个人简介
Wiley Award for Meritorious Research, 1990
Cox Award for Teaching and Scholarship, 1992
Phi Kappa Phi Anna Krueger Fridley Award for Distinguished Teaching, 1994
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P.R. Callis, Simulating Electrostatic Effects on Electronic Transitions in Proteins. Molecular Simulation, (2015) 41, 190–204, http://dx.doi.org/10.1080/08927022.2014.923571 Published online: 13 Jun 2014
P.R. Callis, Binding Phenomena and Fluorescence Quenching. I: Descriptive Quantum Principles of Fluorescence Quenching using a Supermolecule Approach, J. Mol. Struct. 1077 (2014) 14-21
P.R. Callis, Binding Phenomena and Fluorescence Quenching. II: Photophysics of Aromatic Residues and Dependence of Fluorescence Spectra on Protein Conformation, J. Mol. Struct. 1077 (2014) 22–29
P.R. Callis, J.R. Tusell, MD + QM Correlations with Tryptophan Fluorescence Spectral Shifts and Lifetimes, Methods Mol. Biol. (Clifton NJ) 1076 (2014), p. 171-214.
Biesso, J.H. Xu, P.L. Muiño, P.R. Callis, J.R. Knutson, Charge Invariant Protein-Water Relaxation in GB1 via Ultrafast Tryptophan Fluorescence, J. Am. Chem. Soc. 136 (2014), p. 2739-2747.
Xu,J.H.; Chen,B.B.; Callis,P.; Rozeboom,H.; Broos,J.; Knutson,J. Femtosecond Fluorescence Dynamics of Tryptophan and 5-Fluorotryptophan in Monellin: Slow Water Relaxation Unmasked, Biophys. J. (2013), 104, 681A.
J.N. Scott, P.R. Callis, Insensitivity of Tryptophan Fluorescence to Local Charge Mutations, J. Phys. Chem. B 117 (2013), p. 9598-9605.
Scott,J.N.; Callis,P.R., "MD plus QM Calculations Explore the Origins of Differences amongst the Red Fluorescent Proteins",Biophys. J. 2013, 104, 684A.
Drobizhev,M.; Scott,J.N.; Callis,P.R.; Rebane,A. All-Optical Sensing of the Components of the Internal Local Electric Field in ProteinsIeee Photonics Journal (2012), 4, 1996-2001.
Drobizhev,M.; Hughes,T.E.; Stepanenko,Y.; Wnuk,P.; O'Donnell,K.; Scott,J.N.; Callis,P.R.; Mikhaylov,A.; Dokken,L.; Rebane,A., "Primary Role of the Chromophore Bond Length Alternation in Reversible Photoconversion of Red Fluorescence Proteins:, Scientific Reports (2012),2 Article Number: 688 DOI: 10.1038/srep00688 Published: SEP 24 2012
Tusell,J.R.; Callis,P.R. Simulations of Tryptophan Fluorescence Dynamics during Folding of the Villin Headpiece, J. Phys. Chem. B (2012), 116, 2586-94.
"Correlation of Tryptophan Fluorescence Spectral Shifts and Lifetimes Arising Directly from Heterogeneous Environment", C.-P. Pan, Pedro L. Muino, M.D. Barkley, and P.R. Callis, J. Phys. Chem. B (2011), 115, 3245-3253.
"Predicting Fluorescence Lifetimes and Spectra of Biopolymers", P.R. Callis, Methods in Enzymology (2010), 487,1-38 .
"Electrochromism and solvatochromism in fluorescence response of organic dyes. A nanoscopic view", P.R. Callis, in Advanced Fluorescence Reporters in Chemistry and Biology I (2010),A. Demchenko, Ed. , Springer-Verlag, Heidelberg, pp 309-330.
"Exploring the Electrostatic Landscape of Proteins with Tryptophan Fluorescence", P. R. Callis, in Reviews in Fluorescence 2007 (2009), C. D. Geddes (ed.), Vol. 4, Springer, NY, pp 199-248.
"Femtosecond Fluorescence Spectra of Tryptophan in Human gamma-Crystallin Mutants: Site-Dependent Ultrafast Quenching", J. Xu, J. Chen, D. Toptygin, O. Tcherkasskaya, P.R. Callis, J. King, L. Brand and J.R. Knutson, J.Am.Chem.Soc. (2009), 131, 16751-16757.
"Mechanism of the Very Efficient Quenching of Tryptophan Fluorescence in Human .D- and .S-Crystallins: The gamma-Crystallin Fold May Have Evolved To Protect Tryptophan Residues from Ultraviolet Photodamage", J. Chen, P.R. Callis, and J. King, Biochemistry (2009), 48, 3708-3716.
"Solvent Effects on the Fluorescence Quenching of Tryptophan by Amides via Electron Transfer. Experimental and Computational Studies", P. R. Callis and P. L. Muino, J. Phys. Chem. B (2009), 113, 2572-2577.
"Molecular dynamics simulations of perylene and tetracene libratio\ ns: Comparison withfemtosecond upconversion data", Rosales T , Xu JH , Wu XW, Hodoseek M, Callis P, Brooks BR, Knutson JR, J. Phys. Chem. A (2008), 112, 5593-5597.
"Ab Initio Prediction of Tryptophan Fluorescence Quenching by Protein Electric Field Enabled Electron Transfer", Patrik R. Callis, Alexander Petrenko, Pedro L. Muino, and Jose R. Tusell. J. Phys. Chem. B (Letter); 2007;111(35) 10335-10339. DOI: 10.1021/jp0
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