Detection of Sugar-Regulated Gene Expression and Signaling in Suspension-Cultured Rice Cells

To better understand the mechanism of sugar signaling in rice cell, the suspension-cultured rice cells were transferred from sucrose-containing (+S) to sucrose-free (-S) of MS culture medium, we found that ribosomal RNAs (rRNAs) were degraded progressively. This suggests that carbon, nitrogen, and phosphate were recycled in this process and the reduction in cellular rRNAs might lead to decreased translation to save energy in response to sugar starvation. Differential screening revealed that two groups of genes, sugar-starvation-repressed (SSR) and sugar-starvation-activated (SSA) genes, were regulated by sugar in an opposing manner. Northern-blot analysis showed that two major hybridization signals of 0.8 and 1.9 kb were induced strongly under sugar starvation. The two populations of genes corresponded with homologs of α-amylases (1.9 kb) and the glycine-rich proteins (GRPs) gene family (0.8 kb), and all were SSA genes. Expression of GRP genes was strongly induced in sugar-starved cells, which suggests that GRPs may help to protect cells against nutritional stress. Treatment of +S and -S cells with the protein kinase (PK) inhibitor staurosporine (St) and the serine/theronine phosphoprotein phosphatases 1 (PP1) and 2A (PP2A) inhibitor okadaic acid (OA) revealed that PP1 and PP2A (PPs) might be involved in increasing SSR gene expression in +S cells, and that activation of the majority of the SSA genes in -S cells might be due to PKs activity. These results suggested that PKs and PPs might be involved in the sugar regulation of SSR and SSA gene expression. An in-gel PK activity assay demonstrated that the activity of two classes of PKs (50 and 66 kDa) may be induced rapidly after transfer of +S cells to -S medium. Following transfer of -S cells to +S medium, a novel class of 38 kDa PK was induced rapidly and showed high activity. The 38 kDa PK might play a role in sugar sensing, and the 50 and 66 kDa PKs might play roles in signal sensing under sugar starvation in rice cells. These results provide valuable information on three classes of protein kinases that might play key roles in sugar sensing and signaling in rice.

Characteristics of the Mesophyllous Cells in the Sheaths of Rice (Oryza sativa L.)

The photosynthesis of rice sheath plays a significant role to furnish rice yield, and it is accounted for 10 to 20% of the final yield. But, limited studies have been done to address this phenomenon and to characterize the mesophyllous cells of rice sheath and how it may attribute to the rice yield. In this paper, super hybrid rice Liangyoupeijiu, its parents Wumang 9311 and Peiai 64S, and hybrid rice Shanyou 63 were studied as the experimental materials, and the characteristics of the mesophyllous cells of rice sheaths were examined by microscopic and super-microscopic observation as well as chlorophyll absorption spectrums. The results showed that rice sheath was rich in the intact mesophyllous cells full of chloroplasts, grana and thylakoids, which were much the same as those of rice blade. The absorption spectrum curves of the Chl. a and b of the sheaths were similar to those of the blades. The stomatal density in the outer epidermises of the sheaths was comparable to those in the up- and down-epidermises of the blades. The significant tests proved that the amount of chloroplast per mesophyllous cell of the sheaths was almost the same as those of the blades, and the mesophyllous cells in the sheaths were also rich in chlorophylls. The chlorophyll content of rice sheath reached about 50% of the chlorophyll content of rice blade, and the P, of the sheath/the blade ranged from 13.60 to 34.57%. Therefore, rice sheath was also full of the intact photosynthetic apparatus similar to those in rice blade, and had capabilities of photosynthesis. The statistical analysis revealed that the physiological senescence of the photosynthetic apparatus in both the sheath and the blade of Liangyoupeijiu was significantly slower than those of the other varieties at the late stages. The profuse grain-filling stage was an inflexion point of the physiological senescence of the chloroplasts and the chlorophylls of both the blades and the sheaths.

Studies on the Programmed Cell Death in Rice During Starchy Endosperm Development

Morphological variations of the nucleus in starchy endosperm cell were observed by theelectron-transmisson microscope during endosperm development in rice. Along with thedevelopment of the starchy endosperm, the nuclei of the cells showed chromatin condensation,the typical feature of programmed cell death (PCD). The nuclei also showed nucleusdeformation, disruption of nuclear envelope, nucleoplasm leaking into the cytoplasm andnucleus disintegration resulting in nuclear residue formation. From the nucleus deformationto the nucleus disintegration, the morphological changes of the nucleus were orderlyprogressive. This indicated that the cell death of starchy endosperm in rice wasprogrammed cell death. Evans Blue staining observation showed that the cell death wasinitially detected in the central part of starchy endosperm in rice, then expandedoutward. The activities of superoxide dismutase (SOD) and catalase (CAT) in rice starchyendosperm both descended continuously as development progressed. The analysis of DNA ofrice starchy endosperm did not show the presence of DNA laddering. The above resultsshowed that the cell death of starchy endosperm in rice was a special form of PCD.

Evaluating Kinetic Composing of Cell Wall for Low-Fiber Mutation Rice

The work compared the differences of low fiber mutation rice (LF, Nendao) that selectedthrough gamma-ray (γ) with parental variety Shuangkezao (CK) on their biologicaldevelopment and cell wall composing after rice heading stage. Comparing with parentalrice, LF rice revealed an advantage on its vegetative growing by increasing the yieldsof leave blade, leave sheath and stem for 27.77, 30.19 and 37.96% respectively. And thecellulose content of LF rice straw was decreased remarkably for 23.9%, the hemicellulose,lignin and biogenic silicon contents were increased contrarily for 11.94, 8.79 and 5.60%respectively. Moreover, the crude protein content was increased by 20.71% for LF rice andwith an improvement on its solubility for 63.49% concomitantly. The results indicatedthat the low-fiber mutation rice exhibited its potential as a fodder-rice variety or asdual-purpose rice to improve fiber degradability of straw.

Effect of ^(211)At treating pollen and stigma on generative cells and seed setting of rice

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Identification of an anticancer compound against HT-29 cells from Phellinus linteus grown on germinated brown rice

Objective:To isolate and identify the anticancer compound against proliferation of human colon cancer cells from ethyl acetate(EtOAc)extract ol Phellinus linteus grown on germinated brown rice(PB).Methods:EtOAc extract of PB was partitioned with n-hexane,EtOAc,and water-saturated n-butanol.Anticancer compound of n-hexane layer was isolated and identified by HPLC and NMR,respectively.Cytotoxicity against HT-29 cells was tested by SRB assay.Results:The n-hexane layer obtained after solvent fractionation of PB EtOAc extracts showed a potent anticancer activity against the HT-29 cell line.Atractylenolide I,a eudesmane-type sesquiterpene lactone,a major anticancer substance of PB,was isolated from the n-hexane layer by silica gel column chromatography and preparative-HPLC.This structure was elucidated by one-and two-dimensional NMR spectroscopic data.Atractylenolide I has not been reported in mushrooms or rice as of yet.The isolated compound dose-dependently inhibited the growth of HT-29 human colon cancer cells.Conclusions:Atractylenolide I might contribute to the anticancer effect of PB.

Effects of CO_2 laser on chromosomal aberration in the root tip cells of rice

Seeds of japonica rice cv.Zhenuo 2 with twodifferent physiological states(dry seeds withwater content 13% and wet seeds soaked in thewater for 36 h)were irradiated by COlaser infour different power-densities and durations re-spectively.The treatment irradiated with 200GY ofCo γ-rays was considered as control.The flesh root tips were cut and fixed inCarnoy’s fluid for cytological examination.

The location of 5′-nucleotidase in seedling cells in Yunnan rice varieties and the change of enzyme activity after chilling injury

The seedlings of three rice varieties (Damagu,Ligeng 2, and Xiuzinuo) were cultivated at 25 ±1℃. After chilling injury (at 2~C), blacksediments of lead phosphate appeared on plas-

BRITTLE CULM16(BRITTLE NODE) is required for the formation of secondary cell walls in rice nodes

Plant cell walls constitute the skeletal structures of plant bodies,and thus confer lodging resistance for grain crops.While the basic cell wall synthesis machinery is relatively well established now,our understanding of how the process is regulated remains limited and fragmented.In this study,we report the identification and characterization of the novel rice（Oryza sativa L.）brittle culm16（brittle node;bc16）mutant.The brittle node phenotype of the bc16 mutant appears exclusively at nodes,and resembles the previously reported bc5 mutant.Combined histochemical staining and electron microscopy assays revealed that in the bc16 mutant,the secondary cell wall formation and thickening of node sclerenchyma tissues are seriously affected after heading.Furthermore,cell wall composition assays revealed that the bc16 mutation led to a significant reduction in cellulose and lignin contents.Using a map-based cloning approach,the bc16 locus is mapped to an approximately 1.7-Mb region of chromosome 4.Together,our findings strengthen evidence for discretely spatial differences in the secondary cell wall formation within plant bodies.

Morphological and Molecular Dissection of Leaf Development in Wild-Type and Various Morphogenetic Mutants in Rice

Leaf cells undergo two main developmental events;i.e., cell proliferation and cell differentiation, before maturation. These events occur sequentially at specific positions and with specific timing during leaf development. To understand the transition from cell proliferation to cell differentiation of rice leaves, we analyzed rice leaves from both morphological and molecular viewpoints. The results of anatomical, morphological, and histochemical analyses indicated that P4 leaf primordium is the stage when dynamic transition of the cellular state from immature to mature along the proximal-distal axis of the leaf occurs. We screened for marker genes showing a dynamic expression pattern along the proximal-distal axis of the P4 leaf, and applied them to expression analysis in wild-type and various morphogenetic mutants. The changes in expression pattern of the marker genes varied between developmental stages and between mutants. Our analysis reinforced previous data regarding the developmental transition of wild-type rice leaves and indicated that the transition can be monitored using our molecular markers. The results of this study indicate that expression analysis using these molecular markers would be valuable for understanding the genetic effects on leaf development in various leaf morphogenetic mutants.

Effect of High Temperature on Sucrose Content and Sucrose Cleaving Enzyme Activity in Rice Grain During the Filling Stage

Dynamic changes of sucrose, fructose, glucose contents and differences in activities of sucrose synthase, vacuolar invertase, and cell wall bound invertase in rice grain after flowering stage were studied under natural and high temperatures by using two japonica rice varieties Koshihikari and Sasanishiki. In rice grains, the sucrose synthase activity was higher than that of invertase, which was significantly correlated with starch accumulation rate, indicating that the sucrose synthase played an important role in sucrose degradation and starch synthesis. Under high temperature, the significant increase in grain sucrose content without any increase in fructose and glucose contents, suggested that the high temperature treatment enhanced sucrose accumulation, while diminished sucrose degradation in rice grains. Compared with the control plants, the decrease in activities of sucrose synthase, vacuolar invertase, and cell wall bound invertase with high temperature treated plants indicated that the deceleration of sucrose-degradation was related to the decrease in activities of sucrose synthase and invertase.

Antioxidative and Neuroprotective Activities of the Pre-Germinated Brown Rice Extract

We evaluated the effects of pre-germinated brown rice extract (PGBR ex) with enhanced levels of GABA on proliferation and apoptosis of neuronal SK-N-SH cells line. Firstly, we used HPLC methods to study the level of γ-aminobutyric acid (GABA) in all rice extracts. We found that the concentration of GABA in the PGBR ex were 3 and 8 times higher than the GABA concentration in non-germinated brown rice (BR ex) and white rice (WR ex) compared with the stan- dard GABA respectively. Next we study the protective effects of brown rice extract by investigating various methods, we found that the effects of dose-dependent study by treated with PGBR ex, BR ex and WR ex at (0 - 4000 μg/ml). The data from MTT assay showed that the higher concentration of all rice extracts were not induced toxicity to SK-N-SH cells. To test the protective effect by study the viability of SK-N-SH cells. These results showed that PGBR ex and BR ex can protect cells by significantly increase cells survival up to 29.3% ± 0.01% and13.4% ± 0.07 % (p 56.9% ± 0.02 % (p < 0.05), compared with un- treated cells (control). Next study we test the effect of cells apoptotic by ROS assay and DNA fragmentation. The results showed that PGBR ex were definitely decrease the amount of ROS formation and had a little of DNA ladders comparable with condition that induced by 150 ?M H2O2. Our data indicating that PGBR ex with enhanced levels of GABA effectively inhibit SK-N-SH cells proliferation and apoptosis. These present results suggest that intake of PGBR and BR instead of WR is effective to protect cell proliferation and apoptosis which may be useful nutritional to prevent neuronal cells from neurodegenerative disease.

Optical Sum Frequency Generation Image of Rice Grains

We observed optical sum frequency generation (SFG) images of cross-sections of glutinous rice grains, in order to test a possibility of the SFG microscopy as a tool for monitoring polysaccharide species in rice grains. The SFG response in the CH vibration range was the most intense in the crush cell layer at the edge of the endosperm adjacent to the embryo probably due to optical reflection and scattering effectby the rugged dielectric structure of the crush cell layer. The SFG spectra as a function of the infrared wavelength depended on the measurement position in the endosperm. The SFG results were compared with those by Raman and infrared spectroscopies for the same samples.

Comparison of Tissue Transglutaminase Activity During Young Panicle Development in Honglian-type Cytoplasmic Male Sterile Rice

To investigate the changes of tissue transglutaminase activity, the leaves and young panicles of rice at different developmental stages were excised from the Honglian-type cytoplasmic male sterile line, Yuetai A and its maintainer line, Yuetai B, respectively. An ELISA measurement protocol for tissue transglutaminase activity detection in rice was well established. The results indicated that the tissue transglutaminase activity was regulated positively by calcium cation, and the tissue transglutaminase activity in senescent leaves was remarkably higher than that in young leaves. No distinct difference was noted between Yuetai A and Yuetai B. Moreover, from the tetrad to binucleate stages the tissue transglutaminase activity increased gradually with the progression of the young panicle development and up to maximum at binucleate stage in Yuetai A. However, no similar changes were observed in Yuetai B. This indicates that the tissue transglutaminase is involved in cell programmed death in abortive pollen.

硅对锰-铅复合胁迫下水稻幼苗叶片细胞壁多糖组分中锰和铅含量的影响

【目的】探究不同浓度SiO_(2)对锰-铅(Mn-Pb)复合胁迫下水稻幼苗叶片细胞壁多糖组分中Mn和Pb含量的影响,为利用农艺措施治理矿区农田重金属复合污染提供理论依据。【方法】在模拟矿区重金属污染前提下,先用水培法将水稻种子培养至5叶1心期,然后用2 mmol/L Mn^(2+)+2 mmol/L Pb2+溶液复合胁迫水稻幼苗。设6个不同的SiO_(2)处理浓度:0(对照,CK)、70、90、110、130和150 mg/L。处理后提取水稻幼苗叶片细胞壁多糖组分,测定和分析其中Mn和Pb含量。【结果】施加SiO_(2)增加细胞壁多糖组分(果胶质、半纤维素和纤维素)中Mn和Pb含量。与CK相比,当SiO_(2)浓度为70~110 mg/L时,细胞壁果胶质中Mn和Pb含量较高;SiO_(2)处理下果胶质中Pb含量大于Mn含量,当SiO_(2)浓度小于90 mg/L时,水稻幼苗叶片细胞壁中Pb含量小于Mn含量。SiO_(2)浓度为110 mg/L时,在半纤维素和纤维素中Mn和Pb含量均较高;水稻幼苗叶片细胞壁半纤维素中Pb含量大于Mn含量,SiO_(2)浓度小于90 mg/L时,纤维素中Pb含量为负值。未施加SiO_(2)时,Mn和Pb的主要结合位点分别为纤维素和果胶质,施加SiO_(2)使Pb的主要结合位点转移为半纤维素。【结论】SiO_(2)能增加重金属Mn和Pb在细胞壁多糖组分中的含量。Mn-Pb复合胁迫下,SiO_(2)浓度为110 mg/L时,Mn和Pb的含量在细胞壁、果胶质、半纤维素和纤维素中均较多。

水稻叶形态的建成及分子机制研究进展

水稻叶片形态是决定理想株型的关键因素。根据“源库”理论,水稻叶片形态通过影响光合效率等“源”流影响水稻产量。其中,叶片大小、卷曲度以及叶倾角是植物整体株型和叶型中决定产量的关键农艺性状。近年来,已有许多控制叶片形态的基因被克隆与鉴定。水稻叶片发育过程可分为3个阶段:水稻叶原基的形成、极性的建立及维持、叶片的扩张。近年来,随着分子生物学技术的快速发展,众多调控水稻叶片形态的关键基因的重要功能已被阐明。譬如,PLA1、PLA2等基因在细胞分裂过程中的协同作用,NAL1、NAL9、NRL1、NRL2等基因在叶脉发育中的协同调控,SLL1、SRL2等基因对厚壁组织细胞结构的精细调控,OsPIN1、OsWOX3A等基因对植物激素的极性运输和分配等,共同构成了水稻叶片形态复杂调控网络的基石,为深入理解作物叶片形态发育的分子机制提供了重要线索。研究影响水稻叶片形态的分子机制,对于利用“源库”理论实现水稻的高产稳产具有重要生物学意义。

水稻OsCNGC10基因抗倒伏性以及抗旱性功能研究

环核苷酸门控离子通道是一种配体门控的阳离子通道,存在于动物和植物体内,是真核生物信号级联反应的重要组成部分。本研究利用水稻环核苷酸门控离子通道(cyclic nucleotide-gated channel,OsCNGC10)基因,构建了超表达载体pU1301-CNGC10-Flag和双靶点敲除载体pRGEB32-CRISPR/cas9-cngc10,通过农杆菌介导的遗传转化法获得敲除和过表达材料,并从T2代中分离到纯合植株oscngc10-2及OE-CNGC10-6。转基因植株茎秆特性以及抗倒伏性分析表明,突变体oscngc10-2茎秆强度和抗倒伏性增强;茎秆细胞壁组织切片以及组织成分分析则表明突变体oscngc10-2植株抗倒伏性增强是由于茎秆细胞壁茎壁厚度、薄壁组织细胞丰度以及木质素含量增加所致;过表达OsCNGC10降低了茎秆壁厚、茎秆木质素含量以及茎秆细胞壁细胞丰度,敲除OsCNGC10增加了茎秆木质素含量且增加了茎秆细胞壁薄壁细胞丰度,初步证明OsCNGC10与水稻茎秆细胞壁成分合成相关,负调控水稻抗倒伏性;T2代田间试验结果表明,与野生型相比,突变体oscngc10-2植株的株高、有效穗、穗长、穗粒数、结实率、千粒重和单株产量等农艺性状显著提升;苗期干旱胁迫实验结果表明,在干旱胁迫下,OsCNGC10基因缺陷型植株体内丙二醛(MDA)含量积累速度加快,且无法形成足够的游离脯氨酸,而过表达OsCNGC10植株在遭受干旱胁迫时,体内游离脯氨酸(Pro)含量大量升高,且MDA积累速度相对变慢,初步说明OsCNGC10正向调控水稻苗期抗旱性。本研究结果表明水稻OsCNGC10可能在水稻抗倒伏及抗旱方面有潜在功能,为培育抗倒伏且高产的水稻新品种提供了理论基础和新的种质资源。

过氧化氢在水稻镉耐受及吸收分配中的作用机理

[目的]研究镉(Cd)胁迫下不同浓度过氧化氢(H_(2)O_(2))对水稻幼苗生长、根系发育及活性氧、Cd含量的影响,阐明H_(2)O_(2)在水稻Cd耐受和吸收分配中的作用机理。[方法]采用水培试验方法,供试材料为粳型水稻(Oryza sativaL.,ZH11)。在水稻营养液中添加10μmol/L CdCl_(2)进行Cd胁迫,同时分别添加0、20、80μmol/L H_(2)O_(2)溶液,以正常营养液培养为对照(CK)。处理1天后取根系鲜样测定水稻幼苗内源H_(2)O_(2)、超氧阴离子含量;处理30天后,测定水稻幼苗倒二叶的SPAD值、株高、根系形态、干物质重、Cd^(2+)含量,提取根表铁膜及亚细胞组份。为验证外源H_(2)O_(2)在Cd胁迫中的作用,设置了H_(2)O_(2)清除剂碘化钾(KI)添加试验,对水稻幼苗进行10μmol/L CdCl_(2)+20μmol/L KI和20μmol/L KI处理。处理20天时,测定水稻幼苗倒二叶的SPAD值和株高。从CK和10μmol/L CdCl_(2)、10μmol/L CdCl_(2)+20μmol/L H_(2)O_(2)处理1天的水稻根中提取总RNA。[结果]Cd胁迫下,水稻生长受到抑制,外源添加H_(2)O_(2)显著缓解了水稻Cd胁迫,且随着浓度增加缓解效果减弱,但添加KI加剧Cd胁迫造成的抑制作用。20μmol/L H_(2)O_(2)处理下,水稻株高较无H_(2)O_(2)处理增加了35.1%,倒二叶SPAD值提高了50.5%,地上部和根部干重分别显著提高227.1%和339.0%,根系形态参数(总根长、根表面积、根体积、根尖数)显著增加。Cd胁迫导致水稻幼苗根中超氧阴离子含量显著增加,外源添加H_(2)O_(2)可以显著降低超氧阴离子含量。外源H_(2)O_(2)通过下调OsNRAMP5的表达水平,降低水稻对Cd的吸收,根和地上部中Cd离子含量均显著下降。此外,H_(2)O_(2)处理促进水稻根表铁膜的形成,吸附较多的Cd离子在根表,抑制了Cd从根表向根内的转移。在根内,H_(2)O_(2)处理上调了果胶的合成和果胶甲酯酶基因表达水平,促进了细胞壁中Cd的区隔化,降低了细胞质中Cd含量,从而减轻Cd的细胞毒性。[结论]外源添加适宜水平的H_(2)O_(2)可降低O_(2)^(-)造成的氧化损伤,同时下调OsNRAMP5的表达水平,减少水稻对Cd的吸收。外源H_(2)O_(2)还可促进水稻根表形成铁膜,抑制Cd^(2+)从根表向根内的转移,促进细胞壁中Cd的区隔化,干扰细胞质中Cd的移动,从而减轻Cd的细胞毒性,提高水稻抗Cd胁迫能力。但外源高水平H_(2)O_(2)缓解水稻Cd胁迫的效果大幅减弱,这可能与其抑制根表铁膜的形成有关。

Protection of Allergic Asthma in Mice by Black Rice Bran Bioprocessed with Shiitake Mushroom Mycelia

We evaluated the potential of orally fed new food formulations to inhibit biomarkers reported to be involved in the causes of allergic asthma in mice. Asthma, a serious non-communicable disease, affects both adults and children and can be undertreated. New functional foods could provide therapeutic approaches. Here, the anti-asthma mechanism of a new functional food and three isolated fractions produced by bioprocessing black rice bran with shiitake mushroom mycelia was evaluated in mast cells, B cells, and orally fed mice and compared with non-bioprocessed black rice bran. In vitro, the treatments inhibited RBL-2H3 cell degranulation and immunoglobulin E (IgE) production. The in vitro anti-asthma effects were confirmed in orally fed mice following asthma induction by alumina and chicken egg ovalbumin (OVA). The suppression of asthma resulted from the inhibition of inflammation- and immune-related substances, including OVA-specific IgE, thymic stromal lymphopoietin, eotaxin, leukotriene C4, prostaglandin D2, and vascular cell adhesion molecule-1 in bronchoalveolar lavage fluid and serum. The treatment also reversed the thickening of the lung airway wall. The inflammation and asthma inhibition seems to be regulated by the balance of the T-helper cells’ Th1/Th2 immune response and the inhibition of multiple biomarkers associated with the cause of asthma. Future human clinical studies with adults and children should determine the potential therapeutic value of the anti-asthma effects of the new functional foods.

水稻耐低温研究进展

水稻是世界上的主要粮食作物之一,低温将导致水稻发育延缓,长期遭受低温胁迫易导致水稻枯萎死亡。全球每年约有1 500万hm^(2)的水稻面临低温胁迫危害,低温冷害已成为水稻减产的主要原因之一。为系统了解水稻耐低温机理研究进展,总结了低温对水稻细胞结构特征的影响、低温对水稻生理生化特性的影响、水稻耐低温优良品种选育和水稻耐低温的分子机理的研究现状,并展望了水稻耐低温品种的未来选育方向。