[1] B. Caviglia, A. Iorio, S. Timr, S. Melchionna, P. Derreumaux, F. Sterpone, Hydrodynamic impact on the dynamics and shear of crowded cytoplasmic proteins solutions, In preparation.
[2] A. Iorio, S. Melchionna, P. Derreumaux, F. Sterpone, Fluid flow and amyloid transport and aggregation in the brain interstitial space, PNAS Nexus 4, 1 (2024).
[3] A. Iorio, L. Perin, P. Gallo, Structure and slow dynamics of protein hydration water with cryopreserving DMSO and trehalose upon cooling, J. Chem. Phys. 160, 24 (2024).
[4] L. E. Coronas, V. Thong, A. Iorio, L. J. Lapidus, M. Feig, F. Sterpone, Stability and deformation of biomolecular condensates under the action of shear flow, J. Chem. Phys. 160, 21 (2024).
[5] A. Iorio, S. Melchionna, P. Derreumaux, F. Sterpone, Dynamics and Structures of Amyloid Aggregates Under Fluid Flows, J. Phys. Chem. Lett., 15, 7 (2024).
[6] Q. Bertrand, S. Coquille, A. Iorio, F. Sterpone, D. Madern, Biochemical, structural and dynamical characterizations of the lactate dehydrogenase from Selenomonas ruminantium provide information about an intermediate evolutionary step prior to complete allosteric regulation acquisition in the super family of lactate and malate dehydrogenases, J. Struct. Biol., 215, 4 (2023).
[7] A. Iorio, S. Timr, L. Chiodo, P. Derreumaux, F. Sterpone, Evolution of Large Abeta_16-22 Aggregates at Atomic Details and Potential of Mean force Associated to Peptide Unbinding and Fragmentation Events, Proteins, 91, 8 (2023).
[8] A. Iorio, C. Brochier-Armanet, C. Mas, F. Sterpone, D. Madern, Protein Conformational Space at the Edge of Allostery: Turning a Nonallosteric Malate Dehydrogenase into an “Allosterized” Enzyme Using Evolution-Guided Punctual Mutations, Mol. Biol. Evol., 39, 9 (2022).
[9] A. Iorio, J. Roche, S. Engilberge, N. Coquelle, E. Girard, F. Sterpone, D. Madern, Biochemical, structural and dynamical studies reveal strong differences in the thermal-dependent allosteric behaviour of two extremophilic lactate dehydrogenates, J. Struct. Biol., 213, 3 (2021).
[10] A. Iorio, M. Minozzi, L. Lupi, G. Camisasca, P. Gallo, Slow dynamics of supercooled trehalose hydration water in comparison with bulk water, Atti Accad. Pelorit. Pericol. Cl. Sci. Fis. Mat. Nat., 98, A8 (2020).
[11] A. Iorio, M. Minozzi, G. Camisasca, M. Rovere and P. Gallo, Slow dynamics of supercooled hydration water in contact with lysozyme: examining the cage effect at different length scales, Phil. Mag., 100, 20 (2020).
[12] A. Iorio, G. Camisasca and P. Gallo, Glassy dynamics of water at interface with biomolecules: a Mode Coupling Theory test, Sci. China-Phys. Mech. Astron., 62, 107011 (2019).
[13] A. Iorio, G. Camisasca, M. Rovere and P. Gallo, Characterization of hydration water in supercooled water-trehalose solutions: the role of the hydrogen bonds network, J. Chem. Phys., 151, 4 (2019).
[14] A. Iorio, G. Camisasca and P. Gallo, Slow dynamics of hydration water and the trehalose dynamical transition, J. Mol. Liq., 282, 617 (2019).
[15] G. Camisasca, A. Iorio, M. De Marzio and P. Gallo, Structure and slow dynamics of protein hydration water, J. Mol. Liq., 268, 903 (2018).
[16] D. S. Dean, A. Iorio, E. Marinari and G. Oshanin, Sample-to-sample fluctuations of power spectrum of a random motion in a periodic Sinai model, Phys. Rev. E, 94, 032131 (2016).
[1] G. Camisasca, A. Iorio, L. Tenuzzo, P. Gallo, Slow Dynamics of Biological Water, In: Bulavin, L., Lebovka, N. (eds) Soft Matter Systems for Biomedical Applications. Springer Proceedings in Physics, vol 266 (2022).