Cellular signaling networks are the foundation which determines the fate and function of
cells as they respond to various cues and stimuli. The discovery of fluorescent proteins over …

Fluorescence-or Förster resonance energy transfer (FRET) is a measurable physical energy
transfer phenomenon between appropriate chromophores, when they are in sufficient …

Chemotherapeutic resistance poses a significant challenge in cancer treatment, resulting in
the reduced efficacy of standard chemotherapeutic agents. Abnormal metabolism …

A variety of genetically encoded reporters use changes in fluorescence (or Förster)
resonance energy transfer (FRET) to report on biochemical processes in living cells. The …

Biosensors based on the principle of Förster (or fluorescence) resonance energy transfer
(FRET) have shed new light on the spatiotemporal dynamics of signaling molecules. Among …

FRET–Förster Resonance Energy Transfer Meeting the need for an up-to-date and detailed
primer on all aspects of the topic, this ready reference reflects the incredible expansion in …

Inter-cellular heterogeneity in metabolic state has been proposed to influence many cancer
phenotypes, including responses to targeted therapy. Here, we track the transitions and …

ATP, the energy exchange factor that connects anabolism and catabolism, is required for
major reactions and processes that occur in living cells, such as muscle contraction …

In his 1665 treatise, Micrographia, Robert Hooke described the many observations he had
made using a microscope, including compartment-like structures in cork samples that he …

Genetically encoded, ratiometric biosensors based on fluorescence resonance energy
transfer (FRET) are powerful tools to study the spatiotemporal dynamics of cell signaling …