Our work is focussed on the computational study of the molecular interactions in biological systems. We hypothesise the use of process algebras to highlight the relation between the complexity of the functions carried out by a biological entity and the type of interactions tying the elementary units that compose its structure. This approach is intended to define predictive models able to generate new knowledge, on the system itself, complementary to the one obtained via empirical methods. We investigated the way in which the interactions between nucleotides determine the three-dimensional conformation of RNAs and hence their functions. With the aid of formal models based on process algebras, we compared the folding process of proteins wit...
Several approaches have been proposed to model biological systems by means of the formal techniques ...
AbstractVarious calculi have been proposed to model different levels of abstraction of cell signalin...
RNA molecules play key roles in all aspects of cellular life, but to do so efficiently, they must wo...
Our work is focussed on the computational study of the molecular interactions in biological systems....
Our work is focussed on the computational study of the molecular interactions in biological systems....
The successful use of process calculi to specify behavioural models allows us to compare RNA an...
In this paper various molecular chemical interactions are modelled under different computational pa...
Process calculi have been proved to be a powerful tool for describing biological processes. They all...
This paper introduces Protein Calculus, a special modeling language designed for encoding and calcul...
Our understanding of a biological process is often held back by the entanglement of interactionsat i...
AbstractA language of formal proteins, the κ-calculus, is introduced. Interactions are modeled at th...
The biodiversity of the RNA world has been underestimated for decades. RNA molecules are key buildin...
We investigate how biomolecular processes are modelled in process algebras, focussing on chemical re...
Over the past 10 years, multiple executable modelling formalisms for molecular biology have been de...
Despite what was previously considered, the role of RNA is not only to carry the genetic informatio...
Several approaches have been proposed to model biological systems by means of the formal techniques ...
AbstractVarious calculi have been proposed to model different levels of abstraction of cell signalin...
RNA molecules play key roles in all aspects of cellular life, but to do so efficiently, they must wo...
Our work is focussed on the computational study of the molecular interactions in biological systems....
Our work is focussed on the computational study of the molecular interactions in biological systems....
The successful use of process calculi to specify behavioural models allows us to compare RNA an...
In this paper various molecular chemical interactions are modelled under different computational pa...
Process calculi have been proved to be a powerful tool for describing biological processes. They all...
This paper introduces Protein Calculus, a special modeling language designed for encoding and calcul...
Our understanding of a biological process is often held back by the entanglement of interactionsat i...
AbstractA language of formal proteins, the κ-calculus, is introduced. Interactions are modeled at th...
The biodiversity of the RNA world has been underestimated for decades. RNA molecules are key buildin...
We investigate how biomolecular processes are modelled in process algebras, focussing on chemical re...
Over the past 10 years, multiple executable modelling formalisms for molecular biology have been de...
Despite what was previously considered, the role of RNA is not only to carry the genetic informatio...
Several approaches have been proposed to model biological systems by means of the formal techniques ...
AbstractVarious calculi have been proposed to model different levels of abstraction of cell signalin...
RNA molecules play key roles in all aspects of cellular life, but to do so efficiently, they must wo...