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1.
We present highly sensitive aluminum detection method in root using fluorescent lumogallion. Roots treated with 100 μM AlCl3 including 0.2 mM CaCl2 (pH 4.5) were stained for 60 min with 10 μM lumogallion fluorescence solution and fluorescence from aluminum complex in root was observed under confocal laser microscope. There was a good correlation between the intensity of fluorescence and aluminum content. When the amount of aluminum lost during each step in staining process was measured, it was found that about 10% of aluminum was lost only at staining stage. Through lumogallion staining method, aluminum accumulation especially at an early stage of aluminum treatment in root was shown. At the beginning (2 hr), aluminum began to be accumulated in root cap. After 4 hr treatment, the aluminum distribution was spread to about 3 mm from root apex in the root cap and outer cortex. When aluminum was found in the outer cortex in 3–5 mm from the root apex, the viability was tended to be decreased in the same area (6 hr). At the same time, aluminum amount in meristem was increased. However the comparison of lumogallion staining method with that of morin, which has been widely used to detect aluminum in root, the sensitivity of lumogallion method was found to be much higher.  相似文献   
2.
We report the synthesis of novel 3-substituted 5-benzylidene-1-methyl-2-thiohydantoins 3, and their biological evaluation using NADPH oxidase (NOX) 1 and 4. Based on structural and pharmacophore analyses of known inhibitors such as hydroxypyrazole 2, we envisioned interesting 2-thiohydantoin compounds, 3-substituted 5-benzylidene-1-methyl-2-thiohydantoins 3 that would be expected to well match the structural features in 2. Efficient synthesis of eighteen target compounds 3 were achieved through the synthetic pathway of 4  11  3, established after consideration of several plausible synthetic pathways. The inhibitory activities of compounds 3 against NOX 1 and 4 were measured, with some of the target compounds showing similar or higher activities compared with reference 2; in particular, compounds 3bz, 3cz, and 3ez were found to be promising inhibitors of both NOX 1 and 4 with modest isozyme selectivities, which highlights the significance of the 2-thiohydantoin substructure for inhibition of NOX 1 and 4. This marks the first time these compounds have been applied to the inhibition of NOX enzymes.  相似文献   
3.
A novel method of preparation of hexahydroaluminate complexes M3AlH6 (M = Li, Na or K) from the corresponding alkali metal hydride and tetrahydroaluminate has been explored, using dimethyl ether (Me2O) as a solvent at near-ambient temperatures. The results are compared with those obtained using a recently established mechanochemical approach. Characterization of the products by powder X-ray diffraction revealed M3AlH6 to be formed in high yield for M = Li and Na, but not for M = K. The attempted preparation of Li2NaAlH6 and Li2KAlH6 was unsuccessful.  相似文献   
4.
Abstract: Al complexes are known to accumulate in extra- and intracellular compartments of the brain in the course of different encephalopathies. In this study possible effects of Al accumulation in the cytoplasmic compartment on mitochondrial metabolism were investigated. Al, like Ca, inhibited pyruvate utilization as well as citrate and oxoglutarate accumulation by whole brain mitochondria. Potencies of Ca2+total effects were 10–20 times stronger than those of Al. Al decreased mitochondrial acetyl-CoA content in a concentration-dependent manner, along with an equivalent rise of free CoA level, whereas Ca caused loss of both intermediates from mitochondria. In the absence of Pi in the medium, Ca had no effect on mitochondrial metabolism, whereas Al lost its ability to suppress pyruvate utilization and acetyl-CoA content in Ca-free conditions. Verapamil potentiated, whereas ruthenium red reversed, Ca-evoked suppression of mitochondrial metabolism. On the other hand, in Ca-supplemented medium, Al partially overcame the inhibitory influence of verapamil. Accordingly, verapamil increased mitochondrial Ca levels much more strongly than Al. However, Al partially reversed the verapamil-evoked rise of Ca2+total level. These data indicate that Al accumulated in cytoplasm in the form of the Al(PO4)OH complex may inhibit mitochondrial functions by an increase of intramitochondrial [Ca2+]total resulting from the Al-evoked rise of cytoplasmic [Ca2+]free, as well as from inhibitory interference with the verapamil binding site on the Na+/Ca2+ antiporter.  相似文献   
5.
In this study we report on the characterization of a series of pentacoordinate aluminum 8-hydroxyquinolines, AlQ2X (X = F, Cl, Br), composed of two 8-hydroxyquinoline (8-HQ) groups and one halogen ligand. These were prepared by reacting 8-hydroxyquinoline and dialkylaluminum halide stoichiometrically. The λmaxs of absorption and emission were in the range of 385-388 and 515-516 nm, respectively, which were similar to AlQ3. The molar absorptivity of AlQ2X is similar regardless of the X group but emission efficiency of AlQ2X is 2-3 fold higher than that of AlQ3 when X = F or Br, but not when X = Cl. This result can be attributed to decreased quenching of energy due to a less steric environment by reducing quinolinate content. The overall molecular orbital structures and the absorption spectra of AlQ2X and AlQ3 are very similar due to a single quinolinate unit. The value of the potential difference of AlQ2Xs between anodic and cathodic waves (ΔE = 3.12 V) is close to the estimated HOMO-LUMO energy gap (the optical band gap, ΔEoptical ∼ 1240/λmax), 3.19 eV. Detailed optical and electrochemical properties of AlQ2X are discussed.  相似文献   
6.
Summary A large number of aluminum-resistant variants, selected from non-mutagenized homozygous diploid cell cultures of Nicotiana plumbaginifolia Viv., are characterized. Of 115 variants cloned and reselected from single cells, 67 retained Al resistance in callus cultures after 6–9 months of growth in the absence of Al. There was no association between Al resistance and callus growth in the absence of Al, suggesting that the Al-resistant phenotype is not detrimental in the absence of Al challenge and that Al resistance is not the result of increased vigor. Plants regenerated from initially resistant callus lines that subsequently lost their resistance failed, with one exception, to transmit resistance to their seedling progeny. Fertile plants were regenerated from 40 of the 67 variants that retained stable Al resistance in callus culture. All 40 transmitted Al resistance to their seedling progeny (selfed and backcrossed) in segregation ratios expected for a single dominant mutation. The selfed progeny of many variants also segregated for recessive lethal mutations which were attributed to independent mutations that occurred during cell culture.  相似文献   
7.
Averaging 8.1% (w/w) of the earth's crust, aluminum is the most highly abundant metal in our biosphere, yet has long been thought to serve no essential biological function. In aqueous solutions, aluminum salts and hydroxides are exceptionally potent aggregators of biological molecules, often coalescing molecular species to the point that they precipitate out of solution. A biological function for aluminum is proposed in which this abundant, high charge density metal cation has a significant role in biomolecular compaction. Sometimes, molecules ectopically aggregated by aluminum are associated with pathological conditions. The data further suggests that a specific consequence of ‘aluminum biocompaction’ may be particularly important in the condensation of A + T-rich chromatin domains, and in silencing the expression of specific kinds of genetic information.  相似文献   
8.
铝胁迫对不同小麦SOD、CAT、POD活性和MDA含量的影响   总被引:16,自引:0,他引:16  
方法:采用室内水培试验法,研究了不同浓度铝胁迫对耐性不同的几种基因型小麦叶片和根系内SOD、CAT、POD活性和MDA含量的影响。结果:表明铝胁迫条件下导致小麦叶片和根系的3种酶活性在一定范围内随胁迫强度的增加而上升,重度胁迫下会有所下降。这说明SOD、POD、CAT活性的提高与维持是植物耐铝胁迫的重要生理基础。另外,耐铝品种变化不显著,始终维持在比较稳定的活性水平,这可能与铝诱导的有机酸分泌有关,敏感性品种的酶活性在胁迫下会有所下降。而MDA含量在轻度胁迫下变化不明显,在重度胁迫下才会有明显变化,其含量的变化与小麦的耐铝性也有着密切的关系。  相似文献   
9.
Aluminum (Al) toxicity is considered as one of the primary causes of low-rice productivity in acid soils. In the present study, quantitative trait loci (QTLs) controlling Al resistance based on relative root elongation (RRE) were dissected using a complete linkage map and a recombinant inbred lines (RILs) derived from a cross of Al-tolerant japonica cultivar Asominori (Oryza sativa L.) and Al-sensitive indica cultivar IR24 (O. sativa L.). A total of three QTLs (qRRE-1, qRRE-9, and qRRE-11) were detected on chromosomes 1, 9, and 11 with LOD score ranging from 2.64 to 3.60 and the phenotypic variance explained from 13.5 to 17.7%. The Asominori alleles were all associated with Al resistance at all the three QTLs. The existence of these QTLs was confirmed using Asominori chromosome segment substitution lines (CSSLs) in IR24 genetic background (IAS). By QTL comparative analysis, the two QTLs (qRRE-1and qRRE-9) on chromosomes 1 and 9 appeared to be consistent among different rice populations while qRRE-11 was newly detected and syntenic with a major Al resistance gene on chromosome 10 of maize. This region may provide an important case for isolating genes responsible for different mechanisms of Al resistance among different cereals. These results also provide the possibilities of enhancing Al resistance in rice breeding program by marker-assisted selection (MAS) and pyramiding QTLs.  相似文献   
10.
Concentrations of soluble aluminum (Al) and manganese (Mn) frequently reach phytotoxic levels in acid soils. While dose response relationships for these metals are well documented, the effects of combined exposure have received less attention. We have examined the effect of combinations of Al and Mn on growth and metal accumulation in Vigna unguiculata (L.) Walp. grown in solution culture under conditions of low ionic strength (conductivities typically < 100 µS cm−1). The nature of interaction between these metals varied with the specific physiological response, the part of the plant investigated, and the relative amount of stress imposed. Analysis of growth data provided evidence for amelioration of metal toxicity (antagonistic effects), although this effect was dose dependent. Analysis of metal content data provided evidence for antagonistic and synergistic (exacerbation of toxicity) effects, again depending on dose. Analysis of foliar symptoms also provided evidence for antagonisms and synergisms, with the nature of the response dependent on the specific physiological response and specific plant part investigated. In contrast with previous reports, evidence for antagonistic, synergistic, and multiplicative effects on growth, metal uptake, and expression of foliar symptoms have been obtained under physiologically and environmentally relevant conditions. These results suggest a more detailed analysis of the potential for interactions between metals in the environment is required.  相似文献   
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