International audienceRNA forms elaborate secondary structures through intramolecular base pairing. These structures perform critical biological functions within each cell. Due to the availability of a polynomial algorithm to calculate the partition function over these structures, they are also a suitable system for the statistical physics of disordered systems. In this model, below the denaturation temperature, random RNA secondary structures exist in one of two phases: a strongly disordered, low-temperature glass phase, and a weakly disordered, high-temperature molten phase. The probability of two bases to pair decays with their distance with an exponent 3/2 in the molten phase, and about 4/3 in the glass phase. Inspired by previous resul...
3siThe replica theory of the "Random First Order Transition" (RFOT) from a supercooled liquid to an ...
AbstractRNA function depends crucially on the details of its dynamics. The simplest RNA dynamical un...
AbstractThe free energy of a single-stranded RNA can be calculated by adding the free energies of th...
International audienceRNA forms elaborate secondary structures through intramolecular base pairing. ...
We discuss the physics of RNA as described by its secondary structure. We examine the static propert...
RNA molecules form a sequence-specific self-pairing pattern at low temperatures. We analyze this pro...
96 pages, 188 figures. v2: minor correctionsFolding of RNA is subject to a competition between entro...
PACS. 87.15.-v – Biomolecules: structure and physical properties. PACS. 64.60.-i – General studies o...
We study the force-induced unfolding of random disordered RNA or single-stranded DNA polymers. The s...
6 pages, 10 figures. v2: corrected typos, discussion on locking argument improvedThe Laessig-Wiese (...
Abstract. We study the force-induced unfolding of random disordered RNA or single-stranded DNA poly-...
We study the statistical mechanics of RNA secondary structures designed to have an attraction betwee...
Extensive computer simulations are performed for a few model glass-forming liquids in both two and t...
4 pagesWe prove that the Laessig-Wiese (LW) field theory for the freezing transition of the secondar...
4 figs, 5 pages. Réf Journal: Phys. Rev. Lett. 114, 205701 (2015)International audienceUsing comput...
3siThe replica theory of the "Random First Order Transition" (RFOT) from a supercooled liquid to an ...
AbstractRNA function depends crucially on the details of its dynamics. The simplest RNA dynamical un...
AbstractThe free energy of a single-stranded RNA can be calculated by adding the free energies of th...
International audienceRNA forms elaborate secondary structures through intramolecular base pairing. ...
We discuss the physics of RNA as described by its secondary structure. We examine the static propert...
RNA molecules form a sequence-specific self-pairing pattern at low temperatures. We analyze this pro...
96 pages, 188 figures. v2: minor correctionsFolding of RNA is subject to a competition between entro...
PACS. 87.15.-v – Biomolecules: structure and physical properties. PACS. 64.60.-i – General studies o...
We study the force-induced unfolding of random disordered RNA or single-stranded DNA polymers. The s...
6 pages, 10 figures. v2: corrected typos, discussion on locking argument improvedThe Laessig-Wiese (...
Abstract. We study the force-induced unfolding of random disordered RNA or single-stranded DNA poly-...
We study the statistical mechanics of RNA secondary structures designed to have an attraction betwee...
Extensive computer simulations are performed for a few model glass-forming liquids in both two and t...
4 pagesWe prove that the Laessig-Wiese (LW) field theory for the freezing transition of the secondar...
4 figs, 5 pages. Réf Journal: Phys. Rev. Lett. 114, 205701 (2015)International audienceUsing comput...
3siThe replica theory of the "Random First Order Transition" (RFOT) from a supercooled liquid to an ...
AbstractRNA function depends crucially on the details of its dynamics. The simplest RNA dynamical un...
AbstractThe free energy of a single-stranded RNA can be calculated by adding the free energies of th...