Researchers in Dr. Mark Kay's laboratory at Stanford University have designed a new liver-specific expression cassette for inserting genes into double-stranded AAV (adeno-associated virus) vectors for gene therapy.
Stanford researchers have developed a novel method of fabricating one-dimensional and two-dimensional capacitive micromachined ultrasonic transducer (CMUT) arrays.
The market for wireless sensor networks is quickly expanding. It is estimated that within a few years there could be 100 million wireless sensors in use in a billion-dollar worldwide market.
Rat monoclonal antibody BZ332 specifically recognizes human serpentine protein CMKLR1. CMKLR1 is a novel protein possessing high homology with members of the chemoattractant receptor family, and binds the chmoattractant chemerin.
A method of fabricating a variable capacitive device for micromachined sensors and actuators. A critical optimization of these capacitors for both sensing and actuation is achieved by maximizing the capacitance change with gap width or overlap area.
The efficient collection of incident photons (optical efficiency) and their conversion to measurable charge (quantum efficiency) are of critical importance to the performance of image sensors.
Monoclonal antibody that recognizes MLL, an oncoprotein that is mutated in a broad subset of pediatric and adult leukemias. MLL protein displays histone methyltransferase activity.