造纸废水对芦苇实生苗生长特性及根系活力的影响

以室内水培的芦苇实生苗为材料,研究6种不同化学需氧量(CODcr)浓度造纸废水处理对芦苇生长指标和根系活力的影响,为利用造纸废水修复自然环境中芦苇实生苗种群提供理论依据。结果表明:(1)不同浓度造纸废水对芦苇各器官鲜(干)重有显著的促进作用,并以中等浓度(300mg.L-1)最为明显;随着造纸废水浓度的增加,废水对芦苇各器官鲜(干)重的促进作用有所减弱,这种减弱幅度在芦苇不同器官上存在差异。(2)高浓度造纸废水导致芦苇根生物量比、根状茎生物量比降低,但影响二者降低的废水浓度存在差异;低浓度造纸废水导致芦苇茎生物量比下降,并使叶生物量比增加。(3)随着造纸废水浓度的增加,芦苇的根系活力呈先上升后下降的趋势,并以CODcr浓度为300mg.L-1时的芦苇的根系活力最强,CODcr浓度为900mg.L-1时最弱。可见,低浓度造纸废水促进了芦苇的生长和根系活力,高浓度废水促进作用减弱甚至会抑制根系活力,并以CODcr浓度为300mg.L-1时芦苇实生苗生长最好。     

Biotransformation of p-, m-, and o-hydroxybenzoic acids by Panax ginseng hairy root cultures

The regioselective glycosylation of three isomers of hydroxybenzoic acids was observed in Panax ginseng hairy root cultures. p-Hydroxybenzoic acid (1) and m-hydroxybenzoic acid (2) were converted into their corresponding glycosides (1a and 2a) and glycosyl esters (1b and 2b) while no metabolite of o-hydroxybenzoic acid (3) was detected. A new compound, m-hydroxybenzoic acid β-d-xylopyranosyl (1 → 6)-β-d-glycopyranosyl ester (2c) was identified as a biotransformation product of 2. Further time-course studies of the biotransformation reactions showed that the glycosides were major products in the latter stage. The addition of carbohydrates or antioxidants increased glycosyl esters formation.     

Carbon Monoxide Promotes Lateral Root Formation in Rapeseed

Carbon monoxide (CO), an odorless, tasteless and colorless gas, has recently proved to be an important bioactive or signalmolecule in mammalian cells, with its effects mediated mainly by nitric oxide (NO). In the present report, we show thatexogenous CO induces lateral root (LR) formation, an NO-dependent process. Administration of the CO donor hematin torapeseed (Brassica napus L. Yangyou 6) seedlings for 3 days, dose-dependently promoted the total length and number ofLRs. These responses were also seen following the application of gaseous CO aqueous solutions of different saturatedconcentrations. Furthermore, the actions of CO on seedlings were fully reversed when the CO scavenger hemoglobin (Hb)or the CO-specific synthetic inhibitor zinc protoporphyrin-IX (ZnPPIX) were added. Interestingly, depletion of endogenousNO using its specific scavenger 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide potassium salt (cPTIO)or the nitric oxide synthase (NOS) inhibitor N~G-nitro-L-arginine methyl ester (L-NAME),led to the complete abolition ofLR development, illustrating an important role for endogenous NO in the action of CO on LR formation. However, theinduction of LR development by 200 umol/L sodium nitroprusside (SNP),an NO donor, was not affected by the presenceor absence of ZnPPIX. Furthermore, using an anatomical approach combined with laser scanning confocal microscopywith the NO-specific fluorophore 4,5-diaminofluorescein diacetate, we observed that both hematin and SNP increased NOrelease compared with control samples and that the NO signal was mainly distributed in the LR primordia (LRP), especiallyafter 36 h treatment. The LRP were found to have similar morphology in control, SNP-and hematin-treated seedlings.Similarly, the enhancement of the NO signal by CO at 36 h was differentially quenched by the addition of cPTIO, L-NAME,ZnPPIX and Hb. In contrast, the induction of NO caused by SNP was not affected by the application of ZnPPIX. Therefore,we further deduced that CO induces LR formation probably mediated by the NO/NOS pathway and NO may act downstreamof CO signaling, which has also been shown to occur in animals.     

Metabolomic analysis identifies altered metabolic pathways in Multiple Sclerosis

Multiple sclerosis (MS) is a chronic, demyelinating disease that affects the central nervous system and is characterized by a complex pathogenesis and difficult management. The identification of new biomarkers would be clinically useful for more accurate diagnoses and disease monitoring. Metabolomics, the identification of small endogenous molecules, offers an instantaneous molecular snapshot of the MS phenotype. Here the metabolomic profiles (utilizing plasma from patients with MS) were characterized with a Gas cromatography-mass spectrometry-based platform followed by a multivariate statistical analysis and comparison with a healthy control (HC) population. The obtained partial least square discriminant analysis (PLS-DA) model identified and validated significant metabolic differences between individuals with MS and HC (R2X = 0.223, R2Y = 0.82, Q2 = 0.562; p < 0.001). Among discriminant metabolites phosphate, fructose, myo-inositol, pyroglutamate, threonate, l-leucine, l-asparagine, l-ornithine, l-glutamine, and l-glutamate were correctly identified, and some resulted as unknown. A receiver operating characteristic (ROC) curve with AUC 0.84 (p = 0.01; CI: 0.75–1) generated with the concentrations of the discriminant metabolites, supported the strength of the model. Pathway analysis indicated asparagine and citrulline biosynthesis as the main canonical pathways involved in MS. Changes in the citrulline biosynthesis pathway suggests the involvement of oxidative stress during neuronal damage. The results confirmed metabolomics as a useful approach to better understand the pathogenesis of MS and to provide new biomarkers for the disease to be used together with clinical data.     

Response of maize seedling roots to changing ethylene concentrations

Maize roots (Zea mays, cv. DK 626) growing in aerated solutions showed striking variations in the amount of ethylene produced during different stages of development. As endogenous ethylene increases, root elongation decreases. Exogenous 1-aminocyclopropane-1-carboxylic acid (ACC) supplied to these roots also inhibited their elongation and increased both the fresh weight of the apex and the ethylene produced. The inhibitor of ethylene biosynthesis, 2-aminoethoxyvinyl glycine (AVG), and the inhibitor of ethylene action, silver thiosulfate (STS), also reduced growth and increased swelling. As growth diminishes at reduced ethylene concentrations or with impeded ethylene action, these results support the view that ethylene is necessary for root growth. As ACC treatment also inhibited root elongation, it appears that ethylene was inhibitory at both low and high concentrations. Whereas ACC stimulated ethylene production 4 h after the beginning of treatment, inhibition of root elongation and promotion of fresh weight advanced slowly and needed 24 h to be established. At that time, root elongation reached a maximum response of 60% inhibition and 50% increase in weight. At 48 h, higher doses of ACC were required to provoke the same response as at 24 h. This suggests that the root growth progressively accomodates to higher ethylene concentrations. Published in Russian in Fiziologiya Rastenii, 2009, Vol. 56, No. 4, pp. 539–545. This text was submitted by the authors in English.     

Effects of phosphate-solubilizing bacteria application on soil phosphorus availability in coal mining subsidence area in Shanxi

The effect of phosphate-solubilizing bacteria (PSB) application on phosphorus (P) availability in reclaimed soil in coal mining subsidence region was investigated. Seven treatments were carried out including control, chicken manure (CM), PSB, PSB + tricalcium phosphate (TCP), CM?+?TCP, PSB?+?ground phosphate rock (GPR) and CM?+?GPR. The results showed soil Olsen-P concentration and phosphatase level as well as the yield of pakchoi (Brassica chinensis L.) were significantly higher in PSB application treatments compared to the corresponding CM application treatments. Soil phosphatase, invertase and urease contents were increased most significantly in PSB treatment, 1.18-, 1.31- and 2.32-fold higher than those in the control, respectively. Soil Ca₂-P, Ca₈-P, Fe-P and Al-P concentrations exhibited the greatest increases in PSB?+?TCP treatment, while occluded-P showed minor changes in different treatments. Application of PSB fertilizer reduced the transformation of Olsen-P to Ca₁₀-P, thus increasing P availability in reclaimed soil of coal mining subsidence area.     

Changes in the microbial community in a forest soil amended with aluminium in situ

Considerable knowledge exists about the effect of aluminium (Al) on root vitality, but whether elevated levels of Al affect soil microorganisms is largely unknown. We thus compared soils from Al-treated and control plots of a field experiment with respect to microbial and chemical parameters, as well as root growth and vitality. The field experiment was established in a 50-year-old Norway spruce (Picea abies L.) stand where no Al or low concentrations of Al had been added every 7–10 days during the growth season for 7 years. Analysis of soil solutions collected using zero tension lysimeters and porous suction cups showed that Al treatment lead to increased concentrations of Al, Ca and Mg and lower pH and [Ca + Mg + K/Al] molar ratio. Corresponding soil analyses showed that soil pH remained unaffected (pH 3.8), that exchangeable Al increased, while exchangeable Ca and Mg decreased due to the Al treatment. Root in-growth into cores placed in the upper 20 cm of the soil during three growth seasons was not affected by Al additions, neither was nutrient concentration or mortality of these roots. The biomass of some taxonomic groups of soil microorganisms, analyzed using specific membrane components (phospholipid fatty acids; PLFAs), was clearly affected by the imposed Al treatment, both in the organic soil horizon and in the underlying mineral soil. Microbial community structure in both horizons was also clearly modified by the Al treatment. Shifts in PLFA trans/cis ratios indicative of short term physiological stress were not observed. Yet, aluminium stress was indicated both by changes in community structure and in ratios of single PLFAs for treated/untreated plots. Thus, soil microorganisms were more sensitive indicators of subtle chemical changes in soil than chemical composition and vitality of roots.     

Transformation of Saussurea involucrata by Agrobacterium rhizogenes: Hairy root induction and syringin production

Agrobacterium rhizogenes-mediated genetic transformation of Saussurea involucrata was investigated. Four bacterial strains, A4, LBA 9402, R1000 and R1601 and three explant types, leaf blade, petiole and root, were examined. Over 100 hairy root lines were successfully established with strains R1601, R1000 and LBA9402, but none with A4. The highest transformation efficiency of 67% was achieved by using strain R1601 with root explants. One hairy root line isolated from this combination, HR1601-1, produced up to 43.5 ± 1.13 mg syringin g⁻¹ dw, which is about 50-fold higher than that in the wild type plants.Two other lines, HR1000-1 and HRLBA9402-1, isolated from R1000- and LBA9402-transformed roots, respectively, also displayed high capacity of syringin production, being 32.5 ± 3.08 and 39.7 ± 1.37 mg syringin g⁻¹ dw. These three lines were characterized in detail. Polymerase chain reaction analyses confirmed these root lines were of A. rhizogenes origin.     

3种渗透剂对转基因烟草根系枯草芽孢杆菌纤溶酶(BSFE)分泌的调节

用0.05%～8.00%的甘露醇、山梨醇和聚乙二醇6000等3种渗透调节剂可提高转枯草芽孢杆菌纤溶酶(Bacillus subtilis fibrinolytic enzyme, BSFE)转基因烟草(Nicotiana tabacum L.)根系BSFE的分泌表达水平,其水培液BSFE活性在15 d内基本呈抛物线型变化趋势.经3种渗透剂处理后转BSFE基因烟草水培液的BSFE活性峰值明显高于对照,且出现时间比对照相对延迟1-2d.甘露醇、山梨醇和聚乙二醇6000可作为该转基因烟草根系BSFE分泌表达的有效化学调节剂.