Add to ORKGWith highly precise self-assembly and programmability, DNA has been widely used as a versatile material in nanotechnology and synthetic biology. Recently, DNA-based nanostructures and devices have been engineered onto eukaryotic cell membranes for various exciting applications in the detection and regulation of cell functions. While in contrast, the potential of applying DNA nanotechnology for bacterial membrane studies is still largely underexplored, which is mainly due to the lack of tools to modify DNA on bacterial membranes. Herein, using lipid-DNA conjugates, we have developed a simple, fast, and highly efficient system to engineer bacterial membranes with designer DNA molecules. We have constructed a small library of synthetic lipids,...
Membrane fusion is a ubiquitous phenomenon linked to many biological processes, and represents a cru...
Deoxyribonucleic acid (DNA) has been used as a material for a variety of applications, including sur...
Future lipid membrane-associated DNA nanostructures are expected to find applications ranging from s...
AbstractOver the last decade, functionally designed DNA nanostructures applied to lipid membranes pr...
Over the last decade, functionally designed DNA nanostructures applied to lipid membranes prompted i...
Recent developments in DNA nanotechnology brought rich structural and functional diversity. However,...
Abstract DNA is more than a carrier of genetic information: It is a highly versatile structural moti...
Membrane fusion is essential for nerve-cell communication, for protein transport between cell organe...
Lipid bilayers and lipid-associated proteins play crucial roles in biology. As in vivo studies and m...
Due to its versatility and programmability, DNA nanotechnology has greatly expanded the experimental...
Biology has evolved a variety of agents capable of permeabilising and disrupting lipid membranes, fr...
Mimicking enzyme function and increasing performance of naturally evolved proteins is one of the mos...
By mimicking Nature's way of utilizing multivalent interactions, we introduce in the present work a ...
Funder: Wellcome TrustBiology has evolved a variety of agents capable of permeabilizing and disrupti...
The plasma membrane of cells has evolved to mediate a broad array of functionalities critical to lif...
Membrane fusion is a ubiquitous phenomenon linked to many biological processes, and represents a cru...
Deoxyribonucleic acid (DNA) has been used as a material for a variety of applications, including sur...
Future lipid membrane-associated DNA nanostructures are expected to find applications ranging from s...
AbstractOver the last decade, functionally designed DNA nanostructures applied to lipid membranes pr...
Over the last decade, functionally designed DNA nanostructures applied to lipid membranes prompted i...
Recent developments in DNA nanotechnology brought rich structural and functional diversity. However,...
Abstract DNA is more than a carrier of genetic information: It is a highly versatile structural moti...
Membrane fusion is essential for nerve-cell communication, for protein transport between cell organe...
Lipid bilayers and lipid-associated proteins play crucial roles in biology. As in vivo studies and m...
Due to its versatility and programmability, DNA nanotechnology has greatly expanded the experimental...
Biology has evolved a variety of agents capable of permeabilising and disrupting lipid membranes, fr...
Mimicking enzyme function and increasing performance of naturally evolved proteins is one of the mos...
By mimicking Nature's way of utilizing multivalent interactions, we introduce in the present work a ...
Funder: Wellcome TrustBiology has evolved a variety of agents capable of permeabilizing and disrupti...
The plasma membrane of cells has evolved to mediate a broad array of functionalities critical to lif...
Membrane fusion is a ubiquitous phenomenon linked to many biological processes, and represents a cru...
Deoxyribonucleic acid (DNA) has been used as a material for a variety of applications, including sur...
Future lipid membrane-associated DNA nanostructures are expected to find applications ranging from s...