Effect of intraperitoneal administration of granulocyte/macrophage-colony-stimulating factor in rats on omental milky-spot composition and tumoricidal activity in vivo and in vitro

 Milky spots in the greater omentum are small accumulations of leucocytes that consist mainly of macrophages and have recently shown to be a selective dissemination site of intraperitoneal (i. p.) inoculated tumour cells. However, milky-spot macrophages show tumoricidal activity and may, therefore, be an excellent source of effector cells suited for local immunotherapy. In the present study we first examined whether granulocyte/macrophage- colony-stimulating factor (GM-CSF) treatment of isolated milky-spot macrophages affects the cytotoxicity against syngeneic colon carcinoma cells (CC531) in vitro. Secondly, we studied the influence of intraperitoneal GM-CSF administration on the number and antitumour activity of milky-spot and peritoneal macrophages. All studies were performed in Wag/Rij rats in which a syngeneic colon carcinoma cell line (CC531) is available. The results of the in vitro study showed that GM-CSF treatment of the omental macrophages led to an increased cytotoxicity against the tumour cell line. Intraperitoneal administration of 1000 U GM-CSF daily for 7 consecutive days demonstrated both an enhanced antitumour activity of the milky-spot macrophages and an increase in the milky-spot macrophage population. An increase in the proliferative capacity, according to bromodeoxyuridine incorporation, was shown in the milky-spot macrophages. Taking into account both the enhanced macrophage number and their enhanced activity upon i. p. GM-CSF treatment, the milky-spot macrophages may provide a rationale for local intraperitoneal immunotherapy in the prevention of intra-abdominal tumour growth. Received: 11 April 1996 / Accepted: 21 May 1996     

Antiviral properties and interaction of novel chalcone derivatives containing a purine and benzenesulfonamide moiety

A new concise and facile method was explored to synthesize a series of novel chalcone derivatives containing a purine and benzenesulfonamide moiety and their antiviral properties were evaluated against TMV and CMV. Biological assays indicated that several of the derivatives exhibited significant anti-TMV and anti-CMV activities in vivo. In particular, compound d2 displayed excellent inactivating activity against TMV, with the EC₅₀ value of 51.65?μg/mL, which was better than that of ribavirin (150.45?μg/mL). Molecular docking showed that there are four hydrogen bonds between compound d2 and TMV coat protein (TMV-CP). Compound d2 demonstrated strong binding capacity to TMV-CP with K_a?=?1.58?×?10⁵?L/mol and K_d?=?12.16?μM. These findings indicated that chalcone derivatives are worthy of further research and development as templates for new antiviral agents.     

Grafting improves cucumber water stress tolerance in Saudi Arabia

Water scarcity is a major limiting factor for crop productivity in arid and semi-arid areas. Grafting elite commercial cultivars onto selected vigorous rootstocks is considered as a useful strategy to alleviate the impact of environmental stresses. This study aims to investigate the feasibility of using grafting to improve fruit yield and quality of cucumber under water stress conditions. Alosama F₁ cucumber cultivar (Cucumis sativus L.) was grafted onto Affyne (Cucumis sativus L.) and Shintoza A90 (Cucurbitamaxima × C. moschata) rootstocks. Non-grafted plants were used as control. All genotypes were grown under three surface drip irrigation regimes: 50%, 75% and 100% of the crop evapotranspiration (ETc), which represent high-water stress, moderate-water stress and non-water stress conditions, respectively. Yield and fruit quality traits were analyzed and assessed. In comparison to the non-grafted plants, the best grafting treatment under water stress was Alosama F₁ grafted onto Shintoza A90 rootstock. It had an overall improved yield and fruit quality under water stress owing to an increase in the total fruit yield by 27%, from 4.815 kg plant^?1 in non-grafted treatment to 6.149 kg plant^?1 in grafted treatment under moderate -water stress, total soluble solid contents (13%), titratable acidity (39%) and vitamin C (33%). The soil water contents were low in soil surface and increase gradually with soil depth, while salt distribution showed an adverse trend. The positive effects of grafting on plant growth, productivity, and water use efficiency support this strategy as an useful tool for improving water stress tolerance in greenhouse grown cucumber in Saudi Arabia.     

QTLs for a component of partial resistance to cucumber mosaic virus in pepper: restriction of virus installation in host-cells

 Ninety four doubled-haploid (DH) lines obtained from the F₁ between Perennial, a cucumber mosaic virus (CMV)-partially resistant Capsicum annuum line, and Yolo Wonder, a CMV-susceptible C. annuum line, were analysed with 138 markers including mostly RFLPs and RAPDs. Clustering of RAPD markers was observed on five linkage groups of the intraspecific linkage map. These clusters could correspond to the centromeric regions of pepper chromosomes. The same progenies were evaluated for restriction of CMV installation in pepper cells in order to map quantitative trait loci (QTLs) controlling CMV resistance. This component of partial resistance to CMV was quantitatively assessed using a CMV strain that induced necrotic local lesions on the inoculated leaves. The number of local lesions gave an estimation of the density of the virus-infection sites. Genotypic variance among the DH lines was highly significant for the number of local lesions, and heritability was estimated to be 0.94. Using both analysis of variance and non-parametric tests, three genomic regions significantly affecting CMV resistance were detected on chromosomes Noir, Pourpre and linkage group 3, together explaining 57% of the phenotypic variation. A digenic epistasis between one locus that controlled significant trait variation and a second locus that by itself had no demonstrable effect on the trait was found to have an effect on CMV resistance. For each QTL, the allele from Perennial was associated with an increased resistance. Implications of QTL mapping in marker-based breeding for CMV resistance are discussed. Received: 16 September 1996     

Grafting to manage infections of top stunting and necrogenic strains of cucumber mosaic virus in tomato

Cucumber mosaic virus (CMV) lists among the most important etiological agents of tomato diseases. Some isolates of CMV function as helper virus for replication, encapsidation and transmission of satellite RNAs (satRNA), which may exacerbate symptoms induced by CMV in certain hosts. Outbreaks of CMV strains supporting hypervirulent variants of satRNAs are recurrent in tomato with devastating effects on crop production and efficient control measures are still unavailable. In this study, we examined the dynamics of infection of the CMV strains tomato top stunting (TTS) and 77 supporting replication of satRNA variants that codetermine top stunting (TTS‐satRNA) and necrotic (77‐satRNA) phenotypes in two tomato cultivars denoted Solanum lycopersicum Manduria (Sl‐Ma) and S. lycopersicum UC82 (Sl‐UC). Sl‐Ma but not Sl‐UC recovered from disease symptoms induced by CMV‐TTS while both the cultivars succumbed to the infection of CMV‐77 and its necrogenic satRNA. Ability to recover of the Sl‐Ma plants was transmitted by grafting to the susceptible genotype Sl‐UC. More interestingly, recovery was observed also against the challenge inoculation of CMV plus 77‐satRNA in plants grafted on Sl‐Ma and in self‐grafted plants of both the Sl‐Ma and Sl‐UC cultivars. Analysis of small RNAs and genes of the defence plant response based on RNA interference (RNAi) suggested that RNAi is involved in the recovery of Sl‐Ma against CMV with hypervirulent satRNAs and in scions grafted on this rootstock. The response of Sl‐Ma to the inoculation of CMV‐77 plus 77‐satRNA was compared with that of the transgenic tomato line S. lycopersicum transgenic line UCTC5.9.2 that expresses constitutively the benign variant of the satRNA denoted Tfn‐satRNA. Comparative analysis suggested that the response may operate via similar mechanisms, which involve RNAi, the graft and the presence of the satRNA.     

黄瓜苗根围拮抗细菌X3的分子鉴定

采用生理生化、Biolog和16S rDNA分子鉴定3种不同方法,对抑制黄瓜苗期猝倒病病原真菌的细菌菌株X3进行了鉴定．生理生化鉴定显示该菌株为Pseudomonas aeruginosa;而Biolog鉴定显示其为P．spinosa;进一步对该菌株作16S rDNA基因的测定与分析,表明其与已报道的P．aeruginosa 16S rDNA具有93．7％的同源性,二者在所建系统发育树中处于同一分枝,据此确定该菌株为P．aeruginosa。     

Characterization of ethylene effects on sex determination in cucumber plants

Sex differentiation in cucumber plants (Cucumis sativus L.) appears to be determined by the selective arrest of the stamen or pistil primordia. We investigated the influence of an ethylene-releasing agent (ethephon) or an inhibitor of ethylene biosynthesis (aminoethoxyvinyl glycine) on sex differentiation in different developmental stages of flower buds. These treatments influence sex determination only at the stamen primordia differentiation stage in both monoecious and gynoecious cucumbers. To clarify the relationships between the ethylene-producing tissues and the ethylene-perceiving tissues in inducing female flowers in the cucumber, we examined the localization of mRNA accumulation of both the ACC synthase gene (CS-ACS2) and the ethylene-receptor-related genes (CS-ETR1, CS-ETR2, and CS-ERS) in flower buds by in situ hybridization analysis. CS-ACS2 mRNA was detected in the pistil primordia of gynoecious cucumbers, whereas it was located in the tissues just below the pistil primordia and at the adaxial side of the petals in monoecious cucumbers. In flower buds of andromonoecious cucumbers, only CS-ETR1 mRNA was detected, and was located in the pistil primordia. The localization of the mRNAs of the three ethylene-receptor-related genes in the flower buds of monoecious and gynoecious cucumbers overlap but are not identical. We discuss the relationship between the mRNA accumulation patterns and sex expression in cucumber plants.     

Involvement of nitric oxide in water stress-induced responses of cucumber roots

The effect of water deficit on nitric oxide (NO) generation was investigated in cucumber (Cucumis sativus cv. Dar) seedling roots using bio-imaging with an NO-selective fluorophor, diaminofluorescein-2-diacetate (DAF-2DA). Roots subjected to mild (5 and 10 h) water deficit showed slightly enhanced NO synthesis in cells of root tips and in the surrounding elongation zone. However, severe (17 h) stress resulted in an intensive NO production localized mainly in and above the elongation zone. Water stress-induced NO generation was blocked by a specific NO scavenger, 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide (cPTIO) as well as nitrate reductase (NR) and partially by nitric oxide synthase (NOS-like) inhibitors.A pharmacological approach was used in order to verify the capacity of NO to induce adaptive responses of cucumber roots to water deficit. A positive correlation was found between NO donor (SNP 100 μM and GSNO 100 μM) pretreatment and plant hydration status, measured as relative water content (RWC) during progressive dehydration. At an early stage (5 h) of stress duration NO caused a periodical increase in lipoxygenase (LOX) activity, correlated with time-dependent enhancement of lipid peroxidation. Beginning from 10 h up to severe stress (17 h) exogenous NO was able to diminish LOX activity and alleviate water deficit-induced membrane permeability and lipid peroxidation, measured as TBARS content and visualised by histochemical staining in situ. Observed changes via NO were accompanied by a significant reduction of proline level, suggesting that the accumulation of this osmolyte might not be essential in water stress tolerance. Obtained results clearly indicate that NO augmentation is likely to help the plant at the initial stage of tissue dehydration to trigger efficient mechanisms, mitigating severe water deficit effects in roots of cucumber seedlings.     

Interaction Between Polyamine and Nitric Oxide Signaling in Adaptive Responses to Drought in Cucumber

The effect of polyamines (PAs) on nitric oxide (NO) generation was investigated in cucumber (Cucumis sativus cv. Dar) primary leaves using bio-imaging with an NO-selective fluorophor, DAF-2DA. Seedlings pretreated with PAs and subjected to water deficit showed early (after 5 h) and transient NO production. The amplitude of the response depended on the form of the applied polyamine. Spermine (1.0 mM) and spermidine (1.0 mM) induced higher NO-dependent fluorescence compared with putrescine (1.0 mM) and the control. The NO production was blocked by tungstate, an inhibitor of nitrate reductase, and partially by an inhibitor of nitric oxide synthase (NOS-like) enzymes. NO donor administration preceding drought had no effect on endogenous PA levels but was positively correlated with an alleviation of water deficit-induced membrane permeability and lipid peroxidation. Application of 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide (cPTIO), a membrane-permeable NO scavenger, markedly reversed the NO donor effects. Similarly, pretreating seedlings with PAs resulted in lower ion leakage from the membrane and modified lipid peroxidation. The results indicate that NO may act downstream of PAs in cucumber seedlings under water stress.     

武夷山不同海拔植被土壤微生物量的季节动态及主要影响因子

土壤微生物量的季节变化在陆地生态系统碳循环方面具有重要作用。为阐明中亚热带武夷山不同海拔梯度带土壤微生物量的季节变化规律及其主要影响因子,选择4种不同海拔梯度的植物群落：常绿阔叶林（EBF,500 m）、针叶林（CF,1200 m）、亚高山矮林（DF,1800 m）和高山草甸（AM,2100 m）于2005年6月—2006年6月期间进行了实验研究。结果表明：不同海拔梯度带土壤微生物量均具有明显的季节变化且变化趋势一致,均表现为早春最大,夏季最小;不同海拔梯度带土壤微生物量的季节变化与对应月份的土壤湿度、土壤有效碳均呈显著正相关,而与土壤温度、土壤有机碳、土壤全氮、凋落物输入量等因子相关不显著。土壤有效碳含量、土壤湿度是调控武夷山森林土壤微生物量季节变异的重要生态因子。