Your search keyword '"COMPOSITION of rice"' showing total 12 results

1. Abscisic acid is involved in root cell wall phosphorus remobilization independent of nitric oxide and ethylene in rice (Oryza sativa).

Author

Zhu, Xiao Fang, Zhao, Xu Sheng, Wu, Qi, and Shen, Ren Fang

Subjects

*ABSCISIC acid, *PLANT cell walls, *PHOSPHORUS, *NITRIC oxide, *ETHYLENE, *RICE microbiology, *COMPOSITION of rice

Abstract

• Background and Aims Abscisic acid (ABA) is a well-studied phytohormone demonstrated to be involved in sub-sets of stress responses in plants, such as iron (Fe) deficiency and phosphorus (P) deficiency in Arabidopsis. However, whether ABA is involved in P deficiency in rice has not been frequently studied. The present study was undertaken to investigate the mechanism underlying ABA-aggravated P deficiency in rice (Oryza sativa). • Results P deficiency decreased ABA accumulation rapidly (within 1 h) in the roots. Exogenous ABA negatively regulated root and shoot soluble P contents by decreasing pectin content, inhibiting P deficiency-induced increases in pectin methylesterase activity and expression of the phosphate transporter gene-OsPT6, thereby decreasing the re-utilization of P from the cell wall and its translocation to the shoot. Moreover, neither the nitric oxide (NO) donor sodium nitroprusside nor ethylene precursor 1-aminocyclopropane-1-carboxylic acid had any effect on ABA accumulation, and application of ABA or the ABA inhibitor fluridone also had no effect on NO production and ethylene emission. • Conclusions Under P deficiency, NO levels increase as quickly as ABA levels decrease, to inhibit both the ABAinduced reduction of pectin contents for the re-utilization of cell wall P and the ABA-induced down-regulation of OsPT6 for the translocation of P from roots to shoots. Overall, our results provide novel information indicating that the reduction of ABA under P deficiency is a very important pathway in the re-utilization of cell wall P in rice under P-deficient conditions, which should be a very effective mechanism for plant survival under P deficiency stress for common agronomic practice. [ABSTRACT FROM AUTHOR]

Published

2018

2. Inter-laboratory optimization of protein extraction, separation, and fluorescent detection of endogenous rice allergens.

Author

Satoh, Rie, Teshima, Reiko, Kitta, Kazumi, Lang, Gang-Hua, Schegg, Kathleen, Blumenthal, Kenneth, Hicks, Leslie, Labory-Carcenac, Bénédicte, Rouquié, David, Herman, Rod A., Herouet-Guicheney, Corinne, Ladics, Gregory S., McClain, Scott, Poulsen, Lars K., Privalle, Laura, Ward, Jason M., Doerrer, Nancy, and Rascle, Jean-Baptiste

Subjects

*ALLERGENS, *PLANT proteins, *COMPOSITION of rice

Abstract

In rice, several allergens have been identified such as the non-specific lipid transfer protein-1, the α-amylase/trypsin-inhibitors, the α-globulin, the 33 kDa glyoxalase I (Gly I), the 52–63 kDa globulin, and the granule-bound starch synthetase. The goal of the present study was to define optimal rice extraction and detection methods that would allow a sensitive and reproducible measure of several classes of known rice allergens. In a three-laboratory ring-trial experiment, several protein extraction methods were first compared and analyzed by 1D multiplexed SDS-PAGE. In a second phase, an inter-laboratory validation of 2D-DIGE analysis was conducted in five independent laboratories, focusing on three rice allergens (52 kDa globulin, 33 kDa glyoxalase I, and 14–16 kDa α-amylase/trypsin inhibitor family members). The results of the present study indicate that a combination of 1D multiplexed SDS-PAGE and 2D-DIGE methods would be recommended to quantify the various rice allergens. Representative multiplexed detection and 2D-DIGE profile of rice endogenous allergens. [ABSTRACT FROM PUBLISHER]

Published

2016

3. Jasmonoyl- l -isoleucine is required for the production of a flavonoid phytoalexin but not diterpenoid phytoalexins in ultraviolet-irradiated rice leaves.

Author

Miyamoto, Koji, Enda, Isami, Okada, Toshiki, Sato, Yumiko, Watanabe, Kohei, Sakazawa, Tomoko, Yumoto, Emi, Shibata, Kyomi, Asahina, Masashi, Iino, Moritoshi, Yokota, Takao, Okada, Kazunori, and Yamane, Hisakazu

Subjects

*PHYTOALEXINS, *COMPOSITION of rice, *EFFECT of ultraviolet radiation on plants

Abstract

Rice produces low-molecular-weight antimicrobial compounds known as phytoalexins, in response to not only pathogen attack but also abiotic stresses including ultraviolet (UV) irradiation. Rice phytoalexins are composed of diterpenoids and a flavonoid. Recent studies have indicated that endogenous jasmonyl-l-isoleucine (JA-Ile) is not necessarily required for the production of diterpenoid phytoalexins in blast-infected or CuCl2-treated rice leaves. However, JA-Ile is required for the accumulation of the flavonoid phytoalexin, sakuranetin. Here, we investigated the roles of JA-Ile in UV-induced phytoalexin production. We showed that UV-irradiation induces the biosynthesis of JA-Ile and its precursor jasmonic acid. We also showed that rice jasmonate biosynthesis mutants produced diterpenoid phytoalexins but not sakuranetin in response to UV, indicating that JA-Ile is required for the production of sakuranetin but not diterpenoid phytoalexins in UV-irradiated rice leaves. Jasmonoyl-l-isoleucine is required for the production of sakuranetin, but not necessarily diterpenoid phytoalexins in UV-irradiated rice leaves. [ABSTRACT FROM PUBLISHER]

Published

2016

4. Plastidic phosphoglucomutase and ADP-glucose pyrophosphorylase mutants impair starch synthesis in rice pollen grains and cause male sterility.

Author

Sang-Kyu Lee, Joon-Seob Eom, Seon-Kap Hwang, Dongjin Shin, Gynheung An, Okita, Thomas W., and Jong-Seong Jeon

Subjects

*PHOSPHOGLUCOMUTASE, *POLLEN, *MALE sterility in plants, *COMPOSITION of rice, RICE genetics

Abstract

To elucidate the starch synthesis pathway and the role of this reserve in rice pollen, we characterized mutations in the plastidic phosphoglucomutase, OspPGM, and the plastidic large subunit of ADP-glucose (ADP-Glc) pyrophosphorylase, OsAGPL4. Both genes were up-regulated in maturing pollen, a stage when starch begins to accumulate. Progeny analysis of self-pollinated heterozygous lines carrying the OspPGM mutant alleles, osppgm-1 and osppgm-2, or the OsAGPL4 mutant allele, osagpl4-1, as well as reciprocal crosses between the wild type (WT) and heterozygotes revealed that loss of OspPGM or OsAGPL4 caused male sterility, with the former condition rescued by the introduction of the WT OspPGM gene. While iodine staining and transmission electron microscopy analyses of pollen grains from homozygous osppgm-1 lines produced by anther culture confirmed the starch null phenotype, pollen from homozygous osagpl4 mutant lines, osagpl4-2 and osagpl4-3, generated by the CRISPR/Cas system, accumulated small amounts of starch which were sufficient to produce viable seed. Such osagpl4 mutant pollen, however, was unable to compete against WT pollen successfully, validating the important role of this reserve in fertilization. Our results demonstrate that starch is mainly polymerized from ADP-Glc synthesized from plastidic hexose phosphates in rice pollen and that starch is an essential requirement for successful fertilization in rice. [ABSTRACT FROM AUTHOR]

Published

2016

5. Root hair formation in rice (Oryza sativa L.) differs between root types and is altered in artificial growth conditions.

Author

Nestler, Josefine, Keyes, Samuel David, and Wissuwa, Matthias

Subjects

*ROOT formation, *ROOT hairs (Botany), *ABSORPTION (Physiology), *ROOT (Botany) proteins, *SYNCHROTRONS, *COMPOSITION of rice, *PLANTS

Abstract

Root hairs are important sites for nutrient uptake, especially in P limiting conditions. Here we provide first insights into root hair development for the diverse root types of rice grown under different conditions, and show the first in situ images of rice root hairs in intact soil. Roots of plants grown in upland fields produced short root hairs that showed little responsiveness to P deficiency, and had a higher root hair density in the high P condition. These results were reproducible in rhizoboxes under greenhouse conditions. Synchrotron-based in situ analysis of root hairs in intact soil further confirmed this pattern of root hair formation. In contrast, plants grown in nutrient solution produced more and longer root hairs in low P conditions, but these were unequally distributed among the different root types. While nutrient solution-grown main roots had longer hairs compared to upland field-grown main roots, second order lateral roots did not form any root hairs in nutrient solution-grown plants. Furthermore, root hair formation for plants grown in flooded lowland fields revealed few similarities with those grown in nutrient solution, thus defining nutrient solution as a possible measure of maximal, but not natural root hair development. By combining root hair length and density as a measure for root hair impact on the whole soil-grown root system we show that lateral roots provided the majority of root hair surface. [ABSTRACT FROM AUTHOR]

Published

2016

6. Mutation of SPOTTED LEAF3 (SPL3) impairs abscisic acid-responsive signalling and delays leaf senescence in rice.

Author

Seung-Hyun Wang, Jung-Hyun Lim, Sang-Sook Kim, Sung-Hwan Cho, Soo-Cheul Yoo, Hee-Jong Koh, Yasuhito Sakuraba, and Nam-Chon Paek

Subjects

*PLANT mutation, *ABSCISIC acid, *PLANT cellular signal transduction, *CELLULAR aging, *COMPOSITION of rice

Abstract

Lesion mimic mutants commonly display spontaneous cell death in pre-senescent green leaves under normal conditions, without pathogen attack. Despite molecular and phenotypic characterization of several lesion mimic mutants, the mechanisms of the spontaneous formation of cell death lesions remain largely unknown. Here, the rice lesion mimic mutant spotted leaf3 (spl3) was examined. When grown under a light/dark cycle, the spl3 mutant appeared similar to wild-type at early developmental stages, but lesions gradually appeared in the mature leaves close to heading stage. By contrast, in spl3 mutants grown under continuous light, severe cell death lesions formed in developing leaves, even at the seedling stage. Histochemical analysis showed that hydrogen peroxide accumulated in the mutant, likely causing the cell death phenotype. By map-based cloning and complementation, it was shown that a 1-bp deletion in the first exon of Oryza sativa Mitogen-Activated Protein Kinase Kinase Kinase1 (OsMAPKKK1)/OsEDR1/OsACDR1 causes the spl3 mutant phenotype. The spl3 mutant was found to be insensitive to abscisic acid (ABA), showing normal root growth in ABA-containing media and delayed leaf yellowing during dark-induced and natural senescence. Expression of ABA signalling-associated genes was also less responsive to ABA treatment in the mutant. Furthermore, the spl3 mutant had lower transcript levels and activities of catalases, which scavenge hydrogen peroxide, probably due to impairment of ABA-responsive signalling. Finally, a possible molecular mechanism of lesion formation in the mature leaves of spl3 mutant is discussed. [ABSTRACT FROM AUTHOR]

Published

2015

7. Analytical Method for the Determination of Various Arsenic Species in Rice, Rice Food Products, Apple Juice, and Other Juices by Ion Chromatography-Inductively Coupled Plasma/Mass Spectrometry.

Author

ELLINGSON, DAVID, ZYWICKI, RICHARD, and SULLIVAN, DARRYL

Subjects

*ARSENIC, *COMPOSITION of rice, *FOOD industry, *ION exchange chromatography, *RICE products, *APPLE juice

Abstract

Recent studies have shown that there are detectable levels of arsenic (As) in rice, rice food products, and apple juice. This has created significant concern to the public, the food industry, and various regulatory bodies. Classic test methods typically measure total As and are unable to differentiate the various As species. Since different As species have greatly different toxicities, an analytical method was needed to separate and quantify the different inorganic and organic species of As. The inorganic species arsenite [As(+3)] and arsenate [As(+5)] are highly toxic. With this in mind, an ion chromatography-inductively coupled plasma (IC-ICP/MS) method was developed and validated for rice and rice food products that can separate and individually measure multiple inorganic and organic species of As. This allows for the evaluation of the safety or risk associated with any product analyzed. The IC-ICP/MS method was validated on rice and rice food products, and it has been used successfully on apple juice. This paper provides details of the validated method as well as some lessons learned during its development. Precision and accuracy data are presented for rice, rice food products, and apple juice. [ABSTRACT FROM AUTHOR]

Published

2014

8. New Insights into Aluminum Tolerance in Rice: The ASR5 Protein Binds the STAR1 Promoter and Other Aluminum-Responsive Genes.

Author

Arenhart, Rafael Augusto, Bai, Yang, Valter de Oliveira, Luiz Felipe, Bucker Neto, Lauro, Schunemann, Mariana, Maraschin, Felipe dos Santos, Mariath, Jorge, Silverio, Adriano, Sachetto-Martins, Gilberto, Margis, Rogerio, Wang, Zhi-Yong, and Margis-Pinheiro, Marcia

Subjects

*COMPOSITION of rice, *PLANT proteins, *ACID soils, *ALUMINUM in soils, *CHROMATIN, *IMMUNOPRECIPITATION, *RNA interference

Abstract

Acidic soils comprise a large portion of the Earth’s crust. In this environment, aluminum becomes soluble to plants affecting directly plant development. Among crops, rice is the most Al-resistant but the base of this tolerance is far from being elucidated. In this work, we showed a large-scale profile of Al-responsive genes in rice. Besides, we extended the study in relation to ASR5, a protein previously found by our group as having an important function in Al resistance.Aluminum (Al) toxicity in plants is one of the primary constraints in crop production. Al3+, the most toxic form of Al, is released into soil under acidic conditions and causes extensive damage to plants, especially in the roots. In rice, Al tolerance requires the ASR5 gene, but the molecular function of ASR5 has remained unknown. Here, we perform genome-wide analyses to identify ASR5-dependent Al-responsive genes in rice. Based on ASR5_RNAi silencing in plants, a global transcriptome analysis identified a total of 961 genes that were responsive to Al treatment in wild-type rice roots. Of these genes, 909 did not respond to Al in the ASR5_RNAi plants, indicating a central role for ASR5 in Al-responsive gene expression. Under normal conditions, without Al treatment, the ASR5_RNAi plants expressed 1.756 genes differentially compared to the wild-type plants, and 446 of these genes responded to Al treatment in the wild-type plants. Chromatin immunoprecipitation followed by deep sequencing identified 104 putative target genes that were directly regulated by ASR5 binding to their promoters, including the STAR1 gene, which encodes an ABC transporter required for Al tolerance. Motif analysis of the binding peak sequences revealed the binding motif for ASR5, which was confirmed via in vitro DNA-binding assays using the STAR1 promoter. These results demonstrate that ASR5 acts as a key transcription factor that is essential for Al-responsive gene expression and Al tolerance in rice. [ABSTRACT FROM AUTHOR]

Published

2014

9. Development and Validation of an Alternative to Conventional Pretreatment Methods for Residue Analysis of Butachlor in Water, Soil, and Rice.

Author

JIAYING XUE, WENQING JIANG, FENGMAO LIU, HUIYU ZHAO, SULI WANG, and WEI PENG

Subjects

*BUTACHLOR, *WATER chemistry, *HERBICIDE residues, *SOIL chemistry, *COMPOSITION of rice, *EXTRACTION (Chemistry)

Abstract

A rapid and effective alternative analytical method for residues of butachlor in water, soil, and rice was established. The operating variables affecting performance of this method, including different extraction conditions and cleanup adsorbents, were evaluated. The determination of butachlor residues in soil, straw, rice hull, and husked rice was performed using GC/MS after extraction with n-hexane and cleanup with graphite carbon black. The average recoveries ranged from 81.5 to 102.7%, with RSDs of 0.6-7.7% for all of the matrixes investigated. The limits of quantitation were 0.05 mg/kg in water and rice plant, and 0.01 mg/kg in soil, straw, rice hull, and husked rice. A comparison among this proposed method, the conventional liquid-liquid extraction, the Quick, Easy, Cheap, Effective, Rugged, and Safe method, and Soxhlet extraction indicated that this method was more suitable for analyzing butachlor in rice samples. The further validation of the proposed method was carried out by Soxhlet extraction for the determination of butachlor residues in the husked rice samples, and the residue results showed there was no obvious difference obtained from these two methods. Samples from a rice field were found to contain butachlor residues below the maximum residue limits set by China (0.5 mg/kg) and Japan (0.1 mg/kg). The proposed method has a strong potential for application in routine screening and processing of large numbers of samples. This study developed a more effective alternative to the conventional analytical methods for analyzing butachlor residues in various matrixes. [ABSTRACT FROM AUTHOR]

Published

2014

10. A receptor-like protein RMC is involved in regulation of iron acquisition in rice.

Author

Yang, An, Li, Yansu, Xu, Yunyun, and Zhang, Wen-Hao

Subjects

*RECEPTOR-like kinases, *IRON, *COMPOSITION of rice, *MINERAL content of plants, *PLANT growth, *PLANT development

Abstract

Iron (Fe) is one of the essential mineral elements for plant growth and development. Acquisition of Fe by plants is mediated by a complex network involving Fe mobilization, uptake by root cells, and transport within plants. Here, we evaluated the role of a previously clarified gene encoding a receptor-like protein from rice, OsRMC, in the regulation of Fe acquisition by comparing Fe concentration, biomass, and expression patterns of genes associated with Fe mobilization and transport in wild-type (WT) rice with those in OsRMC overexpression and RNA interference (RNAi) knockdown transgenic rice plants. Expression of OsRMC was upregulated in both shoots and roots upon exposure of WT to Fe-deficient medium. Expression levels of OsRMC were positively correlated with Fe concentration in rice plants under both Fe-sufficient and Fe-deficient conditions such that overexpression and RNAi lines had higher and lower Fe concentration in both roots and shoots than WT plants, respectively. Moreover, overexpression of OsRMC conferred greater accumulation of Fe in mature seeds under Fe-sufficient conditions. OsRMC may also play a role in regulation of Fe deficiency-induced changes in root growth, as evidenced by greater and smaller root systems of OsRMC overexpression lines and RNAi lines than WT under Fe-deficient conditions, respectively. Several Fe deficiency-responsive genes including OsDMAS1, OsNAS1, OsNAS2, OsNAAT1, OsIRT1, OsYSL15, and OsIRO2 were up- and downregulated in OsRMC-overexpressing and RNAi plants compared with WT rice plants. These novel findings highlight an important role of OsRMC played in mediation of Fe acquisition and root growth in rice, particularly under Fe-deficient conditions. [ABSTRACT FROM AUTHOR]

Published

2013

11. Rice CONSTITUTIVE TRIPLE-RESPONSE2 is involved in the ethylene-receptor signalling and regulation of various aspects of rice growth and development.

Author

Wang, Qin, Zhang, Wei, Yin, Zhongming, and Wen, Chi-Kuang

Subjects

*COMPOSITION of rice, *ETHYLENE, *CELLULAR signal transduction, *PLANT growth, *PLANT development, *GREEN fluorescent protein

Abstract

In Arabidopsis, the ethylene-receptor signal output occurs at the endoplasmic reticulum and is mediated by the Raf-like protein CONSTITUTIVE TRIPLE RESPONSE1 (CTR1) but is prevented by overexpression of the CTR1 N terminus. A phylogenic analysis suggested that rice OsCTR2 is closely related to CTR1, and ectopic expression of CTR1p:OsCTR2 complemented Arabidopsis ctr1-1. Arabidopsis ethylene receptors ETHYLENE RESPONSE1 and ETHYLENE RESPONSE SENSOR1 physically interacted with OsCTR2 on yeast two-hybrid assay, and green fluorescence protein-tagged OsCTR2 was localized at the endoplasmic reticulum. The osctr2 loss-of-function mutation and expression of the 35S:OsCTR21–513 transgene that encodes the OsCTR2 N terminus (residues 1–513) revealed several and many aspects, respectively, of ethylene-induced growth alteration in rice. Because the osctr2 allele did not produce all aspects of ethylene-induced growth alteration, the ethylene-receptor signal output might be mediated in part by OsCTR2 and by other components in rice. Yield-related agronomic traits, including flowering time and effective tiller number, were altered in osctr2 and 35S:OsCTR21–513 transgenic lines. Applying prolonged ethylene treatment to evaluate ethylene effects on rice without compromising rice growth is technically challenging. Our understanding of roles of ethylene in various aspects of growth and development in japonica rice varieties could be advanced with the use of the osctr2 and 35S:OsCTR21–513 transgenic lines. [ABSTRACT FROM AUTHOR]

Published

2013

12. Hypolipidemic Effects of Starch and γ-Oryzanol from wx/ae Double-Mutant Rice on BALB/c.KOR-Apoeshl Mice.

Author

Makoto NAKAYA, Aiko SHOJO, Hiroaki HIRAI, Kenji MATSUMOTO, and Shinichi KITAMURA

Subjects

*ORYZANOL, *STARCH, *COMPOSITION of rice, *LABORATORY mice, *LIPID metabolism, *TRIGLYCERIDES

Abstract

In this article, the authors focus on the effect of starch and gamma-oryzanol derived from waxy/amylose-extender (wx/ae) double-mutant japonica rice on BALB/c.KOR-Apoeshl mice. They inform that gamma-oryzanol does not affect lipid metabolism while wx/ae starch prevents accumulation of triacylglycerol in mice liver. They mention that wx/ae starch and gamma-oryzanol have a synergistic effect on the metabolism of lipids.

Published

2013