Jianan Jiang scite author profile

Positive-sense RNA viruses remodel host cell endomembranes to generate quasi-organelles known as "viral factories" to coordinate diverse viral processes, such as genome translation and replication. It is also becoming clear that enclosing viral RNA (vRNA) complexes within membranous structures is important for virus cell-to-cell spread throughout the host. In plant cells infected by turnip mosaic virus (TuMV), a member of the family Potyviridae, peripheral motile endoplasmic reticulum (ER)-derived viral vesicles are produced that carry the vRNA to plasmodesmata for delivery into adjacent noninfected cells. The viral protein 6K 2 is responsible for the formation of these vesicles, but how 6K 2 is involved in their biogenesis is unknown. We show here that 6K 2 is associated with cellular membranes. Deletion mapping and site-directed mutagenesis experiments defined a soluble N-terminal 12-amino-acid stretch, in particular a potyviral highly conserved tryptophan residue and two lysine residues that were important for vesicle formation. When the tryptophan residue was changed into an alanine in the viral polyprotein, virus replication still took place, albeit at a reduced level, but cell-to-cell movement of the virus was abolished. Yeast (Saccharomyces cerevisiae) two-hybrid and coimmunoprecipitation experiments showed that 6K 2 interacted with Sec24a, a COPII coatomer component. Appropriately, TuMV systemic movement was delayed in an Arabidopsis thaliana mutant line defective in Sec24a. Intercellular movement of TuMV replication vesicles thus requires ER export of 6K 2 , which is mediated by the interaction of the N-terminal domain of the viral protein with Sec24a. IMPORTANCEMany plant viruses remodel the endoplasmic reticulum (ER) to generate vesicles that are associated with the virus replication complex. The viral protein 6K 2 of turnip mosaic virus (TuMV) is known to induce ER-derived vesicles that contain vRNA as well as viral and host proteins required for vRNA synthesis. These vesicles not only sustain vRNA synthesis, they are also involved in the intercellular trafficking of vRNA. In this investigation, we found that the N-terminal soluble domain of 6K 2 is required for ER export of the protein and for the formation of vesicles. ER export is not absolutely required for vRNA replication but is necessary for virus cell-to-cell movement. Furthermore, we found that 6K 2 physically interacts with the COPII coatomer Sec24a and that an Arabidopsis thaliana mutant line with a defective Sec24a shows a delay in the systemic infection by TuMV. P ositive-strand RNA viruses replicate on cellular membranes in order to achieve efficient virus production. These membranous structures have been termed "viral factories" and are associated with virus replication complexes (VRCs) (1, 2). Electron microscopy coupled to tomography has recently been used to get an elaborate three-dimensional view of animal virus-induced membranous structures. For instance, picorna-, corona-, and arteriviruses induce the formation of endopla...

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6K2-induced vesicles can move cell to cell during turnip mosaic virus infection

Grangeon

Jiang

Wan

et al. 2013

Front. Microbiol.

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To successfully infect plants, viruses replicate in an initially infected cell and then move to neighboring cells through plasmodesmata (PDs). However, the nature of the viral entity that crosses over the cell barrier into non-infected ones is not clear. The membrane-associated 6K2 protein of turnip mosaic virus (TuMV) induces the formation of vesicles involved in the replication and intracellular movement of viral RNA. This study shows that 6K2-induced vesicles trafficked toward the plasma membrane and were associated with plasmodesmata (PD). We demonstrated also that 6K2 moved cell-to-cell into adjoining cells when plants were infected with TuMV. 6K2 was then fused to photo-activable GFP (6K2:PAGFP) to visualize how 6K2 moved intercellularly during TuMV infection. After activation, 6K2:PAGFP-tagged vesicles moved to the cell periphery and across the cell wall into adjacent cells. These vesicles were shown to contain the viral RNA-dependent RNA polymerase and viral RNA. Symplasmic movement of TuMV may thus be achieved in the form of a membrane-associated viral RNA complex induced by 6K2.

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Turnip Mosaic Virus Uses the SNARE Protein VTI11 in an Unconventional Route for Replication Vesicle Trafficking

et al. 2018

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Infection of plant cells by RNA viruses leads to the generation of organelle-like subcellular structures that contain the viral replication complex. During Turnip mosaic virus (TuMV) infection of Nicotiana benthamiana, the viral membrane protein 6K 2 plays a key role in the release of motile replication vesicles from the host endoplasmic reticulum (ER). Here, we demonstrate that 6K 2 contains a GxxxG motif within its predicted transmembrane domain that is vital for TuMV infection. Replacement of the Gly with Val within this motif inhibited virus production, and this was due to a relocation of the viral protein to the Golgi apparatus and the plasma membrane. This indicated that passage of 6K 2 through the Golgi apparatus is a dead-end avenue for virus infection. Impairing the fusion of transport vesicles between the ER and the Golgi apparatus by overexpression of the SNARE Sec22 protein resulted in enhanced intercellular virus movement. Likewise, expression of nonfunctional, Golgi-located synaptotagmin during infection enhanced TuMV intercellular movement. 6K 2 copurified with VTI11, a prevacuolar compartment SNARE protein. An Arabidopsis thaliana vti11 mutant was completely resistant to TuMV infection. We conclude that TuMV replication vesicles bypass the Golgi apparatus and take an unconventional pathway that may involve prevacuolar compartments/multivesicular bodies for virus infection.

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Three-Dimensional Architecture and Biogenesis of Membrane Structures Associated with Plant Virus Replication

et al. 2018

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Positive-sense (+) RNA viruses represent the most abundant group of viruses and are dependent on the host cell machinery to replicate. One remarkable feature that occurs after (+) RNA virus entry into cells is the remodeling of host endomembranes, leading to the formation of viral replication factories. Recently, rapid progress in three-dimensional (3D) imaging technologies, such as electron tomography (ET) and focused ion beam-scanning electron microscopy (FIB-SEM), has enabled researchers to visualize the novel membrane structures induced by viruses at high resolution. These 3D imaging technologies provide new mechanistic insights into the viral infection cycle. In this review, we summarize the latest reports on the cellular remodeling that occurs during plant virus infection; in particular, we focus on studies that provide 3D architectural information on viral replication factories. We also outline the mechanisms underlying the formation of these membranous structures and discuss possible future research directions.

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Programmed intermittent epidural bolus decreases the incidence of intra-partum fever for labor analgesia in primiparous women: a randomized controlled study

Fan

Hou

Shi

et al. 2019

Arch Gynecol Obstet

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Combination of NO_x mode and O₃ mode air discharges for water activation to produce a potent disinfectant

Wang

Liu

et al. 2022

Plasma Sources Sci. Technol.

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Air plasma is commonly used to treat water for activation or purification, and plasma-activated water (PAW) is a promising green disinfectant that has attracted great attention in recent years. However, either the O3 discharge mode or the NOx discharge mode of air plasma lacks efficiency for water activation mainly due to the low solubility of O3, NO, and NO2. The transition process between those two modes could produce high valence NOx such as N2O5 which should be more efficient for water activation, but this process is not easy to control stable, and the water activation by N2O5 has rarely been reported before. In this letter, N2O5 is found to be produced effectively and stably by mixing the effluent gases of a NOx mode air plasma, produced by gliding arc discharge, and an O3 mode air plasma, produced by dielectric barrier discharge, and the N2O5-rich mixed gas is found much efficient for water activation. Nearly 6 logs of CFU reduction are achieved for MRSA suspension by using the PAW treated by the mixed gas, and the PAW could persist a high bactericidal effect for more than one hour after the plasma activation. Main reactive species for bactericidal effect in the PAW are discussed, and the chemical pathways for N2O5 production and its usage for water activation are illustrated.

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Concurrent synthesis of vanillin and isovanillin

Huang

Jiang

et al. 2012

Res Chem Intermed

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Jianan Jiang

The genome-linked protein VPg of plant viruses—a protein with many partners

The Vesicle-Forming 6K ₂ Protein of Turnip Mosaic Virus Interacts with the COPII Coatomer Sec24a for Viral Systemic Infection

6K2-induced vesicles can move cell to cell during turnip mosaic virus infection

Turnip Mosaic Virus Uses the SNARE Protein VTI11 in an Unconventional Route for Replication Vesicle Trafficking

Three-Dimensional Architecture and Biogenesis of Membrane Structures Associated with Plant Virus Replication

Programmed intermittent epidural bolus decreases the incidence of intra-partum fever for labor analgesia in primiparous women: a randomized controlled study

Combination of NO_x mode and O₃ mode air discharges for water activation to produce a potent disinfectant

Concurrent synthesis of vanillin and isovanillin

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Jianan Jiang

The genome-linked protein VPg of plant viruses—a protein with many partners

The Vesicle-Forming 6K 2 Protein of Turnip Mosaic Virus Interacts with the COPII Coatomer Sec24a for Viral Systemic Infection

6K2-induced vesicles can move cell to cell during turnip mosaic virus infection

Turnip Mosaic Virus Uses the SNARE Protein VTI11 in an Unconventional Route for Replication Vesicle Trafficking

Three-Dimensional Architecture and Biogenesis of Membrane Structures Associated with Plant Virus Replication

Programmed intermittent epidural bolus decreases the incidence of intra-partum fever for labor analgesia in primiparous women: a randomized controlled study

Combination of NO x mode and O3 mode air discharges for water activation to produce a potent disinfectant

Concurrent synthesis of vanillin and isovanillin

Contact Info

Product

Resources

About

The Vesicle-Forming 6K ₂ Protein of Turnip Mosaic Virus Interacts with the COPII Coatomer Sec24a for Viral Systemic Infection

Combination of NO_x mode and O₃ mode air discharges for water activation to produce a potent disinfectant