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Engineering robust and tunable spatial structures with synthetic gene circuits
Wentao Kong
, Andrew E. Blanchard
, Chen Liao
,
Ting Lu
Physics
Bioengineering
Carl R. Woese Institute for Genomic Biology
National Center for Supercomputing Applications (NCSA)
Biomedical and Translational Sciences
Research output
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peer-review
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Keyphrases
Spatial Structure
100%
Synthetic Gene Circuits
100%
Nisin
100%
Tunability
66%
Biological Systems
33%
Mathematical Model
33%
Bandpass
33%
Living Systems
33%
Highly Tunable
33%
Synthetic Biology Tools
33%
Environmental Context
33%
Spatial Patterning
33%
Lactococcus Lactis
33%
Cellular Context
33%
Antibiotic Combination
33%
Functional Robustness
33%
Dual Signaling
33%
Nisin Immunity
33%
Synthetic Community
33%
Deep-sea Mining
33%
Engineering
Engineering
100%
Spatial Structure
100%
Biological System
50%
Direct Cell
50%
Future Application
50%
Living System
50%
Pass Band
50%
Major Goal
50%
Band Width
50%
Synthetic Biology Tool
50%
Producing Bacteria
50%
Mathematical Model
50%
Computer Science
Spatial Structure
100%
Biological System
50%
Biochemistry, Genetics and Molecular Biology
Nisin
100%
Lactococcus Lactis
25%
Material Science
Nisin
66%