Wai Shing Wong scite author profile

Ethylene regulates a variety of stress responses and developmental adaptation in plants. In the present study, the phosphoproteomics is adopted to investigate the differential protein phosphorylation by ethylene in Arabidopsis ethylene-insensitive 2 (ein2) mutant. A total of 224 phosphopeptides were identified, of which 64 phosphopeptides were detected three or more times. Ethylene induces a general reduction in phosphorylated proteins in ein2. Totally, three ethylene-enhanced and three ethylene-repressible unique phosphopeptides were identified, respectively. Classification of the cellular functions of these phosphoproteins revealed that 55.5% of them are related to signaling and gene expression. Peptide sequence alignment reveals two highly conserved phosphorylation motifs, PRVD/GSx and SPDYxx. Alignment of these phosphopeptides with Arabidopsis proteins reveals five phosphorylation motifs. Both ethylene-enhanced and -repressible phosphopeptides present in these motifs. EIL-1, ERF110 transcription factors and Hua enhancer 4 (HEN4) are predicted to contain one of the phosphorylation motifs. The phosphorylation of the motif-containing peptides has been validated by the in vitro kinase assays coupled with MS analysis. The differential regulation of phosphorylation by ethylene is substantiated by Western dot blot analysis. Taken together, these results suggest that ethylene signals may be transduced by a phosphor-relay from receptors to transcriptional events via both ein2-dependent and -independent pathways.

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Study of cis-cinnamic acid in Arabidopsis thaliana

Wong

Guo

Wang

et al. 2005

Plant Physiology and Biochemistry

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Quantitative and Functional Phosphoproteomic Analysis Reveals that Ethylene Regulates Water Transport via the C-Terminal Phosphorylation of Aquaporin PIP2;1 in Arabidopsis

Qing

Yang

et al. 2016

Molecular Plant

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Ethylene participates in the regulation of numerous cellular events and biological processes, including water loss, during leaf and flower petal wilting. The diverse ethylene responses may be regulated via dynamic interplays between protein phosphorylation/dephosphorylation and ubiquitin/26S proteasome-mediated protein degradation and protease cleavage. To address how ethylene alters protein phosphorylation through multi-furcated signaling pathways, we performed a (15)N stable isotope labelling-based, differential, and quantitative phosphoproteomics study on air- and ethylene-treated ethylene-insensitive Arabidopsis double loss-of-function mutant ein3-1/eil1-1. Among 535 non-redundant phosphopeptides identified, two and four phosphopeptides were up- and downregulated by ethylene, respectively. Ethylene-regulated phosphorylation of aquaporin PIP2;1 is positively correlated with the water flux rate and water loss in leaf. Genetic studies in combination with quantitative proteomics, immunoblot analysis, protoplast swelling/shrinking experiments, and leaf water loss assays on the transgenic plants expressing both the wild-type and S280A/S283A-mutated PIP2;1 in the both Col-0 and ein3eil1 genetic backgrounds suggest that ethylene increases water transport rate in Arabidopsis cells by enhancing S280/S283 phosphorylation at the C terminus of PIP2;1. Unknown kinase and/or phosphatase activities may participate in the initial up-regulation independent of the cellular functions of EIN3/EIL1. This finding contributes to our understanding of ethylene-regulated leaf wilting that is commonly observed during post-harvest storage of plant organs.

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Identification of a novel multiple environmental factor‐responsive 1‐aminocyclopropane‐1‐carboxylate synthase gene, NT‐ACS2, from tobacco

Liu²,

Wong

et al. 2000

Plant Cell & Environment

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Many abiotic environmental factors elicit the production of stress‐ethylene in higher plants. To elucidate the molecular mechanisms underlying the regulation of stress‐ethylene production and the physiological roles played by stress‐ethylene in stress responses of plants, we studied the gene expression of ACC synthase in tobacco plants that had been subjected to environmental stresses. Four new tobacco ACC synthase cDNA fragments, NT‐ACS2, NT‐ACS3, NT‐ACS4 and NT‐ACS5, were identified and sequenced. It was found that NT‐ACS2 could be induced by wounding, cold temperature and, especially, sunlight. NT‐ACS4 was induced at a faster kinetics by wounding. The multiple environmental stress‐responsive (MESR) NT‐ACS2 gene was found to contain three introns and four exons and encode a polypeptide of 484 amino acids, 54·6 kDa and pI 6·87. Computer analysis of the 3·4 kb 5′ flanking region upstream of the ACS coding region revealed the existence of a group of putative cis‐acting regulatory elements potentially conferring wounding, chilling, and UV light inducibility. Phylogenetic analysis of ACC synthase genes of different plant origins indicated that the chill‐inducible NT‐ACS2 gene is closely related to a chilling‐inducible citrus ACS gene.

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Cis-cinnamic acid-enhanced 1 gene plays a role in regulation of Arabidopsis bolting

Guo

Wong

et al. 2011

Plant Mol Biol

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Cis-cinnamic acid (CA) is one of many cis-phenylpropanoids found in both monocots and dicots. It is produced in planta via sunlight-mediated isomerization of trans-cinnamic acid. This pair of isomers plays a differential role in regulation of plant growth. A functional proteomics approach has been adopted to identify genes of cis/trans-CA mixture-enhanced expression. Out of 1,241 proteins identified by mass spectrometry, 32 were CA-enhanced and 13 repressed. Further analysis with the molecular biology approach revealed 2 cis-CA (Z usammen-CA)-E nhanced genes, named ZCE1 and ZCE2, which encode members of the major latex protein-like (MLPL) gene family. The transcript accumulation of both genes is positively correlated with the amount of cis-CA applied externally, ranging from 1 to 100 μM. ZCE1 transcript accumulation is enhanced largely by cis-CA and slightly by other cis-phenylpropanoids. Treatment of several well-characterized plant growth regulator perception-deficient mutants with cis-CA is able to promote ZCE1 transcript accumulation, suggestive of distinct signaling pathways regulating cis-CA response. The zce1 loss-of-function mutant produced via the RNA-interference technique produces an earlier bolting phenotype in Arabidopsis, suggesting that ZCE1 plays a role in promoting vegetative growth and delay flowering.

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Repression of chilling-induced ACC accumulation in transgenic citrus by over-production of antisense 1-aminocyclopropane-1-carboxylate synthase RNA

Wong

Ning

et al. 2001

Plant Science

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Application of 3‘ Untranslated Region (UTR) Sequence-Based Amplified Polymorphism Analysis in the Rapid Authentication of Radix astragali

Wang

Wong

et al. 2005

J. Agric. Food Chem.

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Radix astragali (root of Astragalus membranaceus) is an important traditional Chinese medicine. It has been used as a tonic herb for thousands of years in China. The water extract of the roots has a wide range of immunopotentiating effects and has been proven to be efficacious as an adjunct cancer therapy. Authentication of the herbal plant is routinely required for general practice in the field of herbal medicine. To facilitate rapid identification of numerous varieties of Radix astragali that are circulating on the herb markets, a rapid molecular genetic method, named 3' untranslated region (3' UTR) sequence-based amplified polymorphism (UAP), has been developed. A cDNA library was first built from transcripts of an authentic A. membranaceus species. Several cDNA clones specific to A. membranaceus were identified through subtractive hybridization of the A. membranaceus cDNA library with Arabidopsis total cellular RNA. On the basis of these cDNA sequences of the 3' untranslated region (3' UTR) of selected cDNA clones, a Polymerase Chain Reaction (PCR) was performed on genomic DNAs of the dry roots of several putative A. membranaceus. PCR fragment length polymorphism was found between A. membranaceus and its relatives. By using this method, it was possible to differentiate the authentic A. membranaceus root from those putative ones obtained from herbal medicine markets. To the authors' knowledge, this is the first paper applying UAP in the authentication of traditional Chinese medicine plants.

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A Labor-saving and Repeatable Touch-force Signaling Mutant Screen Protocol for the Study of Thigmomorphogenesis of a Model Plant <em>Arabidopsis thaliana</em>

Wang

Law

Leung

et al. 2019

JoVE

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Wai Shing Wong

Phosphoproteomic analysis of ethylene‐regulated protein phosphorylation in etiolated seedlings of Arabidopsis mutant ein2 using two‐dimensional separations coupled with a hybrid quadrupole time‐of‐flight mass spectrometer

Study of cis-cinnamic acid in Arabidopsis thaliana

Quantitative and Functional Phosphoproteomic Analysis Reveals that Ethylene Regulates Water Transport via the C-Terminal Phosphorylation of Aquaporin PIP2;1 in Arabidopsis

Identification of a novel multiple environmental factor‐responsive 1‐aminocyclopropane‐1‐carboxylate synthase gene, NT‐ACS2, from tobacco

Cis-cinnamic acid-enhanced 1 gene plays a role in regulation of Arabidopsis bolting

Repression of chilling-induced ACC accumulation in transgenic citrus by over-production of antisense 1-aminocyclopropane-1-carboxylate synthase RNA

Application of 3‘ Untranslated Region (UTR) Sequence-Based Amplified Polymorphism Analysis in the Rapid Authentication of Radix astragali

A Labor-saving and Repeatable Touch-force Signaling Mutant Screen Protocol for the Study of Thigmomorphogenesis of a Model Plant <em>Arabidopsis thaliana</em>

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