Kalb J, Nielsen T, Fricke M, Egelhaaf M, Kurtz R. In vivo two-photon laser-scanning microscopy of Ca 2+ dynamics in visual motion-sensitive neurons. Biochemical and biophysical research communications. 2004;316(2):341-347.We applied two-photon laser-scanning microscopy (TPLSM) to motion-sensitive visual interneurons of the fly to study Ca(2+) dynamics in vivo at a higher spatial and temporal resolution than possible with conventional fluorescence microscopy. Based on a custom-built two-photon microscope, we performed line scans to measure changes in presynaptic Ca(2+) concentrations elicited by visual stimulation. We used a fast avalanche photodiode (APD) with a high quantum efficiency to detect even low levels of emitted fluorescence. Our ...
The development of tools to allow in vivo measurement in intact neural circuitry represents a dramat...
Optical imaging of neuronal activity offers new possibilities for understanding brain physiology. Th...
A central goal in neuroscience is to understand dynamics in the awake mammalian brain on a large sca...
Two-photon calcium imaging provides an optical readout of neuronal activity in populations of neuron...
Kurtz R, Fricke M, Kalb J, Tinnefeld P, Sauer M. Application of multiline two-photon microscopy to f...
Two-photon scanning microscopy has advanced our understanding of neural signaling in non-mammalian s...
This article describes the development and application of miniaturized two-photon-excited fluorescen...
We developed a miniaturized two-photon microscope (MINI2P) for fast, high-resolution, multiplane cal...
The brain is complex and dynamic. The spatial scales of interest to the neurobiologist range from in...
The brain is complex and dynamic. The spatial scales of interest to the neurobiologist range from in...
International audienceThis chapter presents three examples of imaging brain activity with voltage- o...
Functional imaging of the mouse brain in its extreme complexity involves substantial trade-offs. An...
Fluorescence imaging in biology has become a fundamental tool to understanding structure and functio...
Two-photon excitation laser scanning microscopy (TPLSM) has become the tool of choice for high-resol...
Two-photon microscopy has enabled high-resolution imaging of single cells in the brain of anaestheti...
The development of tools to allow in vivo measurement in intact neural circuitry represents a dramat...
Optical imaging of neuronal activity offers new possibilities for understanding brain physiology. Th...
A central goal in neuroscience is to understand dynamics in the awake mammalian brain on a large sca...
Two-photon calcium imaging provides an optical readout of neuronal activity in populations of neuron...
Kurtz R, Fricke M, Kalb J, Tinnefeld P, Sauer M. Application of multiline two-photon microscopy to f...
Two-photon scanning microscopy has advanced our understanding of neural signaling in non-mammalian s...
This article describes the development and application of miniaturized two-photon-excited fluorescen...
We developed a miniaturized two-photon microscope (MINI2P) for fast, high-resolution, multiplane cal...
The brain is complex and dynamic. The spatial scales of interest to the neurobiologist range from in...
The brain is complex and dynamic. The spatial scales of interest to the neurobiologist range from in...
International audienceThis chapter presents three examples of imaging brain activity with voltage- o...
Functional imaging of the mouse brain in its extreme complexity involves substantial trade-offs. An...
Fluorescence imaging in biology has become a fundamental tool to understanding structure and functio...
Two-photon excitation laser scanning microscopy (TPLSM) has become the tool of choice for high-resol...
Two-photon microscopy has enabled high-resolution imaging of single cells in the brain of anaestheti...
The development of tools to allow in vivo measurement in intact neural circuitry represents a dramat...
Optical imaging of neuronal activity offers new possibilities for understanding brain physiology. Th...
A central goal in neuroscience is to understand dynamics in the awake mammalian brain on a large sca...