| Q38760728 | Analysis of the three-dimensional structure of the African horse sickness virus VP7 trimer by homology modelling |
| Q35621405 | Aquareovirus NS80 Initiates Efficient Viral Replication by Retaining Core Proteins within Replication-Associated Viral Inclusion Bodies |
| Q34592621 | Aquareovirus NS80 recruits viral proteins to its inclusions, and its C-terminal domain is the primary driving force for viral inclusion formation |
| Q40384545 | Assembly and intracellular localization of the bluetongue virus core protein VP3. |
| Q42045536 | Avian reovirus nonstructural protein microNS forms viroplasm-like inclusions and recruits protein sigmaNS to these structures. |
| Q27478024 | Bluetongue virus RNA binding protein NS2 is a modulator of viral replication and assembly |
| Q39225711 | Bluetongue virus VP6 acts early in the replication cycle and can form the basis of chimeric virus formation |
| Q38246708 | Bluetongue virus capsid assembly and maturation. |
| Q38029827 | Bluetongue virus genetic and phenotypic diversity: towards identifying the molecular determinants that influence virulence and transmission potential. |
| Q39069502 | Bluetongue virus infection induces aberrant mitosis in mammalian cells |
| Q39412262 | Bluetongue virus proteins and particles and their role in virus entry, assembly, and release. |
| Q40429759 | Carboxyl-proximal regions of reovirus nonstructural protein muNS necessary and sufficient for forming factory-like inclusions |
| Q39678562 | Characterization of the nonstructural protein NS80 of grass carp reovirus |
| Q27675493 | Crystallographic Analysis Reveals Octamerization of Viroplasm Matrix Protein P9-1 of Rice Black Streaked Dwarf Virus |
| Q36154944 | Drosophila melanogaster as a model organism for bluetongue virus replication and tropism |
| Q42003156 | Factors that affect the intracellular localization and trafficking of African horse sickness virus core protein, VP7. |
| Q64068315 | Function, Architecture, and Biogenesis of Reovirus Replication Neoorganelles |
| Q34022992 | Functional and biochemical properties of Mal de Río Cuarto virus (Fijivirus, Reoviridae) P9-1 viroplasm protein show further similarities to animal reovirus counterparts. |
| Q33840273 | Identification and characterization of the helix-destabilizing activity of rotavirus nonstructural protein NSP2. |
| Q38765667 | Identification and characterization of two cleavage fragments from the Aquareovirus nonstructural protein NS80. |
| Q59048200 | In Silico Studies on Development of Novel Virostatic Agents against Bluetongue Virus |
| Q37771749 | Insights into the role of the non-structural protein 2 (NS2) in Bluetongue virus morphogenesis |
| Q45324799 | Interaction between a unique minor protein and a major capsid protein of Bluetongue virus controls virus infectivity |
| Q40381336 | Interaction of Mal de Río Cuarto virus (Fijivirus genus) proteins and identification of putative factors determining viroplasm formation and decay. |
| Q33589053 | Investigation on subcellular localization of Rice stripe virus in its vector small brown planthopper by electron microscopy |
| Q33558325 | Localization of mammalian orthoreovirus proteins to cytoplasmic factory-like structures via nonoverlapping regions of microNS |
| Q92274343 | NSP2 forms viroplasms during Dendrolimus punctatus cypovirus infection |
| Q34304247 | Nonstructural proteins involved in genome packaging and replication of rotaviruses and other members of the Reoviridae |
| Q60325832 | Orbiviruses andBluetongue virus |
| Q39257481 | Phosphorylation of bluetongue virus nonstructural protein 2 is essential for formation of viral inclusion bodies. |
| Q28392676 | Reassortment between two serologically unrelated bluetongue virus strains is flexible and can involve any genome segment |
| Q34122036 | Reovirus core protein mu2 determines the filamentous morphology of viral inclusion bodies by interacting with and stabilizing microtubules. |
| Q34976721 | Reovirus σNS and μNS Proteins Form Cytoplasmic Inclusion Structures in the Absence of Viral Infection |
| Q45597567 | Segment specific inverted repeat sequences in bluetongue virus mRNA are required for interaction with the virus non structural protein NS2. |
| Q39195962 | Sequence specificity in the interaction of Bluetongue virus non-structural protein 2 (NS2) with viral RNA. |
| Q41252018 | Site-specific mutations in the NS2 protein of epizootic haemorrhagic disease virus markedly affect the formation of cytoplasmic inclusion bodies. |
| Q38340908 | Structure and assembly of the RNA binding domain of bluetongue virus non-structural protein 2. |
| Q35922315 | The N-Terminal of Aquareovirus NS80 Is Required for Interacting with Viral Proteins and Viral Replication |
| Q27765694 | The atomic structure of the bluetongue virus core |
| Q36315068 | The formation of viroplasm-like structures by the rotavirus NSP5 protein is calcium regulated and directed by a C-terminal helical domain |
| Q38174017 | The molecular biology of Bluetongue virus replication |
| Q36086306 | Turnover Rate of NS3 Proteins Modulates Bluetongue Virus Replication Kinetics in a Host-Specific Manner |
| Q45406516 | Virus-derived platforms for visualizing protein associations inside cells |