Your search keyword '"Sun, Bingjian"' showing total 8 results

1. A papain-like cysteine protease-released small signal peptide confers wheat resistance to wheat yellow mosaic virus.

Author

Liu, Peng, Shi, Chaonan, Liu, Shuang, Lei, Jiajia, Lu, Qisen, Hu, Haichao, Ren, Yan, Zhang, Ning, Sun, Congwei, Chen, Lu, Jiang, Yaoyao, Feng, Lixiao, Zhang, Tianye, Zhong, Kaili, Liu, Jiaqian, Zhang, Juan, Zhang, Zhuo, Sun, Bingjian, Chen, Jianping, and Tang, Yimiao

Abstract

Wheat yellow mosaic virus (WYMV), a soil-borne pathogen, poses a serious threat to global wheat production. Here, we identify a WYMV resistance gene, TaRD21A, that belongs to the papain-like cysteine protease family. Through genetic manipulation of TaRD21A expression, we establish its positive role in the regulation of wheat to WYMV resistance. Furthermore, our investigation shows that the TaRD21A-mediated plant antiviral response relies on the release of a small peptide catalyzed by TaRD21A protease activity. To counteract wheat resistance, WYMV-encoded nuclear inclusion protease-a (NIa) suppress TaRD21A activity to promote virus infection. In resistant cultivars, a natural variant of TaRD21A features a alanine to serine substitution and this substitution enables the phosphorylation of Serine, thereby weakening the interaction between NIa and TaRD21A, reinforcing wheat resistance against WYMV. Our study not only unveils a WYMV resistance gene but also offers insights into the intricate mechanisms underpinning resistance against WYMV.Soil-borne wheat yellow mosaic virus (WYMV) poses a serious threat to global wheat production. Here, the authors report that the nuclear inclusion protease-a produced by WYMV interacts with a small peptide catalyzed by TaRD21A protease activity to mediate WYMV resistance through activating MAPK signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2023

2. Resistance of QYm.nau-2D to wheat yellow mosaic virus was derived from an alien introgression into common wheat.

Author

Chen, Yiming, Ji, Jialun, Kong, Dehui, Tang, Xiong, Wen, Mingxing, Wang, Guoqing, Dai, Keli, Shi, Peiyao, Zhang, Xu, Zhang, Huajian, Jiao, Chengzhi, Wang, Zongkuan, Sun, Li, Yuan, Chunxia, Wang, Haiyan, Zhang, Xueyong, Sun, Bingjian, Fei, Xinru, Guo, Hong, and Xiao, Jin

Abstract

Key message: The QYm.nau-2D locus conferring wheat yellow mosaic virus resistance is an exotic introgression and we developed 11 diagnostic markers tightly linked to QYm.nau-2D. Wheat yellow mosaic virus (WYMV) is a serious disease of winter wheat in China. Breeding resistant varieties is the most effective strategy for WYMV control. A WYMV resistant locus QYm.nau-2D on the chromosome arm 2DL has been repeatedly reported but the mapped region is large. In the present study, we screened recombinants using a biparental population and mapped QYm.nau-2D into an 18.8 Mb physical interval. By genome-wide association studies of 372 wheat varieties for WYMV resistance in four environments, we narrowed down QYm.nau-2D into a 16.4 Mb interval. Haplotype analysis indicated QYm.nau-2D were present as six different states due to recombination during hybridization breeding. QYm.nau-2D was finally mapped into a linkage block of 11.2 Mb. Chromosome painting using 2D specific probes and collinearity analysis among the published sequences corresponding to QYm.nau-2D region indicated the block was an exotic introgression. The Illumina-sequenced reads of four diploid Aegilops species were mapped to the sequence of Fielder, a variety having the introgression. The mapping reads were significantly increased at the putative introgression regions of Fielder. Ae. uniaristata (NN) had the highest mapping reads, suggesting that QYm.nau-2D was possibly an introgression from genome N. We investigated the agronomic performances of different haplotypes and observed no linkage drag of the alien introgression for the 15 tested traits. For marker-assisted selection of QYm.nau-2D, we developed 11 diagnostic markers tightly linked to the locus. This research provided a case study of an exotic introgression, which has been utilized in wheat improvement for WYMV resistance. [ABSTRACT FROM AUTHOR]

Published

2023

3. Identification and Characterization of the Homeobox Gene Family in Fusarium pseudograminearum Reveal Their Roles in Pathogenicity.

Author

Ma, Yuming, Zhao, Jingya, Chen, Wenbo, Geng, Xuejing, He, Tianli, Ding, Shengli, Sun, Bingjian, Li, Honglian, and Chen, Linlin

Subjects

HOMEOBOX genes, GENE families, FUSARIUM, FUNGAL virulence, PHYTOPATHOGENIC microorganisms

Abstract

Homeobox transcription factors have been implicated in filamentous growth, conidia formation and virulence in fungal pathogens. However, the presence of the homeobox gene family and their potential influence on pathogenesis in Fusarium pseudograminearum have not been investigated. F. pseudograminearum is an important plant pathogen that causes wheat and barley crown rot. In this study, we performed a genome-wide survey for F. pseudograminearum homeobox genes, and 11 FpHtfs were identified and characterized. Domain analyses revealed that all of these proteins contain a complete homeobox domain that contains three helices. Expression profiles of FpHtf genes at different pathogen stages showed that six FpHtf genes were induced during infection. Further, we generated and characterized FpHtf3 deletion mutants in F. pseudograminearum, showing it was essential for virulence. These results indicated that members of the homeobox gene family are likely involved in F. pseudograminearum pathogenicity. Our work also provides a useful foundation for further studies on the complexity and function of the homeobox gene family in F. pseudograminearum. [ABSTRACT FROM AUTHOR]

Published

2022

4. Synthesis of various morphologies of Sb2S3 based on amorphous-crystalline transition with related photodegradation.

Author

Xu, Qingfeng, Zheng, Chaofan, Wang, Ziyao, Zhang, Ziyang, Su, Xing, Sun, Bingjian, Nie, Guangjun, and Yue, Wenjin

Subjects

MALACHITE green, HYDROXYL group, CYCLIC voltammetry, FLUORESCENCE spectroscopy, RADICAL anions, SMALL molecules, PHOTODEGRADATION, PHOTOELECTROCHEMISTRY

Abstract

In this paper, two morphologies of crystalline Sb2S3 as dumbbell-like Sb2S3 and bundle-like Sb2S3 were synthesized by different phase-transformation of amorphous-to-crystalline, respectively. Different factors such as the variation of the solvent ratio, the surfactant, reaction temperature and reaction time were observed to obtain the key factor influencing the morphology. The bandgap of two Sb2S3 was obtained by diffused reflectance spectra and cyclic voltammetry. The charge separation was characterized by fluorescence spectrum, linear sweep voltammetry, transient photocurrent-time curve and electrochemical impedance spectrum. The results showed that bundle-like Sb2S3 had slightly higher light-harvesting and obvious higher charge separation ability, which was beneficial to the photodegradation of malachite green (MG). The photodegrdation path of MG implied the intermediates generated by bundle-like Sb2S3 were more easily decomposed to the small molecules. Bundle-like Sb2S3 displayed excellent reusability in the photodegradation of MG. Superoxide anion radical (·O2−) and hydroxyl radical (·OH) as the active species contributed to the photodegradation reaction. [ABSTRACT FROM AUTHOR]

Published

2022

5. Molecular characterization of a novel wheat-infecting virus of the family Betaflexiviridae.

Author

Fu, Shuai, Zhang, Tianze, He, Mengzhu, Sun, Bingjian, Zhou, Xueping, and Wu, Jianxiang

Subjects

VIRAL proteins, TRANSMISSION electron microscopy, VIRUS-like particles, MIXED infections, VIRUSES

Abstract

Wheat plants showing yellowing and mosaic in leaves and stunting were collected from wheat fields in Henan Province, China. Analysis of these plants by transmission electron microscopy showed that they contained two types of filamentous virus-like particles with a length of 200-500 nm and 1000-1300 nm, respectively. RNA-seq revealed a coinfection with wheat yellow mosaic virus (WYMV) and an unknown wheat-infecting virus. The genome of the unknown virus is 8,410 nucleotides long, excluding its 3' poly(A) tail. It has six open reading frames (ORFs). ORF1 encodes a putative viral replication-associated protein (Rep), and ORFs 2, 3, and 4 encode the triple gene block (TGB) proteins. ORFs 5 and 6 encode the capsid protein (CP) and a protein with unknown function, respectively. Phylogenetic analysis showed that this novel virus is evolutionarily related to members of the subfamily Quinvirinae, family Betaflexiviridae. It is, however, distinct from the viruses in the currently established genera. Based on the species and genus demarcation criteria set by the International Committee on Taxonomy of Viruses (ICTV), we tentatively name this novel virus "wheat yellow stunt-associated betaflexivirus" (WYSaBV), and we propose it to be a member of a new genus in the family Betaflexiviridae. [ABSTRACT FROM AUTHOR]

Published

2021

6. Identification and functional analyses of host factors interacting with the 17-kDa protein of Barley yellow dwarf virus-GAV.

Author

Chen, Siyu, Han, Xiaoyu, Yang, Lingling, Li, Qinglun, Shi, Yajuan, Li, Honglian, Chen, Linlin, Sun, Bingjian, Shi, Yan, and Yang, Xue

Subjects

BARLEY yellow dwarf disease, BARLEY yellow dwarf viruses, MICROBIAL virulence, VIRUS diseases, GLUCONEOGENESIS

Abstract

Barley yellow dwarf viruses (BYDVs) cause significant economic losses on barley, wheat, and oats worldwide. 17-kDa protein (17K) of BYDVs plays a key role in viral infection in plants, whereas the underlying regulation mechanism of 17K in virus infection remains elusive. In this study, we determined that 17K of BYDV-GAV, the most common species found in China in recent years, was involved in viral pathogenicity. To identify the host factors interacting with 17K, the full length coding sequence of 17K was cloned into pGBKT7 to generate the bait plasmid pGBKT7-17K. 114 positive clones were identified as possible host factors to interact with 17K through screening a tobacco cDNA library. Gene ontology enrichment analysis showed that they were classified into 35 functional groups, involving three main categories including biological processes (BP), cellular components (CC), and molecular functions (MF). Kyoto Encyclopedia of Genes and Genome (KEGG) analysis indicated the acquired genes were assigned to 49 KEGG pathways. The majority of these genes were involved in glyoxylate and dicarboxylate metabolism, carbon fixation in photosynthetic organisms, and glycolysis/gluconeogenesis. The interactions between 17K and the 27 proteins with well-documented annotations were verified by conducting yeast two-hybrid assays and 12 of the 27 proteins were verified to interact with 17K. To explore the putative function of the 12 proteins in BYDV-GAV infection, the subcellular localization and expression alterations in the presence of BYDV-GAV were monitored. The results showed that, under the condition of BYDV-GAV infection, RuBisCo, POR, and PPD5 were significantly up-regulated, whereas AEP and CAT1 were significantly down-regulated. Our findings provide insights into the 17K-mediated BYDV-GAV infection process. [ABSTRACT FROM AUTHOR]

Published

2021

7. A new multiplex polymerase chain reaction assay for simultaneous detection of five soil-borne fungal pathogens in winter wheat.

Author

Sun, Bingjian, Chen, Qingqing, He, Xiaolun, Shi, Yan, Ding, Shengli, and Li, Honglian

Subjects

*WINTER wheat, *RHIZOCTONIA diseases, *POLYMERASE chain reaction

Abstract

Wheat (Triticum spp.) is often coinfected by several soil-borne fungal pathogens, causing serious crop yield and economic losses. Rapid diagnosis of infected fungi is critical for the application of disease control mechanisms. Therefore, we established a multiplex PCR method using specific primers for the simultaneous detection of five common soil-borne fungal pathogens affecting wheat: Rhizoctonia cerealis, Bipolaris sorokiniana, Gaeumannomyces graminis var. tritici, Fusarium pseudograminearum and F. graminearum. The specific primers were designed based on the sequences of several unique genes: ITS (internal transcribed spacer) of R. cerealis, URP-1F (universal rice primer) of B. sorokiniana, β-tubulin of G. graminis var. tritici and TEF1-α (translation elongation factor) of F. pseudograminearum and F. graminearum. During optimization, sensitivity assays showed that the detection limit of multiplex PCR was as low as 0.39 ng of mycelium DNA from a known pool of fungal DNA. To detect pathogens in wheat field, the multiplex PCR method was applied to infected wheat samples collected from wheat fields in the Fengqiu and Taikang counties in Henan Province, China. The R. cerealis and F. graminearum pathogens were identified in samples from Fengqiu, while the R. cerealis, G. graminis var. tritici, B. sorokiniana and F. graminearum pathogens were identified in samples from Taikang. In conclusion, the results indicated that our multiplex PCR method was efficient and specific for the detection of soil-borne pathogens. [ABSTRACT FROM AUTHOR]

Published

2018

8. Two proteins of Cucurbit chlorotic yellows virus, P59 and P9, are self-interacting.

Author

Wang, Zhenyue, Wang, Yingzhi, Sun, Hu, Gu, Qinsheng, Li, Honglian, Sun, Bingjian, Shi, Yajuan, and Shi, Yan

Abstract

The yeast two-hybrid (Y2H) assay, a powerful tool for identifying protein-protein interactions, has been widely used to study viral protein interactions and to elucidate the functions of viral proteins. In this study, Cucurbit chlorotic yellows virus-encoded proteins were investigated by Y2H assays in all possible pairwise combinations, and the self-interactions of P59 and P9 were detected. The interacting domains of P59 and P9 were identified using vectors carrying an activation domain fused to a truncated version of P59 or P9. We found that the middle region (amino acids 173-344) of P59 was necessary for this self-interaction, while three different truncated versions of P9 showed no interaction with full-length P9. This is the first report of the self-interaction of P59 in the genus Crinivirus. [ABSTRACT FROM AUTHOR]

Published

2015