Coarse-Grained Simulations of Heme Proteins: Validation and Study of Large Conformational Transitions

CLAUDIA RAMIREZ; ARIEL PETRUK; MAURO BRINGAS; DARIO A. ESTRIN; ADRIAN E. ROITBERG; MARCELO A. MARTI; LUCIANA CAPECE

JOURNAL OF CHEMICAL THEORY AND COMPUTATION

AMER CHEMICAL SOC

Lugar: Washington; Año: 2016

1549-9618

Heme proteins are ubiquitous in nature and perform many diverse functions in all kingdoms of life. Many of these functions are related to large-scale conformational transitions and allosteric processes. Sampling of these large conformational changes is computationally very challenging. In this context, coarse-grain simulations emerge as an efficient approach to explore the conformational landscape. In this work, we present a coarse-grained model of the heme group and thoroughly validate this model in different benchmark examples, which include the monomeric heme proteins myoglobin and neuroglobin and thetetrameric human hemoglobin where we evaluated the method´s ability toexplore conformational changes (as the formation of hexacoordinated species) and allosteric transitions (as the well-known R→T transition). The obtained results are compared with atomistic molecular dynamics simulations. Overall, the results indicate that this approach conserves the essential dynamical information on different allosteric processes.