Young Hyun Kang scite author profile

Secreted proteins were investigated in rice suspension-cultured cells treated with rice blast fungus Magnaporthe grisea and its elicitor using biochemical and 2-DE coupled with MS analyses followed by their in planta mRNA expression analysis. M. grisea and elicitor successfully interacted with suspension-cultured cells and prepared secreted proteins from these cultures were essentially intracellular proteins free. Comparative 2-D gel analyses identified 21 differential protein spots due to M. grisea and/or elicitor over control. MALDI-TOF-MS and microLC-ESI-MS/MS analyses of these protein spots revealed that most of assigned proteins were involved in defense such as nine chitinases, two germin A/oxalate oxidases, five domain unknown function 26 (DUF 26) secretory proteins, and beta-expansin. One chitin binding chitinase protein was isolated using chitin binding beads and strong enzymatic activity was identified in an in-gel assay. Interestingly, their protein abundance correlated well at transcript levels in elicitor-treated cultures as judged by semi-quantitative RT-PCR. Each identified differentially expressed protein group was compared at transcript levels in rice leaves inoculated with incompatible (KJ401) and compatible (KJ301) races of M. grisea. Time-course profiling revealed their inductions were stronger and earlier in incompatible than compatible interactions. Identified secreted proteins and their expression correlation at transcript level in suspension-cultured cells and also in planta suggest that suspension-cultured cells can be useful to investigate the secretome of rice blast-pathogen interactions.

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The rice pathogen-related protein 10 (JIOsPR10) is induced by abiotic and biotic stresses and exhibits ribonuclease activity

Kim

Kang

et al. 2007

Plant Cell Rep

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We previously reported that rice blast fungus or jasmonic acid induced the expression of rice pathogenesis-related class 10 (JIOsPR10) proteins (Kim et al. 2003, 2004). However, no further studies have been carried out to examine the expression, localization, and enzymatic activity of this protein in either developmental tissues or in tissues under abiotic stress conditions. In this study, rice JIOsPR10 was examined by Western blot analysis, immunolocalization, and biochemical assays. Western blots revealed that the JIOsPR10 protein was expressed in developmental tissues, including in flower and root. The protein was also expressed under abiotic stresses, such as occurs during senescence and wounding. Using immunohistochemical techniques, we determined that expression of JIOsPR10 was localized to the palea of flower, in the exodermis, and inner part of the endodermis of the root. In senescencing tissues of leaf and coleoptiles, its expression was localized in vascular bundles. The RNase activity using JIOsPR10 recombinant protein was determined and abolished after treatment with DTT in a native in-gel assay. To test this, we created JIOsPR10 mutant proteins containing serine substitutions of amino acids C81S, C83S, or both and examined their RNase activities. The activity of the C83S mutant was decreased in the agarose gel assay compared to the wild type. Taken together, we hypothesize that the JIOsPR10 protein possesses RNase activity that is sensitive to DTT, suggesting the importance of the disulfide bonding between cysteine residues and that it might play a role in constitutive self-defense mechanisms in plants against biotic and abiotic stresses.

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Proteomics Analysis of Rice Lesion Mimic Mutant (spl1) Reveals Tightly Localized Probenazole-Induced Protein (PBZ1) in Cells Undergoing Programmed Cell Death

Kim

Kang

et al. 2008

J. Proteome Res.

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Numerous reports have predicted/hypothesized a role for probenazole-induced protein (PBZ1) as a molecular marker in rice self-defense mechanism. However, the precise function of PBZ1 remains unknown. In the present study, we examined PBZ1 as a putative cell death marker in rice. For this, we focused our attention on a rice lesion mimic mutant (LMM), spotted leaf 1 ( spl1), which has been used to study the programmed cell death (PCD) phenomenon during lesion development in leaf. Using two-dimensional gel electrophoresis (2-DGE), 18 colloidal Coomassie brilliant blue stained protein spots were found to be differentially expressed in the leaves of spl1 mutant. After analysis of these spots by MALDI-TOF-MS, we identified the PBZ1 protein to be highly inducible in spl1. On the basis of these results, we proceeded to verify whether PBZ1 is highly expressed in the tissues undergoing PCD in rice. To do so, we performed immunoblot analysis and immunolocalization and used transgenic lines carrying the PBZ1 promoter fused with GFP. Results demonstrated that the expression levels and localizations of PBZ1 dramatically coincided with tissues undergoing PCD, namely, during leaf senescence, root aerenchyma formation, coleoptiles senescence, root cap, and seed aleurone layer. Furthermore, localization of the PBZ1 protein was also tightly correlated with TUNEL signal in the seed aleurone layer. As DNA fragmentation is a hallmark of PCD, this result clearly indicates a role for PBZ1 in rice tissues undergoing PCD. In conclusion, our results provide strong support for the hypothesis that PBZ1 is a molecular marker in rice defense response, and can serve as a novel potential marker for cell death/PCD in rice.

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The rice pathogen-related protein 10 (JIOsPR10) is induced by abiotic and biotic stresses and exhibits ribonuclease activity

Kim

Kang

et al. 2008

Plant Cell Rep

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Local Optimum Channel Height for Pressure Drop and Heat Transfer in the Herringbone Wavy Channel

Kang

2019

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Young Hyun Kang

Secretome analysis of differentially induced proteins in rice suspension‐cultured cells triggered by rice blast fungus and elicitor

The rice pathogen-related protein 10 (JIOsPR10) is induced by abiotic and biotic stresses and exhibits ribonuclease activity

Proteomics Analysis of Rice Lesion Mimic Mutant (spl1) Reveals Tightly Localized Probenazole-Induced Protein (PBZ1) in Cells Undergoing Programmed Cell Death

The rice pathogen-related protein 10 (JIOsPR10) is induced by abiotic and biotic stresses and exhibits ribonuclease activity

Local Optimum Channel Height for Pressure Drop and Heat Transfer in the Herringbone Wavy Channel

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