Fluorescent Imaging

Tocris offers a broad range of fluorescent and bioluminescent reagents, to facilitate the visualization of sub-cellular components in live and fixed cells with high sensitivity and selectivity. The product range includes fluorescent probes, dyes and indicators.

Targets
Literature
Characteristics of Fluorescent Compounds

Fluorescent compounds are generally small organic molecules (although they may also be peptides or proteins) that absorb light radiation of a specific wavelength and emit radiation at a longer wavelength (lower energy). The compounds cease to emit radiation immediately, when the incident radiation stops. Fluorescent compounds have a maximum excitation and emission wavelength, measured in nanometers, and the difference between the two is known as the Stokes shift. The ratio of the number of photons emitted to the number absorbed is an indicator of the efficiency of the fluorescence process and is known as the quantum yield. How strongly a fluorescent compound absorbs radiation is known as the extinction coefficient, and links the amount of radiation of a given wavelength absorbed to the molar concentration of the compound. Another useful parameter to take into account is the lifetime, which corresponds to the average time (measured in picoseconds) that the compound spends in an excited state before emitting a photon and returning to the ground state.

Literature for Fluorescent Imaging

Tocris offers the following scientific literature for Fluorescent Imaging to showcase our products. We invite you to request* or download your copy today!

*Please note that Tocris will only send literature to established scientific business / institute addresses.


New Product Guide

New Product Guide (Spring/Summer 2018)

Our new product guide highlights over 200 new products added to the Tocris Bioscience range during the second half of 2017.

  • 7-TM Receptors
  • Enzymes
  • Enzyme-Linked Receptors
  • Ion Channels
  • Nuclear Receptors
  • Transporters
  • Aptamers
  • Cell Metabolism
  • Epigenetics
  • Fluorescent Imaging
  • Signal Transduction
  • Stem Cells