Your search keyword '"TRANSGENIC rice"' showing total 40 results

1. Regulation of ppGpp Synthesis and Its Impact on Chloroplast Biogenesis during Early Leaf Development in Rice.

Author

Ito, Kazuhiro, Ito, Doshun, Goto, Mina, Suzuki, Sae, Masuda, Shinji, Iba, Koh, and Kusumi, Kensuke

Subjects

*LEAF development, *CHLOROPLASTS, *CHLOROPLAST formation, *PULSE amplitude modulation, *RICE, *REGULATOR genes, *TRANSGENIC rice

Abstract

Guanosine tetraphosphate (ppGpp) is known as an alarmone that mediates bacterial stress responses. In plants, ppGpp is synthesized in chloroplasts from GTP and ATP and functions as a regulator of chloroplast gene expression to affect photosynthesis and plant growth. This observation indicates that ppGpp metabolism is closely related to chloroplast function, but the regulation of ppGpp and its role in chloroplast differentiation are not well understood. In rice, ppGpp directly inhibits plastidial guanylate kinase (GKpm), a key enzyme in GTP biosynthesis. GKpm is highly expressed during early leaf development in rice, and the GKpm-deficient mutant, virescent-2 (v2), develops chloroplast-deficient chlorotic leaves under low-temperature conditions. To examine the relationship between GTP synthesis and ppGpp homeostasis, we generated transgenic rice plants over-expressing RSH3, a protein known to act as a ppGpp synthase. When RSH3 was overexpressed in v2 , the leaf chlorosis was more severe. Although the RSH3 overexpression in the wild type caused no visible effects, pulse amplitude modulation fluorometer measurements indicated that photosynthetic rates were reduced in this line. This finding implies that the regulation of ppGpp synthesis in rice is involved in the maintenance of the GTP pool required to regulate plastid gene expression during early chloroplast biogenesis. We further investigated changes in the expressions of RelA/SpoT Homolog (RSH) genes encoding ppGpp synthases and hydrolases during the same period. Comparing the expression of these genes with the cellular ppGpp content suggests that the basal ppGpp level is determined by the antagonistic action of multiple RSH enzymatic activities during early leaf development in rice. [ABSTRACT FROM AUTHOR]

Published

2022

2. Overproduction of Chloroplast Glyceraldehyde-3-Phosphate Dehydrogenase Improves Photosynthesis Slightly under Elevated [CO2] Conditions in Rice.

Author

Suzuki, Yuji, Ishiyama, Keiki, Sugawara, Misaki, Suzuki, Yuka, Kondo, Eri, Takegahara-Tamakawa, Yuki, Yoon, Dong-Kyung, Suganami, Mao, Wada, Shinya, Miyake, Chikahiro, and Makino, Amane

Subjects

*CHLOROPLASTS, *CALVIN cycle, *OVERPRODUCTION, *TRANSGENIC rice, *TRANSGENIC plants, *BIOMASS production, *PHOTOSYNTHESIS

Abstract

Chloroplast glyceraldehyde-3-phosphate dehydrogenase (GAPDH) limits the regeneration of ribulose 1,5-bisphosphate (RuBP) in the Calvin–Benson cycle. However, it does not always limit the rate of CO2 assimilation. In the present study, the effects of overproduction of GAPDH on the rate of CO2 assimilation under elevated [CO2] conditions, where the capacity for RuBP regeneration limits photosynthesis, were examined in transgenic rice (Oryza sativa). GAPDH activity was increased to 3.2- and 4.5-fold of the wild-type levels by co-overexpression of the GAPDH genes, GAPA and GAPB, respectively. In the transgenic rice plants, the rate of CO2 assimilation under elevated [CO2] conditions increased by approximately 10%, whereas that under normal and low [CO2] conditions was not affected. These results indicate that overproduction of GAPDH is effective in improving photosynthesis under elevated [CO2] conditions, although its magnitude is relatively small. By contrast, biomass production of the transgenic rice plants was not greater than that of wild-type plants under elevated [CO2] conditions, although starch content tended to increase marginally. [ABSTRACT FROM AUTHOR]

Published

2021

3. Cadmium Inhibits Lateral Root Emergence in Rice by Disrupting OsPIN-Mediated Auxin Distribution and the Protective Effect of OsHMA3.

Author

Wang, Han-Qing, Xuan, Wei, Huang, Xin-Yuan, Mao, Chuanzao, and Zhao, Fang-Jie

Subjects

*RICE, *CADMIUM, *ROOT formation, *TRANSGENIC rice, *ROOT development, *AUXIN

Abstract

Cadmium (Cd) strongly inhibits root growth, especially the formation of lateral roots (LRs). The mechanism of Cd inhibition on LR formation in rice (Oryza sativa) remains unclear. In this study, we found that LR emergence in rice was inhibited significantly by 1 µM Cd and almost completely arrested by 5 µM Cd. Cd suppressed both the formation and subsequent development of the lateral root primordium (LRP). By using transgenic rice expressing the auxin response reporters DR5::GUS and DR5rev::VENUS , we found that Cd markedly reduced the auxin levels in the stele and LRP. Cd rapidly downregulated the expression of the auxin efflux transporter genes OsPIN1b , OsPIN1c and OsPIN9 in the stele and LRP. The emergence of LRs in a rice cultivar with a null allele of OsHMA3 (Heavy Metal ATPase 3) was more sensitive to Cd than cultivars with functional alleles. Overexpression of functional OsHMA3 in rice greatly alleviated the inhibitory effect of Cd, but the protective effect of OsHMA3 was abolished by the auxin polar transport inhibitor 1- N -naphthylphthalamic acid. The results suggest that Cd inhibits LR development in rice by disrupting OsPIN-mediated auxin distribution to LRP and OsHMA3 protects against Cd toxicity by sequestering Cd into the vacuoles. [ABSTRACT FROM AUTHOR]

Published

2021

4. A CCR4 Association Factor 1, OsCAF1B, Participates in the αAmy3 mRNA Poly(A) Tail Shortening and Plays a Role in Germination and Seedling Growth.

Author

Fang, Jhen-Cheng, Liu, Hsin-Yi, Tsai, Yin-Chuan, Chou, Wei-Lun, Chang, Chun-Chen, and Lu, Chung-An

Subjects

*MESSENGER RNA, *GERMINATION, *TRANSGENIC rice, *EUKARYOTIC cells

Abstract

Poly(A) tail (PAT) shortening, also termed deadenylation, is the rate-limiting step of mRNA degradation in eukaryotic cells. The carbon catabolite repressor 4-associated factor 1s (CAF1s) were shown to be one of the major enzymes for catalyzing mRNA deadenylation in yeast and mammalian cells. However, the functions of CAF1 proteins in plants are poorly understood. Herein, a sugar-upregulated CAF1 gene, OsCAF1B, is investigated in rice. Using gain–of–function and dominant-negative mutation analysis, we show that overexpression of OsCAF1B resulted in an accelerated α-amylase gene (αAmy3) mRNA degradation phenomenon, while ectopic expression of a form of OsCAF1B that had lost its deadenylase activity resulted in a delayed αAmy3 mRNA degradation phenomenon in transgenic rice cells. The change in αAmy3 mRNA degradation in transgenic rice is associated with the altered lengths of the αAmy3 mRNA PAT, indicating that OsCAF1B acts as a negative regulator of αAmy3 mRNA stability in rice. Additionally, we found that overexpression of OsCAF1B retards seed germination and seedling growth. These findings indicate that OsCAF1B participates in sugar-induced αAmy3 mRNA degradation and deadenylation and acts a negative factor for germination and seedling development. [ABSTRACT FROM AUTHOR]

Published

2020

5. Poaceae Type II Galactinol Synthase 2 from Antarctic Flowering Plant Deschampsia antarctica and Rice Improves Cold and Drought Tolerance by Accumulation of Raffinose Family Oligosaccharides in Transgenic Rice Plants.

Author

Cui, Li Hua, Byun, Mi Young, Oh, Hyeong Geun, Kim, Sung Jin, Lee, Jungeun, Park, Hyun, Lee, Hyoungseok, and Kim, Woo Taek

Subjects

*ANGIOSPERMS, *TRANSGENIC rice, *DROUGHT tolerance, *RAFFINOSE, *TRANSGENIC plants, *GRASSES

Abstract

Deschampsia antarctica is a Poaceae grass that has adapted to and colonized Antarctica. When D. antarctica plants were subjected to cold and dehydration stress both in the Antarctic field and in laboratory experiments, galactinol, a precursor of raffinose family oligosaccharides (RFOs) and raffinose were highly accumulated, which was accompanied by upregulation of galactinol synthase (GolS). The Poaceae monocots have a small family of GolS genes, which are divided into two distinct groups called types I and II. Type II GolSs are highly expanded in cold-adapted monocot plants. Transgenic rice plants, in which type II D. antarctica GolS2 (DaGolS2) and rice GolS2 (OsGolS2) were constitutively expressed, were markedly tolerant to cold and drought stress as compared to the wild-type rice plants. The RFO contents and GolS enzyme activities were higher in the DaGolS2 - and OsGolS2 -overexpressing progeny than in the wild-type plants under both normal and stress conditions. DaGolS2 and OsGolS2 overexpressors contained reduced levels of reactive oxygen species (ROS) relative to the wild-type plants after cold and drought treatments. Overall, these results suggest that Poaceae type II GolS2s play a conserved role in D. antarctica and rice in response to drought and cold stress by inducing the accumulation of RFO and decreasing ROS levels. [ABSTRACT FROM AUTHOR]

Published

2020

6. Rice FLUORESCENT1 Is Involved in the Regulation of Chlorophyll.

Author

Li, Zhiyun, Mo, Weiping, Jia, Liqiang, Xu, Yong-Chao, Tang, Weijiang, Yang, Wenqiang, Guo, Ya-Long, and Lin, Rongcheng

Subjects

*CHLOROPHYLL, *REACTIVE oxygen species, *TRANSGENIC rice, *CONDITIONED response, *ARABIDOPSIS thaliana, *RICE

Abstract

Chlorophyll biosynthesis plays essential roles in photosynthesis and plant growth in response to environmental conditions. The accumulation of excess chlorophyll biosynthesis intermediates under light results in the production of reactive oxygen species and oxidative stress. In this study, we identified a rice (Oryza sativa) mutant, oxidation under photoperiod (oxp), that displayed photobleached lesions on its leaves, reduced growth and decreased chlorophyll content during light/dark cycles or following a dark-to-light transition. The oxp mutant accumulated more chlorophyll precursors (5-aminolevulinic acid and protochlorophyllide) than the wild type in the dark, and more singlet oxygen following light exposure. Several singlet-oxygen-responsive genes were greatly upregulated in oxp , whereas the expression patterns of OsPORA and OsPORB , two genes encoding the chlorophyll biosynthesis enzyme NADPH:protochlorop hyllide oxidoreductase, were altered in de-etiolated oxp seedlings. Molecular and complementation studies revealed that oxp is a loss-of-function mutant in LOC_Os01g32730, a homolog of FLUORESCENT (FLU) in Arabidopsis thaliana. Rice PHYTOCHROME-INTERACTING FACTOR-LIKE14 (OsPIL14) transcription factor directly bound to the OsFLU1 promoter and activated its expression. Dark-grown transgenic rice seedlings overexpressing OsPIL14 accumulated more chlorophyll and turned green faster than the wild type upon light illumination. Thus, OsFLU1 is an important regulator of chlorophyll biosynthesis in rice. [ABSTRACT FROM AUTHOR]

Published

2019

7. OsYSL16 is Required for Preferential Cu Distribution to Floral Organs in Rice.

Author

Zhang, Chang, Lu, Wenhui, Yang, Yang, Shen, Zhenguo, Ma, Jian Feng, and Zheng, Luqing

Subjects

*COPPER deficiency, *TRANSGENIC rice, *PLANT fertility, *POLLEN, *PLANT species, *GLUCURONIDASE

Abstract

Deficiency of copper (Cu) causes low fertility in many plant species, but the molecular mechanisms underlying distribution of Cu to the floral organs are poorly understood. Here, we found that a member of yellow-stripe like (YSL) family, YSL16 encoding the Cu–nicotianamine (Cu–NA) transporter, was highly expressed in the rachilla, with less expression in the palea and lemma of rice (Oryza sativa). β-Glucuronidase (GUS) staining of transgenic rice carrying the OsYSL16 promoter–GUS showed that OsYSL16 was mainly expressed in vascular bundles of the rachilla as well as the palea and lemma. Knockout of OsYSL16 resulted in decreased Cu distribution to the stamens, but increased distribution to the palea and lemma. A short-term (24 h) 65Cu labeling experiment confirmed increased Cu concentration of palea and lemma in the mutant. Furthermore, we found that redistribution of Cu from the palea and lemma was impaired in the osysl16 mutant after exposure to Cu-free solution. The osysl16 mutant showed low pollen germination, but this was rescued by addition of Cu in the medium. Our results indicate that OsYSL16 expressed in the vascular bundles of the rachilla is important for preferential distribution of Cu to the stamens, while OsYSL16 in vascular bundles of the palea and lemma is involved in Cu redistribution under Cu-limited conditions in rice. [ABSTRACT FROM AUTHOR]

Published

2018

8. Formation of Protein Disulfide Bonds Catalyzed by OsPDIL1;1 is Mediated by MicroRNA5144-3p in Rice.

Author

Xia, Kuaifei, Zeng, Xuan, Jiao, Zhengli, Li, Maolin, Xu, Weijuan, Nong, Quandong, Mo, Hui, Cheng, Taihui, and Zhang, Mingyong

Subjects

*DISULFIDES, *PROTEIN folding, *ABIOTIC stress, *TRANSGENIC rice, *MESSENGER RNA

Abstract

Correct folding of proteins in the endoplasmic reticulum is important for their stability and function under stress. The protein disulfide isomerase (PDI) OsPDIL1;1 is a key proteinfolding catalyst in rice (Oryza sativa L.). Here, microRNA5144 (osa-miR5144-3p) is reported to mediate the formation of protein disulfide bonds via targeting OsPDIL1;1 mRNA in rice seeds and seedlings during development and under conditions of abiotic stress, respectively. Expression analysis of transgenic rice and identification of cleavage sites showed that OsPDIL1;1 mRNA is a target of osa-miR5144-3p. Expression of osa-miR5144-3p and OsPDIL1;1 was shown to be inversely regulated in developing organs and under abiotic stress. The down-regulation of osamiR5144-3p or overexpression of OsPDIL1;1 in transgenic rice showed increased total protein-disulfide bond content, compared with the wild type. This indicates that protein-disulfide bond formation is enhanced by down-regulation of osa-miR5144-3p or overexpression of OsPDIL1;1. These transgenic rice plants also displayed strong resistance to salinity and mercury stress, in comparison with the wild type. In contrast, the transgenic rice plants overexpressing osamiR5144-3p or down-regulating OsPDIL1;1 had a lower protein-disulfide bond content; they were susceptible to abiotic stress and produced abnormal grains with small and loosely packed starch granules. These results indicate that protein-disulfide bond formation catalyzed by OsPDIL1;1 is modulated by osa-miR5144-3p in rice during development and is involved in resistance to abiotic stress. [ABSTRACT FROM AUTHOR]

Published

2018

9. Whole-Plant Growth and N Utilization in Transgenic Rice Plants with Increased or Decreased Rubisco Content under Different CO2 Partial Pressures.

Author

Sudo, Emi, Suzuki, Yuji, and Makino, Amane

Subjects

*PLANT growth, *NITROGEN content of plants, *TRANSGENIC rice, *PARTIAL pressure, *BIOMASS, *CARBON fixation, *PLANT enzymes

Abstract

Ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) strongly limits photosynthesis at lower CO2 concentration [CO2] whereas 10 Rubisco limitation is cancelled by elevated [CO2]. Therefore, increase or reduction in Rubisco content by transformation with a sense or an antisense RBCS construct are expected to alter the biomass production under different CO2 levels. RBCS-sense (125% Rubisco of wild-type) and -antisense (35% Rubisco of wild-type) rice (Oryza sativa L.) plants were grown for 63 days at three different CO2 levels: low [CO2] (28 Pa), normal [CO2] (40 Pa) and elevated [CO2] (120 Pa). The biomass of RBCS-sense plants was 32% and 15% greater at low [CO2] and normal [CO2] than that of the wild-type plants, respectively, but did not differ at elevated [CO2]. Conversely, the biomass of RBCS-antisense plants was the smallest at low [CO2]. Thus, overproduction of Rubisco was effective for biomass production at low [CO2]. Greater biomass production at low [CO2] in RBCS-sense plants was caused by an increase in the net assimilation rate, and associated with an increase in the amount of N uptake. Furthermore, Rubisco overproduction in RBCS-sense plants was also promoted at low [CO2]. Although it seems that low [CO2]-growth additionally stimulates the effect of RBCS overexpression, such a phenomenon observed at low [CO2] was mediated through an increase in total leaf N content. Thus, the dependence of the growth improvement in RBCS-sense rice on growth [CO2] was closely related to the degree of Rubisco overproduction which was accompanied not only by leaf N content but also by whole plant N content. [ABSTRACT FROM AUTHOR]

Published

2014

10. Identification of Transcription Factors Involved in Rice Secondary Cell Wall Formation.

Author

Hirano, Ko, Kondo, Mari, Aya, Koichiro, Miyao, Akio, Sato, Yutaka, Antonio, Baltazar A., Namiki, Nobukazu, Nagamura, Yoshiaki, and Matsuoka, Makoto

Subjects

*TRANSCRIPTION factors, *PLANT cell walls, *RICE, *GENE expression in plants, *BIOLOGICAL networks, *TRANSGENIC rice, *PHENOTYPES, *RNA interference

Abstract

Using co-expression network analysis, we identified 123 transcription factors (TFs) as candidate secondary cell wall regulators in rice. To validate whether these TFs are associated with secondary cell wall formation, six TF genes belonging to the MYB, NAC or homeodomain-containing TF families were overexpressed or downregulated in rice. With the exception of OsMYB58/63-RNAi plants, all transgenic plants showed phenotypes possibly related to secondary cell wall alteration, such as dwarfism, narrow and dark green leaves, and also altered rice cinnamyl alcohol dehydrogenase 2 (OsCAD2) gene expression and lignin content. These results suggest that many of the 123 candidate secondary cell wall-regulating TFs are likely to function in secondary cell wall formation in rice. Further analyses were performed for the OsMYB55/61 and OsBLH6 TFs, the former being a TF in which the Arabidopsis ortholog is known to participate in lignin biosynthesis (AtMYB61) and the latter being one for which no previous involvement in cell wall formation has been reported even in Arabidopsis (BLH6). OsMYB55/61 and OsBLH6–GFP fusion proteins localized to the nucleus of onion epidermal cells. Moreover, expression of a reporter gene driven by the OsCAD2 promoter was enhanced in rice calli when OsMYB55/61 or OsBLH6 was transiently expressed, demonstrating that they function in secondary cell wall formation. These results show the validity of identifying potential secondary cell wall TFs in rice by the use of rice co-expression network analysis. [ABSTRACT FROM PUBLISHER]

Published

2013

11. LcSAIN1, a Novel Salt-Induced Gene from SheepGrass, Confers Salt Stress Tolerance in Transgenic Arabidopsis and Rice.

Author

Li, Xiaoxia, Hou, Shenglin, Gao, Qiong, Zhao, Pincang, Chen, Shuangyan, Qi, Dongmei, Lee, Byung-Hyun, Cheng, Liqin, and Liu, Gongshe

Subjects

*SALINITY, *ARABIDOPSIS, *TRANSGENIC rice, *GRASSES, *GENETIC transcription in plants, *PLANT proteins, *GENETIC regulation in plants

Abstract

Previously, we identified >1,500 genes that were induced by high salt stress in sheepgrass (Leymus chinensis, Gramineae: Triticeae) when comparing the changes in their transcription levels in response to high salt stress by next-generation sequencing. Among the identified genes, a gene of unknown function (designated as Leymus chinensis salt-induced 1, LcSAIN1) showed a high sequence identity to its homologs from wheat, Hordeum vulgare and Oryza sativa, but LcSAIN1 and its homologs produce hypothetical proteins with no conserved functional domains. Transcription of the LcSAIN1 gene was up-regulated by various stresses. The overexpression of LcSAIN1 in Arabidopsis and rice increased the greening rate of cotyledons, the fresh weight, root elongation, plant height and the plant survival rate when compared with control plants and conferred a tolerance against salt stress. Subcellular localization analysis indicated that LcSAIN1 is localized predominantly in the nucleus. Our results show that the LcSAIN1 gene might play an important positive modulation role in increasing the expression of transcription factors (MYB2 and DREB2A) and functional genes (P5CS and RAB18) in transgenic plants under salt stress and that it augments stress tolerance through the accumulation of compatible solutes (proline and soluble sugar) and the alleviation of changes in reactive oxygen species. The LcSAIN1 gene could be a potential resource for engineering salinity tolerance in important crop species. [ABSTRACT FROM AUTHOR]

Published

2013

12. Transgenic Rice Seeds Accumulating Recombinant Hypoallergenic Birch Pollen Allergen Bet v 1 Generate Giant Protein Bodies.

Author

Wang, Shuyi, Takahashi, Hideyuki, Kajiura, Hiroyuki, Kawakatsu, Taiji, Fujiyama, Kazuhito, and Takaiwa, Fumio

Subjects

*TRANSGENIC rice, *SEEDS, *ALLERGIC rhinitis, *IMMUNOTHERAPY, *HYPOALLERGENIC products, *ALLERGENS, *FAGALES

Abstract

A versatile hypoallergenic allergen derivative against multiple allergens is an ideal tolerogen for allergen-specific immunotherapy. Such a tolerogen should exhibit high efficacy, without side effects, when administered at high doses and should be applicable to several allergens. Tree pollen chimera 7 (TPC7), a hypoallergenic Bet v 1 tolerogen against birch pollen allergy, was previously selected by DNA shuffling of 14 types of Fagales tree pollen allergens. In this study, transgenic rice seed accumulating TPC7 was generated as an oral vaccine against birch pollen allergy by expressing this protein as a secretory protein using the N-terminal signal peptide and the C-terminal KDEL tag under the control of an endosperm-specific glutelin promoter. The highest level of TPC7 accumulation was approximately 207 µg grain−1. Recombinant TPC7 is a glycoprotein with high mannose-type N-glycan, but without β1,2-xylose or α1,3-fucose, suggesting that TPC7 is retained in the endoplasmic reticulum (ER). TPC7 is deposited as a novel, giant spherical ER-derived protein body, >20 µm in diameter, which is referred to as the TPC7 body. Removal of the KDEL retention signal or mutation of a cysteine residue resulted in an alteration of TPC7 body morphology, and deletion of the signal peptide prevented the accumulation of TPC7 in rice seeds. Therefore, the novel TPC7 bodies may have formed aggregates within the ER lumen, primarily due to the intrinsic physicochemical properties of the protein. [ABSTRACT FROM AUTHOR]

Published

2013

13. Overexpression of Rubisco Activase Decreases the Photosynthetic CO2 Assimilation Rate by Reducing Rubisco Content in Rice Leaves.

Author

Fukayama, Hiroshi, Ueguchi, Chiaki, Nishikawa, Kaoru, Katoh, Nobuaki, Ishikawa, Chie, Masumoto, Chisato, Hatanaka, Tomoko, and Misoo, Shuji

Subjects

*PHOTOSYNTHESIS, *EFFECT of carbon dioxide on plants, *RICE, *IMMUNOBLOTTING, *SODIUM dodecyl sulfate, *POLYACRYLAMIDE gel electrophoresis, *TRANSGENIC rice, *PLANT assimilation

Abstract

The effects of overexpression of Rubisco activase on photosynthesis were studied in transgenic rice expressing barley or maize Rubisco activase. Immunoblot and SDS–PAGE analyses showed that transgenic lines from both gene constructs expressed the foreign Rubisco activase at high levels. The activation state of Rubisco in transgenic lines was slightly higher than that in non-transgenic plants (NT). In addition, light activation of Rubisco was significantly more rapid in transgenic lines compared with NT. These findings indicate that the overexpression of Rubisco activase can enhance Rubisco activation. However, despite enhanced activation of Rubisco in these transgenic plants, the CO2 assimilation rate at ambient CO2 conditions was decreased. This decrease in CO2 assimilation rate was observed in both young developing and mature leaves independent of nitrogen nutrition. The contents of nitrogen and Chl did not differ significantly between transformants and NT; however, Rubisco content was substantially decreased in transgenic lines. There was no evidence for reduced transcription of RbcS or RbcL in these transgenic lines; in fact, transcript levels were marginally increased compared with NT. These results indicate that the overexpression of Rubisco activase leads to a decrease in Rubisco content, possibly due to post-transcriptional mechanisms. [ABSTRACT FROM PUBLISHER]

Published

2012

14. Generation of Transgenic Rice Lines with Reduced Contents of Multiple Potential Allergens Using a Null Mutant in Combination with an RNA Silencing Method.

Author

Wakasa, Yuhya, Hirano, Kana, Urisu, Atsuo, Matsuda, Tsukasa, and Takaiwa, Fumio

Subjects

*GENE silencing, *RNA interference, *TRANSGENIC rice, *RICE, *ALLERGENS, *GLOBULINS

Abstract

Rice seed proteins are known to be a causative antigen in some patients with food allergy, especially cereal allergy, with clinical symptoms such as eczema and dermatitis. The α-amylase/trypsin inhibitors (14–16 kDa), α-globulin (26 kDa) and β-glyoxalase I (33 kDa) are regarded as major potential allergens of rice (Oryza sativa L.) seed based on specific recognition by serum IgE from allergy patients. In order to suppress the production of these major allergens in rice grains, a mutant in the ‘Koshihikari’ background lacking the 26 kDa allergen (GbN-1) was used as a host for RNA silencing. A binary vector harboring two RNA interference (RNAi) gene cassettes for suppression of 14–16 kDa and 33 kDa allergens driven by the 13 kDa and 10 kDa prolamin endosperm-specific promoters, respectively, was introduced into the GbN-1 genome by Agrobacterium-mediated transformation. In the most promising transgenic line, the content of the three potential allergens was remarkably reduced to a very faint level without a change in seed phenotype. IgE binding of 15 patients' sera to the transgenic rice seed mostly deficient in the three major allergens was on average only about 10% that of the control wild-type rice, suggesting that these three accounted for the great majority of rice seed causative allergens recognized by patients' IgE and that the sequential allergen deletion/reduction strategy works in the development of hypo-allergenic rice lines. [ABSTRACT FROM PUBLISHER]

Published

2011

15. RiceFOX: A Database of Arabidopsis Mutant Lines Overexpressing Rice Full-Length cDNA that Contains a Wide Range of Trait Information to Facilitate Analysis of Gene Function.

Author

Sakurai, Tetsuya, Kondou, Youichi, Akiyama, Kenji, Kurotani, Atsushi, Higuchi, Mieko, Ichikawa, Takanari, Kuroda, Hirofumi, Kusano, Miyako, Mori, Masaki, Saitou, Tsutomu, Sakakibara, Hitoshi, Sugano, Shoji, Suzuki, Makoto, Takahashi, Hideki, Takahashi, Shinya, Takatsuji, Hiroshi, Yokotani, Naoki, Yoshizumi, Takeshi, Saito, Kazuki, and Shinozaki, Kazuo

Subjects

*BIOINFORMATICS, *ARABIDOPSIS, *GENE expression in plants, *PLANT mutation, *RICE, *ANTISENSE DNA, *MESSENGER RNA, *PLANT proteins, *TRANSGENIC rice

Abstract

Identification of gene function is important not only for basic research but also for applied science, especially with regard to improvements in crop production. For rapid and efficient elucidation of useful traits, we developed a system named FOX hunting (Full-length cDNA Over-eXpressor gene hunting) using full-length cDNAs (fl-cDNAs). A heterologous expression approach provides a solution for the high-throughput characterization of gene functions in agricultural plant species. Since fl-cDNAs contain all the information of functional mRNAs and proteins, we introduced rice fl-cDNAs into Arabidopsis plants for systematic gain-of-function mutation. We generated >30,000 independent Arabidopsis transgenic lines expressing rice fl-cDNAs (rice FOX Arabidopsis mutant lines). These rice FOX Arabidopsis lines were screened systematically for various criteria such as morphology, photosynthesis, UV resistance, element composition, plant hormone profile, metabolite profile/fingerprinting, bacterial resistance, and heat and salt tolerance. The information obtained from these screenings was compiled into a database named ‘RiceFOX’. This database contains around 18,000 records of rice FOX Arabidopsis lines and allows users to search against all the observed results, ranging from morphological to invisible traits. The number of searchable items is approximately 100; moreover, the rice FOX Arabidopsis lines can be searched by rice and Arabidopsis gene/protein identifiers, sequence similarity to the introduced rice fl-cDNA and traits. The RiceFOX database is available at http://ricefox.psc.riken.jp/. [ABSTRACT FROM AUTHOR]

Published

2011

16. Complex Regulation of Two Target Genes Encoding SPX-MFS Proteins by Rice miR827 in Response to Phosphate Starvation.

Author

Lin, Shu-I, Santi, Carole, Jobet, Edouard, Lacut, Elodie, El Kholti, Naima, Karlowski, Wojciech M., Verdeil, Jean-Luc, Breitler, Jean Christophe, Périn, Christophe, Ko, Swee-Suak, Guiderdoni, Emmanuel, Chiou, Tzyy-Jen, and Echeverria, Manuel

Subjects

*GENETIC regulation in plants, *GENE targeting, *PHOSPHATES, *GENE expression, *TRANSGENIC rice, *PLANT proteins, *PLANT mutation, RICE genetics

Abstract

Here we report on the characterization of rice osa-miR827 and its two target genes, OsSPX-MFS1 and OsSPX-MFS2, which encode SPX-MFS proteins predicted to be implicated in phosphate (Pi) sensing or transport. We first show by Northern blot analysis that osa-miR827 is strongly induced by Pi starvation in both shoots and roots. Hybridization of osa-miR827 in situ confirms its strong induction by Pi starvation, with signals concentrated in mesophyll, epidermis and ground tissues of roots. In parallel, we analyzed the responses of the two OsSPX-MFS1 and OsSPX-MFS2 gene targets to Pi starvation. OsSPX-MFS1 mRNA is mainly expressed in shoots under sufficient Pi supply while its expression is reduced on Pi starvation, revealing a direct relationship between induction of osa-miR827 and down-regulation of OsSPX-MFS1. In contrast, OsSPX-MFS2 responds in a diametrically opposed manner to Pi starvation. The accumulation of OsSPX-MFS2 mRNA is dramatically enhanced under Pi starvation, suggesting the involvement of complex regulation of osa-miR827 and its two target genes. We further produced transgenic rice lines overexpressing osa-miR827 and T-DNA knockout mutant lines in which the expression of osa-miR827 is abolished. Compared with wild-type controls, both target mRNAs exhibit similar changes, their expression being reduced and increased in overexpressing and knockout lines, respectively. This suggests that OsSPX-MFS1 and OsSPX-MFS2 are both negatively regulated by osa-miR827 abundance although they respond differently to external Pi conditions. We propose that this is a complex mechanism comprising fine tuning of spatial or temporal regulation of both targets by osa-miR827. [ABSTRACT FROM AUTHOR]

Published

2010

17. Involvement of Rice Cryptochromes in De-etiolation Responses and Flowering.

Author

Hirose, Fumiaki, Shinomura, Tomoko, Tanabata, Takanari, Shimada, Hiroaki, and Takano, Makoto

Subjects

*RICE, *CRYPTOCHROMES, *GENE expression, *FLOWERING of plants, *ETIOLATION, *TRANSGENIC rice, *PHYSIOLOGY

Abstract

In order to elucidate the function of cryptochromes (cry) in rice, we have characterized all rice CRY genes, including OsCRY1a, OsCRY1b and OsCRY2. Our studies revealed that OsCRY1 genes were mainly expressed in the green plant tissue, while OsCRY2 gene expression was high in the coleoptile, flower and callus. Light treatment affected neither the expression of any of the OsCRY genes nor the stability of their transcripts. However, it was found that Oscry2 protein was negatively regulated by blue light. Moreover, the level of Oscry2 protein also decreased upon red light treatment, and this red light-dependent degradation was shown to be mediated by phytochrome B. Overexpression of OsCRY1 genes resulted in an increased responsiveness to blue light when measuring coleoptile growth inhibition. Moreover, growth of leaf sheaths and blades was also repressed more in OsCRY1 overexpressers than in wild type (WT) under blue light conditions. These results suggest that Oscry1s are responsible for regulating blue light-mediated de-etiolation in rice. In addition, OsCRY2 antisense transgenic rice flowered later than WT under both long-day and short-day conditions, indicating that Oscry2 is involved in the promotion of flowering time in rice. [ABSTRACT FROM AUTHOR]

Published

2006

18. Functional Analysis of Rice DREB1/CBF-type Transcription Factors Involved in Cold-responsive Gene Expression in Transgenic Rice.

Author

Ito, Yusuke, Katsura, Koji, Maruyama, Kyonoshin, Taji, Teruaki, Kobayashi, Masatomo, Seki, Motoaki, and Shinozaki, Kazuo

Subjects

*TRANSGENIC plants, *FUNCTIONAL analysis, *TRANSCRIPTION factors, *GENE expression, *PHYSIOLOGY, RICE genetics

Abstract

The transcription factors dehydration-responsive element-binding protein 1s (DREB1s)/C-repeat-binding factors (CBFs) specifically interact with the DRE/CRT cis-acting element and control the expression of many stress-inducible genes in Arabidopsis. The genes for DREB1 orthologs, OsDREB1A and OsDREB1B from rice, are induced by cold stress, and overexpression of DREB1 or OsDREB1 induced strong expression of stress-responsive genes in transgenic Arabidopsis plants, resulting in increased tolerance to high-salt and freezing stresses. In this study, we generated transgenic rice plants overexpressing the OsDREB1 or DREB1 genes. These transgenic rice plants showed not only growth retardation under normal growth conditions but also improved tolerance to drought, high-salt and low-temperature stresses like the transgenic Arabidopsis plants overexpressing OsDREB1 or DREB1. We also detected elevated contents of osmoprotectants such as free proline and various soluble sugars in the transgenic rice as in the transgenic Arabidopsis plants. We identified target stress-inducible genes of OsDREB1A in the transgenic rice using microarray and RNA gel blot analyses. These genes encode proteins that are thought to function in stress tolerance in the plants. These results indicate that the DREB1/CBF cold-responsive pathway is conserved in rice and the DREB1-type genes are quite useful for improvement of stress tolerance to environmental stresses in various kinds of transgenic plants including rice. [ABSTRACT FROM AUTHOR]

Published

2006

19. Involvement of α-Amylase I-1 in Starch Degradation in Rice Chloroplasts.

Author

Asatsuma, Satoru, Sawada, Chihoko, Itoh, Kimiko, Okito, Mitsutoshi, Kitajima, Aya, and Mitsui, Toshiaki

Subjects

*RICE, *TRANSGENIC rice, *AMYLASES, *GLYCOPROTEIN synthesis, *CHLOROPLAST membranes, *STARCH

Abstract

To determine the role of α-amylase isoform I-1 in the degradation of starch in rice leaf chloroplasts, we generated a series of transgenic rice plants with suppressed expression or overexpression of α-amylase I-1. In the lines with suppressed expression of α-amylase I-1 at both the mRNA and protein levels, seed germination and seedling growth were markedly delayed in comparison with those in the wild-type plants. However, the growth retardation was overcome by supplementation of sugars. Interestingly, a significant increase of starch accumulation in the young leaf tissues was observed under a sugar-supplemented condition. In contrast, the starch content of leaves was reduced in the plants overexpressing α-amylase I-1. In immunocytochemical analysis with specific anti-α-amylase I-1 antiserum, immuno-gold particles deposited in the chloroplasts and extracellular space in young leaf cells. We further examined the expression and targeting of α-amylase I-1 fused with the green fluorescent protein in re-differentiated green cells, and showed that the fluorescence of the expressed fusion protein co-localized with the chlorophyll autofluorescence in the transgenic cells. In addition, mature protein species of α-amylase I-1 bearing an oligosaccharide side chain were detected in the isolated chloroplasts. Based on these results, we concluded that α-amylase I-1 targets the chloroplasts through the endoplasmic reticulum–Golgi system and plays a significant role in the starch degradation in rice leaves. [ABSTRACT FROM AUTHOR]

Published

2005

20. Metabolic Profiling of Tryptophan-overproducing Rice Calli that Express a Feedback-insensitive α Subunit of Anthranilate Synthase.

Author

Morino, Keiko, Matsuda, Fumio, Miyazawa, Haruna, Sukegawa, Akiko, Miyagawa, Hisashi, and Wakasa, Kyo

Subjects

*TRYPTOPHAN, *TRANSGENIC rice, *RICE, *GLUCAN synthase, *GENETIC regulation in plants, *LIQUID chromatography, *METABOLITES

Abstract

The profile of aromatic metabolites in calli was compared between wild-type rice (Oryza sativa cv. Nipponbare) and tryptophan-overproducing transgenic rice lines that express a gene (OASA1D) for a feedback-insensitive α subunit of anthranilate synthase. Metabolic profiling by high-performance liquid chromatography coupled with photodiode array detection of ultraviolet absorbance revealed a total of 71 peaks in both wild-type and transgenic calli. Only a limited effect on the pattern of major aromatic compounds was observed in tryptophan-accumulating transgenic rice lines, with the exception of an ∼80-fold increase in the amount of tryptophan. Expression of OASA1D induced relatively small changes in several minor metabolites. One of the minor metabolites whose abundance was increased by OASA1D expression was purified and identified as a previously unknown indole-alkaloid glucoside. The levels of free and conjugated forms of indole-3-acetic acid (IAA), a plant hormone derived from the tryptophan biosynthetic pathway, were determined separately by liquid chromatography and tandem mass spectrometry (LC–MS/MS). The amounts of both free IAA and its conjugates were increased in the transgenic calli, suggesting that the activity of anthranilate synthase or the concentration of tryptophan (or both) is an important determinant of IAA biosynthesis. [ABSTRACT FROM AUTHOR]

Published

2005

21. Silencing of the Aleurone-specific Ltp2-gus Gene in Transgenic Rice is Reversed by Transgene Rearrangements and Loss of Aberrant Transcripts.

Author

Morino, Kazuko, Olsen, Odd-Arne, and Shimamoto, Ko

Subjects

*TRANSGENIC rice, *BARLEY, *RICE, *TRANSGENES, *RNA, *DNA, *CHROMOSOME abnormalities, *GENE silencing

Abstract

An Ltp2 promoter was isolated from barley as an aleurone-specific promoter, and its tissue specificity was maintained in transgenic rice. Expression of the Ltp2-gus gene in rice could be detected by X-gluc staining of the seeds. Previously, we reported the isolation of silenced plants in the R2 generation and the involvement of antisense gus transcripts in aleurone-specific Ltp2-gus gene silencing in transgenic rice, the L3.3 line. In the current study, we analyzed the L0.1 line, a sibling of the L3.3 line, and the partially revertant line from the L0.1 line accompanied by a transgene structural change. Strong silencing of the Ltp2-gus gene was detected over five generations in the L0.1 line. DNA and RNA analysis revealed that there were incomplete transgenes and that several aberrant RNAs that carried an antisense gus region were expressed in the L0.1 line. Determination of the transgene structure in the L0.1 line revealed that the partial antisense gus gene and the partial Ltp2 promoter region fused to the Ltp2 promoter were lacking in the revertants. RNA analysis demonstrated that the antisense gus and the promoter transcripts were produced and found in the poly(A)– fraction. Results of these analyses suggested that the observed aberrant transcripts, including antisense and promoter transcripts, were associated with Ltp2-gus silencing in the L0.1 line. [ABSTRACT FROM AUTHOR]

Published

2004

22. Cloning and Functional Analysis of a Novel DREB1/CBF Transcription Factor Involved in Cold-Responsive Gene Expression in Zea mays L.

Author

Feng Qin, Sakuma, Yoh, Jie Li, Qiang Liu, Yi-Qin Li, Shinozaki, Kazuo, and Yamaguchi-Shinozaki, Kazuko

Subjects

*GENE expression in plants, *PLANT genetics, *TRANSCRIPTION factors, *PLANT clones, *ARABIDOPSIS, *TRANSGENIC rice, *PHYSIOLOGICAL effects of cold temperatures

Abstract

The transcription factors DREB1s/CBFs specifically interact with the DRE/CRT cis-acting element (core motif: G/ACCGAC) and control the expression of many stress-inducible genes in Arabidopsis. We isolated a cDNA for a DREB1/CBF homolog, ZmDREB1A in maize using a yeast one-hybrid system. The ZmDREB1A proteins specifically bound to DRE and the highly conserved valine at the 14th residue in the ERF/AP2 DNA binding domain was a key to determining the specific interaction between this protein and the DRE sequence. Expression of ZmDREB1A was induced by cold stress and slightly increased by high-salinity stress. This gene was also transiently expressed by mechanical attack. ZmDREB1A activated the transcription of the GUS reporter gene driven by DRE in rice protoplasts. Overexpression of ZmDREB1A in transgenic Arabidopsis induced overexpression of target stress-inducible genes of Arabidopsis DREB1A resulting in plants with higher tolerance to drought and freezing stresses. This indicated that ZmDREB1A has functional similarity to DREB1s/CBFs in Arabidopsis. The structure of the ERF/AP2 domain of ZmDREB1A in maize is closely related to DREB1-type ERF/AP2 domains in the monocots as compared with that in the dicots. ZmDREB1A is suggested to be potentially useful for producing transgenic plants that is tolerant to drought, high-salinity and/or cold stresses. [ABSTRACT FROM AUTHOR]

Published

2004

23. Overexpression of the Barley Aquaporin HvPIP2;1 Increases Internal CO2 Conductance and CO2 Assimilation in the Leaves of Transgenic Rice Plants.

Author

Hanba, Yuko T., Shibasaka, Mineo, Hayashi, Yasuyuki, Hayakawa, Takahiko, Kasamo, Kunihiro, Terashima, Ichiro, and Katsuhara, Maki

Subjects

*CARBON dioxide, *DIFFUSION, *AQUAPORINS, *RICE, *LEAVES, *TRANSGENIC rice

Abstract

The internal conductance for CO2 diffusion (gi) and CO2 assimilation rate were measured and the related anatomical characteristics were investigated in transgenic rice leaves that overexpressed barley aquaporin HvPIP2;1. This study was performed to test the hypothesis that aquaporin facilitates CO2 diffusion within leaves. The gi value was estimated for intact leaves by concurrent measurements of gas exchange and carbon isotope ratio. The leaves of the transgenic rice plants that expressed the highest levels of Aq-anti-HvPIP2;1 showed a 40% increase in gi as compared to gi in the leaves of wild-type rice plants. The increase in gi was accompanied by a 14% increase in CO2 assimilation rate and a 27% increase in stomatal conductance (gs). The transgenic plants that had low levels of Aq-anti-HvPIP2;1 showed decreases in gi and CO2 assimilation rate. In the plants with high levels of Aq-anti-HvPIP2;1, mesophyll cell size decreased and the cell walls of the epidermis and mesophyll cells thickened, indicating that the leaves had become xeromorphic. Although such anatomical changes could partially offset the increase in gi by the aquaporin, the increase in aquaporin content overcame such adverse effects. [ABSTRACT FROM AUTHOR]

Published

2004

24. Simple RNAi Vectors for Stable and Transient Suppression of Gene Function in Rice.

Author

Miki, Daisuke and Shimamoto, Ko

Subjects

*RICE, *GENOMES, *GENES, *AGROBACTERIUM, *TRANSGENIC rice, *GENOMICS

Abstract

Since the recent sequencing of the rice genome, the functional identification of rice genes has become increasingly important. Various tagged lines have been generated; however, the number of tagged genes available is not sufficient for extensive study of gene function. To help identify the functions of genes in rice, we developed a Gateway vector, pANDA, for RNA interference of rice genes. This vector can be used for Agrobacterium transformation of rice and allows easy and fast construction of efficient RNAi vectors. In the construct, hairpin RNA derived from a given gene is transcribed from a strong maize ubiquitin promoter, and an intron is placed 5′ upstream of inverted repeats to enhance RNA expression. Analysis of rice genes using this vector showed that suppression of mRNA expression was observed in more than 90% of transgenic plants examined, and short interfering RNA indicative of RNA silencing was detected in each silenced plant. A similar vector, pANDA-mini, was also developed for direct transfer into leaf cells or protoplasts. This vector can be used for transient suppression of gene function in rice. These vectors should help identify the functions of rice genes whose tagged mutants are not available at present and complement existing methods for functional genomics of rice. [ABSTRACT FROM PUBLISHER]

Published

2004

25. The slender Rice Mutant, with Constitutively Activated Gibberellin Signal Transduction, Has Enhanced Capacity for Abscisic Acid Level.

Author

Ikeda, Akira, Sonoda, Yutaka, Vernieri, Paolo, Perata, Pierdomenico, Hirochika, Hirohiko, and Yamaguchi, Junji

Subjects

*RICE, *EFFECT of gibberellins on plants, *PLANT cellular signal transduction, *ABSCISIC acid, *TRANSGENIC rice

Abstract

The slender rice (slr1-1) mutant, carrying a lethal and recessive single mutation, has a constitutive gibberellin (GA)-response phenotype and behaves as if it were saturated with GAs [Ikeda et al. (2001) Plant Cell 13, 999]. The SLR1 gene, with sequence homology to members of the plant-specific GRAS gene family, is a mediator of the GA signal transduction process. In the slender rice, GA-inducible α-amylase was produced from the aleurone layer without applying GA. GA-independent α-amylase production in the mutant was inhibited by applying abscisic acid (ABA). Shoot elongation in the mutant was also suppressed by ABA, indicating that the slender rice responds normally to ABA. Interestingly, shoot ABA content was 10-fold higher in the mutant than in the wild type, while there was no difference in root ABA content. Expression of the Rab16A gene, which is known to be ABA inducible, was about 10-fold higher in shoots of the mutant than in those of the wild type. These results indicate that constitutive activation of the GA signal transduction pathway by the slr1-1 mutation promotes the endogenous ABA level. [ABSTRACT FROM PUBLISHER]

Published

2002

26. An Increase in Unsaturation of Fatty Acids in Phosphatidylglycerol from Leaves Improves the Rates of Photosynthesis and Growth at Low Temperatures in Transgenic Rice Seedlings.

Author

Ariizumi, Tohru, Kishitani, Sachie, Inatsugi, Rie, Nishida, Ikuo, Murata, Norio, and Toriyama, Kinya

Subjects

*RICE, *UNSATURATED fatty acids, *LEAF physiology, *PHOTOSYNTHESIS, *PLANT growth, *TRANSGENIC rice

Abstract

The level of cis-unsaturated fatty acids in phosphatidylglycerol (PG) from rice leaves was genetically altered from 19.3% in the wild-type to 29.4 and 32.0% in T1 plants segregated with cDNAs for glycerol-3-phosphate acyltransferase of chloroplasts (GPAT; EC 2.3.1.15) from Arabidopsis (+AGPAT plant) and spinach (+SGPAT plant), respectively; and to 21.4% in a non-transformant segregated from +SGPAT plants (–SGPAT plant). In all these plants, O2 evolution from leaves was similar at 25°C and was impaired to a similar extent at 5 and 11°C. However, in parallel with the levels of cis-unsaturated fatty acids in PG, +AGPAT and +SGPAT plants showed less impaired rates of O2 evolution from leaves than the wild-type and –SGPAT plants at 14 and 17°C. In agreement with this, the fresh weight of 14-day-old seedlings increased to 571±18, 591±23, 687±32 and 705±31 mg in the wild-type, –SGPAT, +AGPAT and +SGPAT plants, respectively, after 6 weeks at 17/14°C (day/night). These results demonstrate the practical importance of the present technology with GPAT in improvement of the chilling sensitivity of crops. [ABSTRACT FROM PUBLISHER]

Published

2002

27. Rpp16 and Rpp17, from a Common Origin, have Different Protein Characteristics but Both Genes are Predominantly Expressed in Rice Phloem Tissues.

Author

Asano, Takayuki, Kusano, Hiroaki, Okuda, Tomohiro, Kubo, Nakao, Shimada, Hiroaki, and Kadowaki, Koh-ichi

Subjects

*PHLOEM, *PLANT proteins, *IN situ hybridization, *TRANSGENIC rice, RICE genetics

Abstract

The genes for two types of rice phloem protein (RPP16 and RPP17) were isolated and characterized. Conservation of five exon sizes as well as splicing positions between the two genes suggest that either RPP16 or RPP17 is a resultant of gene duplication. By protein blot analysis, RPP16 and RPP17 proteins were specifically detected in soluble and insoluble fractions of a crude extract of rice plants, respectively, suggesting that these proteins play different roles in individual cells. The expression of Rpp16 and Rpp17 was monitored by the β-glucuronidase (gusA) reporter-gene method. Rpp16-gusA and Rpp17-gusA were expressed preferentially in the phloem tissues from different parts of the plant, but almost no GUS staining was observed in the rest of the tissues. In roots of both constructs, interestingly, stronger GUS-accumulation was detected in younger vascular tissues than in aged vascular tissues. In situ hybridization also showed that Rpp17 was more strongly expressed in vascular tissues of tiller buds. These results suggest that transcript of these genes was more abundant in young tissues. The presence of two copies of the gene in higher plants, from a common origin, which have different protein characteristics, indicates that evolutionary diversification might have occurred in the gene function. [ABSTRACT FROM PUBLISHER]

Published

2002

28. Temporal and Spatial Expression Pattern of the OSVP1 and OSEM Genes during Seed Development in Rice.

Author

Miyoshi, Kazumaru, Kagaya, Yasuaki, Ogawa, Yuichirou, Nagato, Yasuo, and Hattori, Tsukaho

Subjects

*SEED development, *GENE expression in plants, *IN situ hybridization, *PLANT genetic engineering, RICE genetics

Abstract

The spatial and temporal expression patterns of the rice VP1 (OSVP1) gene, as well as the OSEM gene which it controls, were studied during seed development by in situ hybridization and immuno-localization techniques. The expression of OSVP1 could be detected in embryos as early as 2–3 d after pollination (DAP) and thereafter became preferentially localized to shoot, radicle and vascular tissues during the embryo development at both the mRNA and protein levels. In the aleurone layers, OSVP1 mRNA and protein were detected after 6 DAP. OSEM mRNA was detectable after 6 DAP in the embryo and aleurone tissue. The spatial distribution within the embryo of OSEM mRNA and OSVP1 mRNA/protein was very similar after 6 DAP. Transgenic rice carrying a β-glucuronidase (GUS) gene transcribed from a chimeric promoter consisting of the CaMV 35S minimal promoter (–46) and the 55-bp promoter fragment of OSEM, minimally required for ABA and VP1 regulation, also exhibited a spatial pattern of GUS expression similar to that of OSEM and OSVP1. These results suggest that (OS)VP1 is a major determinant not only of the seed specificity but also of the spatial pattern of OSEM expression in the developing seed. [ABSTRACT FROM PUBLISHER]

Published

2002

29. Ectopic Expression of OsMADS3, a Rice Ortholog of AGAMOUS, Caused a Homeotic Transformation of Lodicules to Stamens in Transgenic Rice Plants.

Author

Kyozuka, Junko and Shimamoto, Ko

Subjects

*TRANSGENIC rice, *STAMEN, *GENE expression in plants, *PLANT genetic engineering, RICE genetics

Abstract

In order to clarify the evolutionary relationship of floral organs between grasses and dicots, we expressed OsMADS3, a rice (Oryza sativa L.) AGAMOUS(AG) ortholog, in rice plants under the control of an Actin1 promoter. As a consequence of the ectopic expression of the OsMADS3, lodicules were homeotically transformed into stamens. In total, the transformation of lodicules to staminoid organs was observed in 18 out of 26 independent transgenic lines. In contrast to the almost complete transformation occurring in lodicules, none of the transgenic plants exhibited any morphological alterations in the palea or the lemma. Our results confirmed the prediction that the lodicule is an equivalent of a dicot petal and that the ABC model can be applied to rice at least for organ specification in lodicules and stamens. [ABSTRACT FROM PUBLISHER]

Published

2002

30. Antisense Waxy Genes with Highly Active Promoters Effectively Suppress Waxy Gene Expression in Transgenic Rice.

Author

Terada, Rie, Nakajima, Midori, Isshiki, Masayuki, Okagaki, Ron J., Wessler, Susan R., and Shimamoto, Ko

Subjects

*RICE, *ANTISENSE DNA, *GENE expression, *DNA, *DEHYDROGENASES

Abstract

To regulate Waxy (Wx) gene expression by introducing antisense genes, we connected the 2.3 kb Wx cDNA having 450 bp of the Wx first intron in reverse orientation to rice Wx and maize alcohol dehydrogenase1 (Adh1) promoters and used these constructs to transform rice plants. Of 10 independent transgenic lines analysed, four lines showed various degrees of reduction in amylose and WAXY (WX) protein levels in the endosperm. In two transgenic lines, complete absence of amylose was observed which made the seeds opaque white like glutinous rice (amylose-deficient waxy (wx) mutant). In one of the transgenic lines, A1 line, the presence of the antisense Wx gene cosegregated with reduction of amylose content in the endosperm. In the same line, a reduction in the level of endogenous Wx mRNA was observed in immature endosperm. Interestingly, this reduction was observed only with mature spliced transcripts but not with unspliced transcripts. Reduced amylose synthesis was also observed in pollen grains of four transgenic lines. These results suggest that integrated antisense Wx gene caused a reduction in amylose synthesis in endosperms and pollen grains of transgenic rice carrying the antisense Wx cDNA. These results indicate that manipulation of starch and other carbohydrates in rice grain is possible using antisense genes. [ABSTRACT FROM AUTHOR]

Published

2000

31. Transgenic Rice Plants Expressing a Bacillus subtilis Protoporphyrinogen Oxidase Gene Are Resistant to Diphenyl Ether Herbicide Oxyfluorfen.

Author

Lee, Hee Jae, Lee, Sung Beom, Chung, Jung Sung, Han, Sung Uk, Han, Oksoo, Guh, Ja Ock, Jeon, Jong Seong, An, Gynheung, and Back, Kyoungwhan

Subjects

*TRANSGENIC rice, *RICE, *GENE expression in plants, *BACILLUS subtilis, *MICROBIOLOGY, *PLANTS, *PROTOPORPHYRINOGEN oxidase, *PHENYL ethers, *OXYFLUORFEN, *PLANT enzymes

Abstract

Protoporphyrinogen oxidase (Protox), the penultimate step enzyme of the branch point for the biosynthetic pathway of Chi and hemes, is the target site of action of diphenyl ether (DPE) herbicides. However, Bacillus subtilis Protox is known to be resistant to the herbicides. In order to develop the herbicide-resistant plants, the transgenic rice plants were generated via expression of B. subtilis Protox gene under ubiquitin promoter targeted to the cytoplasm or to the plastid using Agrobacterium-mediated gene transformation. The integration and expression of the transgene were investigated at T0 generation by DNA and RNA blots. Most transgenic rice plants revealed one copy transgene insertion into the rice genome, but some with 3 copies. The expression levels of B. subtilis Protox mRNA appeared to correlate with the copy number. Furthermore, the plastidal transgenic lines exhibited much higher expression of the Protox mRNA than the cytoplasmic transgenic lines. The transgenic plants expressing the B. subtilis Protox gene at To generation were found to be resistant to oxyfluorfen when judged by cellular damage with respect to cellular leakage, Chi loss, and lipid peroxidation. The transgenic rice plants targeted to the plastid exhibited higher resistance to the herbicide than the transgenic plants targeted to the cytoplasm. In addition, possible resistance mechanisms in the transgenic plants to DPE herbicides are discussed. [ABSTRACT FROM AUTHOR]

Published

2000

32. Frequency and Pattern of Transposition of the Maize Transposable Element Ds in Transgenic Rice Plants.

Author

Nakagawa, Yuko, Machida, Chiyoko, Machida, Yasunori, and Toriyama, Kinya

Subjects

*RICE, *TRANSGENIC rice, *PLANT genes, *PROMOTERS (Genetics), *PLANT genomes, *CAULIFLOWER, *MICROBIOLOGY, *PLANTS

Abstract

Two kinds of T-DNA constructs, I-RS/dAc-I-RS and HmRDs, carrying a non-autonomous transposable element of Ac of maize were introduced into rice plants by Agrobacterium-mediated gene transfer. Six transgenic rice plants identified as containing a single copy of the element were crossed with two transgenic rice plants carrying a gene for Ac transposase under the control of the cauliflower mosaic virus 35S promoter. In F2 progenies, excision of the element was detected by PCR analysis and re-integration of the element was investigated by Southern blot analysis. The frequency of the excision of the element was found to vary from 0 to 70% depending on the crossing combination. The frequency of the number of individual transposition events out of the total number of F2 plants with germinal excision was 44% in one crossing combination and 38% in the other. In the most efficient case, 10 plants with independent transposition were obtained out of the 49 F2 plants tested. Linkage analysis of the empty donor site and the transposed Ds-insertion site in F3 plants demonstrated that one of five Ds-insertion sites was not linked to the empty donor site. The transgenic rice obtained in this study can be used for functional genomics of rice. [ABSTRACT FROM AUTHOR]

Published

2000

33. Post-Transcriptional Gene Silencing in Cultured Rice Cells.

Author

Kanno, Tatsuo, Naito, Satoshi, and Shimamoto, Ko

Subjects

*RICE, *GENETIC transcription in plants, *TRANSGENIC rice, *PLANT gene silencing, *PLANT cell culture, *GENE expression in plants, *PLANT enzymes, *PLANT species

Abstract

Post-transcriptional gene silencing (PTGS) has been shown to occur in many transgenic dicotyledonous plants. Although transgene silencing has been documented in transgenic monocots, PTGS has been only recently described in monocotyledonous plants. To study PTGS in rice, we generated 25 transgenic rice cell lines in which the 35S-gus gene was stably integrated. In one transgenic cell line, lack of gus expression was shown to be caused by PTGS based on the results of run-on transcription assays. Furthermore, to examine whether reintroduction of the same plasmid DNA into cells in which the gus gene was highly expressed causes the suppression of the gus expression, the gus plasmid was introduced into protoplasts isolated from a high gus-expressing line. Results of the kinetic analysis of the GUS activities in transfected protoplasts indicated that the gus expression in transfected protoplasts was suppressed by the gus plasmid but not by the luc plasmid harboring the 35S-luciferase gene, suggesting that suppression of the gus expression by introduced plasmid DNA was homology-dependent. These results suggest that the transgenic protoplasts may be a useful experimental system to study PTGS in rice and other species. [ABSTRACT FROM AUTHOR]

Published

2000

34. Enhancement of Wx Gene Expression and the Accumulation of Amylose in Response to Cool Temperatures during Seed Development in Rice.

Author

Hirano, Hiro-Yuki and Sano, Yoshio

Subjects

*GENE expression in plants, *BIOACCUMULATION in plants, *SEED development, *RICE, *EFFECT of cold on plants, *TRANSGENIC rice, *PLANT genetics, *AMYLOSE

Abstract

The wx (waxy) locus controls amylose synthesis in the endosperm of rice (Oryza sadva). We found that Wx gene expression was activated reversibly in response to a cool temperature (18°C); that is, the steady state-level of the transcript from the wx locus (Wx transcript) was higher at a cool temperature (18°C) than at a normal temperature (28°C). The longer that rice plants were exposed to a cool temperature, the higher the levels of Wx protein and the greater the accumulation of amylose. These results indicated that the activation of the Wx gene resulted in the increase in amylose content at the cool temperature, which caused the reduction in the quality of rice. Since the activation was not observed in seeds grown at 4 or 35°C, the response of the rice Wx gene to a cool temperature was different from the responses to cold stress or heat shock. In transgenic plants that carried the gene for rβ-glucuronidase (GUS) under the control of the promoter of the Wx gene, enhancement of GUS activity was also detected at a cool temperature, suggesting that the Wx promoter is responsive to a cool temperature. [ABSTRACT FROM AUTHOR]

Published

1998

35. Whole-Plant Growth and N Utilization in Transgenic Rice Plants with Increased or Decreased Rubisco Content under Different CO2 Partial Pressures.

Author

Sudo, Emi, Suzuki, Yuji, and Makino, Amane

Subjects

*PLANT growth, *EFFECT of nitrogen on plants, *TRANSGENIC rice, *CARBON dioxide, *PARTIAL pressure, *PUBLISHING

Published

2015

36. Differential Effects of a Transgene to Confer Low Phytic Acid in Caryopses Located at Different Positions in Rice Panicles.

Author

Mio Kuwano, Fumio Takaiwa, and Kaoru T. Yoshida

Subjects

*PHYTIC acid, *TRANSGENES, *CARYOPSES, *PLANT gene silencing, *TRANSGENIC rice, *PROMOTERS (Genetics), *SEEDS, RICE genetics

Abstract

In previous studies, we attempted to reduce phytic acid in rice seeds by silencing the 1d-myo-inositol 3-phosphate synthase gene, RINO1, using an antisense sequence under the control of the rice glutelin GluB-1 promoter. The stable transgenic line showed a weak low phytic acid phenotype. In this study, we show that the position of the caryopsis in the panicle might affect the level of gene silencing through a difference in temporal and spatial expression patterns between RINO1 and GluB-1 promoters, resulting in a large variation in Pi levels and a small increase in Pi in the transgenic seeds. [ABSTRACT FROM AUTHOR]

Published

2009

37. Pathogen-Induced Expressional Loss of Function is the Key Factor in Race-Specific Bacterial Resistance Conferred by a Recessive R Gene xa13 in Rice.

Author

Meng Yuan, Zhaohui Chu, Xianghua Li, Caiguo Xu, and Shiping Wang

Subjects

*PATHOGENIC bacteria, *DISEASE resistance of plants, *MEMBRANE proteins, *AMINO acids, *TRANSGENIC rice, *RICE varieties, *PLANT genetics

Abstract

The fully recessive disease resistance (R) gene xa13, which mediates race-specific resistance to Xanthomonas oryzae pv. oryzae (Xoo), encodes a plasma membrane protein that differs by one amino acid from that encoded by its dominant (susceptible) allele Xa13. The molecular mechanism of xa13-mediated resistance is largely unknown. Here we show that, compared with its dominant allele, expressional non-reaction of xa13 to Xoo infection, not its protein composition, is the key factor for xa13-mediated resistance. We used the promoter (PXa13) of the dominant Xa13, which was induced by only the incompatible Xoo strain for xa13, to regulate xa13 and xa13Leu49 (a natural recessive allele of xa13) in the rice line IRBB13 carrying xa13. The transgenic plants showed the same level of susceptibility and bacterial growth rate as those of the rice line carrying dominant Xa13, accompanied by the induced accumulation of xa13 or xa13Leu49 proteins. Constitutive expression of dominant XA13 or different xa13 proteins (xa13, xa13Leu49, xa13Ala85 or xa13Val184) in IRBB13 had no effect on Xoo infection in the transgenic plants. These results suggest that race-specific pathogen-induced Xa13 expression is critical for infection. Thus, xa13 stands out from other R genes in that its functions in disease resistance are due to only the loss of pathogen-induced transcriptional motivation caused by natural selection. [ABSTRACT FROM AUTHOR]

Published

2009

38. Control of Starch Synthesis in Cereals: Metabolite Analysis of Transgenic Rice Expressing an Up-Regulated Cytoplasmic ADP-Glucose Pyrophosphorylase in Developing Seeds.

Author

Yasuko S. Nagai, Chotipa Sakulsingharoj, Gerald E. Edwards, Hikaru Satoh, Thomas W. Greene, Beth Blakeslee, and Thomas W. Okita

Subjects

*STARCH synthesis, *GRAIN, *PLANT metabolites, *TRANSGENIC rice, *RICE, *GENE expression in plants, *SEED development, *PHOSPHORYLASES, *PHYSIOLOGY

Abstract

We had previously demonstrated that expression of a cytoplasmic-localized ADPglucose pyrophosphorylase (AGPase) mutant gene from Escherichia coli in rice endosperm resulted in enhanced starch synthesis and, in turn, higher seed weights. In this study, the levels of the major primary carbon metabolites were assessed in wild type and four transgenic CS8 rice lines expressing 3- to 6-fold higher AGPase activity. Consistent with the increase in AGPase activity, all four transgenic CS8 lines showed elevated levels of ADPglucose (ADPglc) although the extent of increases in this metabolite was much higher than the extent of increases in starch as measured by seed weight. Surprisingly, the levels of several other key intermediates were significantly altered. Glucose 1-phosphate (Glc 1-P), a substrate of the AGPase reaction, as well as UDPglucose and Glc 6-P were also elevated to the same relative extent in the transgenic lines compared with the wild-type control. Analysis of metabolite ratios showed no significant differences between the wild type and transgenic lines, indicating that the reactions leading from sucrose metabolism to ADPglc formation were in near equilibrium. Moreover, glucose and fructose levels were also elevated in three transgenic lines that showed the largest differences in metabolites and seed weight over the wild type, suggesting the induction of invertase. Overall, the results indicate that the AGPase-catalyzed reaction is no longer limiting in the transgenic lines, and constraints on carbon flux into starch are downstream of ADPglc formation, resulting in an elevation of precursors upstream of ADPglc formation. [ABSTRACT FROM AUTHOR]

Published

2009

39. The 14-3-3 Protein GF14c Acts as a Negative Regulator of Flowering in Rice by Interacting with the Florigen Hd3a.

Author

Yekti Asih Purwestri, Yuka Ogaki, Shojiro Tamaki, Hiroyuki Tsuji, and Ko Shimamoto

Subjects

*FLOWERING of plants, *RICE, *PLANT proteins, *PLANT hormones, *PLANT bioassay, *GENE expression in plants, *TRANSGENIC rice, *PHYSIOLOGY

Abstract

Hd3a and FT proteins have recently been proposed to act as florigens in rice and Arabidopsis, respectively; however, the molecular mechanisms of their function remain to be determined. In this study, we identified GF14c (a 14-3-3 protein) as an Hd3a-interacting protein in a yeast two-hybrid screen. In vitro and in vivo experiments, using a combination of pull-down assays and bimolecular fluorescence complementation, confirmed the interaction between Hd3a and GF14c. Functional analysis using either GF14c overexpression or knockout transgenic rice plants indicated that this interaction plays a role in the regulation of flowering. GF14c-overexpressing plants exhibited a delay in flowering and the knockout mutants displayed early flowering relative to the wild-type plants under short-day conditions. These results suggest that GF14c acts as a negative regulator of flowering by interacting with Hd3a. Since the 14-3-3 protein has been shown to interact with FT protein in tomato and Arabidopsis, our results in rice provide important findings about FT signaling in plants. [ABSTRACT FROM AUTHOR]

Published

2009

40. Increased Rubisco Content in Transgenic Rice Transformed with the Sense rbcS Gene.

Author

Yuji Suzuki, Maki Ohkubo, Hanako Hatakeyama, Keiko Ohashi, Ryuichi Yoshizawa, Soichi Kojima, Toshihiko Hayakawa, Tomoyuki Yamaya, Tadahiko Mae, and Amane Makino

Subjects

*TRANSGENIC rice, *RICE, *PLANT genetics, *PLANT genetic engineering

Abstract

Rice (Oryza sativa L.) plants with substantially increased Rubisco content were obtained by Agrobacterium-mediated transformation with the rice rbcS sense gene under the control of the rice rbcS promoter. The primary transformants were screened for the ratio of Rubisco to leaf-N content, and the transformants with >120% wild-type levels of Rubisco were selected. In the progeny of the selected lines of the transformants, the mRNA levels of one member of the rbcS gene family were increased from 3.9- to 6.2-fold, whereas those of other members of the rbcS gene family were unchanged. The total levels of rbcS mRNA were increased from 2.1- to 2.8-fold. The levels of rbcL mRNA were increased from 1.2- to 1.9-fold. Rubisco protein content was significantly increased by 30% on a leaf area basis. The ratio of Rubisco-N to leaf-N was also increased by 10–20%, irrespective of N treatment. The specific activity of Rubisco per unit of enzyme protein was not different. However, light-saturated photosynthesis was not enhanced even when the rate was measured at low [CO2] where Rubisco becomes limiting for photosynthesis. Some lines showed lower photosynthesis at high [CO2] (>60?Pa). We conclude that introduction of additional sense rbcS leads to overexpression of rbcS and that this overexpression slightly up-regulates the gene expression of rbcL at the transcript level and enhances the amount of Rubisco holoenzyme. However, overproduction of Rubisco protein does not improve photosynthesis. [ABSTRACT FROM AUTHOR]

Published

2007