Stanford researchers have created a technology using CyTOF (Cytometry by Time Of Flight mass spectrometry) and CODEX (CO-Detection by indEXing) imaging to systematically analyze cell therapies produced ex vivo and their effects in vivo.
Stanford scientists developed a new chemistry technique involving embedding tissue in hydrogel for mass spectrometry (MS), without the need for water to prepare samples for MS, that provides better resolution, better maintenance of X-Y distances and subsequent improvement in v
Researchers at Stanford have developed the SNAIL-RCA method for inexpensive and efficient multiplexed detection of single RNA molecules in single cells.
Researchers at Stanford have developed methods and reagents to improve and expand the capabilities of tyramide signal amplification (TSA) for simultaneous detection of low abundance biomolecules.
High-grade serous ovarian cancer (HG-SOC) is the most lethal gynecologic malignancy, in large part because most patients present with late-stage disease and receive the same therapeutic regimen despite significant heterogeneity in disease and clinical response.
Compressed sensing has revolutionized signal acquisition by enabling high dimensional signals to be measured with remarkable fidelity using a small number of so-called incoherent sensors.
GateFinder is a flexible, automated, objective algorithm that quickly analyzes complex mass cytometry datasets to identify simple signatures (“gates”) for FACS (fluorescent automated cell sorting) purification.
Stanford researchers have developed a versatile computational approach for easily visualizing and analyzing multidimensional molecular data, such as flow cytometry data.
The Nolan laboratory has created second-generation retrovirus producer lines, termed Phoenix, for the generation of helper free ecotropic and amphotropic retroviruses.
The FELIX vector system, like the PHOENIX MLV-based packaging system, produces high-titre retroviral particles capable of stably transducing a wide variety of target cells with a gene of interest.
293T is a human cell line that has unique properties useful in many applications, including those requiring efficient transfection, gene expression, DNA replication, or viral production.