Add to ORKGThe recent development of synthetic biology has expanded the capability to design and construct protein networks outside of living cells from the bottom-up. The new capability has enabled us to assemble protein networks for the basic study of cellular pathways, expression of proteins outside cells, and building tissue materials. Furthermore, the integration of natural and synthetic protein networks has enabled new functions of synthetic or artificial cells. Here, we review the underlying technologies for assembling protein networks in liposomes, water-in-oil droplets, and biomaterials from the bottom-up. We cover the recent applications of protein networks in biological transduction pathways, energy self-supplying systems, cellular environm...
Synthetic biology approaches range from the introduction of unique features into organisms to the as...
The bottom-up branch of synthetic biology includes-among others-innovative studies that combine cell...
Living cells communicate and cooperate to produce the emergent properties of tissues. Synthetic mimi...
The bottom-up assembly of biological and chemical components opens exciting opportunities to enginee...
An aqueous droplet in a solution of lipids in oil acquires a lipid monolayer coat, and two such drop...
The bottom-up assembly of biological and chemical components opens exciting opportunities to enginee...
Living systems employ protein pattern formation to regulate important life processes in space and ti...
Natural and artificial proteins with designer properties and functionalities offer unparalleled oppo...
Interactions between proteins control molecular functions such as signalling or metabolic activity. ...
Synthetic biology is a rapidly growing multidisciplinary branch of science which aims to mimic compl...
Synthetic biology approaches range from the introduction of unique features into organisms to the as...
The bottom-up construction of synthetic cells is one of the most intriguing and interesting research...
Here, we propose a framework for the design of synthetic protein networks from modular protein– prot...
The bottom-up branch of synthetic biology includes—among others—innovative studies that combine cell...
Here, we propose a framework for the design of synthetic protein networks from modular protein– prot...
Synthetic biology approaches range from the introduction of unique features into organisms to the as...
The bottom-up branch of synthetic biology includes-among others-innovative studies that combine cell...
Living cells communicate and cooperate to produce the emergent properties of tissues. Synthetic mimi...
The bottom-up assembly of biological and chemical components opens exciting opportunities to enginee...
An aqueous droplet in a solution of lipids in oil acquires a lipid monolayer coat, and two such drop...
The bottom-up assembly of biological and chemical components opens exciting opportunities to enginee...
Living systems employ protein pattern formation to regulate important life processes in space and ti...
Natural and artificial proteins with designer properties and functionalities offer unparalleled oppo...
Interactions between proteins control molecular functions such as signalling or metabolic activity. ...
Synthetic biology is a rapidly growing multidisciplinary branch of science which aims to mimic compl...
Synthetic biology approaches range from the introduction of unique features into organisms to the as...
The bottom-up construction of synthetic cells is one of the most intriguing and interesting research...
Here, we propose a framework for the design of synthetic protein networks from modular protein– prot...
The bottom-up branch of synthetic biology includes—among others—innovative studies that combine cell...
Here, we propose a framework for the design of synthetic protein networks from modular protein– prot...
Synthetic biology approaches range from the introduction of unique features into organisms to the as...
The bottom-up branch of synthetic biology includes-among others-innovative studies that combine cell...
Living cells communicate and cooperate to produce the emergent properties of tissues. Synthetic mimi...