Abstract Molecular external structure is important for molecular function, with voids on the surface and interior being one of the most important features. Hence, recognition of molecular voids and accurate computation of their geometrical properties, such as volume, area and topology, are crucial, yet most popular algorithms are based on the crude use of sampling points and thus are approximations even with a significant amount of computation. In this article, we propose an analytic approach to the problem using the Voronoi diagram of atoms and the beta?complex. The correctness and efficiency of the proposed algorithm is mathematically proved and experimentally verified. The benchmark test clearly shows the superiority of BetaVoid to two p...
Given a set of spherical balls, called atoms, in three-dimensional space, its mass properties such a...
Voids and pockets in a protein refer to empty spaces that are enclosed by the protein molecule. Exis...
Many methods of analyzing both the physical and chemical behavior of proteins require information ab...
Abstract Molecular external structure is important for molecular function, with voids on the surface...
Molecular cavities, which include voids and chan-nels, are critical for molecular function. We prese...
Molecular external structure is important in understanding molecular interaction with its solvent en...
Voronoi diagrams are powerful for solving spatial problems among particles and have been used in man...
Molecular shape is one of the most critical factors that determines molecular function. Therefore, i...
Molecular shape is one of the most critical factors that determines molecular function. Therefore, i...
Voronoi diagrams are powerful for solving spatial problems among particles and have been used in man...
Solvation processes, transport properties, and fluidity of condensed phases can be described conside...
Voronoi diagrams (VD) describe spatial relationships among a given set of input sites. The family of...
AbstractVoronoi diagrams are powerful for solving spatial problems among particles and have been use...
The modeling of protein structures is a challenging task that closely relates to the field of comput...
Despite its many important applications in various disciplines in sciences and engineering, the Eucl...
Given a set of spherical balls, called atoms, in three-dimensional space, its mass properties such a...
Voids and pockets in a protein refer to empty spaces that are enclosed by the protein molecule. Exis...
Many methods of analyzing both the physical and chemical behavior of proteins require information ab...
Abstract Molecular external structure is important for molecular function, with voids on the surface...
Molecular cavities, which include voids and chan-nels, are critical for molecular function. We prese...
Molecular external structure is important in understanding molecular interaction with its solvent en...
Voronoi diagrams are powerful for solving spatial problems among particles and have been used in man...
Molecular shape is one of the most critical factors that determines molecular function. Therefore, i...
Molecular shape is one of the most critical factors that determines molecular function. Therefore, i...
Voronoi diagrams are powerful for solving spatial problems among particles and have been used in man...
Solvation processes, transport properties, and fluidity of condensed phases can be described conside...
Voronoi diagrams (VD) describe spatial relationships among a given set of input sites. The family of...
AbstractVoronoi diagrams are powerful for solving spatial problems among particles and have been use...
The modeling of protein structures is a challenging task that closely relates to the field of comput...
Despite its many important applications in various disciplines in sciences and engineering, the Eucl...
Given a set of spherical balls, called atoms, in three-dimensional space, its mass properties such a...
Voids and pockets in a protein refer to empty spaces that are enclosed by the protein molecule. Exis...
Many methods of analyzing both the physical and chemical behavior of proteins require information ab...