Date

    May 13, 2019


SYNOPSIS

In 2016, the National Science Foundation (NSF) unveiled a set of “Big Ideas,” 10 bold, long-term research and process ideas that identify areas for future investment at the frontiers of science and engineering (see https://www.nsf.gov/news/special_reports/big_ideas/index.jsp). The Big Ideas represent unique opportunities to position our Nation at the cutting edge of global science and engineering leadership by bringing together diverse disciplinary perspectives to support convergence research. As such, when responding to this solicitation, even though proposals must be submitted to the Division of Emerging Frontiers in the Directorate for Biological Sciences (BIO/EF), once received, the proposals will be managed by a cross-disciplinary team of NSF Program Directors.

This solicitation describes an Ideas Lab on “Building a Synthetic Cell.” Ideas Labs are intensive workshops focused on finding innovative solutions to grand challenge problems. The ultimate aim of this Ideas Lab organized by the National Science Foundation is to facilitate the generation and execution of innovative research projects aimed at designing, fabricating, and validating synthetic cells that express specified phenotypes. The aspiration is that mixing researchers who have diverse scientific backgrounds will engender original thinking and innovative approaches that will transform our understanding of cellular processes, the molecular mechanisms that underscore the building and function of systems that reproduce life traits, the self-assembly of life-like systems, soft condensed matter, and the physics and chemistry of life that are needed to design and build cellular components, cells and multicell systems.

The ability to design and manufacture synthetic cells has significant implications for the scientific and economic enterprise of the United States. The synthesis of viable cells from non-living molecules and materials can open the door to the production of functional biomaterials and improved biofuels, large scale chemical synthesis, non-silicon-based computing, novel soil engineering, and medical and pharmaceutical advances, to name just a few possibilities. The study of synthetic cells, and of the processes used in their creation, can also provide a window on the origin and evolution of life on Earth and, potentially, provide insight into extraterrestrial life. 

Synthetic cells have a number of shared characteristics. They may possess many of the structures of biological cells and reproduce capabilities such as self-replication, metabolism and response to environmental cues. However, they may be engineered using novel molecules and materials and structures to mimic single or complex biological functions. There are many reasons to engage in synthetic cell research; for example, to better understand what constitutes a living system, to identify the truly essential functions of cells, and building in itself can be a way to demonstrate understanding. Synthetic cell research employs a wide range of approaches including ‘top down’ methodologies exemplified by efforts to construct a ‘minimal cell’ by gradually deleting genes and components until a system with the fewest components that still exhibits the hallmarks of life is obtained. The alternative ‘bottom up’ approaches involve assembling molecular building blocks until cellular functions are obtained. These approaches might meet in the middle, and may inform each other.

The design and production of synthetic cells requires the development of innovative and integrative experimental approaches in combination with novel theoretical frameworks, improved mathematical models, new artificial biomaterials, predictive understanding of biological function, and the identification of causal relationships in biological systems (e.g. genotype/phenotype, structure/function), all within an ethical framework that is sensitive to the profound implications of the research being conducted. Building a synthetic cell is a grand challenge at the interface between biological, mathematical, computer and physical sciences and engineering that has the potential to advance not only applications, but also our fundamental understanding of how cells self-assemble and function and of emergent order in non-equilibrium systems. Meeting this challenge requires simultaneous careful exploration of the social and ethical dimensions of such research as well as educating today's students to engage in the activities and technologies required both for developing synthetic cells and for their use in biology, engineering, chemistry, pharmaceutical development, and other activities. Only by doing so will we be able to fully understand both the societal benefits and risks as well as their potential for willful misuse or unintended damage to natural biological systems. In concert with technology development, educating students and the lay public will also be important to ensure an accurate understanding of the scientific advances resulting from the development and use of synthetic cells.

This Ideas Lab advances the objectives of one of 10 Big Ideas for Future NSF Investments: ‘Understanding the Rules of Life: Predicting Phenotype’. The 10 Big Ideas will push forward the frontiers of U.S. research and provide innovative approaches to solve some of the most pressing problems the world faces, as well as lead to discoveries not yet known.

This multi-directorate program is one element of NSF's multi-year effort towards the goals of the Understanding the Rules of Life Big Idea (https://www.nsf.gov/news/special_reports/big_ideas/life.jsp). US researchers may submit preliminary proposals only via FastLane for participation in the Ideas Lab in which a set of multidisciplinary ideas will be developed. These multidisciplinary ideas will form the basis of the full proposals to be written based on the discussion within the Ideas Lab.


What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)

Map of Recent Awards Made Through This Program