Cellular microarrays are a combination of well plate and microarray technologies that create an efficient high-throughput method to quantitate the phenotypes of cells in [...]

Modern biological research is increasingly dependent on information technology. The Human Genome Project, together with increased computer availability, has catalyzed the [...]

Gene expression profiles and mass-spectrometry analysis of a plaque have revealed genes and proteins involved in atherosclerotic plaque progression. Though differentially [...]

Ionizing radiation (IR) is frequently used in the treatment of cancer through radiation therapy. However, exposure to IR also poses a significant safety risk for nuclear [...]

Microarray gene expression research frequency generates large numbers of questions or information needs throughout the course of the experiment. Many of these questions r [...]

Immune checkpoint inhibitors have shown success in treating a subset of patients with certain late-stage cancers. However, these treatments fail in many other patients, d [...]

Despite their devastating impacts on millions of people, most rare and congenital disorders remain poorly understood, leaving the patients with these disorders with no FD [...]

Cell-cell co-occurrence patterns are critical in shaping biological and clinical phenotypes, but existing tools for analyzing single-cell RNA sequencing (scRNA-seq) data [...]

Dendritic cells (DC) are mediators between innate and adaptive immune responses to pathogens and tumors. DC development is determined by signaling through the receptor ty [...]

Immune checkpoint inhibitor (ICI) therapies, such as anti-PD1 and anti-CTLA4, have proved to be clinically effective in numerous malignant diseases due to their ability t [...]