Computer simulations of protein models on lattices have been widely used as an aid in the study of protein folding process. Following the suggestion of Raghunathan and Jernigan (1997, Protein Sci 6:2072-2083) that the cubooctahedral lattice can allow a more realistic representation of proteins than other lattices, we propose here the use of a new set of internal coordinates theta for the description of a protein model on this lattice. An easy procedure for the conversion of the theta coordinates to the Cartesian coordinates is also described. When the Contact Interaction approach, already proposed by us for simulations on square or cubic lattices, was applied to the cube-octahedral lattice, the system obeyed the correct thermodynamics derived from the definition of energy. Thus, lattice simulations of protein models, in which secondary structure elements such as alpha-helices or beta-strands can be easily identifiable, can be performed.
Folding simulation of protein models on the structure-based cubo-octahedral lattice with the Contact Interactions algorithm
TOMA, LUCIO;
1999-01-01
Abstract
Computer simulations of protein models on lattices have been widely used as an aid in the study of protein folding process. Following the suggestion of Raghunathan and Jernigan (1997, Protein Sci 6:2072-2083) that the cubooctahedral lattice can allow a more realistic representation of proteins than other lattices, we propose here the use of a new set of internal coordinates theta for the description of a protein model on this lattice. An easy procedure for the conversion of the theta coordinates to the Cartesian coordinates is also described. When the Contact Interaction approach, already proposed by us for simulations on square or cubic lattices, was applied to the cube-octahedral lattice, the system obeyed the correct thermodynamics derived from the definition of energy. Thus, lattice simulations of protein models, in which secondary structure elements such as alpha-helices or beta-strands can be easily identifiable, can be performed.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.