Ting Yu Wang scite author profile

Betanodaviruses cause massive mortality in marine fish species with viral nervous necrosis. The structure of a T = 3 Grouper nervous necrosis virus-like particle (GNNV-LP) is determined by the ab initio method with non-crystallographic symmetry averaging at 3.6 Å resolution. Each capsid protein (CP) shows three major domains: (i) the N-terminal arm, an inter-subunit extension at the inner surface; (ii) the shell domain (S-domain), a jelly-roll structure; and (iii) the protrusion domain (P-domain) formed by three-fold trimeric protrusions. In addition, we have determined structures of the T = 1 subviral particles (SVPs) of (i) the delta-P-domain mutant (residues 35−217) at 3.1 Å resolution; and (ii) the N-ARM deletion mutant (residues 35−338) at 7 Å resolution; and (iii) the structure of the individual P-domain (residues 214−338) at 1.2 Å resolution. The P-domain reveals a novel DxD motif asymmetrically coordinating two Ca2+ ions, and seems to play a prominent role in the calcium-mediated trimerization of the GNNV CPs during the initial capsid assembly process. The flexible N-ARM (N-terminal arginine-rich motif) appears to serve as a molecular switch for T = 1 or T = 3 assembly. Finally, we find that polyethylene glycol, which is incorporated into the P-domain during the crystallization process, enhances GNNV infection. The present structural studies together with the biological assays enhance our understanding of the role of the P-domain of GNNV in the capsid assembly and viral infection by this betanodavirus.

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Cancer-cell-specific cytotoxicity of non-oxidized iron elements in iron core-gold shell NPs

Chen

Shi

et al. 2011

Nanomedicine: Nanotechnology, Biology and Medicine

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An integrated microfluidic loop-mediated-isothermal-amplification system for rapid sample pre-treatment and detection of viruses

Wang

Lien

Wang

et al. 2011

Biosensors and Bioelectronics

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Immunity to betanodavirus infections of marine fish

Chen¹,

Wang²

2014

Developmental & Comparative Immunology

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Real-Time Quantitative PCR Assay for Monitoring of Nervous Necrosis Virus Infection in Grouper Aquaculture

et al. 2011

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Viral nervous necrosis caused by nervous necrosis virus (NNV) exacts a high mortality and results inhuge economic losses in grouper aquaculture in Taiwan. The present study developed a real-time quantitative PCR (qPCR) method for NNV monitoring. The assay showed a strong linear correlation (r 2 ‫؍‬ 0.99) between threshold cycle (C T ) and RNA quantities, which allowed identification of infected groupers by the C T value and could be exploited to warn of NNV infection prior to an outbreak in grouper fish farms. Real-time qPCR also confirmed the copious content of NNV in grouper fin, similar to that in primary tissues; the result was verified by using in situ reverse transcription-PCR (RT-PCR). This indicated that grouper fin was a suitable sample for NNV detection, in a manner that could be relatively benign to the fish. The rapid spread of NNV infection to the entire population of affected farms was evident. The developed real-time qPCR method is rapid, highly sensitive, and applicable to routine high-throughput detection of large numbers of samples and has potential as a suitable tool for diagnostic, epidemiological, and genetic studies of grouper aquaculture.

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Ting Yu Wang

Crystal Structures of a Piscine Betanodavirus: Mechanisms of Capsid Assembly and Viral Infection

Cancer-cell-specific cytotoxicity of non-oxidized iron elements in iron core-gold shell NPs

An integrated microfluidic loop-mediated-isothermal-amplification system for rapid sample pre-treatment and detection of viruses

Immunity to betanodavirus infections of marine fish

Real-Time Quantitative PCR Assay for Monitoring of Nervous Necrosis Virus Infection in Grouper Aquaculture

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