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Novel Assay Using Azide-Capture Agents
Prof. Min Xue from the University of California, Riverside and Prof. Wei Wei from the Institute for Systems Biology have developed materials and methods to detect and measure FA uptake alone or simultaneously with protein detection in multiplex down to single-cell resolution. FA analogs with an azide functional group mimics natural FAs. Specially designed small polymers are used to efficiently assay the FA analogs and produce fluorescent or chemical signals upon binding. The technology is compatible with protein analysis and generally applicable to other metabolites and proteins. Fig 1: Schematic of the UCR-ISB method for detecting fatty acid uptake from single cells.
Novel Genetic Switch for Inducing Gene Expression
Prof. Sean Cutler and colleagues at the University of California, Riverside have engineered a system and methods to induce gene expression in plants and organisms, including mammals, using the chemical compound mandipropamid. Using the PYR/PYL/HAB1 promoter system, the PYR1/HAB1 system is reprogrammed to be activiated with mandipropamid. When the PYR1/HAB1 system dimerizes through chemical induced dimerization (CID) with mandipropamid, the system functions as a control switch for gene expression. This technology has been demonstrated to advantageously accelerate citrus breeding. It may be applied to improve CAR T-cell therapy and agricultural crops. Fig 1: UCR’s PYR1/HAB1 system is programmed through chemical induced dimerization (CID) initiated by mandipropamid to function as a switch for agrochemical control of gene expression.
Conductive Thin-Films For Direct Membrane Surface Electroheating
Brief description not available
Variable Exposure Portable Perfusion Monitor Using Commercial Vision Processing System-On-Modules (Soms)
Multicolor Photonic Pigments From Magnetically Assembled Nanorod Arrays
Magnetochromatic Spheres
Using Small Molecule Absorbers To Create A Photothermal Wax Motor
Graphene-Based Gas And Bio Sensor With High Sensitivity And Selectivity
Silicon And Carbon Nanocomposite Spheres With Enhanced Electrochemical Performance For Full Cell Lithium Ion Batteries
Carbon Nanotube Infrared Detector
Chromium Complexes Of Graphene
Facile Synthesis Of Ni Nanofoam Architectures For Applications In Li-Ion Batteries
Silicon From Waste Glass For Energy Storage Applications
Scalable, Binerless And Carbonless Hierarchical Ni Nanoderndrite Foam Decorated For Supercapacitors
Free-Standing Ni-Nio Nanofiber Cloth Anode For High Capacity And High Rate Li-Ion Batteries
Porobello Mushroom Based Hierarchically Porous Carbon Nanoribbons And Architectures
Integrated Circuit System-On-Chip And System-In-A-Package For Visible Light Communications And Navigation
Silicon Nanofiber Paper Battery
Solution Processing Of Transition Metal Dichalcogenide Thin Films
Porous Silicon Nanosphere Battery
Hybrid Nanostructured Materials For Rechargeable Energy Storage Technologies
Nanostructured Ink Material For Electronic And Energy Storage Devices And Methods Of Making And Using Thereof
Hybrid Approaches For Enhanced Energy Storage Devices And Methods Of Making And Using There Of
High Resolution Metrology Of Large Area Graphene Sheets And Methods Of Making And Using Thereof
Bicontinuous Composite Nano-Mm Sized Particles, 1D, 2D And 3D Structures For Impact Resistance And Energy Dissipation
These technologies are part of the UC QuickStart program.