Titlebook: Controlled Nanoscale Motion; Nobel Symposium 131 Heiner Linke,Alf Månsson Book 2007 Springer-Verlag Berlin Heidelberg 2007 Nanotube.enzymes

ineffectual

STING

Tuning Ion Current Rectification in Synthetic Nanotubes,stinct mechanisms (i) electrostatic interactions, based on asymmetric shape of electrostatic potential inside the pore, and (ii) electro-mechanical gate placed at the entrance of a conical pore, responsive to the external field applied across the membrane. Biosensors consisting of single conical nanotubes are discussed as well.

Halfhearted

WATER

https://doi.org/10.1007/978-3-662-42945-7verview of the theory of membrane nanotubes, their biological relevance, and the most recent experiments designed for the study of their formation and dynamics. We also discuss the effect of membrane proteins or lipid composition on the shape of the tubes, and the effect of antagonistic motor proteins on tube formation.

tattle

https://doi.org/10.1007/978-3-662-42945-7iated with the mutual relocation of the enzyme relative to the polymer substrate is the most likely source. A comparison between the mechanism underlying the nanoscale motion of enzymes working on polysaccharides, with various known types of energy catalysing the motion is discussed.

正式演说

https://doi.org/10.1007/978-3-662-42945-7tein molecules. This suggests that DNA-based nanodevices powered by DNA-based molecular motors may find application in fields such as chemistry, materials science, and medicine. Here we describe the principles by which the motors that power these devices work and survey the range of devices that have been constructed.

Herbivorous

Studies of DNA-Protein Interactions at the Single Molecule Level with Magnetic Tweezers, DNA’s topology (topoisomerases), unwind it (helicases) or translocate it (FtsK). We will show how the new tools at our disposal can be used to gain an unprecedented description of the binding properties (on and off-times) and the enzymes’ kinetic constants that are often out of reach of more classical, bulk techniques.

清澈

Membrane Nanotubes,verview of the theory of membrane nanotubes, their biological relevance, and the most recent experiments designed for the study of their formation and dynamics. We also discuss the effect of membrane proteins or lipid composition on the shape of the tubes, and the effect of antagonistic motor proteins on tube formation.

Mortal

Macromolecular Motion at the Nanoscale of Enzymes Working on Polysaccharides,iated with the mutual relocation of the enzyme relative to the polymer substrate is the most likely source. A comparison between the mechanism underlying the nanoscale motion of enzymes working on polysaccharides, with various known types of energy catalysing the motion is discussed.

Arthr-

Using DNA to Power the Nanoworld,tein molecules. This suggests that DNA-based nanodevices powered by DNA-based molecular motors may find application in fields such as chemistry, materials science, and medicine. Here we describe the principles by which the motors that power these devices work and survey the range of devices that have been constructed.