Molecular dynamics of tryptophan in ribonuclease-T1. II. Correlations with fluorescence

P. H. Axelsen, F. G. Prendergast

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28 Scopus citations


The interactions of tryptophan-59 (TRP-59) and its protein environment in ribonuclease-T1 (RNAse-T1) were examined in a 50-ps molecular dynamics simulation. The simulation used was previously shown to demonstrate a fluorescence anisotropy decay that closely agreed with the experimentally determined limiting anisotropy for RNAse-T1 (Axelsen, P. H., C. Haydock, and F. G. Prendergast. 1988. Biophys. J. 54:249–258). Further characterization of TRP-59 side chain dynamics and its protein environment has now been completed and correlated to other photophysical properties of this protein. Angular fluctuations of the side chain occur at rates of 1–10 cycles/ps and are limited to +/- 0.3 radians in all directions. Side chain motions are primarily limited by nonpolar collisions, although most side chain atoms have some collisional contact with polar atoms in the adjacent protein matrix or water. The steric relationship between PRO-39 and TRP-59 changes abruptly at 16 ps into the simulation. Two types of interaction with water are observed. First, a structural water appears to H-bond with the greater than N-H group of TRP-59. Second, water frequently contacts the six-atom ring. The electrostatic field experienced by the TRP-59 rings appears to be relatively constant and featureless regardless of ring orientation. We make the following interferences from our data: The fluorescent emission of TRP-59 may be red-shifted relative to TRP in nonpolar solvents either as a result of specific interactions with the structural water or relaxations of proximal bulk water and polar protein moieties. The quenching efficiency of polar interactions with TRP-59 must be extremely low given their frequency and the high quantum yield of RNAse-T1. This low efficiency may be due to restricted and unfavorable interaction geometries. PRO-39 is located near two titratable HIS residues in RNAse-T1 and may be involved in pH-dependent fluorescence phenomena by virtue of a metastable interaction with TRP-59. The interaction of bulk water with TRP-59 illustrates features of the gated transition state model for transient exposure to exogenously added collisional quenching agents. The restrictive environment of TRP-59 suggests that extrinsic quenching can only occur via interactions with the edge of the indole six-atom ring and that the efficiency of a quencher in a protein environment is likely to be a function of molecular symmetry.

Original languageEnglish (US)
Pages (from-to)43-66
Number of pages24
JournalBiophysical Journal
Issue number1
StatePublished - 1989

ASJC Scopus subject areas

  • Biophysics


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