References: Nimaviridae


References: Nimaviridae

Balasubramanian, G., Sudhakaran, R., Syed Musthaq, S., Sarathi, M. & Sahul Hameed, A. S. (2006). Studies on the inactivation of white spot syndrome virus of shrimp by physical and chemical treatments, and seaweed extracts tested in marine and freshwater animal models. J Fish Dis 29, 569-572. [PubMed]

Bowornsakulwong, T., Charoensapsri, W., Rattanarojpong, T. & Khunrae, P. (2017). The expression and purification of WSSV134 from white spot syndrome virus and its inhibitory effect on caspase activity from Penaeus monodon. Protein Expr Purif 130, 123-128. [PubMed]

Chang, P. S., Chen, H. C. & Wang, Y. C. (1998). Detection of white spot syndrome associated baculovirus in experimentally infected wild shrimp, crab and lobsters by in situ hybridization. Aquaculture 164, 233-242.

Chang, Y. H., Kumar, R., Ng, T. H. & Wang, H. C. (2018). What vaccination studies tell us about immunological memory within the innate immune system of cultured shrimp and crayfish. Dev Comp Immunol 80, 53-66. [PubMed]

Chen, I. T., Lee, D. Y., Huang, Y. T., Kou, G. H., Wang, H. C., Chang, G. D. & Lo, C. F. (2016). Six hours after infection, the metabolic changes induced by WSSV neutralize the host's oxidative stress defenses. Sci Rep 6, 27732. [PubMed

Chou, H., Huang, C., Wang, C., Chiang, H., Lo, C., Chou, H. Y., Huang, C. Y., Wang, C. H., Chiang, H. C. & Lo, C. F. (1995). Pathogenicity of a baculovirus infection causing white spot syndrome in cultured penaeid shrimp in Taiwan. Dis Aquat Organ 23, 165-173.

Dang, L. T., Koyama, T., Shitara, A., Kondo, H., Aoki, T. & Hirono, I. (2010). Involvement of WSSV-shrimp homologs in WSSV infectivity in kuruma shrimp: Marsupenaeus japonicus. Antiviral Res 88, 217-226. [PubMed]

Durand, S., Lightner, D. V., Redman, R. M. & Bonami, J. R. (1997). Ultrastructure and morphogenesis of white spot syndrome baculovirus (WSSV). Dis Aquat Organ 29, 205-211.

Escobedo-Bonilla, C. M. (2011). Application of RNA interference (RNAi) against viral infections in shrimp: a review. Antivir Antiretrovir S9, 1-12.

Fan, W., Ye, Y., Chen, Z., Shao, Y., Xie, X., Zhang, W., Liu, H. P. & Li, C. (2016). Metabolic product response profiles of Cherax quadricarinatus towards white spot syndrome virus infection. Dev Comp Immunol 61, 236-241. [PubMed]

Flegel, T. W. (2006). Detection of major penaeid shrimp viruses in Asia, a historical perspective with emphasis on Thailand. Aquaculture 258, 1-33.

Han, F. & Zhang, X. (2006). Internal initiation of mRNA translation in insect cell mediated by an internal ribosome entry site (IRES) from shrimp white spot syndrome virus (WSSV). Biochem Biophys Res Commun 344, 893-899. [PubMed]

He, F., Syed, S. M., Hameed, A. S. & Kwang, J. (2009). Viral ubiquitin ligase WSSV222 is required for efficient white spot syndrome virus replication in shrimp. J Gen Virol 90, 1483-1490. [PubMed]

He, Y., Ma, T. & Zhang, X. (2017). The mechanism of synchronous precise regulation of two shrimp white spot syndrome virus targets by a viral microRNA. Front Immunol 8, 1546. [PubMed]

He, Y., Yang, K. & Zhang, X. (2014). Viral microRNAs targeting virus genes promote virus infection in shrimp in vivo. J Virol 88, 1104-1112. [PubMed]

Hsieh, Y. C., Chen, Y. M., Li, C. Y., Chang, Y. H., Liang, S. Y., Lin, S. Y., Lin, C. Y., Chang, S. H., Wang, Y. J., Khoo, K. H., Aoki, T. & Wang, H. C. (2015). To complete its replication cycle, a shrimp virus changes the population of long chain fatty acids during infection via the PI3K-Akt-mTOR-HIF1alpha pathway. Dev Comp Immunol 53, 85-95. [PubMed]

Huang, J., Li, F., Wu, J. & Yang, F. (2015). White spot syndrome virus enters crayfish hematopoietic tissue cells via clathrin-mediated endocytosis. Virology 486, 35-43. [PubMed]

Huang, J. Y., Kang, S. T., Chen, I. T., Chang, L. K., Lin, S. S., Kou, G. H., Chu, C. Y. & Lo, C. F. (2017a). Shrimp miR-10a is co-opted by white spot syndrome virus to increase viral gene expression and viral replication. Front Immunol 8, 1084. [PubMed]

Huang, P. H., Huang, T. Y., Cai, P. S. & Chang, L. K. (2017b). Role of Litopenaeus vannamei Yin Yang 1 in the regulation of the white spot syndrome virus immediate early gene ie1. J Virol 91, e02314. [PubMed]

Huang, Z. J., Kang, S. T., Leu, J. H. & Chen, L. L. (2013). Endocytic pathway is indicated for white spot syndrome virus (WSSV) entry in shrimp. Fish Shellfish Immunol 35, 707-715. [PubMed

Jaree, P., Senapin, S., Hirono, I., Lo, C. F., Tassanakajon, A. & Somboonwiwat, K. (2016). WSV399, a viral tegument protein, interacts with the shrimp protein PmVRP15 to facilitate viral trafficking and assembly. Dev Comp Immunol 59, 177-185. [PubMed

Kang, S. T., Leu, J. H., Wang, H. C., Chen, L. L., Kou, G. H. & Lo, C. F. (2009). Polycistronic mRNAs and internal ribosome entry site elements (IRES) are widely used by white spot syndrome virus (WSSV) structural protein genes. Virology 387, 353-363. [PubMed

Kang, S. T., Wang, H. C., Yang, Y. T., Kou, G. H. & Lo, C. F. (2013). The DNA virus white spot syndrome virus uses an internal ribosome entry site for translation of the highly expressed nonstructural protein ICP35. J Virol 87, 13263-13278. [PubMed]

Lertwimol, T., Sangsuriya, P., Phiwsaiya, K., Senapin, S., Phongdara, A., Boonchird, C. & Flegel, T. W. (2014). Two new anti-apoptotic proteins of white spot syndrome virus that bind to an effector caspase (PmCasp) of the giant tiger shrimp Penaeus (Penaeus) monodon. Fish Shellfish Immunol 38, 1-6. [PubMed]

Leu, J. H., Chen, L. L., Lin, Y. R., Kou, G. H. & Lo, C. F. (2010). Molecular mechanism of the interactions between white spot syndrome virus anti-apoptosis protein AAP-1 (WSSV449) and shrimp effector caspase. Dev Comp Immunol 34, 1068-1074. [PubMed

Leu, J. H., Tsai, J. M., Wang, H. C., Wang, A. H., Wang, C. H., Kou, G. H. & Lo, C. F. (2005). The unique stacked rings in the nucleocapsid of the white spot syndrome virus virion are formed by the major structural protein VP664, the largest viral structural protein ever found. J Virol 79, 140-149. [PubMed

Leu, J. H., Yang, F., Zhang, X., Xu, X., Kou, G. H. & Lo, C. F. (2009). Whispovirus. Curr Top Microbiol Immunol 328, 197-227. [PubMed]

Li, C. Y., Wang, Y. J., Huang, S. W., Cheng, C. S. & Wang, H. C. (2016). Replication of the shrimp virus WSSV depends on glutamate-driven anaplerosis. PLoS One 11, e0146902. [PubMed

Li, L. J., Yuan, J. F., Cai, C. A., Gu, W. G. & Shi, Z. L. (2006). Multiple envelope proteins are involved in white spot syndrome virus (WSSV) infection in crayfish. Arch Virol 151, 1309-1317. [PubMed]

Liu, W. J., Chang, Y. S., Huang, W. T., Chen, I. T., Wang, K. C., Kou, G. H. & Lo, C. F. (2011). Penaeus monodon TATA box-binding protein interacts with the white spot syndrome virus transactivator IE1 and promotes its transcriptional activity. J Virol 85, 6535-6547. [PubMed]

Lo, C. F., Ho, C. H., Chen, C. H., Liu, K. F., Chiu, Y. L., Yeh, P. Y., Peng, S. E., Hsu, H. C., Liu, H. C., Chang, C. F., Su, M. S., Wang, C. H. & Kou, G. H. (1997). Detection and tissue tropism of white spot syndrome baculovirus (WSBV) in captured brooders of Penaeus monodon with a special emphasis on reproductive organs. Dis Aquat Organ 30, 53-72.

Lo, C. F., Ho, C. H., Peng, S. E., Chen, C. H., Hsu, H. C., Chiu, Y. L., Chang, C. F., Liu, K. F., Su, M. S., Wang, C. H. & Kou, G. H. (1996). White spot syndrome baculovirus (WSBV) detected in cultured and captured shrimps, crabs and other arthropods. Dis Aquat Organ 27, 215-225.

Lu, C. P., Zhu, S., Guo, F. S. & Wu, S. Y. (1997). Electron microscopic observation on a non-occluded baculo-like virus in shrimps. Arch Virol 142, 2073-2078. [PubMed]

Marks, H., Goldbach, R. W., Vlak, J. M. & van Hulten, M. C. (2004). Genetic variation among isolates of white spot syndrome virus. Arch Virol 149, 673-697. [PubMed]

Marks, H., Ren, X. Y., Sandbrink, H., van Hulten, M. C. & Vlak, J. M. (2006). In silico identification of putative promoter motifs of white spot syndrome virus. BMC Bioinformatics 7, 309. [PubMed]

Methatham, T., Boonchuen, P., Jaree, P., Tassanakajon, A. & Somboonwiwat, K. (2017). Antiviral action of the antimicrobial peptide ALFPm3 from Penaeus monodon against white spot syndrome virus. Dev Comp Immunol 69, 23-32. [PubMed]

Nadala, E. C., Jr. & Loh, P. C. (1998). A comparative study of three different isolates of white spot virus. Dis Aquat Organ 33, 231-234. [PubMed

Nakano, H., Hiraoka, M., Sameshima, M., Kimura, T. & Momoyama, K. (1998). Inactivation of penaeid rod-shaped DNA virus (PRDV), the causative agent of penaid acute viremia (PAV), by some chemical and physical treatments. Fish Pathol 33, 65-71.

Patil, R., Shankar, K. M., Krupesha Sharma, S. R., Kulkarni, A., Patil, P., Naveen Kumar, B. T. & Sahoo, A. K. (2011). Epitope analysis of white spot syndrome virus of Penaeus monodon by in vivo neutralization assay employing a panel of monoclonal antibodies. Fish Shellfish Immunol 30, 1007-1013. [PubMed]

Pradeep, B., Rai, P., Mohan, S. A., Shekhar, M. S. & Karunasagar, I. (2012). Biology, host range, pathogenesis and diagnosis of white spot syndrome virus. Indian J Virol 23, 161-174. [PubMed]

Ren, Q., Huang, X., Cui, Y., Sun, J., Wang, W. & Zhang, X. (2017). Two white spot syndrome virus microRNAs target the dorsal gene to promote virus infection in Marsupenaeus japonicus shrimp. J Virol 91, e02261. [PubMed]

Ren, Q., Huang, Y., He, Y., Wang, W. & Zhang, X. (2015). A white spot syndrome virus microRNA promotes the virus infection by targeting the host STAT. Sci Rep 5, 18384. [PubMed]

Sánchez-Paz, A. (2010). White spot syndrome virus: an overview on an emergent concern. Vet Res 41, 43. [PubMed]

Sangsuriya, P., Charoensapsri, W., Sutthangkul, J., Senapin, S., Hirono, I., Tassanakajon, A. & Amparyup, P. (2018). A novel white spot syndrome virus protein WSSV164 controls prophenoloxidases, PmproPOs in shrimp melanization cascade. Dev Comp Immunol 86, 109-117. [PubMed

Shu, L., Li, C. & Zhang, X. (2016). The role of shrimp miR-965 in virus infection. Fish Shellfish Immunol 54, 427-434. [PubMed]

Su, M. A., Huang, Y. T., Chen, I. T., Lee, D. Y., Hsieh, Y. C., Li, C. Y., Ng, T. H., Liang, S. Y., Lin, S. Y., Huang, S. W., Chiang, Y. A., Yu, H. T., Khoo, K. H., Chang, G. D., Lo, C. F. & Wang, H. C. (2014). An invertebrate Warburg effect: a shrimp virus achieves successful replication by altering the host metabolome via the PI3K-Akt-mTOR pathway. PLoS Pathog 10, e1004196. [PubMed]

Suraprasit, S., Methatham, T., Jaree, P., Phiwsaiya, K., Senapin, S., Hirono, I., Lo, C. F., Tassanakajon, A. & Somboonwiwat, K. (2014). Anti-lipopolysaccharide factor isoform 3 from Penaeus monodon (ALFPm3) exhibits antiviral activity by interacting with WSSV structural proteins. Antiviral Res 110, 142-150. [PubMed]

Sutthangkul, J., Amparyup, P., Eum, J. H., Strand, M. R. & Tassanakajon, A. (2017). Anti-melanization mechanism of the white spot syndrome viral protein, WSSV453, via interaction with shrimp proPO-activating enzyme, PmproPPAE2. J Gen Virol 98, 769-778. [PubMed]

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Tsai, J. M., Wang, H. C., Leu, J. H., Wang, A. H., Zhuang, Y., Walker, P. J., Kou, G. H. & Lo, C. F. (2006). Identification of the nucleocapsid, tegument, and envelope proteins of the shrimp white spot syndrome virus virion. J Virol 80, 3021-3029. [PubMed

van Hulten, M. C., Witteveldt, J., Peters, S., Kloosterboer, N., Tarchini, R., Fiers, M., Sandbrink, H., Lankhorst, R. K. & Vlak, J. M. (2001). The white spot syndrome virus DNA genome sequence. Virology 286, 7-22. [PubMed]

Wang, H. C., Wang, H. C., Ko, T. P., Lee, Y. M., Leu, J. H., Ho, C. H., Huang, W. P., Lo, C. F. & Wang, A. H. (2008). White spot syndrome virus protein ICP11: a histone-binding DNA mimic that disrupts nucleosome assembly. Proc Natl Acad Sci USA 105, 20758-20763. [PubMed]

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Zhou, Q., Li, H., Qi, Y. P. & Yang, F. (2008). Lipid of white-spot syndrome virus originating from host-cell nuclei. J Gen Virol 89, 2909-2914. [PubMed]