I am a theoretical physicist. My scientific activities concern Statistical Mechanics of Complex Systems in Physics and applications to Molecular Biology, with mathematical and computer approaches. I worked at ESPCI in Paris, Imperial College London, and at the UK Complexity Science Centre in Warwick. I now lead my Statistical Mechanics Group at the University of Naples "Federico II". Among other international activities, I am currently in the EPJP and FPB Boards. I am the national coordinator of the INFN IS-BioPhys, a national project on the applications of the methods of Theoretical Physics in Biology.
STATISTICAL MECHANICS OF COMPLEX SYSTEMS
In Physics, we work on equilibrium and off-equilibrium critical phenomena, disordered and glassy systems, spin glasses, vortices in superconductors, and in particular on granular media (see a review in NATURE MAT.).
STATISTICAL PHYSICS, COMPUTATIONAL AND SYSTEM BIOLOGY We investigate the molecular mechanisms underlying genome regulation in eukaryotes, by combining their Statistical Physics description, computer simulations, and high-throughput data analysis. In particular, we work on: gene regulation (e.g., at X Chromosome Inactivation, see a recent NATURE PHYS. N&V); chromosome 3D organization (see a recent PNAS, Mol.Sys.Bio. and Sci. Rep.); cell differentiation and reprogramming (see a recent Genome Bio. and Sci. Rep.).
DNA in Suono
"It's written into the DNA" is a common way of saying, but what is really written into our DNA? The piece DNA IN SUONO (DNA in Sound) explores the potential of music to disclose to the broader public the discoveries of Genetics, starting from an unexpected link between human DNA sequences and J.S. Bach "Art of The Fugue"...
Last update 20/01/2011