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Fostering student authorship skills in synthetic biology. [PDF]
Front Bioeng BiotechnolRoberts LA, Farny NG.
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Synthetic-biology approach for plant lignocellulose engineering.
Plant Biotechnol (Tokyo)Yoshida K, Sakamoto S, Mitsuda N.
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Editorial: Recent advances in application of synthetic biology for production of bioactive compounds, volume II. [PDF]
Front Bioeng BiotechnolChu LL, Sohng JK, Bae H, Dhakal D.
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Preventing plasmid multimer formation in commonly used synthetic biology plasmids
Vaisbourd E, Bren A, Alon U, Glass DS.
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Synthetic Biology—The Synthesis of Biology
Angewandte Chemie International Edition, 2017AbstractSynthetic biology concerns the engineering of man‐made living biomachines from standardized components that can perform predefined functions in a (self‐)controlled manner. Different research strategies and interdisciplinary efforts are pursued to implement engineering principles to biology.
Martin Fussenegger +3 more
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Nature Biotechnology, 2006 RNA molecules play important and diverse regulatory roles in the cell by virtue of their interaction with other nucleic acids, proteins and small molecules. Inspired by this natural versatility, researchers have engineered RNA molecules with new biological functions.
Farren J. Isaacs +2 more
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2018
Synthetic biology advances upon genetic engineering. It makes use of engineering principles and methods such as rational design and modularity, and it includes inserting synthetically produced genetic sequences or whole genomes that code for novel intracellular pathways into organisms.
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Synthetic biology advances upon genetic engineering. It makes use of engineering principles and methods such as rational design and modularity, and it includes inserting synthetically produced genetic sequences or whole genomes that code for novel intracellular pathways into organisms.
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The Impact of Synthetic Biology
ACS Synthetic Biology, 2013Synthetic biology has recently been at the center of the world's attention as a new scientific and engineering discipline. It allows us to design and construct finely controllable metabolic and regulatory pathways, circuits, and networks, as well as create new enzymes, pathways, and even whole cells.
Jonguk Na, Gi Na Lee
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The Plant Journal, 2013
SummaryPlastids (chloroplasts) harbor a small gene‐dense genome that is amenable to genetic manipulation by transformation. During 1 billion years of evolution from the cyanobacterial endosymbiont to present‐day chloroplasts, the plastid genome has undergone a dramatic size reduction, mainly as a result of gene losses and the large‐scale transfer of ...
Ralph Bock, Lars B. Scharff
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SummaryPlastids (chloroplasts) harbor a small gene‐dense genome that is amenable to genetic manipulation by transformation. During 1 billion years of evolution from the cyanobacterial endosymbiont to present‐day chloroplasts, the plastid genome has undergone a dramatic size reduction, mainly as a result of gene losses and the large‐scale transfer of ...
Ralph Bock, Lars B. Scharff
openaire +3 more sources