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PubMed Publications| Keyword search (4,163 papers available) |  |
"labor" Keyword-tagged Publications:
| Title | Authors | PubMed ID | |
|---|---|---|---|
| 1 | Laboratory-scale simulation study on the bioremediation of marine oil pollution by phosphate-solubilizing bacteria Bacillus subtilis PSB-1 | Du Z; Li Z; Chen X; Liu M; Feng L; Li Q; Chen Z; Chen Q; | 41707285 ENCS |
| 2 | Design, Analysis, and Prototyping of a Multifunctional Digital Twin-Enabled Aerospace Drilling End-Effector Deployable by a Collaborative Robot | Kazemiesfahani M; Dilfanian E; Monsarrat B; Hajzargarbashi S; | 41471503 ENCS |
| 3 | Large scale laboratory evolution uncovers clinically relevant collateral antibiotic sensitivity | Chowdhury FR; Banari V; Lesnic V; Zhanel GG; Findlay BL; | 40615056 BIOLOGY |
| 4 | Leading the way to a safer workplace: What enables supervisors to be servant leaders and enhance subordinates workplace safety behaviors? | Chen YP; Hsu YS; Panaccio A; Wang H; | 40483067 JMSB |
| 5 | Searching and reporting in Campbell Collaboration systematic reviews: A systematic assessment of current methods | Young S; MacDonald H; Louden D; Ellis UM; Premji Z; Rogers M; Bethel A; Pickup D; | 39176233 CONCORDIA |
| 6 | Myelin basic protein mRNA levels affect myelin sheath dimensions, architecture, plasticity, and density of resident glial cells | Bagheri H; Friedman H; Hadwen A; Jarweh C; Cooper E; Oprea L; Guerrier C; Khadra A; Collin A; Cohen-Adad J; Young A; Victoriano GM; Swire M; Jarjour A; Bechler ME; Pryce RS; Chaurand P; Cougnaud L; Vuckovic D; Wilion E; Greene O; Nishiyama A; Benmamar-Badel A; Owens T; Grouza V; Tuznik M; Liu H; Rudko DA; Zhang J; Siminovitch KA; Peterson AC; | 39023138 CSBN |
| 7 | The Magical Work of Brand Futurity: The Mythmaking of Disney | Jake Pitre | 37560617 CONCORDIA |
| 8 | How to build up big team science: a practical guide for large-scale collaborations | Baumgartner HA; Alessandroni N; Byers-Heinlein K; Frank MC; Hamlin JK; Soderstrom M; Voelkel JG; Willer R; Yuen F; Coles NA; | 37293356 PSYCHOLOGY |
| 9 | Functional Synthetic Biology | Aldulijan I; Beal J; Billerbeck S; Bouffard J; Chambonnier G; Ntelkis N; Guerreiro I; Holub M; Ross P; Selvarajah V; Sprent N; Vidal G; Vignoni A; | 37073284 BIOLOGY |
| 10 | Who's cooking tonight? A time-use study of coupled adults in Toronto, Canada | Liu B; Widener MJ; Smith LG; Farber S; Gesink D; Minaker LM; Patterson Z; Larsen K; Gilliland J; | 36339032 ENCS |
| 11 | The Value in Science-Art Partnerships for Science Education and Science Communication. | Zaelzer C | 32616625 CONCORDIA |
| Title: | Functional Synthetic Biology | ||||
| Authors: | Aldulijan I, Beal J, Billerbeck S, Bouffard J, Chambonnier G, Ntelkis N, Guerreiro I, Holub M, Ross P, Selvarajah V, Sprent N, Vidal G, Vignoni A | ||||
| Link: | https://pubmed.ncbi.nlm.nih.gov/37073284/ | ||||
| DOI: | 10.1093/synbio/ysad006 | ||||
| Publication: | Synthetic biology (Oxford, England) | ||||
| Keywords: | Collaboration; Design; Engineering; Reproducibility; Synthetic Biology; | ||||
| PMID: | 37073284 | Category: | Date Added: | 2023-04-19 | |
| Dept Affiliation: |
BIOLOGY
1 Systems Engineering, Stevens Institute of Technology, 1 Castle Point Terrace, Hoboken, 07030, NJ, USA. 2 Intelligent Software & Systems, Raytheon BBN Technologies, 10 Moulton Street, Cambridge, 02138, MA, USA. 3 Molecular Microbiology, Groningen Biomolecular Sciences and Biotechnology Institute, University of Groningen, Nijenborgh 7, 9747 AG, Groningen, The Netherlands. 4 Centre for Applied Synthetic Biology, and Department of Biology, Concordia University, 7141 Sherbrooke Street West, Montréal, H4B 1R6, Québec, Canada. 5 Department of Biological Engineering, Massachusetts Institute of Technology, Cambridge, 02139, MA, USA. 6 Specialized Metabolism research group, Center for Plant Systems Biology, VIB-Ghent University, Technologiepark 71, Zwijnaarde, 9052, Belgium. 7 iGEM Foundation, 45 Prospect Street, Cambridge, 02139, MA, USA. 8 Delft University of |
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Description: |
Synthetic biologists have made great progress over the past decade in developing methods for modular assembly of genetic sequences and in engineering biological systems with a wide variety of functions in various contexts and organisms. However, current paradigms in the field entangle sequence and functionality in a manner that makes abstraction difficult, reduces engineering flexibility and impairs predictability and design reuse. Functional Synthetic Biology aims to overcome these impediments by focusing the design of biological systems on function, rather than on sequence. This reorientation will decouple the engineering of biological devices from the specifics of how those devices are put to use, requiring both conceptual and organizational change, as well as supporting software tooling. Realizing this vision of Functional Synthetic Biology will allow more flexibility in how devices are used, more opportunity for reuse of devices and data, improvements in predictability and reductions in technical risk and cost. |
