BackgroundBiosafety is a key aspect in the international Genetically Engineered Machine (iGEM) competition, which offers student teams an amazing opportunity to pursue their own research projects in the field of Synthetic Biology. iGEM projects often involve the creation of genetically engineered bacterial strains. To minimize the risks associated with bacterial release, a variety of biosafety systems were constructed, either to prevent survival of bacteria outside the lab or to hinder horizontal or vertical gene transfer.Main bodyPhysical containment methods such as bioreactors or microencapsulation are considered the first safety level. Additionally, various systems involving auxotrophies for both natural and synthetic compounds have been...
Summary: Technologies to profoundly engineer biology are becoming increasingly affordable, powerful,...
AbstractSynthetic biology promises to make biology easier to engineer (Endy 2005), enabling more peo...
There are two important features that characterize the canonical genetic code. First, the genetic co...
Abstract Background Biosafety is a key aspect in the international Genetically Engineered Machine (i...
Biocontainment comprises any strategy applied to ensure that harmful organisms are confined to contr...
Biocontainment is an essential feature when deploying genetically modified organisms (GMOs) in open ...
AbstractThe plausible release of deeply engineered or even entirely synthetic/artificial microorgani...
Genetically modified organisms (GMOs) are com-monly used to produce valuable compounds in closed ind...
Synthetically engineered organisms hold promise for a broad range of medical, environmental, and ind...
Synthetic biologists design and engineer organisms for a better and more sustainable future based on...
Synthetic auxotrophs are organisms engineered to require the presence of a particular molecule for v...
Synthetic auxotrophs are organisms engineered to require the presence of a particular molecule for v...
Xenobiology is an emerging area of synthetic biology that aims to safeguard genetically engineered c...
Biology is an analytical and informational science that is becoming increasingly dependent on chemic...
The universal genetic code, which is the foundation of cellular organization for almost all organism...
Summary: Technologies to profoundly engineer biology are becoming increasingly affordable, powerful,...
AbstractSynthetic biology promises to make biology easier to engineer (Endy 2005), enabling more peo...
There are two important features that characterize the canonical genetic code. First, the genetic co...
Abstract Background Biosafety is a key aspect in the international Genetically Engineered Machine (i...
Biocontainment comprises any strategy applied to ensure that harmful organisms are confined to contr...
Biocontainment is an essential feature when deploying genetically modified organisms (GMOs) in open ...
AbstractThe plausible release of deeply engineered or even entirely synthetic/artificial microorgani...
Genetically modified organisms (GMOs) are com-monly used to produce valuable compounds in closed ind...
Synthetically engineered organisms hold promise for a broad range of medical, environmental, and ind...
Synthetic biologists design and engineer organisms for a better and more sustainable future based on...
Synthetic auxotrophs are organisms engineered to require the presence of a particular molecule for v...
Synthetic auxotrophs are organisms engineered to require the presence of a particular molecule for v...
Xenobiology is an emerging area of synthetic biology that aims to safeguard genetically engineered c...
Biology is an analytical and informational science that is becoming increasingly dependent on chemic...
The universal genetic code, which is the foundation of cellular organization for almost all organism...
Summary: Technologies to profoundly engineer biology are becoming increasingly affordable, powerful,...
AbstractSynthetic biology promises to make biology easier to engineer (Endy 2005), enabling more peo...
There are two important features that characterize the canonical genetic code. First, the genetic co...