References: Reovirales


Attoui, H., Q. Fang, F. M. Jaafar, J. F. Cantaloube, P. Biagini, P. de Micco and X. de Lamballerie (2002). Common evolutionary origin of aquareoviruses and orthoreoviruses revealed by genome characterization of Golden shiner reovirus, Grass carp reovirus, Striped bass reovirus and golden ide reovirus (genus Aquareovirus, family Reoviridae). J Gen Virol 83: 1941-51. [PubMed]

Attoui, H., F. M. Jaafar, M. Belhouchet, P. de Micco, X. de Lamballerie and C. P. Brussaard (2006). Micromonas pusilla reovirus: a new member of the family Reoviridae assigned to a novel proposed genus (Mimoreovirus). J Gen Virol 87: 1375-83. [PubMed]

Bass, D. M., D. Bodkin, R. Dambrauskas, J. S. Trier, B. N. Fields and J. L. Wolf (1990). Intraluminal proteolytic activation plays an important role in replication of type 1 reovirus in the intestines of neonatal mice. J Virol 64: 1830-3. [PubMed]

Borodavka, A., U. Desselberger and J. T. Patton (2018). Genome packaging in multi-segmented dsRNA viruses: distinct mechanisms with similar outcomes. Curr Opin Virol 33: 106-12. [PubMed]

Bruenn, J. A. (1991). Relationships among the positive strand and double-strand RNA viruses as viewed through their RNA-dependent RNA polymerases. Nucleic Acids Res 19: 217-26. [PubMed]

Brussaard, C. P., A. A. Noordeloos, R. A. Sandaa, M. Heldal and G. Bratbak (2004). Discovery of a dsRNA virus infecting the marine photosynthetic protist Micromonas pusillaVirology 319: 280-91. [PubMed]

Chapell, J. D., M. I. Goral, S. E. Rodgers, C. W. dePamphilis and T. S. Dermody (1994). Sequence diversity within the reovirus S2 gene: reovirus genes reassort in nature, and their termini are predicted to form a panhandle motif. J Virol 68: 750-6. [PubMed]

Dryden, K. A., G. Wang, M. Yeager, M. L. Nibert, K. M. Coombs, D. B. Furlong, B. N. Fields and T. S. Baker (1993). Early steps in reovirus infection are associated with dramatic changes in supramolecular structure and protein conformation: analysis of virions and subviral particles by cryoelectron microscopy and image reconstruction. J Cell Biol 122: 1023-41. [PubMed]

Ebert, D. H., J. Deussing, C. Peters and T. S. Dermody (2002). Cathepsin L and cathepsin B mediate reovirus disassembly in murine fibroblast cells. J Biol Chem 277: 24609-17. [PubMed]

Fernández de Castro, I., R. Tenorio, P. Ortega-González, J. J. Knowlton, P. F. Zamora, C. H. Lee, J. J. Fernández, T. S. Dermody and C. Risco (2020). A modified lysosomal organelle mediates nonlytic egress of reovirus. J Cell Biol 219: doi: 10.1083/jcb.201910131. [PubMed]

Furuichi, Y. and K. Miura (1975). A blocked structure at the 5' terminus of mRNA from cytoplasmic polyhedrosis virus. Nature 253: 374-5. [PubMed]

Furuichi, Y., M. Morgan, S. Muthukrishnan and A. J. Shatkin (1975). Reovirus messenger RNA contains a methylated, blocked 5'-terminal structure: m-7G(5')ppp(5')G-MpCp. Proc Natl Acad Sci U S A 72: 362-6. [PubMed]

Hill, C. L., T. F. Booth, B. V. Prasad, J. M. Grimes, P. P. Mertens, G. C. Sutton and D. I. Stuart (1999). The structure of a cypovirus and the functional organization of dsRNA viruses. Nat Struct Biol 6: 565-8. [PubMed]

Kobayashi, T., A. A. Antar, K. W. Boehme, P. Danthi, E. A. Eby, K. M. Guglielmi, G. H. Holm, E. M. Johnson, M. S. Maginnis, S. Naik, W. B. Skelton, J. D. Wetzel, G. J. Wilson, J. D. Chappell and T. S. Dermody (2007). A plasmid-based reverse genetics system for animal double-stranded RNA viruses. Cell Host Microbe 1: 147-57. [PubMed]

Koonin, E. V. (1992). Evolution of double-stranded RNA viruses: a case for polyphyletic origin from different groups of positive-stranded RNA viruses. Semin Virol 3: 327-39. [

Kumar, S., G. Stecher and K. Tamura (2016). MEGA7: Molecular Evolutionary Genetics Analysis version 7.0 for bigger datasets. Mol Biol Evol 33: 1870-4. [PubMed]

Mata, C. P., J. M. Rodríguez, N. Suzuki and J. R. Castón (2020). Structure and assembly of double-stranded RNA mycoviruses. Adv Virus Res 108: 213-47. [

Nibert, M. L., J. D. Chappell and T. S. Dermody (1995). Infectious subvirion particles of reovirus type 3 Dearing exhibit a loss in infectivity and contain a cleaved sigma 1 protein. J Virol 69: 5057-67. [PubMed]

Nibert, M. L., R. L. Margraf and K. M. Coombs (1996). Nonrandom segregation of parental alleles in reovirus reassortants. J Virol 70: 7295-300. [PubMed]

Nibert, M. L., L. A. Schiff and B. N. Fields (1991). Mammalian reoviruses contain a myristoylated structural protein. J Virol 65: 1960-7. [PubMed]

Poch, O., I. Sauvaget, M. Delarue and N. Tordo (1989). Identification of four conserved motifs among the RNA-dependent polymerase encoding elements. EMBO J 8: 3867-74. [PubMed]

Silverstein, S. C. and P. H. Schur (1970). Immunofluorescent localization of double-stranded RNA in reovirus-infected cells. Virology 41: 564-6. [PubMed]

Tenorio, R., I. Fernández de Castro, J. J. Knowlton, P. F. Zamora, D. M. Sutherland, C. Risco and T. S. Dermody (2019). Function, architecture, and biogenesis of reovirus replication neoorganelles. Viruses 11: doi: 10.3390/v11030288. [PubMed]

Wei, T. and Y. Li (2016). Rice reoviruses in insect vectors. Annu Rev Phytopathol 54: 99-120. [PubMed]

Wolf, Y. I., D. Kazlauskas, J. Iranzo, A. Lucía-Sanz, J. H. Kuhn, M. Krupovic, V. V. Dolja and E. V. Koonin (2018). Origins and evolution of the global RNA virome. MBio 9: e02329-18. [PubMed]

Zhang, S., Z. Shi, J. Zhang and J. R. Bonami (2004). Purification and characterization of a new reovirus from the Chinese mitten crab, Eriocheir sinensisJ Fish Dis 27: 687-92. [PubMed]