Add to ORKGOptical tweezers use the momentum of photons to trap and manipulate microscopic objects contact-free in three dimensions. Although this technique has been widely used in biology and nanotechnology to study molecular motors, biopolymers and nanostructures, its application in viruses has been very limited largely due to the small size of these nanoparticles. Using optical tweezers that can simultaneously resolve two-photon fluorescence at single-molecule level, here we show that individual HIV-1 can be optically trapped and manipulated, which allows multi-parameter analysis of single virions in culture fluid under native conditions. We show that individual HIV-1 differs in the numbers of envelope glycoproteins by more than one order of magnit...
Optical trapping has revolutionized our understanding of biology by manipulating cells and single mo...
Single-molecule fluorescence methods remain a challenging yet information-rich set of techniques tha...
In the past decades, numerous single-molecule techniques have been developed to investigate individu...
Viruses are simple agents exhibiting complex reproductive mechanisms. Decades of research have provi...
Employing viruses as nanoscopic lipid-enveloped test tubes allows the miniaturization of protein–pro...
ABSTRACT- Light-based imaging and microscopy techniques are compelling diagnostic tools that provide...
Over the past two decades, single-molecule techniques have evolved into robust tools to study many f...
Virus-based nanoparticles (VNPs) have been used for a wide range of applications, spanning basic mat...
Spatial manipulation of a precise number of viruses for host cell infection is essential for the ext...
Complexity and heterogeneity are common denominators of the many molecular events taking place insid...
In the past three decades, the ability to optically manipulate biomolecules has spurred a new era of...
International audienceReal-time visualization and quantification of viruses released by a cell are c...
Targeting of key events in viral infection pathways creates opportunities for virus disease preventi...
<div><p>Light microscopy is a powerful tool in the detection and analysis of parasites, fungi, and p...
Biological molecules can be forced to pass through an aperture in a thin membrane of only several na...
Optical trapping has revolutionized our understanding of biology by manipulating cells and single mo...
Single-molecule fluorescence methods remain a challenging yet information-rich set of techniques tha...
In the past decades, numerous single-molecule techniques have been developed to investigate individu...
Viruses are simple agents exhibiting complex reproductive mechanisms. Decades of research have provi...
Employing viruses as nanoscopic lipid-enveloped test tubes allows the miniaturization of protein–pro...
ABSTRACT- Light-based imaging and microscopy techniques are compelling diagnostic tools that provide...
Over the past two decades, single-molecule techniques have evolved into robust tools to study many f...
Virus-based nanoparticles (VNPs) have been used for a wide range of applications, spanning basic mat...
Spatial manipulation of a precise number of viruses for host cell infection is essential for the ext...
Complexity and heterogeneity are common denominators of the many molecular events taking place insid...
In the past three decades, the ability to optically manipulate biomolecules has spurred a new era of...
International audienceReal-time visualization and quantification of viruses released by a cell are c...
Targeting of key events in viral infection pathways creates opportunities for virus disease preventi...
<div><p>Light microscopy is a powerful tool in the detection and analysis of parasites, fungi, and p...
Biological molecules can be forced to pass through an aperture in a thin membrane of only several na...
Optical trapping has revolutionized our understanding of biology by manipulating cells and single mo...
Single-molecule fluorescence methods remain a challenging yet information-rich set of techniques tha...
In the past decades, numerous single-molecule techniques have been developed to investigate individu...