Lujia Yu scite author profile

Lujia Yu

4Publications

53Citation Statements Received

434Citation Statements Given

How they've been cited

How they cite others

275

415

Affiliations

State Grid Corporation of China (China), Beijing University of Agriculture, Hong Kong University of Science and Technology

Publications

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Development of in Planta Chemical Cross-Linking-Based Quantitative Interactomics inArabidopsis

Liu

et al. 2018

J. Proteome Res.

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An in planta chemical cross-linking-based quantitative interactomics (IPQCX-MS) workflow has been developed to investigate in vivo protein-protein interactions and alteration in protein structures in a model organism, Arabidopsis thaliana. A chemical cross-linker, azide-tag-modified disuccinimidyl pimelate (AMDSP), was directly applied onto Arabidopsis tissues. Peptides produced from protein fractions of CsCl density gradient centrifugation were dimethyl-labeled, from which the AMDSP cross-linked peptides were fractionated on chromatography, enriched, and analyzed by mass spectrometry. ECL2 and SQUA-D software were used to identify and quantitate these cross-linked peptides, respectively. These computer programs integrate peptide identification with quantitation and statistical evaluation. This workflow eventually identified 354 unique cross-linked peptides, including 61 and 293 inter- and intraprotein cross-linked peptides, respectively, demonstrating that it is able to in vivo identify hundreds of cross-linked peptides at an organismal level by overcoming the difficulties caused by multiple cellular structures and complex secondary metabolites of plants. Coimmunoprecipitation and super-resolution microscopy studies have confirmed the PHB3-PHB6 protein interaction found by IPQCX-MS. The quantitative interactomics also found hormone-induced structural changes of SBPase and other proteins. This mass-spectrometry-based interactomics will be useful in the study of in vivo protein-protein interaction networks in agricultural crops and plant-microbe interactions.

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Transcriptome Analysis Identifies Two Ethylene Response Factors That Regulate Proanthocyanidin Biosynthesis During Malus Crabapple Fruit Development

Han

et al. 2020

Front. Plant Sci.

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Proanthocyanidins (PAs) are a class of flavonoid compounds in plants that play many important roles in pest and disease resistance and are beneficial components of the human diet. The crabapple (Malus) provides an excellent model to study PA biosynthesis and metabolism; therefore, to gain insights into the PA regulatory network in Malus plants, we performed RNA-seq profiling of fruits of the 'Flame' cultivar at five sequential developmental stages. KEGG (Kyoto Encyclopedia of Genes and Genomes) enrichment analysis showed that differentially expressed genes (DEGs) related to the functional category 'plant hormone signal transduction' were significantly enriched during fruit development. Further analysis showed that ethylene signal transduction pathway genes or response genes, such as ERS (ethylene response sensor), EIN3 (ETHYLENE INSENSITIVE 3) and ERFs (ethylene response factors), may play an important role in the regulatory network of PA biosynthesis. Additionally, 12 DEGs, including 10 ERFs, 1 MYB, and 1 bHLH transcription factor, associated with PA biosynthesis were identified using WGCNA. The expression patterns of these genes correlated with PA accumulation trends and transcriptome data from qRT-PCR analysis. The expression of RAP2-4 (RELATED TO APETALA 2-4) and RAV1 (related to ABI3/VP1), which belong to the ERF transcription factor family, showed the greatest correlations with PAs accumulation among the 12 identified TFs. Agrobacterium mediated-transient overexpression of the RAP2-4 led to an increase in PA abundance in crabapple leaves and apple fruits, and the opposite results were observed in RAV1-overexpressed crabapple leaves and apple fruits. Moreover, a yeast one-hybrid assay showed that RAP2-4 and RAV1 specifically bound the promoters of the PA biosynthetic genes McLAR1 and McANR2, respectively. These results indicate that RAP2-4 act as an inducer and RAV1 act as a repressor of PA biosynthesis by regulating the expression of the PA biosynthetic genes McLAR1 and McANR2. Taken together, we identified two potential regulators of PA biosynthesis and provide new insights into the ethylene-PA regulatory network.

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ROS1 promotes low temperature-induced anthocyanin accumulation in apple by demethylating the promoter of anthocyanin-associated genes

Sun

Zhang

et al. 2022

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Low temperature can affect the growth and development of plants through changes in DNA demethylation patterns. Another known effect of low temperature is the accumulation of anthocyanin pigments. However, it is not known whether the two phenomena are linked, specifically, whether DNA demethylation participates in anthocyanin accumulation in response to low-temperature stress. The ROS1 gene is involved in plant DNA demethylation and influences methylation levels in response to low temperature stress. In this study, using RNA sequencing, we detected that the transcription levels of MdROS1 correlate with the anthocyanin content, as well as with those of anthocyanin biosynthesis-related genes in apple (Malus domestica), at low temperatures. Genomic bisulfite sequencing showed that the methylation levels of the promoters of the anthocyanin related genes MdCHS, MdCHI, MdF3’H, MdANS, MdUFGT, and MdMYB10 decreased in apple leaves after low-temperature treatment. Similar expression and methylation results were also found in apple fruit. Transiently silencing MdROS1 in the leaves and fruit of apple cultivars inhibited the accumulation of anthocyanins and led to decreased expression of anthocyanin biosynthetic genes, and the opposite results were detected in MdROS1-overexpressing leaves and fruit. A promoter binding assay showed that the conserved RRD-DME domains of MdROS1 directly bind to the promoters of MdF3’H and MdUFGT. Taken together, these results suggest that ROS1 affects the anthocyanin biosynthetic pathway by decreasing the methylation level of anthocyanin-related gene promoters, thereby increasing their expression and increasing anthocyanin accumulation.

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Source Discrimination of Mine Water Inrush Using Multiple Combinations of an Improved Support Vector Machine Model

Wei

Dong

et al. 2022

Mine Water Environ

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Lujia Yu

Development of in Planta Chemical Cross-Linking-Based Quantitative Interactomics inArabidopsis

Transcriptome Analysis Identifies Two Ethylene Response Factors That Regulate Proanthocyanidin Biosynthesis During Malus Crabapple Fruit Development

ROS1 promotes low temperature-induced anthocyanin accumulation in apple by demethylating the promoter of anthocyanin-associated genes

Source Discrimination of Mine Water Inrush Using Multiple Combinations of an Improved Support Vector Machine Model

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