Jeanmarie Verchot | Oklahoma State University (original) (raw)
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Papers by Jeanmarie Verchot
PLoS genetics, 2015
The unfolded protein response (UPR) signaling network encompasses two pathways in plants, one med... more The unfolded protein response (UPR) signaling network encompasses two pathways in plants, one mediated by inositol-requiring protein-1 (IRE1)-bZIP60 mRNA and the other by site-1/site-2 proteases (S1P/S2P)-bZIP17/bZIP28. As the major sensor of UPR in eukaryotes, IRE1, in response to endoplasmic reticulum (ER) stress, catalyzes the unconventional splicing of HAC1 in yeast, bZIP60 in plants and XBP1 in metazoans. Recent studies suggest that IRE1p and HAC1 mRNA, the only UPR pathway found in yeast, evolves as a cognate system responsible for the robust UPR induction. However, the functional connectivity of IRE1 and its splicing target in multicellular eukaryotes as well as the degree of conservation of IRE1 downstream signaling effectors across eukaryotes remains to be established. Here, we report that IRE1 and its substrate bZIP60 function as a strictly cognate enzyme-substrate pair to control viral pathogenesis in plants. Moreover, we show that the S1P/S2P-bZIP17/bZIP28 pathway, the o...
Frontiers in plant science, 2014
The endoplasmic reticulum (ER) is central to protein production and membrane lipid synthesis. The... more The endoplasmic reticulum (ER) is central to protein production and membrane lipid synthesis. The unfolded protein response (UPR) supports cellular metabolism by ensuring protein quality control in the ER. Most positive strand RNA viruses cause extensive remodeling of membranes and require active membrane synthesis to promote infection. How viruses interact with the cellular machinery controlling membrane metabolism is largely unknown. Furthermore, there is mounting data pointing to the importance of the UPR and ER associated degradation (ERAD) machineries in viral pathogenesis in eukaryotes emerging topic. For many viruses, the UPR is an early event that is essential for persistent infection and benefits virus replication. In addition, many viruses are reported to commandeer ER resident chaperones to contribute to virus replication and intercellular movement. In particular, calreticulin, the ubiquitin machinery, and the 26S proteasome are most commonly identified components of the ...
Frontiers in plant science, 2012
Cellular chaperones and folding enzymes play central roles in the formation of positive-strand an... more Cellular chaperones and folding enzymes play central roles in the formation of positive-strand and negative-strand RNA virus infection. This article examines the key cellular chaperones and discusses evidence that these factors are diverted from their cellular functions to play alternative roles in virus infection. For most chaperones discussed, their primary role in the cell is to ensure protein quality control. They are system components that drive substrate protein folding, complex assembly or disaggregation. Their activities often depend upon co-chaperones and ATP hydrolysis. During plant virus infection, Hsp70 and Hsp90 proteins play central roles in the formation of membrane-bound replication complexes for certain members of the tombusvirus, tobamovirus, potyvirus, dianthovirus, potexvirus, and carmovirus genus. There are several co-chaperones, including Yjd1, RME-8, and Hsp40 that associate with the bromovirus replication complex, pomovirus TGB2, and tospovirus Nsm movement p...
Virology, 2002
The requirements for intercellular movement of Potato virus X (PVX) 12K, 8K, and coat proteins (C... more The requirements for intercellular movement of Potato virus X (PVX) 12K, 8K, and coat proteins (CP) differed in two Nicotiana spp. Plasmids containing the green fluorescent protein (GFP) gene fused to PVX 12K, 8K, or CP genes were bombarded to tobacco leaves. Protein movement was observed in N. benthamiana but not N. tabacum leaves. GFP:12K and GFP:8K moved cell-to-cell in 25K-expressing transgenic N. tabacum source but not sink leaves. In N. tabacum, GFP:12K and GFP:8K intercellular movement depends on the 25K and leaf developmental stage. Leaves were bombarded using two biolistic delivery methods and the results were similar indicating that movement of GFP:12K or GFP:8K is independent of the delivery system. Mutations in 12K, 8K, and CP genes within the PVX genome inhibited viral intercellular movement in both Nicotiana spp. Thus plasmodesmata gating is not an essential function of these proteins for virus cell-to-cell movement. These proteins likely provide additional activities ...
Virology journal, 2005
Amino acid sequence analyses indicate that the Soilborne wheat mosaic virus (SBWMV) 19K protein i... more Amino acid sequence analyses indicate that the Soilborne wheat mosaic virus (SBWMV) 19K protein is a cysteine-rich protein (CRP) and shares sequence homology with CRPs derived from furo-, hordei-, peclu- and tobraviruses. Since the hordei- and pecluvirus CRPs were shown to be pathogenesis factors and/or suppressors of RNA silencing, experiments were conducted to determine if the SBWMV 19K CRP has similar activities. The SBWMV 19K CRP was introduced into the Potato virus X (PVX) viral vector and inoculated to tobacco plants. The SBWMV 19K CRP aggravated PVX-induced symptoms and restored green fluorescent protein (GFP) expression to GFP silenced tissues. These observations indicate that the SBWMV 19K CRP is a pathogenicity determinant and a suppressor of RNA silencing.
Plant Signaling & Behavior, 2011
Current Opinion in Virology, 2011
The Springer Index of Viruses, 2011
Archives of Virology, 2015
Frontiers in plant science, 2014
The endoplasmic reticulum (ER) is the central organelle in the eukaryotic secretory pathway. The ... more The endoplasmic reticulum (ER) is the central organelle in the eukaryotic secretory pathway. The ER functions in protein synthesis and maturation and is crucial for proper maintenance of cellular homeostasis and adaptation to adverse environments. Acting as a cellular sentinel, the ER is exquisitely sensitive to changing environments principally via the ER quality control machinery. When perturbed, ER-stress triggers a tightly regulated and highly conserved, signal transduction pathway known as the unfolded protein response (UPR) that prevents the dangerous accumulation of unfolded/misfolded proteins. In situations where excessive UPR activity surpasses threshold levels, cells deteriorate and eventually trigger programmed cell death (PCD) as a way for the organism to cope with dysfunctional or toxic signals. The programmed cell death that results from excessive ER stress in mammalian systems contributes to several important diseases including hypoxia, neurodegeneration, and diabetes...
PLoS genetics, 2015
The unfolded protein response (UPR) signaling network encompasses two pathways in plants, one med... more The unfolded protein response (UPR) signaling network encompasses two pathways in plants, one mediated by inositol-requiring protein-1 (IRE1)-bZIP60 mRNA and the other by site-1/site-2 proteases (S1P/S2P)-bZIP17/bZIP28. As the major sensor of UPR in eukaryotes, IRE1, in response to endoplasmic reticulum (ER) stress, catalyzes the unconventional splicing of HAC1 in yeast, bZIP60 in plants and XBP1 in metazoans. Recent studies suggest that IRE1p and HAC1 mRNA, the only UPR pathway found in yeast, evolves as a cognate system responsible for the robust UPR induction. However, the functional connectivity of IRE1 and its splicing target in multicellular eukaryotes as well as the degree of conservation of IRE1 downstream signaling effectors across eukaryotes remains to be established. Here, we report that IRE1 and its substrate bZIP60 function as a strictly cognate enzyme-substrate pair to control viral pathogenesis in plants. Moreover, we show that the S1P/S2P-bZIP17/bZIP28 pathway, the o...
Frontiers in plant science, 2014
The endoplasmic reticulum (ER) is central to protein production and membrane lipid synthesis. The... more The endoplasmic reticulum (ER) is central to protein production and membrane lipid synthesis. The unfolded protein response (UPR) supports cellular metabolism by ensuring protein quality control in the ER. Most positive strand RNA viruses cause extensive remodeling of membranes and require active membrane synthesis to promote infection. How viruses interact with the cellular machinery controlling membrane metabolism is largely unknown. Furthermore, there is mounting data pointing to the importance of the UPR and ER associated degradation (ERAD) machineries in viral pathogenesis in eukaryotes emerging topic. For many viruses, the UPR is an early event that is essential for persistent infection and benefits virus replication. In addition, many viruses are reported to commandeer ER resident chaperones to contribute to virus replication and intercellular movement. In particular, calreticulin, the ubiquitin machinery, and the 26S proteasome are most commonly identified components of the ...
Frontiers in plant science, 2012
Cellular chaperones and folding enzymes play central roles in the formation of positive-strand an... more Cellular chaperones and folding enzymes play central roles in the formation of positive-strand and negative-strand RNA virus infection. This article examines the key cellular chaperones and discusses evidence that these factors are diverted from their cellular functions to play alternative roles in virus infection. For most chaperones discussed, their primary role in the cell is to ensure protein quality control. They are system components that drive substrate protein folding, complex assembly or disaggregation. Their activities often depend upon co-chaperones and ATP hydrolysis. During plant virus infection, Hsp70 and Hsp90 proteins play central roles in the formation of membrane-bound replication complexes for certain members of the tombusvirus, tobamovirus, potyvirus, dianthovirus, potexvirus, and carmovirus genus. There are several co-chaperones, including Yjd1, RME-8, and Hsp40 that associate with the bromovirus replication complex, pomovirus TGB2, and tospovirus Nsm movement p...
Virology, 2002
The requirements for intercellular movement of Potato virus X (PVX) 12K, 8K, and coat proteins (C... more The requirements for intercellular movement of Potato virus X (PVX) 12K, 8K, and coat proteins (CP) differed in two Nicotiana spp. Plasmids containing the green fluorescent protein (GFP) gene fused to PVX 12K, 8K, or CP genes were bombarded to tobacco leaves. Protein movement was observed in N. benthamiana but not N. tabacum leaves. GFP:12K and GFP:8K moved cell-to-cell in 25K-expressing transgenic N. tabacum source but not sink leaves. In N. tabacum, GFP:12K and GFP:8K intercellular movement depends on the 25K and leaf developmental stage. Leaves were bombarded using two biolistic delivery methods and the results were similar indicating that movement of GFP:12K or GFP:8K is independent of the delivery system. Mutations in 12K, 8K, and CP genes within the PVX genome inhibited viral intercellular movement in both Nicotiana spp. Thus plasmodesmata gating is not an essential function of these proteins for virus cell-to-cell movement. These proteins likely provide additional activities ...
Virology journal, 2005
Amino acid sequence analyses indicate that the Soilborne wheat mosaic virus (SBWMV) 19K protein i... more Amino acid sequence analyses indicate that the Soilborne wheat mosaic virus (SBWMV) 19K protein is a cysteine-rich protein (CRP) and shares sequence homology with CRPs derived from furo-, hordei-, peclu- and tobraviruses. Since the hordei- and pecluvirus CRPs were shown to be pathogenesis factors and/or suppressors of RNA silencing, experiments were conducted to determine if the SBWMV 19K CRP has similar activities. The SBWMV 19K CRP was introduced into the Potato virus X (PVX) viral vector and inoculated to tobacco plants. The SBWMV 19K CRP aggravated PVX-induced symptoms and restored green fluorescent protein (GFP) expression to GFP silenced tissues. These observations indicate that the SBWMV 19K CRP is a pathogenicity determinant and a suppressor of RNA silencing.
Plant Signaling & Behavior, 2011
Current Opinion in Virology, 2011
The Springer Index of Viruses, 2011
Archives of Virology, 2015
Frontiers in plant science, 2014
The endoplasmic reticulum (ER) is the central organelle in the eukaryotic secretory pathway. The ... more The endoplasmic reticulum (ER) is the central organelle in the eukaryotic secretory pathway. The ER functions in protein synthesis and maturation and is crucial for proper maintenance of cellular homeostasis and adaptation to adverse environments. Acting as a cellular sentinel, the ER is exquisitely sensitive to changing environments principally via the ER quality control machinery. When perturbed, ER-stress triggers a tightly regulated and highly conserved, signal transduction pathway known as the unfolded protein response (UPR) that prevents the dangerous accumulation of unfolded/misfolded proteins. In situations where excessive UPR activity surpasses threshold levels, cells deteriorate and eventually trigger programmed cell death (PCD) as a way for the organism to cope with dysfunctional or toxic signals. The programmed cell death that results from excessive ER stress in mammalian systems contributes to several important diseases including hypoxia, neurodegeneration, and diabetes...