RESUMO
Infectious virus capsids or virions are considered static structures and undergo various conformational transitions to replicate and infect a wide range of eukaryotic cells. Therefore, virus capsids must be stable enough to overcome the physicochemical environment and flexible enough to reorganize their biologically relevant surface peptides for optimal interaction with the host machinery. Although viral capsid fluctuations, referred to as dynamics or breathing, have been well studied in RNA viruses pathogenic to animals, such information is limited among plant viruses. However, more recent attempts have been made in characterizing the capsid dynamics in the plant virus genus bromovirus characterized by having a tripartite, positive-sense RNA genome. Using the available research data on the genus bromovirus members, this review is focused on updating the readers on the interrelationships between the viral capsid dynamics and host-pathogen interactions.