Publications by authors named "Dingliang Zhang"
Reactive oxygen species (ROS) are among the most important signaling molecules, playing a significant role in plant growth, development, and responses to various environmental stresses. Respiratory burst oxidase homologs (RBOHs) are key enzymes in ROS production. Plants tightly regulate the activation and deactivation of RBOHs through various post-translational modifications (PTMs), including phosphorylation, ubiquitination, S-nitrosylation, and persulfidation.
View Article and Find Full Text PDFRNA silencing plays a crucial role in defending against viral infections in diverse eukaryotic hosts. Despite extensive studies on core components of the antiviral RNAi pathway such as DCLs, AGOs and RDRs proteins, host factors involved in antiviral RNAi remain incompletely understood. In this study, we employed the proximity labelling approach to identify the host factors required for antiviral RNAi in Nicotiana benthamiana.
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- SGT1 is a key protein in both plants and animals, crucial for their growth, development, and immune responses, acting as a co-chaperone to stabilize immune receptor complexes.
- This study utilized advanced labeling techniques in the plant Nicotiana benthamiana to investigate the interactions of SGT1, revealing a significant shift from proteins related to growth to those involved in immunity during activation.
- The findings highlight how SGT1 interacts with NSL1, a negative regulator of an immune response, and facilitates its degradation to enhance plant immunity, uncovering a new signaling pathway in plant defense mechanisms.
Plant virus-derived vectors are rapid and cost-effective for protein expression and gene functional studies in plants, particularly for species that are difficult to genetically transform. However, few efficient viral vectors are available for functional studies in Asteraceae plants. Here, we identified a potyvirus named zinnia mild mottle virus (ZiMMV) from common zinnia (Zinnia elegans Jacq.
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- NLR receptors help plants fight off diseases by quickly producing substances called reactive oxygen species (ROS) and changing how genes work.
- The protein AL7 interacts with NLR receptors and acts as a repressor, meaning it can slow down some gene activity to help the plant defend itself.
- By working with other proteins, AL7 helps regulate these defenses and controls the amount of ROS, which is important for the plant's immune response.
Mitogen-activated protein kinase (MAPK) cascades play an important role in innate immunity against various pathogens in plants and animals. However, we know very little about the importance of MAPK cascades in plant defense against viral pathogens. Here, we used a positive-strand RNA necrovirus, beet black scorch virus (BBSV), as a model to investigate the relationship between MAPK signaling and virus infection.
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- Posttranslational modifications (PTMs) influence the interaction between Barley stripe mosaic virus (BSMV) and its host, particularly highlighting the role of S-adenosylmethionine decarboxylase 3 (SAMDC3) in this process.
- BSMV infection increases SAMDC3 levels, which destabilizes the viral γb protein and reduces the virus's ability to infect, while knocking out SAMDC3 makes plants more susceptible to the virus.
- The study reveals that SAMDC3 promotes the degradation of γb via ubiquitination, specifically at nonlysine residues, illustrating how plants use the ubiquitin-proteasome system to defend against viral attacks.
Genome editing provides novel strategies for improving plant traits but mostly relies on conventional plant genetic transformation and regeneration procedures, which can be inefficient. In this study, we have engineered a Barley stripe mosaic virus-based sgRNA delivery vector (BSMV-sg) that is effective in performing heritable genome editing in Cas9-transgenic wheat plants. Mutated progenies were present in the next generation at frequencies ranging from 12.
View Article and Find Full Text PDFProtein-protein interaction (PPI) networks are key to nearly all aspects of cellular activity. Therefore, the identification of PPIs is important for understanding a specific biological process in an organism. Compared with conventional methods for probing PPIs, the recently described proximity labeling (PL) approach combined with mass spectrometry (MS)-based quantitative proteomics has emerged as a powerful approach for characterizing PPIs.
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