Add to ORKGABSTRACT A localized point-like force applied perpendicular to a vesicular membrane layer, using an optical tweezer, leads to membrane nanotubulation beyond a threshold force. Below the threshold, the force-extension curve shows an elastic response with a fine structure (serrations). Above the threshold the tubulation process exhibits a new reversible flow phase for the multilamellar membrane, which responds viscoelastically. Furthermore, with an oscillatory force applied during tubulation, broad but well-resolved resonances occur in the flow phase, presumably matching the time scales associated with the vesicle-nanotubule coupled system. These nanotubules, anchored to the optical tweezer also provide, for the first time, a direct probe of ...
Optical tweezers have been used successfully to provide precise manipulation of micron sized particl...
DNA origami offers the possibility of developing novel membrane-spanning pores with potential applic...
port, and serve broadly as scaffolding for transport and a temporal resolution ofw30 Hz. Recent stud...
A localized point-like force applied perpendicular to a vesicular membrane layer, using an optical t...
AbstractA localized point-like force applied perpendicular to a vesicular membrane layer, using an o...
We report an interesting regime of tubule formation in multilamellar membrane vesicles. An optically...
International audiencePulling membrane nanotubes from liposomes presents a powerful method to gain a...
Cell lipid membranes are the site of vital biological processes, such as motility, trafficking, and ...
International audienceMany biological functions rely on the reshaping of cell membranes, in particul...
Intracellular transport involves membrane compartments and thus requires dynamic changes in the morp...
AbstractTethers are nanocylinders of lipid bilayer membrane, arising in situations ranging from micr...
Biological systems reconfigure their shape in response to external stimuli at the level of single ce...
Biological cells continuously change shape allowing essential functions such as cell motility, vesic...
Irregular force fluctuations are seen in most nanotubulation experiments. The dynamics behind their ...
We present both a theoretical and an experimental study of the long time behavior of membrane nanotu...
Optical tweezers have been used successfully to provide precise manipulation of micron sized particl...
DNA origami offers the possibility of developing novel membrane-spanning pores with potential applic...
port, and serve broadly as scaffolding for transport and a temporal resolution ofw30 Hz. Recent stud...
A localized point-like force applied perpendicular to a vesicular membrane layer, using an optical t...
AbstractA localized point-like force applied perpendicular to a vesicular membrane layer, using an o...
We report an interesting regime of tubule formation in multilamellar membrane vesicles. An optically...
International audiencePulling membrane nanotubes from liposomes presents a powerful method to gain a...
Cell lipid membranes are the site of vital biological processes, such as motility, trafficking, and ...
International audienceMany biological functions rely on the reshaping of cell membranes, in particul...
Intracellular transport involves membrane compartments and thus requires dynamic changes in the morp...
AbstractTethers are nanocylinders of lipid bilayer membrane, arising in situations ranging from micr...
Biological systems reconfigure their shape in response to external stimuli at the level of single ce...
Biological cells continuously change shape allowing essential functions such as cell motility, vesic...
Irregular force fluctuations are seen in most nanotubulation experiments. The dynamics behind their ...
We present both a theoretical and an experimental study of the long time behavior of membrane nanotu...
Optical tweezers have been used successfully to provide precise manipulation of micron sized particl...
DNA origami offers the possibility of developing novel membrane-spanning pores with potential applic...
port, and serve broadly as scaffolding for transport and a temporal resolution ofw30 Hz. Recent stud...