Lipid Accumulation during Canola Seed Germination in Response to Cinnamic Acid Derivatives

The objective of this research was to investigate how ferulic and p-coumaric acids affect lipid and fatty acid composition during canola (Brassica napus L.) seed germination. Data showed that both compounds increased total lipid and fatty acid contents in the cotyledons during germination. The largest accumulation in lipids occurred at 1.0 mM p-coumaric acid with an increase in all unsaturated fatty acids. The results suggest that allelochemicals interfere in canola seed germination by reducing lipid mobilization.     

Effect of Enhanced Calcium Supply on Aluminum Toxicity in Relation to Cell Wall Properties in the Root Apex of Two Wheat Cultivars Differing in Aluminum Resistance

The present study was conducted to investigate the effects of enhanced Ca supply on Al toxicity in relation to cell wall properties in two wheat (Triticum aestivum L.) cultivars differing in Al resistance. Seedlings of Al-tolerant Inia66 and Al-sensitive Kalyansona cultivars were grown in complete nutrient solutions for 4 days then subjected to treatment solutions containing Al (0, 50 μM) and Ca (500, 2500 μM) at pH 4.5 for 24 h. Root elongation was affected greatly by Al treatment in the Al-sensitive cultivar and a significant improvement in root growth was observed with enhanced Ca supply during Al stress. Pectin and hemicellulose contents in the root cell walls increased with Al stress, and this increase was more conspicuous in the Al-sensitive cultivar. The molecular mass of hemicellulosic polysaccharides increased with Al treatment in the Al-sensitive cultivar and decreased with enhanced Ca supply. The increase in the molecular mass of hemicellulosic polysaccharides was attributed to increased content of glucose, arabinose and xylose in neutral sugars. Enhanced Ca supply slightly decreased the content of these components with Al stress. Aluminum treatment increased the contents of ferulic and p-coumaric acid, especially in the Al-sensitive cultivar, by increasing peroxidase (POD, EC 1.11.1.7) and phenylalanine ammonia lyase (PAL, EC 4.3.1.5) activity, whereas enhanced Ca supply during Al stress decreased the content of these components by decreasing POD and PAL activity. These results suggest that the increased molecular mass of hemicellulosic polysaccharides and phenolic compounds in the Al-sensitive cultivar with Al stress might have inhibited root elongation associated with cell wall stiffening related to cross-linking among cell-wall polymers and lignin. Enhanced Ca supply might maintain the normal synthesis of these materials even with Al stress.     

Rapid and simple assay for feruloyl and p-coumaroyl esterases

A rapid, simple and sensitive method for detection of ferulic and p-coumaric acids using HPLC has been developed which can be used to determine the respective phenolic acid esterase activities of microorganisms. Prior concentration, purification or derivatization of the samples are not required. As little as 0.5 mg ferulic or p-coumaric acid/I could be detected and estimated in < 1 h. The method is specific for the two phenolic acids sice no interference by other components was observed.The authors are with the Department of Microbiology and Biochemistry, University of the Orange Free State (UOFS), PO Box 339, Bloemfontein 93000, South Africa     

Fungal biotransformation of p-coumaric acid into caffeic acid by Pycnoporus cinnabarinus: an alternative for producing a strong natural antioxidant

Fungal biotransformation of p-coumaric acid into caffeic acid, potentially a strong antioxidant, was evidenced in Pycnoporus cinnabarinus cultures grown with high feeding of p-coumaric acid. Preliminary experiments showed no toxicity of both p-coumaric and caffeic acids at concentrations ranging from 0 to 500 mg l^–1. Feeding 450 mg p-coumaric acid l^–1 into P. cinnabarinus cultures grown on 20 g l^–1 glucose medium resulted in the production of 257 mg caffeic acid l^–1with a molar yield of 21%.     

Growth and cell wall properties of two wheat cultivars differing in their sensitivity to aluminum stress

The present study was conducted to investigate the cell wall properties in two wheat (Triticum aestivum L.) cultivars differing in their sensitivity to Al stress. Seedlings of Al-resistant, Inia66 and Al-sensitive, Kalyansona cultivars were grown in complete nutrient solutions for 4 days and then subjected to treatment solutions containing Al (0, 50 microM) in a 0.5 mM CaCl(2) solution at pH 4.5 for 24 h. Root elongation was inhibited greatly by the Al treatment in the Al-sensitive cultivar compared to the Al-resistant cultivar. The Al-resistant cultivar accumulated less amount of Al in the root apex than in the Al-sensitive cultivar. The contents of pectin and hemicellulose in roots were increased with Al stress, and this increase was more conspicuous in the Al-sensitive cultivar. The molecular mass of hemicellulosic polysaccharides was increased by the Al treatment in the Al-sensitive cultivar. The increase in the content of hemicellulose was attributed to increase in the contents of glucose, arabinose and xylose in neutral sugars. Aluminum treatment increased the contents of ferulic acid and p-coumaric acid especially in the Al-sensitive cultivar by increasing the activity of phenylalanine ammonia lyase (PAL, EC 4.3.1.5). Aluminum treatment markedly decreased the beta-glucanase activity in the Al-sensitive cultivar, but did not exert any effect in the Al-resistant cultivar. These results suggest that the modulation of the activity of beta-glucanase with Al stress may be involved in part in the alteration of the molecular mass of hemicellulosic polysaccharides in the Al-sensitive cultivar. The increase in the molecular mass of hemicellulosic polysaccharides and ferulic acid synthesis in the Al-sensitive cultivar with Al stress may induce the mechanical rigidity of the cell wall and inhibit the elongation of wheat roots.     

高活性酪氨酸解氨酶的表征及其在对香豆酸生物合成中应用

对香豆酸(p-coumaric acid)具有抗菌、抗氧化和预防心血管疾病的作用,也是许多重要化合物的前体或中间体,被广泛应用于食品、化妆品和医药等领域。酪氨酸解氨酶(tyrosine ammonia-lyase,TAL)能直接催化酪氨酸脱氨生成对香豆酸。然而,缺少高活性和高底物耐受性的酪氨酸解氨酶限制了对香豆酸的高效生物合成。为了提高对香豆酸的合成能力,本研究挖掘了2个黄杆菌来源的酪氨酸解氨酶,分别是柱状黄杆菌(Flavobacterium columnare)来源的Fc-TAL2和顺天黄杆菌(Flavobacterium suncheonense)来源的Fs-TAL。异源表达纯化表征分析显示,Fc-TAL2和Fs-TAL的最适温度和最适pH相同,分别为55℃、pH 9.5。在最适条件下,Fs-TAL的比酶活为82.47 U/mg,而Fc-TAL2的比酶活为13.27 U/mg。结构模拟和比对分析显示,内盖环上保守的Y50残基酚羟基朝向和到底物的距离是造成Fs-TAL活性高于Fc-TAL2的主要原因。全细胞催化研究进一步证实Fs-TAL具有较高活性和特异性,能够催化10 g/L酪氨酸...     

Stabilization of Membrane Bound Enzyme Profiles and Lipid Peroxidation by Withania Somnifera Along with Paclitaxel on Benzo(a)pyrene Induced Experimental Lung Cancer

The present study was aimed to evaluate the therapeutic effects of Withania somnifera along with paclitaxel on lung tumor induced by benzo(a)pyrene in male Swiss albino mice. The levels of ATPase enzymes and lipid peroxidation were evaluated in lung cancer bearing mice, in erythrocyte membrane and tissues. The extent of peroxidation was estimated by measuring the thiobarbituric acid-reactive substances. Simultaneously the activities of different ATPases (Na⁺/K⁺-ATPases, Mg²⁺-ATPases and Ca²⁺-ATPases) were determined. The alterations of these enzyme activities in membrane and tissues were indicative of the tumor formation caused by benzo(a)pyrene (50 mg/kg body weight, orally) in cancer bearing animals. The activities of these enzymes were reversed to near normal control values in animals treated with Withania somnifera (400 mg/kg b.wt, orally) along with paclitaxel (33 mg/kg b.wt, i.p). Treatment with Withania somnifera along with paclitaxel altered these damage mediated through free radicals, and the treatment displays the protective role of these drugs by inhibiting free radical mediated cellular damages. Over, based on the data providing a correlation Withania somnifera along with paclitaxel provide stabilization of membrane bound enzyme profiles and decreased lipid peroxidation against benzo(a)pyrene induced lung cancer in mice.     

Transient Accumulation of Metabolic Intermediates of p-Cresol in the Culture Medium by a Pseudomonas sp. Strain A Isolated from a Sewage Treatment Plant

Summary Activated sludge from a sewage treatment plant in Kanpur, India, was screened for bacterial strains metabolizing p-cresol exclusively under aerobic conditions. One such isolate was identified to be belonging to the genus Pseudomonas based on morphological and physiological criteria as well as 16S ribosomal RNA gene sequence analysis. Two intermediates were identified from the culture medium during the growth phase of Pseudomonas sp. strain A that indicated that the strain degraded p-cresol via the protocatechuate (PCA) pathway. p-Cresol was rapidly converted into p-hydroxybenzaldehyde (PHB) during early growth phase, which was later utilized after p-cresol depletion. p-Hydroxybenzoate (PHBA) accumulation was observed during the later stages of exponential growth phase. Kinetic constants for the degradation of p-cresol were determined using Haldane’s model. High μ_max and inhibitory constant (K_I) values along with the observed accumulation of significant amounts of PHB in culture filtrates seem to indicate that the isolated Pseudomonas sp. strain A may be of potential use in biotransformations.     

Carbohydrate and lipid status in soybean roots influenced by ferulic acid uptake

The objective of this research was to investigate how the allelochemical ferulic acid affects the carbohydrate and lipid contents of soybean roots cultivated in nutrient culture. The results presented revealed that ferulic acid has significant effects on carbohydrates by the increase in xylose, fructose and sucrose and decrease in glucose, after 24 h treatment of roots. Ferulic acid increased the contents of saturated and unsaturated fatty acids of the polar and non-polar lipid fractions. The results may contribute as additional data to explain allelopathic effects caused by ferulic acid.     

Conversion studies with substrate analogues of toluene in a sulfate-reducing bacterium,strain Tol2

Anaerobic toluene oxidation by the sulfate-reducing bacterium, strain Tol2 (proposed nameDesulfobacula toluolica) was specifically inhibited by benzyl alcohol when added at concentrations around 500 μM. Benzyl alcohol added at lower, non-inhibitory concentrations (around 5 μM) was not oxidized by active cells pregrown on toluene, indicating that the alcohol is not a free intermediate of toluene metabolism in the sulfate reducer. Conversion ofp-xylene in toluene-metabolizing cells top-methylbenzoate as dead-end product suggests that the sulfate reducer, like denitrifiers, initiates toluene oxidation at the methyl group.     

Antioxidant Ability and Lipid Peroxidation in the Hippocampus with Epileptogenesis Induced by Fe3+ Injection into the Amygdaloid Body of Rats

To analyze antioxidant ability and lipid peroxidation in the hippocampus of rats in an interictal state of FeCl₃-induced epileptogenesis, the hippocampal eliminating decay ratio of exogenously applied nitroxide radical (3-carbamoyl-2,2,5,5-tetramethylpyrrolidine-1-oxyl (carbamoyl-PROXYL)) by electron paramagnetic resonance (EPR) spectroscopy, and the thiobarbituric reactive substances (TBARS) level in the hippocampus were measured. The prolonged half-life of electron paramagnetism of carbamoyl-PROXYL in the hippocampus of rats with chronic FeCl₃-induced epileptogenesis revealed decreased antioxidant ability, which supports the vulnerability against oxidative stress. In addition, TBARS level (marker of lipid peroxidation) was increased in the hippocampus of rats injected with FeCl₃ compared with that of control. This study revealed that repetitive seizures resulted in the decreased hippocampal antioxidant ability with lipid peroxidation and explained the regional vulnerability to oxidative stress in the limbic system with epileptogenesis.     

Interactions of D-cellobiose with p-toluenesulfonic acid in aqueous solution: a C NMR study

The effects of adding D₂SO₄, and p-toluenesulfonic acid-d to D-cellobiose dissolved in D₂O were investigated at 23 °C by plotting ¹³C NMR chemical shift changes (Δδ) against the acid to D-cellobiose molar ratio. ¹³C Chemical shifts of all 18 carbon signals from α and β anomers of D-cellobiose showed gradual decreases due to increasing acidity in aqueous D₂SO₄ medium. The C-1 of the α anomer showed a slightly higher response to increasing D⁺ concentration in the surrounding. In the aqueous p-toluenesulfonic acid-d medium, C-6′ and C-4′ carbons of both α, and β anomeric forms of D-cellobiose are significantly affected by increasing the sulfonic acid concentrations, and this may be due to a 1:1 interaction of p-toluenesulfonic acid-d with the C-6′, C-4′ region of the cellobiose molecule.     

Reduction of Aluminum Toxicity by 2-Isopropylmalic Acid in the Budding Yeast Saccharomyces cerevisiae

The budding yeast Saccharomyces cerevisiae secretes 2-isopropylmalic acid (2-iPMA), an intermediate in leucine biosynthesis. Because 2-iPMA binds Al(III) in the culture medium, it is thought to reduce toxicity by Al(III). The effects of 2-iPMA and malic acid (MA) on Al toxicity were investigated in a medium with a low pH and low concentrations of phosphates and magnesium. The reduction in the growth of S. cerevisiae observed in the presence of 100 μM Al(III) ions was relieved more by the addition of 1.0 mM 2-iPMA than by 1.0 mM MA, indicating that 2-iPMA possesses superior Al(III)-ion detoxification ability. Investigations using the wild type and the Δleu4 and Δleu9 mutant strains indicated that secretion of a sufficient level of 2-iPMA was required to enhance the Al tolerance. It is thought that 2-iPMA secreted from the yeast cells chelates Al ions and prevents them from entering the cells, resulting in Al tolerance. Suzuki and Tamura contributed equally to this work.     

甘薯4-香豆酸辅酶A连接酶基因的生物信息学鉴定和表达分析

4-香豆酸辅酶A连接酶(4-coumarate:CoA ligase, 4CL)在苯丙烷类代谢途径中具有重要调控作用。该研究利用转录组数据在甘薯品种QS48中鉴定了11个4CL基因,并将这些基因命名为Ib4CL1～Ib4CL11。序列比对和功能域分析发现, 11个Ib4CL蛋白均具有典型的4CL结构特征,包含保守的BoxⅠ和BoxⅡ的结构域。进化和保守基序分析显示,Ib4CL1和Ib4CL2属于Ⅰ类4CL,Ib4CL3属于Ⅱ类4CL,而Ib4CL4～Ib4CL11属于4CL类似蛋白。转录组数据和荧光定量PCR分析显示,Ib4CL3和Ib4CL10在甘薯QS48的叶中转录表达水平显著高于茎和块根,与绿原酸的积累呈正相关关系;Ib4CL4和Ib4CL8在嫩叶中表达较高,与花青素的积累密切相关。研究结果为进一步揭示甘薯4CL基因在苯丙烷类代谢途径中的功能奠定了基础。     

Ferulic acid uptake by soybean root in nutrient culture

Ferulic acid uptake by soybean root in nutrient culture was investigated by the depletion method at different concentrations, temperatures and pH. Results showed that soybean roots absorbed this compound at greater rates in the concentrations between 0.05-mM and 1.0-mM and it was concentration dependent. Ferulic acid uptake was unaffected at pH 4.5 or 6.0 but reduced at pH 7.0. At pH 6.0, uptake rates decreased significantly with increasing temperature of nutrient solution.     

Determination of aromatic metabolites in ruminant urine by high-performance liquid chromatography

A method based on reversed-phase HPLC is reported for the separation and quantification of various urinary aromatic metabolites: hippuric, phenylaceturic, salicyluric, benzoic, phenylacetic, salicylic. 3-phenylpropionic and cinnamic acids and several phenols in ruminant urine. In this method, a Nova-Pak C₁₈ (4 μm) 150×3.9 mm I.D. column, two solvents [A: 15°b methanol in 20 mM acetic acid (pH 3.3); B: methanol] in a gradient mode at a flow-rate of 0.8 ml/min, and UV detection at 210 nm were used. Quantification of the total (free and conjugated) benzoic, phenylacetic and salicylic acids present in urine was achieved by hydrolysis of the samples in 3 M HCl at 100°C for 24 h prior to HPLC analysis. The lowest detection concentration was 50 μmol/I. This method is useful for scanning the profile of aromatic metabolites in urine of ruminants, which provides information on the diets the animals receive.     

Down-regulation of UDP-arabinopyranose mutase reduces the proportion of arabinofuranose present in rice cell walls

Arabinoxylans may account for up to 25% of the mass of grass cell walls. The interactions of these polysaccharides with themselves and with cellulose and lignin is believed to affect the walls physical properties and increase the walls resistance to biochemical conversion to fermentable sugars. Arabinoxylans have a backbone composed of 1,4-linked β-d-xylosyl residues, some of which are substituted at O-2 or O-3 with single arabinofuranosyl (Araf) residues. The Araf residues are likely transferred from UDP-Araf to the xylan backbone by arabinofuranosyltransferases. UDP-Araf is itself formed from UDP-arabinopyranose (UDP-Arap) by UDP-arabinopyranose mutase (UAM). In this study, RNA interference (RNAi) was used to suppress UAM expression in rice plants and thereby reduce the amounts of UDP-Araf available for cell wall synthesis. Several of the transgenic plants had reduced proportions of Araf in their walls together with a decrease in the extent of substitution of the xylan backbone, and a reduction of between 25% and 80% in ferulic acid and p-coumaric acid contents of the cell walls. Those transgenic plants with >25% reduction in the amounts of Araf were dwarfed and infertile.     

Aluminum inhibition of shoot lateral branches ofGlycine max and reversal by exogenous cytokinin

Aluminum effects on the morphological development of soybean (Glycine max (L.) Merr.) were characterized in greenhouse and growth chamber experiments. An Al-sensitive cultivar, ‘Ransom’, was grown in an acid soil (Aeric Paleudult) adjusted to 3 levels of exchangeable Al. Lateral shoot development at the nodes of the main stem was extensive in the limed soil containing 0.06 cmol(+) Alkg⁻¹. However, lateral shoot length and weight were severely inhibited in the unlimed soil containing 2.19 cmol(+) Alkg⁻¹, and in the unlimed soil amended to 2.63 cmol(+) Alkg⁻¹ with AlCl₃. This inhibition by the high Al/low pH condition was reversed by the exogenous application of a synthetic cytokinin 6-benzylaminopurine (BA). The daily application of 20 μg mL⁻¹ BA applied locally to the lateral meristems of plants grown in the unlimed soil stimulated lateral shoot growth substantially, such that it was either comparable to or greater than that observed in the limed treatment without BA. Accumulation of K, Ca, and Mg in lateral shoot branches was also stimulated by the local application of BA. The inhibitory effects of Al on lateral shoot development were confirmed in solution culture. In addition, differential sensitivity to Al was evident among the primary root, first order lateral roots, and second order lateral roots. The length of the primary root was only slightly decreased by increasing concentrations of Al up to 30 μM. In contrast, the length of basipetally located first order lateral roots was restricted to greater extent; up to 50% by 30 μM Al. Second order lateral lengths were inhibited even more severely; up to 86% by 30 μM Al. Substantial evidence in the literature indicates that the root apex is a major site for the biosynthesis of cytokinin that is supplied to shoots, and cellular function and development in this region of the root are impaired during Al toxic conditions. This suggests that one mode of action by which Al may affect shoot growth is by inhibiting the synthesis and subsequent translocation of cytokinin to the meristematic regions of the shoot. The present observation of a reversal of Al-inhibited lateral shoot development by exogenously applied cytokinin supports this hypothesis. However, the inability of applied cytokinin to counter the restriction imposed by Al on total shoot dry matter production implies the impairment by Al toxicity of other root functions, such as ion and water transport, also played an important role in altering shoot morphology.     

外源绿原酸缓解黑大豆SB铝毒害的机理研究

该文研究了外源绿原酸(CGA)对Al胁迫下铝敏感型黑大豆SB根生理生化指标以及根中胁迫相关基因表达的变化,探讨外源CGA缓解SB根铝毒害的效果及分子机理。以不同浓度Al和CGA处理SB,筛选出CGA缓解Al毒害的最佳浓度,测定Al含量、抗氧化系统酶活性、14-3-3蛋白与H~+-ATP酶的表达、H~+泵活性。结果表明:低浓度CGA能缓解Al胁迫下黑大豆SB根伸长抑制,并促进侧根数目增加,而高浓度CGA的缓解效果下降;0.01 g·L~(-1) CGA使Al胁迫下SB根尖Al含量与MDA含量下降,促进根系柠檬酸的分泌。RTPCR和Western Bloting分析表明0.01 g·L~(-1) CGA促进Al胁迫下SB根中14-3-3b、14-3-3m、14-3-3k和GHA2基因(质膜H~+-ATP酶)的表达,抑制MATE基因的表达。同时,0.01 g·L~(-1) CGA能促进Al胁迫下质膜H~+-ATP酶蛋白磷酸化水平以及其与14-3-3蛋白结合,且能提高质膜H~+-ATP酶和H~+泵活性。因此推测外源CGA可能通过增加侧根数,增强14-3-3蛋白和质膜H~+-ATP酶基因蛋白表达水平和互作,弥补Al胁迫下MATE表达的抑制,增加柠檬酸的分泌,增强SB对铝毒害的耐受性。     

Blue Light Perception in Bacteria

This review focuses on the blue light responses in bacteria and on the bacterial proteins which have been demonstrated to function as blue light receptors. Results of the previous years reveal that different types of photoreceptors have already evolved in prokaryotes. However, for most of these photoreceptors the exact biological functions and the mechanisms of signaling to downstream components are poorly understood.