Single Molecule Microscopy
Classical biological techniques focus on describing the behavior of large ensembles of molecules. However, this doesn’t allow for the identification of subpopulations within the ensemble or show how these subpopulations behave under differing experimental conditions. The only way to investigate the behavior of single molecules or subpopulations is under strict experimental conditions, guaranteeing that each molecule is in the same state, one at a time.
Single-molecule fluorescence microscopy represents a subset of fluorescence microscopy that uses fluorescent tags to detect and analyze individual single molecules. This allows the activity of single molecules to be visualized with high signal-to-noise without disturbing the physiological conditions of the biological system.
Single molecule imaging is typically a very low-light technique so one of the main challenges is to collect as many of the emitted photons as possible to maximize signal to noise ratio so a highly sensitive camera is desired.
Prime 95B
Extremely sensitive, 95% quantum efficient sCMOS camera with 11 µm pixels and EMCCD level detection.
Go beyond EMCCD for single molecule imaging with the back-illuminated Prime 95B, which features an equivalent level of detection but with a faster speed, larger field of view and no EM-gain aging or excess noise.
The Prime 95B allows exposure times to be lowered significantly to increase acquisition speed and reduce photobleaching and photodamage to the lowest levels possible on an sCMOS camera.
Kinetix
High sensitivity, 95% quantum efficient sCMOS camera with an incredibly high 400 fps full-frame speed and a massive 29.4 mm diagonal field of view.
The speed of the Kinetix significantly outperforms typical sCMOS devices. With a full-frame framerate of 400 fps and a 10 megapixel sensor, the Kinetix delivers over 4000 megapixels/second which ensures that no event goes undetected.
The high quantum efficiency and low read noise combined with the balanced 6.5 µm pixel size also delivers the sensitivity needed to get the highest image quality from a single molecule system without sacrificing resolution.
Prime BSI Express
High sensitivity, 95% quantum efficient, sCMOS camera with 6.5 µm pixels,
1.0 e– read noise and 95 fps full frame speed.
The high quantum efficiency and low read noise combined with the balanced 6.5 µm pixel size offers high sensitivity imaging whilst achieving Nyquist sampling with the most popular objective magnifications used for single molecule imaging.
Customer Stories
Neuronal Single-Molecule TIRF
“The [Prime 95B] camera has the best quantum efficiency, this is decisive when you have both temporal and spatial resolution thresholds, this was the best camera for the job.”
Single-Molecule TIRF
“We spoke to you immediately and it was quite clear we were going to go with Photometrics… setting up the [Prime BSI Express] was as simple as plugging in a USB.”
High-Resolution Time-Lapse Imaging
“We previously used to image in a single plane but now we can take z-stacks through the liposome with high enough frame rates to visualize the internal dynamics”