7 results on '"Wang, Yaqin"'
Search Results
2. Rice stripe virus nonstructural protein 3 suppresses plant defence responses mediated by the MEL–SHMT1 module.
- Author
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Wang, Kun, Fu, Shuai, Wu, Liang, Wu, Jianxiang, Wang, Yaqin, Xu, Yi, and Zhou, Xueping
- Subjects
VIRAL proteins ,VIRAL nonstructural proteins ,PLANT resistance to viruses ,MITOGEN-activated protein kinases ,UBIQUITIN ligases ,PROTEASOMES ,RICE ,STRIPES - Abstract
Our previous study identified an evolutionarily conserved C4HC3‐type E3 ligase, named microtubule‐associated E3 ligase (MEL), that regulates broad‐spectrum plant resistance against viral, fungal and bacterial pathogens in multiple plant species by mediating serine hydroxymethyltransferase (SHMT1) degradation via the 26S proteasome pathway. In the present study, we found that NS3 protein encoded by rice stripe virus could competitively bind to the MEL substrate recognition site, thereby inhibiting MEL interacting with and ubiquitinating SHMT1. This, in turn, leads to the accumulation of SHMT1 and the repression of downstream plant defence responses, including reactive oxygen species accumulation, mitogen‐activated protein kinase pathway activation, and the up‐regulation of disease‐related gene expression. Our findings shed light on the ongoing arms race between pathogens and demonstrate how a plant virus can counteract the plant defence response. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
3. Comprehensive Analysis of Ubiquitome Changes in Nicotiana benthamiana after Rice Stripe Virus Infection.
- Author
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Liu, Yu, Li, Chenyang, Wang, Yaqin, Xu, Yi, Wu, Jianxiang, and Zhou, Xueping
- Subjects
NICOTIANA benthamiana ,VIRUS diseases ,GENE silencing ,PLANT viruses ,RICE ,STRIPES ,CUCUMBER mosaic virus ,UBIQUITINATION - Abstract
Rice stripe virus (RSV) is one of the most devastating viruses affecting rice production. During virus infection, ubiquitination plays an important role in the dynamic regulation of host defenses. We combined the ubiquitomics approach with the label-free quantitation proteomics approach to investigate potential ubiquitination status changes of Nicotiana benthamiana infected with RSV. Bioinformatics analyses were performed to elucidate potential associations between proteins with differentially ubiquitinated sites (DUSs) and various cellular components/pathways during virus infection. In total, 399 DUSs in 313 proteins were identified and quantified, among them 244 ubiquitinated lysine (Kub) sites in 186 proteins were up-regulated and 155 Kub sites in 127 proteins were down-regulated at 10 days after RSV infection. Gene Ontology and Kyoto Encyclopedia of Genes and Genomes pathway enrichment analyses indicated that proteins with up-regulated Kub sites were significantly enriched in the ribosome. Silencing of 3-isopropylmalate dehydratase large subunit through virus-induced gene silencing delayed RSV infection, while silencing of mRNA-decapping enzyme-like protein promoted RSV symptom in the late stage of infection. Moreover, ubiquitination was observed in all seven RSV-encoded proteins. Our study supplied the comprehensive analysis of the ubiquitination changes in N. benthamiana after RSV infection, which is helpful for understanding RSV pathogenesis and RSV-host interactions. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
4. Identification and Characterization of Two Novel Noda-like Viruses from Rice Plants Showing the Dwarfing Symptom.
- Author
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Xie, Yi, Fu, Shuai, Xie, Li, Wang, Yaqin, Cao, Mengji, Zhou, Xueping, and Wu, Jianxiang
- Subjects
RNA replicase ,PEPTIDASE ,RNA polymerases ,RICE ,PROTEIN domains ,NON-coding RNA ,PLANT RNA - Abstract
Nodaviruses are small bipartite RNA viruses and are considered animal viruses. Here, we identified two novel noda-like viruses (referred to as rice-associated noda-like virus 1 (RNLV1) and rice-associated noda-like virus 2 (RNLV2)) in field-collected rice plants showing a dwarfing phenotype through RNA-seq. RNLV1 genome consists of 3335 nt RNA1 and 1769 nt RNA2, and RNLV2 genome consists of 3279 nt RNA1 and 1525 nt RNA2. Three conserved ORFs were identified in each genome of the two novel viruses, encoding an RNA-dependent RNA polymerase, an RNA silencing suppressor, and a capsid protein, respectively. The results of sequence alignment, protein domain prediction, and evolutionary analysis indicate that these two novel viruses are clearly different from the known nodaviruses, especially the CPs. We have also determined that the B2 protein encoded by the two new noda-like viruses can suppress RNA silencing in plants. Two reverse genetic systems were constructed and used to show that RNLV1 RNA1 can replicate in plant cells and RNLV1 can replicate in insect Sf9 cells. We have also found two unusual peptidase family A21 domains in the RNLV1 CP, and RNLV1 CP can self-cleave in acidic environments. These findings provide new knowledge of novel nodaviruses. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
5. Rice stripe virus activates the bZIP17/28 branch of the unfolded protein response signalling pathway to promote viral infection.
- Author
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Li, Chenyang, Zhang, Tianze, Liu, Yu, Li, Zongdi, Wang, Yaqin, Fu, Shuai, Xu, Yi, Zhou, Tong, Wu, Jianxiang, and Zhou, Xueping
- Subjects
UNFOLDED protein response ,CELLULAR signal transduction ,PLANT viruses ,RICE ,NICOTIANA benthamiana ,VIRUS diseases - Abstract
The unfolded protein response (UPR) plays important roles in plant virus infection. Our previous study has proved that rice stripe virus (RSV) infection elicits host UPR. However, the mechanism on how the UPR is triggered upon RSV infection remains obscure. Here, we show that the bZIP17/28 branch of the UPR signalling pathway is activated upon RSV infection in Nicotiana benthamiana. We found that membrane‐associated proteins NSvc2 and NSvc4 encoded by RSV are responsible for the activation of the bZIP17/28 branch. Ectopic expression of NSvc2 or NSvc4 in plant leaves induced the proteolytic processing of NbbZIP17/28 and up‐regulated the expression of UPR‐related genes. Silencing NbbZIP17/28 significantly inhibited RSV infection. We show that RSV can specifically elicit the UPR through the bZIP17/28 branch, thus promoting virus infection of N. benthamiana plants. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
6. Genetic mapping of anthocyanin accumulation-related genes in pepper fruits using a combination of SLAF-seq and BSA.
- Author
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Wang, Guoyun, Chen, Bin, Du, Heshan, Zhang, Fenglan, Zhang, Haiying, Wang, Yaqin, He, Hongju, Geng, Sansheng, and Zhang, Xiaofen
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GENE mapping ,ANTHOCYANINS ,PEPPERS ,EFFECT of stress on plants ,REGULATOR genes - Abstract
Anthocyanins have significant functions in stress tolerance in pepper (Capsicum annuum L.) and also benefit human health. Nevertheless, the key structural genes and regulatory genes involved in anthocyanin accumulation in pepper fruits are still not well understood and fine mapped. For the present study, 383 F
2 plants from a cross between the green-fruited C. annuum line Z5 and the purple-fruited line Z6 was developed. Two separate bulked DNA pools were constructed with DNAs extracted from either 37 plants with high anthocyanin content or from 18 plants with no anthocyanin. A combination of specific-locus amplified fragment sequencing (SLAF-seq) and bulked segregant analysis (BSA) was used to identify candidates for regions associated with anthocyanin accumulation. We identified a total of 127,004 high-quality single nucleotide polymorphism (SNP) markers, and detected 1674 high-quality SNP markers associated with anthocyanin accumulation. Three candidate anthocyanin-associated regions including the intervals from 12.48 to 20.00 Mb, from 54.67 to 56.59 Mb, and from 192.17 to 196.82 Mb were identified within a 14.10-Mb interval on chromosome 10 containing 126 candidate genes. Based on their annotations, we identified 12 candidate genes that are predicted to be associated with anthocyanin expression. The present results provide an efficient strategy for genetic mapping of and valuable insights into the genetic mechanisms of anthocyanin accumulation in pepper fruit, and allow us to clone and functionally analyze the genes that influence anthocyanin accumulation in this species. [ABSTRACT FROM AUTHOR]- Published
- 2018
- Full Text
- View/download PDF
7. NSvc4 Encoded by Rice Stripe Virus Targets Host Chloroplasts to Suppress Chloroplast-Mediated Defense.
- Author
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Li, Zongdi, Li, Chenyang, Fu, Shuai, Liu, Yu, Xu, Yi, Wu, Jianxiang, Wang, Yaqin, and Zhou, Xueping
- Subjects
CHLOROPLASTS ,POTATO virus X ,RICE ,STRIPES ,ENDOPLASMIC reticulum ,NICOTIANA benthamiana - Abstract
Our previous research found that NSvc4, the movement protein of rice stripe virus (RSV), could localize to the actin filaments, endoplasmic reticulum, plasmodesmata, and chloroplast, but the roles of NSvc4 played in the chloroplast were opaque. Here, we confirm the accumulation of NSvc4 in the chloroplasts and the N-terminal 1–73 amino acids of NSvc4 are sufficient to localize to chloroplasts. We provide evidence to show that chloroplast-localized NSvc4 can impair the chloroplast-mediated immunity. Expressing NSvc4 in Nicotiana benthamiana leaves results in the decreased expression of defense-related genes NbPR1, NbPR2, and NbWRKY12 and the inhibition of chloroplast-derived ROS production. In addition, generation of an infectious clone of potato virus X (PVX) carrying NSvc4 facilitates PVX infection in N. benthamiana plants. Moreover, we identify two chloroplast-related host factors, named NbGAPDH-A and NbPsbQ1, both of which can interact with NSvc4. Knockdown of NbGAPDH-A or NbPsbQ1 can both promote RSV infection. Our results decipher a detailed function of NSvc4 in the chloroplast. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
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