Imaging Equipment
Imaging and Flow Cytometry Core
Confocal Microscope
Carl Zeiss LSM 780
LSM780 is an inverted laser scanning confocal microscope. It is equipped with three solid state lasers (405, 561 and 633 nm), one argon laser with three laser lines (458, 488 and 514 nm), one femtosecond pulsed laser (Coherent Chameleon Vision II, tuning range 680nm-1080nm), two PMT detectors, one 32-channel spectral GaAsP detector and one transmitted light PMT detector. The GaASP detector allows the detection of weak signals and spectral imaging with unmixing (separation of spectrally overlapping fluorophores). The stage-top live cell chamber, the motorized stage, photo-bleaching module enables the multi-dimensional (multi-channel, multi-position, time-lapse) live cell imaging, photon-manipulation and large tissue tile scanning. Applications:
- XY 2D / Z-stack 3D imaging, DIC/Phase contrast
- Live cell imaging;
- Two-photon imaging;
- Spot/line Scan; lambda scan, linear unmixing;
- Tile scanning; multiple position imaging.
- Fluorescence recovery after photobleaching (FRAP), Fluorescence resonance energy transfer (FRET)
Detailed Configuration Standard Operation Protocol – Carl Zeiss LSM780.pdf
Staff-in-charge: Dr. CHEN, Miao | 3917 9806 | imaging.cpos@hku.hk
Carl Zeiss LSM 800
LSM 800 is an inverted confocal setup equipped with 4 lasers (405 nm, 488 nm, 561 nm, 640nm) and Airyscan for sub-diffraction resolution to 140 nm. The microscope has 2 confocal detectors and a highly sensitive GaAsP detector, each of the detector’s wavelengths is tunable per nanometer. The stage-top live cell chamber, the motorized stage, advanced tiling module, photo-bleaching module enables the multi-dimensional (multi-channel, multi-position, time-lapse) live cell imaging, photo-manipulation and big tissue tile scanning. Applications:Carl Zeiss LSM 880
Carl Zeiss LSM 900
Carl Zeiss LSM 980
The Zeiss LSM980 system is an inverted laser scanning confocal microscopes with Airyscan 2 expands the excitation laser spot to allow imaging of eight lines in parallel simultaneously. It enables multiplex modes of SR-8Y, SR-4Y and CO-8Y for high speed imaging without sacrificing sensitivity or resolution. New ZEN software modules, including “Sample Navigator” and “Zen Connect” will simplify the imaging setup procedure. The stage-top live cell chamber, the motorized stage, advanced tiling module, photo-bleaching module enables the multi-dimensional (multi-channel, multi-position, time-lapse) live cell imaging, photo-manipulation and large tissue tile scanning.Perkin Elmer UltraView VOX Spinning Disc Confocal
PE UltraVIEW VoX spinning disk confocal is built for rapid and gentle imaging of live cell specimens. Highly sensitive EMCCD camera coupled with Yokogawa CSU-X1 spinning disk unit enables user to image with very low laser power to minimize effect of phototoxicity during long-term live cell experiments. Piezo z-stage is included in the setup for capturing volume up to 400 µm in z-axis with exceptional speed.Super-resolution Microscope
Carl Zeiss ELYRA S1 (SR-SIM)
Zeiss ELYRA S1 (SR-SIM) Super Resolution Microscope is based on Structured Illumination Microscopy (SIM) and equipped with four lasers (405nm, 488nm, 561nm and 640nm), sCMOS camera, Definite Focus Unit and Live cell chamber. This allows the observation of subcellular structure at resolution of 120 nm laterally and 120 nm axially.
Applications
- XY 2D/Z-stack 3D Super-resolution Structure Illumination imaging
- Live cell Super-resolution Structure Illumination imaging
- Up to four channels multi-spectrum fluorescence imaging
Detailed Configuration
Standard Operation Protocol – Zeiss ELYRA S1 (SR-SIM) Super-Resolution Microscope
Staff-in-charge: Dr. CHEN, Miao | 3917 9806 | imaging.cpos@hku.hk
NanoBioImaging SRiS (STORM)
SRiS 2.0 is a set up build for performing stochastic optical reconstruction microscopy (STORM). Its unique design allows two-channel simultaneous acquisition in 656 nm and 750 nm channels. Active locking function in x-y axis and z-axis is maintained throughout imaging to achieve stability in nanometer scale.High Throughput Imaging System
Akoya Vectra Polaris
Vectra Polaris integrates both multispectral imaging and automated slide scanning to better visualize and quantify immunolabelled cells in tissue sections and tissue microarrays. With Tyramide signal amplification-based staining of multiple biomarkers (up to 8 overlapping fluorescent colors and DAPI), visualization is achieved by patented Liquid Crystal Tunable filter and unmixing algorithm. This fully automated system provides high speed whole-slide scanning at 10x to 40x in brightfield or fluorescence for up to 80 slides in a run. Supported by the tissue analysis software, quantification and spatial analysis of biomarkers can be accomplished in high throughput via machine learning and batch analysis.
Applications:
- Brightfield microscopy of histological sections (e.g. DAB, H&E)
- Whole-slide widefield fluorescent scanning (e.g. in-vitro GFP expression)
- Multispectral imaging, quantification and analysis of immunolabelled sections (up to 8 fluorescent colors and DAPI)
Standard Operation Protocol – Perkinelmer Vectra Polaris
Opal staining protocol
Akoya Opal Assay Development_Guide
Staff-in-charge: Dr. TONG, Christy | 3917 9442 | imaging.cpos@hku.hk
Cytiva IN Cell Analyzer 6500HS
IN Cell Analyzer 6500HS is a laser-based line scanning high-content imaging system. High speed filter based widefield, EDGE confocal imaging modes with a sensitive PCO Edge 4.2 sCMOS camera. User could choose between fixed cell imaging, live cell incubation and hypoxic incubation ([Oxygen] adjustable 0.1% -20%). Combined with new IN Carta software, for object quantification streamlines workflow for high content analysis feature extraction. Applications:Other Imaging System
Olympus FVMPE-RS Hybrid Multiphoton System
Olympus FVMPE-RS Hybrid Multiphoton System is a multi-photon laser scanning microscope that allows fluorescence imaging deep into specimens at hundreds of micrometers in living cells and tissues. It is equipped with two Coherent Chameleon Vision II laser, tunable from 680nm to 1080nm, four NDD (non-descanned detector) detectors (PMT), upright microscope stand and dual scanners (Galva and Resonant Scanner). This enables simultaneous imaging of maximum four fluorescent channels on live samples. High NA water immersion objectives allow imaging directly into specimens in media. It is dedicated to intravital imaging of living, whole mount, thickly sliced specimens or small animals.
Applications:
- Multiphoton imaging
- Second harmonic generation (SHG)
- Z-stack 3D imaging
- Time-lapse live tissue/animal imaging
- Fluorescence recovery after photobleaching (FRAP), Fluorescence resonance energy transfer (FRET) and photoactivation
Detailed configuration
Standard Operation Protocol – Olympus MP-ERS
Staff-in-charge: Dr. GUO, Jing | 3917 7554 | imaging.cpos@hku.hk
GATACA iLas TIRF
Total internal reflection fluorescence (TIRF) is an inverted fluorescence microscopy equipped with four laser lines (405nm, 488nm, 561nm and 640nm) and ring TIRF module, which delivers images with an outstandingly high axial resolution below 100 nm. This allows the observation of membrane-associated processes like cell adhesion, hormone binding, molecule transport and exocytotic and endocytotic processes.Nikon Ti2-E Widefield Imaging
Nikon Ti2-E is an inverted fluorescence microscope equipped with motorized and intelligent components for advanced imaging applications at high speed and high sensitivity. The integration of an unprecedented 25mm field of view with industry-leading optics, a Perfect-auto-Focusing System and a stratum structure enable the Nikon Ti2-E to have extra expandability meeting the needs for various type of imaging.Color Imaging Microscope
Color Imaging Microscope is an inverted microscope with high-speed CMOS color camera and fluorescent LED illumination. It is capable of brightfield color imaging and widefield fluorescent imaging. With high-speed color camera and multiple image alignment (MIA) function, it enables whole tissue color imaging acquisition by creating a real-time auto-stitched image when the specimen is focused and moved on the stage. The 2.3-megapixel camera’s CMOS sensor is combined with pixel-shifting technology, resulting in a 20.7-megapixel resolution. For live capturing, high-definition (HD) 1920 x 1200-pixel images can be captured at 60 fps, enabling clear observation and real-time focusing and acquisition with no image deterioration.Carl Zeiss AxioZoom.V16
AxioZoom.V16 is a multi-zoom stereoscope with fluorescent illumination. High N.A. optics enable visualization of specimen ranging from large field-of-view to single cell observation. Flexible design allows illumination options of brightfield, dark field, oblique ring illumination, reflective fluorescence for DAPI / GFP / RFP. Applications:Perkin Elmer IVIS Spectrum
IVIS Spectrum is relocated to Room AR6, CA-FMB, Roof Floor, Laboratory Block. Please contact Zara Kwong at zkowng@hku.hk or 5702 6608 for detail.
