Normal root elongation requires arginine produced by argininosuccinate lyase in rice

Xia, Jixing; Yamaji, Naoki; Che, Jianfei; Shen, Ren Fang; Feng, Jian

doi:10.1111/tpj.12476

Cited by 31 publications

(25 citation statements)

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“…In addition, the ASL gene ( Achn041381 ) was highly expressed in mature fruit and postharvest stage (Table S10). In rice, normal root elongation requires arginine produced by OsASS and OsASL (Xia et al, 2014). Aspartate transaminase (AspAT) is an important enzyme in amino acid metabolism which catalyzes the interconversion of aspartate and α-ketoglutarate to oxaloacetate and glutamate (Brauc et al, 2011).…”

Section: Resultsmentioning

confidence: 99%

Comprehensive Transcriptome Profiling Reveals Long Noncoding RNA Expression and Alternative Splicing Regulation during Fruit Development and Ripening in Kiwifruit (Actinidia chinensis)

et al. 2016

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Genomic and transcriptomic data on kiwifruit (Actinidia chinensis) in public databases are very limited despite its nutritional and economic value. Previously, we have constructed and sequenced nine fruit RNA-Seq libraries of A. chinensis “Hongyang” at immature, mature, and postharvest ripening stages of fruit development, and generated over 66.2 million paired-end and 24.4 million single-end reads. From this dataset, here we have identified 7051 long noncoding RNAs (lncRNAs), 29,327 alternative splicing (AS) events and 2980 novel protein-coding genes that were not annotated in the draft genome of “Hongyang.” AS events were demonstrated in genes involved in the synthesis of nutritional metabolites in fruit, such as ascorbic acids, carotenoids, anthocyanins, and chlorophylls, and also in genes in the ethylene signaling pathway, which plays an indispensable role in fruit ripening. Additionally, transcriptome profiles and the contents of sugars, organic and main amino acids were compared between immature, mature, and postharvest ripening stages in kiwifruits. A total of 5931 differentially expressed genes were identified, including those associated with the metabolism of sugar, organic acid, and main amino acids. The data generated in this study provide a foundation for further studies of fruit development and ripening in kiwifruit, and identify candidate genes and regulatory elements that could serve as targets for improving important agronomic traits through marker assisted breeding and biotechnology.

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Section: Resultsmentioning

confidence: 99%

Comprehensive Transcriptome Profiling Reveals Long Noncoding RNA Expression and Alternative Splicing Regulation during Fruit Development and Ripening in Kiwifruit (Actinidia chinensis)

et al. 2016

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“…Recently, we isolated a mutant with short root. 3 Genetic and molecular analysis showed that the gene (OsASL1) responsible for the short root encodes argininosuccinate lyase cleaving argininosuccinate to arginine and fumarate reversibly at the last enzymatic reaction of arginine (Arg) biosynthesis. These findings indicate that Arg is essential for normal root growth in rice.…”

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confidence: 99%

“…3 OsASL1 gene has 2 distinct transcripts produced from different transcription start sites of OsASL1, OsASL1.1 and OsASL1.2, respectively. However, yeast assay revealed that only OsASL1.1 has an argininosuccinate lyase activity, 3 indicating that the N-terminal region of OsASL1 is important for the enzyme activity or substrate specificity. The OsASL1.1 transcript was detected in both the roots and shoots at the vegetative stage.…”

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confidence: 99%

An appropriate concentration of arginine is required for normal root growth in rice

Xia

Yamaji²,

eng³

2014

Plant Signaling & Behavior

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Plant roots play an important role in uptake of water and nutrients, support of above-ground part and environmental sensing, but the molecular mechanisms underlying the root development are poorly understood in rice. We found that a gene (OsASL1) encoding argininosuccinate lyase is involved in normal root development of rice. OsASL1 cleaves argininosuccinate to arginine and fumarate reversibly, the last step in the arginine biosynthetic pathway. Here, we further characterized OsASL1 in terms of expression pattern, subcellular localization, and arginine effect on the root growth. A detailed expression analysis revealed that 2 transcripts of OsASL1, OsASL1.1 and OsASL1.2, showed different expression patterns; OsASL1.1 was expressed in most organs throughout the whole growth period, whereas OsASL1.2 was mainly expressed in the roots. In contrast to plastid-localized OsASL1.1, OsASL1.2 was localized to the cytosol and nucleus. The short-root phenotype of the mutant was not rescued by exogenous addition of the sodium nitroprusside, a nitric oxide donor, but rescued by an appropriate concentration of Arg. Our results indicate that the subcellular localization was determined by the N terminus of OsASL1 and that appropriate concentration of Arg is required for normal root elongation in rice.

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“…A number of genes involved in root development in rice have been identified by different approaches. These genes are involved in various biological processes controlling the development of primary root (Zhuang et al, 2006;Qi et al, 2012;Qin et al, 2013;Xia et al, 2014), crown root (Wang et al, 2011;Woo et al, 2007;Inukai et al, 2005), lateral root (Nakamura et al, 2006;Zhu et al, 2012;Kitomi et al, 2012), and root hair (Yuo et al, 2009;Kim et al, 2007;Won et al, 2010).…”

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A Cation-Chloride Cotransporter Gene Is Required for Cell Elongation and Osmoregulation in Rice

et al. 2016

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Normal root elongation requires arginine produced by argininosuccinate lyase in rice

Cited by 31 publications

References 35 publications

Comprehensive Transcriptome Profiling Reveals Long Noncoding RNA Expression and Alternative Splicing Regulation during Fruit Development and Ripening in Kiwifruit (Actinidia chinensis)

Comprehensive Transcriptome Profiling Reveals Long Noncoding RNA Expression and Alternative Splicing Regulation during Fruit Development and Ripening in Kiwifruit (Actinidia chinensis)

An appropriate concentration of arginine is required for normal root growth in rice

A Cation-Chloride Cotransporter Gene Is Required for Cell Elongation and Osmoregulation in Rice

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