Chemotaxis of enzymes in response to gradients in the concentration of their substrate has been widely reported in recent experiments, but a basic understanding of the process is still lacking. Here, we develop a microscopic theory for chemotaxis that is valid for enzymes and other small molecules. Our theory includes both nonspecific interactions between enzyme and substrate as well as complex formation through specific binding between the enzyme and the substrate. We find that two distinct mechanisms contribute to enzyme chemotaxis: a diffusiophoretic mechanism due to the nonspecific interactions and a new type of mechanism due to binding-induced changes in the diffusion coefficient of the enzyme. The latter chemotactic mechanism points t...
The concept that catalytic enzymes can act as molecular machines transducing chemical activity into ...
Molecular agitation more rapid than thermal Brownian motion is reported for cellular environments, m...
A number of enzymes reportedly exhibit enhanced diffusion in the presence of their substrates, with ...
Chemotaxis of enzymes in response to gradients in the concentration of their substrate has been wide...
Chemotaxis of enzymes in response to gradients in the concentration of their substrate has been wide...
Chemotaxis of enzymes in response to gradients in the concentration of their substrate has been wide...
Enzymes have been recently proposed to have mechanical activity associated with their chemical activ...
Many experiments in recent years have reported that, when exposed to their corresponding substrate, ...
Enzymes show two distinct transport behaviors in the presence of their substrates in solution. First...
There is mounting evidence that enzyme diffusivity is enhanced when the enzyme is catalytically acti...
There is mounting evidence that enzyme diffusivity is enhanced when the enzyme is catalytically acti...
In several experiments, enzymes have shown an in increase in diffusivity in the presence of their su...
Using a microscopic theory to analyze experiments, we demonstrate that enzymes are active matter. Su...
Using a microscopic theory to analyze experiments, we demonstrate that enzymes are active matter. Su...
Using fluorescence correlation spectroscopy, we show that the diffusive movements of catalase enzyme...
The concept that catalytic enzymes can act as molecular machines transducing chemical activity into ...
Molecular agitation more rapid than thermal Brownian motion is reported for cellular environments, m...
A number of enzymes reportedly exhibit enhanced diffusion in the presence of their substrates, with ...
Chemotaxis of enzymes in response to gradients in the concentration of their substrate has been wide...
Chemotaxis of enzymes in response to gradients in the concentration of their substrate has been wide...
Chemotaxis of enzymes in response to gradients in the concentration of their substrate has been wide...
Enzymes have been recently proposed to have mechanical activity associated with their chemical activ...
Many experiments in recent years have reported that, when exposed to their corresponding substrate, ...
Enzymes show two distinct transport behaviors in the presence of their substrates in solution. First...
There is mounting evidence that enzyme diffusivity is enhanced when the enzyme is catalytically acti...
There is mounting evidence that enzyme diffusivity is enhanced when the enzyme is catalytically acti...
In several experiments, enzymes have shown an in increase in diffusivity in the presence of their su...
Using a microscopic theory to analyze experiments, we demonstrate that enzymes are active matter. Su...
Using a microscopic theory to analyze experiments, we demonstrate that enzymes are active matter. Su...
Using fluorescence correlation spectroscopy, we show that the diffusive movements of catalase enzyme...
The concept that catalytic enzymes can act as molecular machines transducing chemical activity into ...
Molecular agitation more rapid than thermal Brownian motion is reported for cellular environments, m...
A number of enzymes reportedly exhibit enhanced diffusion in the presence of their substrates, with ...