Labelling

Rhodamine 123 (Rh123) is a green-fluorescent cationic xanthene dye used to monitor membrane polarization in mitochondria and bacteria during live cell assays. It responds to the negative potential of the membrane, and its fluorescence intensity decreases with potential loss. Similar to TMRE, Rhodamine 123 is valuable for studying mitochondrial function changes and cell viability in response to various stimuli or pharmaceuticals.

TMRE is a lipophilic, positively charged dye used for live cell mitochondrial labeling based on transmembrane potential. It also serves as a quantitative tool to assess mitochondrial function and cell viability in response to stimuli or pharmaceuticals

SynaptoProbe Green is a green fluorescent dye commonly used to study synaptic activity at synapses and neuromuscular junctions by staining synaptic vesicles. This water-soluble, non-toxic dye is initially nonfluorescent in aqueous medium but becomes highly fluorescent when embedded in the outer leaflet of cell membranes. During neurotransmitter release, it internalizes within recycled synaptic vesicles, staining nerve terminals.

FM4-64 is a red fluorescent dye commonly used to study synaptic activity at synapses and neuromuscular junctions by staining synaptic vesicles. It is water-soluble, non-toxic, and initially nonfluorescent in aqueous medium. However, after embedding into the outer leaflet of cell membranes, it becomes highly fluorescent. During neurotransmitter release, it internalizes within recycled synaptic vesicles, staining nerve terminals.

TMR-DN is a probe that combines 5-carboxy tetramethylrhodamine (TMR) with a quencher moiety, dinitroaniline (DN). It enables contact quenching, is non-toxic to cells, and can penetrate cell membranes. The core of the molecule contains an aromatic fragment with a negatively charged carboxylic group, providing bright fluorescence properties while minimizing nonspecific binding to genomic DNA or RNA.

Neuro-DiO is a green fluorescent, lipophilic carbocyanine dye optimized for neuronal tracing, with an excitation maximum at 497 nm and an emission maximum at 514 nm. It shares similarities with DiO, a commonly used tracer, but offers improved solubility in membranes and prevents nonfluorescent aggregate formation. Neuro-DiO labels neurons uniformly through membrane diffusion, with minimal transfer between labeled and unlabeled cells in intact tissue.

6-Carboxy-H2DCFDA is a chemically reduced, acetylated form of fluorescein used as an indicator for reactive oxygen species (ROS) in living cells. Initially non-fluorescent, it becomes green-fluorescent after intracellular esterases remove the acetate groups and ROS oxidize it within the cell. The resulting 6-carboxy-2’,7’-dichlorofluorescein emits bright fluorescence in the green channel (with an absorption maximum at 511 nm and an emission maximum at 533 nm).

H2DCFDA is a cell-permeant indicator used to detect reactive oxygen species (ROS) in living cells. Initially non-fluorescent, it becomes highly fluorescent after intracellular esterases remove its acetate groups and oxidation occurs. The resulting product is 2’,7’-dichlorofluorescein (DCF), which emits bright green fluorescence with an absorption maximum at 511 nm and a fluorescence maximum at 533 nm. It’s commonly employed for ROS assays in living cells and is not suitable for sample fixation.

BAPTA-AM is a cell-permeable derivative of BAPTA, a highly selective calcium chelator. Additionally, BAPTA-AM can serve as a calcium indicator: its absorption maximum shifts upon complexing with calcium (free form: absorption max. at 254 nm, complexed form: absorption max. at 274 nm; emission max. remains constant at 363 nm).