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Laage D, Stirnemann G, Hynes JT.  2009.  Why water reorientation slows without iceberg formation around hydrophobic solutes. J. Phys. Chem. B. 113:2428–2435.
Stirnemann G, Rossky PJ, Hynes JT, Laage D.  2010.  Water reorientation, hydrogen-bond dynamics and 2D-IR spectroscopy next to an extended hydrophobic surface.. Farad. Discuss.. 146:263–281.
Boisson J, Stirnemann G, Laage D, Hynes JT.  2011.  Water reorientation dynamics in the first hydration shells of F- and I-. Phys. Chem. Chem. Phys.. 13:19895.
Laage D, Stirnemann G, Sterpone F, Hynes JT.  2012.  Water Jump Reorientation: From Theoretical Prediction to Experimental Observation. Acc. Chem. Res.. 45:53–62.
Laage D, Stirnemann G, Hynes JT.  2012.  Water jump reorientation and ultrafast vibrational spectroscopy. J. Photochem. Photobiol. A. 234:75–82.
Sterpone F, Stirnemann G, Hynes JT, Laage D.  2010.  Water hydrogen-bond dynamics around amino acids: the key role of hydrophilic hydrogen-bond acceptor groups. J. Phys. Chem. B. 114:2083–9.
Stirnemann G, Hynes JT, Laage D.  2010.  Water hydrogen bond dynamics in aqueous solutions of amphiphiles. J. Phys. Chem. B. 114:3052–3059.
Stirnemann G, Jungwirth P, Laage D.  2018.  Water dynamics in concentrated electrolytes: Local ion effect on hydrogen-bond jumps rather than collective coupling to ion clusters. Proc Natl Acad Sci U S A. 115:E4953-E4954.
Zhang Y, Stirnemann G, Hynes JT, Laage D.  2020.  Water dynamics at electrified graphene interfaces: a jump model perspective. Phys Chem Chem Phys.
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Garnier C, Briki F, Nedelec B, Le Pogamp P, Dogan A, Rioux-Leclercq N, Goude R, Beugnet C, Martin L, Delpech M et al..  2017.  VLITL is a major cross-β-sheet signal for fibrinogen Aα-chain frameshift variants.. Blood. 130(25):2799-2807.
Valleix S., Derreumaux P, Garnier C., Briki F., Boimard M., Doucet J., Rioux-Leclercq N., Martin L., Grateau G., Delpech M. et al..  2010.  The VLITL aggregation-prone motif might trigger amyloid fibril formation of fibrinogen A alpha-chain frameshift variants in vivo. Amyloid-journal of Protein Folding Disorders. 17:96–97.
Laureanti J, Brandi J, Offor E, Engel D, Rallo R, Ginovska B, Martinez X, Baaden M, Baker NA.  2020.  Visualizing biomolecular electrostatics in virtual reality with UnityMol-APBS.. Protein Sci. 29(1):237-246.
Kozlikova B., Krone M., Falk M., Lindow N., Baaden M, Baum D., Viola I., Parulek J., Hege H.-C..  2017.  Visualization of Biomolecular Structures: State of the Art Revisited: Visualization of Biomolecular Structures. Computer Graphics Forum. 36:178–204.
Kozlikova B., Krone M., Falk M., Lindow N., Baaden M, Baum D., Viola I., Parulek J., Hege H.-C..  2016.  Visualization of Biomolecular Structures: State of the Art Revisited. Comput. Graphics Forum.
Kozlikova B, Krone M, Lindow N, Falk M, Baaden M, Baum D, Viola I, Parulek J, Hege H-C.  2015.  Visualization of Biomolecular Structures: State of the Art. Eurographics Conference on Visualization (EuroVis) - STARs.
Krone M., Kozlikova B., Lindow N., Baaden M, Baum D., Parulek J., Hege H.-C., Viola I..  2016.  Visual Analysis of Biomolecular Cavities: State of the Art. Comput. Graphics Forum. 35:527–551.
Dauchez M, Derreumaux P, LAGANT P, VERGOTEN G.  1995.  A VIBRATIONAL MOLECULAR-FORCE FIELD OF MODEL COMPOUNDS WITH BIOLOGICAL INTEREST .4. PARAMETERS FOR THE DIFFERENT GLYCOSIDIC LINKAGES OF OLIGOSACCHARIDES. J. Comput. Chem.. 16:188–199.
Derreumaux P, VERGOTEN G, LAGANT P.  1990.  A VIBRATIONAL MOLECULAR-FORCE FIELD OF MODEL COMPOUNDS WITH BIOLOGICAL INTEREST .1. HARMONIC DYNAMICS OF CRYSTALLINE UREA AT 123-K. J. Comput. Chem.. 11:560–568.

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