Two-photon microscopy has been used to perform high spatial resolution imaging of spine plasticity in the intact neocortex of living mice. Multiphoton absorption has also been used as a tool for the selective disruption of cellular structures in living cells and simple organisms. In this work, we exploit the spatial localization of multiphoton excitation to perform selective lesions on the neuronal processes of cortical neurons in living mice expressing fluorescent proteins. Neurons are irradiated with a focused, controlled dose of femtosecond laser energy delivered through cranial optical windows. The morphological consequences are then characterized with time lapse 3-D two-photon imaging over a period of minutes to days after the procedur...
To understand the cellular and circuit mechanisms of experience-dependent plasticity, neurons and th...
The simultaneous imaging and manipulating of neural activity could enable the functional dissection ...
A two-photon microscope is basically a scanning confocal microscope that uses for excitation near-in...
Recently, two-photon microscopy has been used for high spatial resolution imaging of the intact neoc...
In the mammalian cortex, neurons form extremely complicated networks and exchange information at syn...
In combination with fluorescent protein (XFP) expression techniques, two-photon microscopy has becom...
In combination with fluorescent protein (XFP) expression techniques, two-photon microscopy has becom...
In vivo two-photon microscopy utilizing a nonlinear optical process enables, in living mouse brains,...
Introduction Structural plasticity with synapse formation and elimination is a key component of m...
The rich structural dynamics of axonal arbors and neuronal circuitry can only be revealed through di...
AbstractMany cellular structures and organelles are too small to be properly resolved by conventiona...
Two-photon excitation laser scanning microscopy (TPLSM) has become the tool of choice for high-resol...
Two-photon microscopy is a fundamental tool for neuroscience as it permits investigation of the brai...
Thanks to their flexibility, optical techniques could be the key to explore anatomy, plasticity, and...
Two-photon microscopy has enabled high-resolution imaging of single cells in the brain of anaestheti...
To understand the cellular and circuit mechanisms of experience-dependent plasticity, neurons and th...
The simultaneous imaging and manipulating of neural activity could enable the functional dissection ...
A two-photon microscope is basically a scanning confocal microscope that uses for excitation near-in...
Recently, two-photon microscopy has been used for high spatial resolution imaging of the intact neoc...
In the mammalian cortex, neurons form extremely complicated networks and exchange information at syn...
In combination with fluorescent protein (XFP) expression techniques, two-photon microscopy has becom...
In combination with fluorescent protein (XFP) expression techniques, two-photon microscopy has becom...
In vivo two-photon microscopy utilizing a nonlinear optical process enables, in living mouse brains,...
Introduction Structural plasticity with synapse formation and elimination is a key component of m...
The rich structural dynamics of axonal arbors and neuronal circuitry can only be revealed through di...
AbstractMany cellular structures and organelles are too small to be properly resolved by conventiona...
Two-photon excitation laser scanning microscopy (TPLSM) has become the tool of choice for high-resol...
Two-photon microscopy is a fundamental tool for neuroscience as it permits investigation of the brai...
Thanks to their flexibility, optical techniques could be the key to explore anatomy, plasticity, and...
Two-photon microscopy has enabled high-resolution imaging of single cells in the brain of anaestheti...
To understand the cellular and circuit mechanisms of experience-dependent plasticity, neurons and th...
The simultaneous imaging and manipulating of neural activity could enable the functional dissection ...
A two-photon microscope is basically a scanning confocal microscope that uses for excitation near-in...