Compiled by Jim Haseloff at the University of Cambridge.
This site contains details of recent papers and activity in Synthetic Biology, with particular emphasis on: (i) development of standards in biology and DNA parts, (ii) microbial and (iii) plant systems, (iv) research and teaching in the field at the University of Cambridge, (v) hardware for scientific computing and instrumentation, (vi) tools for scientific productivity and collected miscellany.
Technology is driving revolutionary changes in biology. Over the past decade, scientists and engineers have begun to define the path forward in the genomic era. Systems Biology has arisen...
Now that we know the sequences of many genomes, from a wide variety of organisms and even from individuals with unique characteristics, many researchers have turned to making intentional...
The developments within synthetic biology promise to change the world in significant ways. Yet synthetic biology is largely unrecognized within conservation. The purpose of the meeting...
(Re-)constructing and Re-programming Life This conference will provide an in-depth discussion forum among practitioners of the various fields underlying Synthetic Biology. It aims to...
The BioBricks Foundation is pleased to announce The BioBricks Foundation Synthetic Biology 6.0 Conference (SB6.0), which will take place on July 9-11, 2013 at Imperial College, London,...
This course will focus on how the complexity of biological systems, combined with traditional engineering approaches, results in the emergence of new design principles for synthetic...
Toxicol Sci. 2010 Nov 10;
Authors: Schmidt M, Pei L
This article examines the implications of synthetic biology (SB) for toxicological sciences. Starting with a working definition of SB, we describe its current subfields, namely DNA synthesis, the engineering of DNA-based biological circuits, minimal genome research, attempts to construct protocells and synthetic cells, and efforts to diversify the biochemistry of life through xenobiology. Based on the most important techniques, tools and expected applications in SB, we describe the ramifications of SB for toxicology under the label of synthetic toxicology. We differentiate between cases where SB offers opportunities for toxicology and where SB poses challenges for toxicology. Among the opportunities, we identified the assistance of SB to: construct novel toxicity testing platforms, define new toxicity-pathway assays, explore the potential of SB to improve in vivo biotransformation of toxins, present novel biosensors developed by SB for environmental toxicology, discuss cell-free protein synthesis of toxins, reflect on the contribution to toxic use reduction, and the democratisation of toxicology through do-it-yourself biology. Among the identified challenges for toxicology, we identify synthetic toxins and novel xenobiotics, biosecurity and dual-use considerations, the potential bridging of toxic substances and infectious agents, and Do-it-yourself toxin production.
PMID: 21068213 [PubMed - as supplied by publisher]
(Via pubmed: "synthetic biology".)