Molecular heterogeneity of O-acetylserine sulfhydrylase by two-photon excited fluorescence fluctuation spectroscopy

Giuseppe Chirico, Stefano Bettati, Andrea Mozzarelli, Yan Chen, Joachim D. Müller, Enrico Gratton

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12 Scopus citations

Abstract

O-acetylserine sulfhydrylase, a homo-dimeric enzyme from Salmonella typhimunum, covalently binds one pyridoxal 5′-phosphate molecule per subunit as a fluorescent coenzyme. Different tautomers of the Schiff base between the coenzyme and lysine 41 generate structured absorption and fluorescence spectra upon one-photon excitation. We investigated the protein population heterogeneity by fluorescence correlation spectroscopy and lifetime techniques upon twophoton excitation. We sampled the fluorescence intensity from a small number of molecules (∼10) and analyzed the distribution of photon counts to separately determine the number and the fluorescence brightness of excited protein molecules. The changes in the average number of molecules and in the fluorescence brightness with the excitation wavelength indicate the presence of at least two fluorescent species, with two-photon excitation maxima at 660 and 800 nm. These species have been identified as the enolimine and ketoenamine tautomers of the protein-coenzyme internal aldimine. Their relative abundance is estimated to be 4:1, whereas the ratio of their two-photon cross sections is reversed with respect to the single-photon excitation case. Consistent results are obtained from the measurement of the lifetime decays, which are sensitive to the excited-state heterogeneity. At least two components were detected, with lifetimes of ∼2.5 and 0.5 ns. The lifetimes are very close to the values measured in bulk solutions upon one-photon excitation and attributed to the ketoenamine tautomer and to a dipolar species formed upon proton dissociation in the excited state.

Original languageEnglish (US)
Pages (from-to)1973-1985
Number of pages13
JournalBiophysical journal
Volume80
Issue number4
DOIs
StatePublished - 2001

Bibliographical note

Funding Information:
This work has been supported by funds from the Italian Research Council (98.01117.CT14 to A.M.) and Italian Ministry of University and Scientific and Technological Research (PRIN99 to A.M.) and by funds from the National Institute for the Matter Physics (INFM), Pais-SingMol (to G.C.).

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