Add to ORKGA number of enzymes reportedly exhibit enhanced diffusion in the presence of their substrates, with a Michaelis-Menten-like concentration dependence. Although no definite explanation of this phenomenon has emerged, a physical picture of enzyme self-propulsion using energy from the catalyzed reaction has been widely considered. Here, we present a kinematic and thermodynamic analysis of enzyme self-propulsion that is independent of any specific propulsion mechanism. Using this theory, along with biophysical data compiled for all enzymes so far shown to undergo enhanced diffusion, we show that the propulsion speed required to generate experimental levels of enhanced diffusion exceeds the speeds of well-known active biomolecules, such as myosin...
Recent experiments have revealed that the diffusivity of exothermic and fast enzymes is enhanced whe...
Recent experiments have revealed that the diffusivity of exothermic and fast enzymes is enhanced whe...
Chemotaxis of enzymes in response to gradients in the concentration of their substrate has been wide...
Molecular agitation more rapid than thermal Brownian motion is reported for cellular environments, m...
Self-propulsion of micro- and nanoscale objects can be achieved by harnessing the chemical free ener...
Molecular agitation more rapid than thermal Brownian motion is reported for cellular environments, m...
A novel mechanism of reaction-induced active molecular motion, not involving any kind of self-propul...
Molecular agitation more rapid than thermal Brownian motion is reported for cellular environments, m...
Enzymes have been recently found to exhibit enhanced diffusion due to their catalytic activities. A ...
Enzymes have been recently found to exhibit enhanced diffusion due to their catalytic activities. A ...
Several recent experiments suggest that rather generally the diffusion of enzymes may be augmented t...
A novel mechanism of reaction-induced active molecular motion, not involving any kind of self-propul...
Enzymes have been recently proposed to have mechanical activity associated with their chemical activ...
Colloidal suspensions containing microscopic swimmers have been the focus of recent studies aimed at...
Self-propelled chemical motors are chemically powered micro- or nanosized swimmers. The energy requi...
Recent experiments have revealed that the diffusivity of exothermic and fast enzymes is enhanced whe...
Recent experiments have revealed that the diffusivity of exothermic and fast enzymes is enhanced whe...
Chemotaxis of enzymes in response to gradients in the concentration of their substrate has been wide...
Molecular agitation more rapid than thermal Brownian motion is reported for cellular environments, m...
Self-propulsion of micro- and nanoscale objects can be achieved by harnessing the chemical free ener...
Molecular agitation more rapid than thermal Brownian motion is reported for cellular environments, m...
A novel mechanism of reaction-induced active molecular motion, not involving any kind of self-propul...
Molecular agitation more rapid than thermal Brownian motion is reported for cellular environments, m...
Enzymes have been recently found to exhibit enhanced diffusion due to their catalytic activities. A ...
Enzymes have been recently found to exhibit enhanced diffusion due to their catalytic activities. A ...
Several recent experiments suggest that rather generally the diffusion of enzymes may be augmented t...
A novel mechanism of reaction-induced active molecular motion, not involving any kind of self-propul...
Enzymes have been recently proposed to have mechanical activity associated with their chemical activ...
Colloidal suspensions containing microscopic swimmers have been the focus of recent studies aimed at...
Self-propelled chemical motors are chemically powered micro- or nanosized swimmers. The energy requi...
Recent experiments have revealed that the diffusivity of exothermic and fast enzymes is enhanced whe...
Recent experiments have revealed that the diffusivity of exothermic and fast enzymes is enhanced whe...
Chemotaxis of enzymes in response to gradients in the concentration of their substrate has been wide...