As part of a comprehensive optofluidic platform, researchers at Stanford have developed an integrated dynamic flat-optics system enabling microlens-free metasurface planar light-field displays.
As part of a comprehensive optofluidic platform, researchers at Stanford have developed an integrated dynamic flat-optics system that supports unprecedented compact configurations.
Phospholamban (PLN) regulates cardiac contractility and modulates sarcoplasmic reticulum (SR) Ca2+ sequestration by inhibiting the dephosphorylated SR Ca2+-ATPase (SERCA).
Researchers in Prof. Matthew Scott's laboratory have discovered that small-molecule inhibitors of casein kinase II (CK2) could be used as a targeted therapy for pediatric medulloblastoma or other Shh/hedgehog-related tumors.
Stanford researchers at the Snyder Lab have developed a method for simultaneously measuring thousands of proteins, lipids, and metabolites from home-collected 10 ?L blood samples in conjunction with wearable sensors.
Every year, 1.4 million new cases are reported for colorectal cancer but existing treatments are not effective. This represents an estimated $1 billion market annually in the US.
Researchers in Dr. Carlos D. Bustamante's lab have developed a phasing algorithm that incorporates sequencing read information, population and individual genotype data to provide more accurate haplotype reconstruction.
Researchers in Carlos Bustamante's lab at Stanford have developed a method for detecting whether an individual is present in a mixture of genomes. It uses only queries about the presence of alleles to make this decision using genome-wide SNP data.
Fast, accurate and cheap synthesis of ultralong strands of DNA is an essential foundation for synthetic DNA technologies such as cellular programming and engineering.
A team of Stanford engineers has identified first-in-class epidermal growth factor (EGF) mutants with enhanced activity. These mutants can stimulate increased EGF receptor activation at 10-fold lower concentrations than wild-type EGF.
Stanford inventors have developed a framework that performs digitally verifiable photonic matrix-vector multiplication in integrated photonic networks, which may potentially enable energy-efficient hash functions and cryptocurrency mining.
Stanford researchers at the Zhao Lab have developed a wireless, magnetically actuated amphibious origami millirobot that can locomote in narrow spaces and morph their shapes. The researchers have demonstrated that this millirobot can travel on surfaces and through liquid.