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(Boston time )
Our links
Others (cell and protein label-free biosensors)
Academic groups
Paul Charette group (Université de Sherbrooke) : This group build SPR setup to probe changes in living cell under different stimuli [1]. [papers]
Michihiro Hide group (Hiroshima University): SPR imaging of single cells. [papers]
Nongjian Tao group (Arizona State University): Subcellular Surface Plasmon Resonance Microscopy based on TIRF microscope. These group shows probably the best spatial
resolution for SPR imaging (~1 micron). [papers]
Booksh group (University of Daleware Newark): Mid- and Near-IR surface plasmon based chemical sensors.
Prof. Sung June Kim group (Seoul National University):Long range surface plasmon sensors
applied for study of neuron signaling.
Commercial devices
ProteOn™ XPR36 Protein Interaction Array System: SPR optical biosensor that provides real-time data on the affinity, specificity, and interaction kinetics of protein interactions. This system generates a 6 x 6 interaction, namely 36 protein interactions in on a single chip.
EnSpire® Multimode Plate Readers: Characterize cellular signaling mechanisms more completely and better understand the complexity of multiple signaling pathways more efficiently with label-free technology. In addition, the technology can also be used to study biochemical interactions.
The SPR100: Fourier-transform SPR system delivers a compelling combination of sensitivity and dynamic range.
(Boston time )
Our links
| Michael Golosovsky | Victor Yashunsky | |
| Benjamin Aroeti | Betty Schwartz | Amir Bein |
| Yissum page technology transfer |
Others (cell and protein label-free biosensors)
Academic groups
Michihiro Hide group (Hiroshima University): SPR imaging of single cells. [papers]
Nongjian Tao group (Arizona State University): Subcellular Surface Plasmon Resonance Microscopy based on TIRF microscope. These group shows probably the best spatial
resolution for SPR imaging (~1 micron). [papers]
Booksh group (University of Daleware Newark): Mid- and Near-IR surface plasmon based chemical sensors.
Prof. Sung June Kim group (Seoul National University):Long range surface plasmon sensors
applied for study of neuron signaling.
Commercial devices
ProteOn™ XPR36 Protein Interaction Array System: SPR optical biosensor that provides real-time data on the affinity, specificity, and interaction kinetics of protein interactions. This system generates a 6 x 6 interaction, namely 36 protein interactions in on a single chip.
EnSpire® Multimode Plate Readers: Characterize cellular signaling mechanisms more completely and better understand the complexity of multiple signaling pathways more efficiently with label-free technology. In addition, the technology can also be used to study biochemical interactions.
The SPR100: Fourier-transform SPR system delivers a compelling combination of sensitivity and dynamic range.
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