Transfer of label from aspartate to malate by the cell-free extract of Sedum mexicanum leaves

The cell-free extract from leaves of Sedum mexicanum, a typicalCAM plant, formed ¹⁴C-malate from ¹⁴C-aspartate in the presenceof NAD. No reduction of NAD was observed during the reaction.Analysis of this reaction revealed that the transfer of labelfrom ^l4C-aspartate to malate takes place by the action of malatedehydrogenase and aspartate aminotransferase, and the reactionwas reversible in model experiments with commercial enzymes.Pitfalls in assessing data on dark ¹⁴CO₂ fixation in CAM arediscussed with reference to the transfer of label between malateand aspartate without actual synthesis. (Received June 2, 1979; )     

Phosphoenolpyruvate Carboxykinase Is Involved in the Decarboxylation of Aspartate in the Bundle Sheath of Maize

We recently showed that maize (Zea mays L.) leaves contain appreciable amounts of phosphoenolpyruvate carboxykinase (PEPCK; R.P. Walker, R.M. Acheson, L.I. Técsi, R.C. Leegood [1997] Aust J Plant Physiol 24: 459–468). In the present study, we investigated the role of PEPCK in C₄ photosynthesis in maize. PEPCK activity and protein were enriched in extracts from bundle-sheath (BS) strands compared with whole-leaf extracts. Decarboxylation of [4-¹⁴C]aspartate (Asp) by BS strands was dependent on the presence of 2-oxoglutarate and Mn²⁺, was stimulated by ATP, was inhibited by the PEPCK-specific inhibitor 3-mercaptopicolinic acid, and was independent of illumination. The principal product of Asp metabolism was phosphoenolpyruvate, whereas pyruvate was a minor product. Decarboxylation of [4-¹⁴C]malate was stimulated severalfold by Asp and 3-phosphoglycerate, was only slightly reduced in the absence of Mn²⁺ or in the presence of 3-mercaptopicolinic acid, and was light dependent. Our data show that decarboxylation of Asp and malate in BS cells of maize occurs via two different pathways: Whereas malate is mainly decarboxylated by NADP-malic enzyme, decarboxylation of Asp is dependent on the activity of PEPCK.     

The Involvement of Aspartate and Glutamate in the Decarboxylation of Malate by Isolated Bundle Sheath Chloroplasts from Zea mays

Aspartate or glutamate stimulated the rate of light-dependent malate decarboxylation by isolated Zea mays bundle sheath chloroplasts. Stimulation involved a decrease in the apparent K_m (malate) and an increased maximum velocity of decarboxylation. In the presence of glutamate other dicarboxylates (succinate, fumarate) competitively inhibited malate decarboxylation by intact chloroplasts with respect to malate with an apparent K_i of about 6 millimolar. For comparison the K_i for inhibition of nicotinamide adenine dinucleotide phosphate-malic enzyme from freshly lysed chloroplasts by these dicarboxylates was 15 millimolar. A range of compounds structurally related to aspartate stimulated malate decarboxylation by intact chloroplasts. K_a values for stimulation at 5 millimolar malate were 1.7, 5, and 10 millimolar for l-glutamate, l-aspartate, and β-methyl-dl-aspartate, respectively. Certain compounds, notably cysteic acid, which stimulated malate decarboxylation by intact chloroplasts inhibited malate decarboxylation by nicotinamide adenine dinucleotide phosphate-malic enzyme obtained from lysed chloroplasts and assayed under comparable conditions. It was concluded that aspartate, glutamate, and related compounds affect the transport of malate into the intact chloroplasts and that malate translocation does not take place on the general dicarboxylate translocator previously reported for higher plant chloroplasts.     

Occurrence of Grey Leaf Spot of Sedum erythrostictum Caused by Cercospora cf. pseudokalanchoes in China

Sedum erythrostictum is a perennial herb in the Crassulaceae family, which is a traditional Chinese medicine used for the treatment of hepatitis, dysentery, herpes zoster and swellings. In 2014, a grey leaf spot disease causing significant damage to plants of S. erythrostictum occurred in the Medicinal Herb Garden of Jilin Agricultural University, Jilin Province, China. The fungus mainly infected the leaves. The necrotic lesions on the leaves were circular or elliptical, amphigenous, greyish brown to brown, slightly concave and surrounded by a dark brown distinct margin. The causal agent from symptomatic tissues was identified as Cercospora cf. pseudokalanchoes based on the symptoms, morphological characteristics, molecular identifications and pathogenicity tests. To our knowledge, this is the first formal report of grey leaf spot of S. erythrostictum caused by C. cf. pseudokalanchoes in China.     

Crop Improvement and Abiotic Stress Tolerance Promoted by Moringa Leaf Extract

Moringa leaf extract (MLE) has been shown to promote beneficial outcomes in animals and plants. It is rich in amino acids, antioxidants, phytohormones, minerals, and many other bioactive compounds with nutritional and growth-promoting potential. Recent reports indicated that MLE improved abiotic stress tolerance in plants. Our understanding of the mechanisms underlying MLE-mediated abiotic stress tolerance remains limited. This review summarizes the existing literature on the role of MLE in promoting plant abiotic stress acclimation processes. MLE is applied to plants in a variety of ways, including foliar spray, rooting media, and seed priming. Exogenous application of MLE promoted crop plant growth, photosynthesis, and yield under both nonstress and abiotic stress conditions. MLE treatment reduced the severity of osmotic and oxidative stress in plants by regulating osmolyte accumulation, antioxidant synthesis, and secondary metabolites. MLE also improves mineral homeostasis in the presence of abiotic stress. Overall, this review describes the potential mechanisms underpinning MLE-mediated stress tolerance.     

Decarboxylation of oxalacetate by pyruvate carboxylase

The decarboxylation of oxalacetate by pyruvate carboxylase in the absence of ADP and Pi is stimulated 400-fold by the presence of oxamate, which is an inhibitory analogue of pyruvate. The observation of substrate inhibition when either oxamate or oxalacetate is varied at a fixed concentration of the other indicates that both molecules bind at the same site on the enzyme. The pH profiles for this reaction show no evidence of the involvement of an enzymic acid-base catalyst, suggesting that the proton and CO2 units may be exchanged directly between the reactants (although CO2 sequestered in the active site may be an intermediate in the process). The pH profiles of the full reverse reaction of pyruvate carboxylase in which oxalacetate decarboxylation is coupled to ATP formation and where Pi is the variable substrate do, however, indicate that such an acid-base catalyst is involved in the other partial reaction of the enzyme in proton transfer to and from biotin. The enzyme also displays two oxamate-independent oxalacetate decarboxylating activities, one of which is biotin-dependent and the other is independent of biotin.     

Aqueous Leaf Extract of Jatropha gossypiifolia L. (Euphorbiaceae) Inhibits Enzymatic and Biological Actions of Bothrops jararaca Snake Venom

Snakebites are a serious public health problem due their high morbi-mortality. The main available specific treatment is the antivenom serum therapy, which has some disadvantages, such as poor neutralization of local effects, risk of immunological reactions, high cost and difficult access in some regions. In this context, the search for alternative therapies is relevant. Therefore, the aim of this study was to evaluate the antiophidic properties of Jatropha gossypiifolia, a medicinal plant used in folk medicine to treat snakebites. The aqueous leaf extract of the plant was prepared by decoction and phytochemical analysis revealed the presence of sugars, alkaloids, flavonoids, tannins, terpenes and/or steroids and proteins. The extract was able to inhibit enzymatic and biologic activities induced by Bothrops jararaca snake venom in vitro and in vivo. The blood incoagulability was efficiently inhibited by the extract by oral route. The hemorrhagic and edematogenic local effects were also inhibited, the former by up to 56% and the latter by 100%, in animals treated with extract by oral and intraperitoneal routes, respectively. The inhibition of myotoxic action of B. jararaca reached almost 100%. According to enzymatic tests performed, it is possible to suggest that the antiophidic activity may be due an inhibitory action upon snake venom metalloproteinases (SVMPs) and/or serine proteinases (SVSPs), including fibrinogenolytic enzymes, clotting factors activators and thrombin like enzymes (SVTLEs), as well upon catalytically inactive phospholipases A₂ (Lys49 PLA₂). Anti-inflammatory activity, at least partially, could also be related to the inhibition of local effects. Additionally, protein precipitating and antioxidant activities may also be important features contributing to the activity presented. In conclusion, the results demonstrate the potential antiophidic activity of J. gossypiifolia extract, including its significant action upon local effects, suggesting that it may be used as a new source of bioactive molecules against bothropic venom.     

Nitrification of Aspartate by Aspergillus flavus

Heterotrophic conversion of l-aspartic acid to nitrification products by Aspergillus flavus was studied in a replacement incubation system. Numerous amino acids supported nitrification; aspartate and glutamate were about equivalent as the best sources of nitrate. Addition of sodium bicarbonate to the incubation system substantially enhanced nitrate formation for all nitrifiable amino acids except aspartic acid, but the basis for the bicarbonate effect is obscure. The yield of nitrate from l-aspartate was not approached by forms of aspartic acid resulting from substitution on the beta carbon, the amino nitrogen, or the gamma carboxyl group or by aspartate presented as the d-configuration. There was no relationship between nitrate formation and the occurrence of such possible intermediates as nitrite, bound hydroxylamine, ammonia, aspergillic acid, and beta-nitropropionic acid. Uniformly labeled (14)C-l-aspartate that was nitrified in replacement incubation led to no accumulation of label in possible nitrification products in the culture filtrate. Label was found in components of the mycelium after acid hydrolysis, with heaviest accumulation in what appeared to be glucosamine and an unidentified compound, possibly acetylglucosamine. Detectable label was redistributed into serine, glycine, and threonine.     

Modification of the Lipid Phase of Biological and Model Membranes by Bilberry Leaf Extract

The leaves of blueberry are a rich source of polyphenols, chlorogenic acid (CGA) being the dominant constituent. It exerts beneficial health effects on living organisms. However, the mechanism of its interaction with biological systems at the molecular and cell level is not yet fully known. For this reason, biophysical studies were undertaken to investigate the effect of the polyphenolic compounds contained in the extract on the physical properties of cells, biological and model lipid membranes; and to assess the extract’s antioxidant activity in relation to the erythrocyte membrane and membrane lipids extracted from erythrocyte membranes. The hemolytic studies have shown that extract exert no destructive effect on the erythrocyte membrane, but make it more resistant to changes in tonicity of the medium. The studies of shapes of erythrocytes and of changes induced by the extract in different areas of the membrane showed that the compounds bind mainly to the outer lipid monolayer of the membrane. The biological activity of the polyphenolic compounds present in the blueberry leaf extract consists primarily in protecting the membranes against the harmful effects of free radicals, probably owing to a barrier that they form on the surface of the membrane. In addition, the close link demonstrated between the antioxidant activity of the extract and the activity of CGA means that the extract may, at appropriately selected high concentrations, be used as a widely available, cheap CGA substitute, in those pharmacological preparations where CGA has long been used, without the risk of side effects.     

无花果叶超声提取物体外诱导肝癌HepG2细胞凋亡

为探讨新鲜无花果叶超声提取物(fig leaf extract,FLE)对体外培养的人肝癌细胞株HepG2增殖和凋亡的影响,用不同浓度FLE处理肝癌HepG2细胞.采用细胞形态学观察、细胞活力测定(MTT法)来评价FLE对HepG2细胞体外增殖的影响,应用凋亡相关蛋白caspase3和p53免疫组织化学法及流式细胞术的膜联蛋白V/碘化丙啶法(Annexin V/PI法)来检测细胞凋亡情况.形态学观察发现FLE处理24 h细胞出现明显凋亡,细胞增殖活力显著降低(P0.05或P0.01),流式细胞仪检测到FLE处理12 h所有剂量组细胞平均凋亡率均高于对照组(P0.05或P0.01),免疫组化结果显示caspase3表达增强(P0.05,P0.01),p53蛋白表达减弱(P0.05),以上作用效果呈现剂量依赖性.以上结果说明无花果叶提取物能够通过激活caspase3和p53诱导肝癌HepG2细胞凋亡从而抑制其体外的生长与增殖.     

Decarboxylation of 2-keto fatty acids by brain

An enzyme system consisting of washed acetone powder of pig brain, adenosine triphosphate, nicotinamide adenine dinucleotide, magnesium, fumaric acid, and ascorbic acid was found to catalyze the oxidative decarboxylation of 2-ketostearic acid. The products were carbon dioxide and heptadecanoic acid. Washing the enzyme powder with ethylene-diaminetetraacetate and other chelating agents destroyed the activity. Further properties of the enzyme system are described. It is believed that this enzyme system accounts in part for the 1-carbon degradation route for brain fatty acids.     

Enhancement of Ethylene Release from Leaf Tissue during Glycolate Decarboxylation : A Possible Role for Photorespiration

When leaf discs of Xanthium strumarium L. and Salvia splendens L. are incubated in sealed flasks in the light, more C₂H₄ gas is released in the presence of added CO₂ (30-200 millimolar NaHCO₃) than without CO₂. In Salvia, the maximum rate of C₂H₄ release occurs when sufficient CO₂ (above 125 millimolar NaHCO₃) is added to saturate photosynthesis confirming previous studies. The maximum rate of C₂H₄ release from illuminated discs is similar to the rate in the dark with or without CO₂ in both species. Glycolate enhances a CO₂-dependent C₂H₄ evolution from illuminated leaf discs. However, the maximum rate of C₂H₄ release with glycolate is the same as that observed with saturating CO₂. When photosynthesis is inhibited by darkness or by 3-(3,4-dichlorophenyl)-1,1-dimethylurea, glycolate has no effect.

Studies with [2,3-¹⁴C]-1-aminocyclopropane-1-carboxylic acid (ACC) show that the pattern of C₂H₄ release and the specific activity of the ¹⁴C₂H₄ in the presence and absence of glycolate is similar to that described above, indicating that glycolate does not alter uptake of the exogenously supplied precursor (ACC) or stimulate C₂H₄ release from an endogenous source at appreciable rates. Glycolate oxidase in vitro generates H₂O₂ which stimulates a slow breakdown of ACC to C₂H₄, but since exogenous glycolate is oxidized to CO₂ in both the light and the dark it is argued that the glycolate-dependent increase in C₂H₄ release from illuminated leaf discs is not mediated directly by the action of enzymes of glycolate catabolism. The effects of glycolate and CO₂ are not easily explained by changes in stomatal resistance. The data support the view that glycolate decarboxylation at subsaturating levels of CO₂ in the light stimulates C₂H₄ release by raising the CO₂ level in the tissue.

     

极端嗜热菌Thermus thermophilus HB8中天冬氨酸转氨酶在大肠杆菌中的表达、纯化及酶学性质研究

为获得具有热稳定性的天冬氨酸转氨酶,从极端嗜热细菌Thermus thermophilus HB8中克隆得到天冬氨酸转氨酶基因aspC,并在大肠杆菌BL21(DE3)和Rosetta(DE3)中进行表达,发现在Rosetta(DE3)中具有较高的表达量。重组酶的最适反应pH是7.0,37℃下在pH8～10的缓冲液中保温1h酶活几乎不改变。重组酶反应的最适温度为75℃,酶活稳定的温度范围为25～55℃。重组酶在65℃时半衰期为3.5h,75℃时为2.5h。重组酶的KmKG为7.559mmol/L,VmaxKG为0.086mmol/(L·min),KmAsp为2.031mmol/L,VmaxAsp为0·024mmol/(L·min)。Ca2 、Fe3 、Mn2 等金属离子对酶活性有微弱抑制作用。