Bingze Chai scite author profile

Bingze Chai

4Publications

7Citation Statements Received

221Citation Statements Given

How they've been cited

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236

221

Affiliations

China National Rice Research Institute

Publications

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LMPA Regulates Lesion Mimic Leaf and Panicle Development Through ROS-Induced PCD in Rice

Tan

Wen

et al. 2022

Front. Plant Sci.

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Leaf and panicle are important nutrient and yield organs in rice, respectively. Although several genes controlling lesion mimic leaf and panicle abortion have been identified, a few studies have reported the involvement of a single gene in the production of both the traits. In this study, we characterized a panicle abortion mutant, lesion mimic leaf and panicle apical abortion (lmpa), which exhibits lesions on the leaf and causes degeneration of apical spikelets. Molecular cloning revealed that LMPA encodes a proton pump ATPase protein that is localized in the plasma membrane and is highly expressed in leaves and panicles. The analysis of promoter activity showed that the insertion of a fragment in the promoter of lmpa caused a decrease in the transcription level. Cellular and histochemistry analysis indicated that the ROS accumulated and cell death occurred in lmpa. Moreover, physiological experiments revealed that lmpa was more sensitive to high temperatures and salt stress conditions. These results provide a better understanding of the role of LMPA in panicle development and lesion mimic formation by regulating ROS homeostasis.

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Identification and Characterization of Short Crown Root 8, a Temperature-Sensitive Mutant Associated with Crown Root Development in Rice

Wen

Wang

et al. 2021

IJMS

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Crown roots are essential for plants to obtain water and nutrients, perceive environmental changes, and synthesize plant hormones. In this study, we identified and characterized short crown root 8 (scr8), which exhibited a defective phenotype of crown root and vegetative development. Temperature treatment showed that scr8 was sensitive to temperature and that the mutant phenotypes were rescued when grown under low temperature condition (20 °C). Histological and EdU staining analysis showed that the crown root formation was hampered and that the root meristem activity was decreased in scr8. With map-based cloning strategy, the SCR8 gene was fine-mapped to an interval of 126.4 kb on chromosome 8. Sequencing analysis revealed that the sequence variations were only found in LOC_Os08g14850, which encodes a CC-NBS-LRR protein. Expression and inoculation test analysis showed that the expression level of LOC_Os08g14850 was significantly decreased under low temperature (20 °C) and that the resistance to Xanthomonas oryzae pv. Oryzae (Xoo) was enhanced in scr8. These results indicated that LOC_Os08g14850 may be the candidate of SCR8 and that its mutation activated the plant defense response, resulting in a crown root growth defect.

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NLG1, a novel mitochondrial membrane protein, control leaf and grain development in rice

Wen

Chai

et al. 2023

Preprint

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Background Mitochondrion is the key respiratory organ and participates in various anabolic and catabolic metabolic pathways in eukaryote. However, the underlying mechanism of how mitochondrial membrane proteins regulate leaf and grain development remains to be further elucidated. Results Here, a mitochondria-defective mutant narrow leaf and slender grain 1 (nlg1) was identified from an EMS-treated mutant population, which exhibits narrow leaves and slender grains. Map-based cloning and transgenic functional confirmation revealed that NLG1encodes a mitochondrial import inner membrane translocase containing a subunit Tim21 domain. NLG1 was identified as a mitochondria-localized translocase protein, which is mainly transcribed in leaves and panicles. Further analysis showed that the expression level of respiratory function and auxin response related genes were significantly down-regulated, resulting in ATP production and auxin content declined remarkably in nlg1. Moreover, nlg1 also exhibited abnormal mitochondria structure and was sensitive to the inhibitors of mitochondrial electron transport chain. Conclusions These results suggested that NLG1 plays an important role in the regulation of leaf and grain size development by maintaining mitochondrial homeostasis. Our finding provides a novel insight for exploring the relationship between mitochondria development and plant growth in rice.

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Disruption of LEAF LESION MIMIC 4 affects ABA synthesis and ROS accumulation in rice

Dai

Rao

et al. 2023

The Crop Journal

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Bingze Chai

LMPA Regulates Lesion Mimic Leaf and Panicle Development Through ROS-Induced PCD in Rice

Identification and Characterization of Short Crown Root 8, a Temperature-Sensitive Mutant Associated with Crown Root Development in Rice

NLG1, a novel mitochondrial membrane protein, control leaf and grain development in rice

Disruption of LEAF LESION MIMIC 4 affects ABA synthesis and ROS accumulation in rice

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