Prodan (dye)


Prodan is a fluorescent dye used as a membrane probe with environment-sensitive coloration, as well as a non-covalently bonding probe for proteins.
Prodan was proposed as a membrane dye by Weber and Farris in 1979. Since then, multiple deivatives have been introduced, such as lypophilic Laurdan and thiol-reactive Badan and Acrylodan.
Being a push-pull dye, Prodan has a large excited-state dipole moment and consequently high sensibility to the polarity of its environment. Usually it is concentrated at the surface of the membrane, with some degree of penetration. Excited-state relaxation of prodan is sensitive to whether the linkage between phospholipid hydrocarbon tails and the glycerol backbone is of ether or ester type. Therefore, many studies exploited this sensitivity to explore coexisting lipid domains in dual-wavelength ratio measurements, to detect non-bilayer lipid phases, to map membrane structure changes. However, Prodan presence itself is found to change the structure of membaranes.
In proteins, Prodan and Badan are quenched by non-covalent bonding with tryptophan and the oxidation of it by excited Prodan/Badan.
Absorption of Prodan lies in the UV range, but two-photon excitation techniques have been successfully applied. Fluorescence wavelength is highly sensitive to the polarity of the environment. For example, the emission wavelength shifts from 380 nm in cyclohexane to 450 nm in DMFA to 498 nm in methanol to 520 nm in water. Cyclic voltammetry shows a reversible reduction peak at —1.85 V in acetonitrile and a quasi-reversible one at —0.88 in aqueous buffer . Contrariwise, excited-state reduction potential is +1.6 V in the acetonitrile and +0.6 V in water. Photostability of Prodan and Laurdan in low-polaritry environments is limited due to undergoing an intersystem crossing in the excited state, with subsequent reactions with triplet oxygen.