Aluminium effect on nitrate assimilation in cucumber (Cucumis sativus L.) roots

In vivo effect of aluminium on nitrate uptake and reduction by cucumber seedlings was investigated. The high-performance liquid chromatography was used to analyse the rate of nitrate uptake. Low (0.5 mM) concentration of AlCl₃ in the nutrient solution stimulated nitrate uptake during the first 3 h. On the other hand, 6 h exposure of the cucumber seedlings to 1 or 5 mM of AlCl₃ resulted in inhibition of nitrate uptake and at 5 mM concentration of AlCl₃ the efflux of nitrate was observed. Furthermore, the amount of nitrate accumulated in cucumber roots after aluminium treatment was decreased. The noteworthy fact was observed, that at all concentrations of aluminium tested on increase of the nitrate reductase activity. This stimulation was concentration depended, but independent of the source of the enzyme. The activity of both the cytosolic and the plasma membrane bound nitrate reductase activity was enhanced in vivo. On the other hand, AlCl₃ applied in vitro only slighty decreased nitrate reductase activity.     

黄瓜性型分化的分子机制

黄瓜(Cucumis sativus)是雌雄异花植物性型分化研究的重要模式植物,近年来虽然其性型分化的分子机制研究取得了一定的成果,但其性型分化的调控机制尚未完全阐明。该文综合花器官发育基因、性别决定基因、内源激素、环境因子、性型分化假说,在分子水平构建了黄瓜性型分化的表达调控网络。同时对激素和性别决定基因协控的黄瓜单性花器官凋亡机制进行了阐述,并就miRNA在黄瓜性型分化调控中的作用进行了探讨。     

QTL molecular marker location of powdery mildew resistance in cucumber (Cucumis sativus L.)

The cucumber lines, S94 (Northern China open-field type, powdery mildew (PM) susceptible) and S06 (European greenhouse type, PM resistant), and their F6:7 populations were used to investigate PM re-sistance under seedling spray inoculation in 2005/Autumn and 2006/Spring. QTL analysis was under-taken based on a constructed molecular linkage map of the corresponding F6 population using com-posite interval mapping. A total of four QTLs (pm1.1, pm2.1, pm4.1 and pm6.1) for PM resistance were identified and located on LG 1, 2, 4 and 6, respectively, explaining 5.2%-21.0% of the phenotypic variation. Three consistent QTLs (pm1.1, pm2.1 and pm4.1) were detected under the two test conditions. The QTL pm6.1 was only identified in 2005/Autumn. The total phenotypic variation explained by the QTLs was 52.0% and 42.0% in 2005/Autumn and 2006/Spring, respectively. Anchor markers tightly linked to those loci (<5 cM) could lay a basis for both molecular marker-assisted breeding and map-based gene cloning of the PM-resistance gene in cucumber.     

Callus growth and plant regeneration in diverse cultivars of cucumber (Cucumis sativus L.)

The growth and differentiation of callus tissues derived from cotyledons of ten cultivars ofCucumis sativus L. were investigated. Cotyledonary explants from all ten cultivars formed callus tissue on Murashige and Skoog (MS) medium supplemented with 0.5 M 2,4-dichlorophenoxyacetic acid and 5 M 6-benzylaminopurine. Fresh weight of the callus tissues averaged 1 to 8 g per flask after five weeks of culture. Shoot development was achieved in three cultivars, Hukchinju, Manchoonchoungjang and Seoul, on MS medium supplemented with 0.5 M -naphthaleneacetic acid and 5 M 6-benzylaminopurine. Reducing the 6-benzylaminopurine concentration to 0.01 M resulted in root formation on callus tissues and on shoots transferred to this medium. All cultivars gave the same response in tests of root formation, but shoot regeneration from callus culture of cucumber cotyledons was dependent on genotype with cultivar Manchoonchoungjang exhibiting the best shoot differentiation capability among the genotypes examined. Examination of mitotic metaphase from the regenerants revealed that all were tetraploid.     

Transformation of cucumber (Cucumis sativus L.) plants with Agrobacterium rhizogenes

Summary Transgenic cucumber plants (Cucumis sativus L., cv. Straight Eight) were regenerated from roots induced by inoculation of inverted hypocotyl sections with Agrobacterium rhizogenes containing the vector pARC8 in addition to the resident Ri-plasmid. The DNA transferred to the plant from the vector (T-DNA) included a gene which encoded the enzyme neomycin phosphotransferase II, and thus conferred on the plant cells resistance to kanamycin. The transgenic plants looked normal and were positive for the neomycin phosphotransferase II. Southern blot analysis of the transgenic plants revealed that all plants contained vector DNA, but only some of them contained DNA from the Ri plasmid.     

不同生态环境下雌雄同株黄瓜单性结实性遗传的比较

以两个单性结实性不同的雌雄同株黄瓜自交系构建的4世代群体为试材,采用植物数量性状主基因+多基因混合遗传模型联合分析方法,对南京江宁和河北昌黎两地雌雄同株黄瓜单性结实性遗传进行了比较研究.结果表明：不同生态环境下,雌雄同株黄瓜单性结实性遗传均符合E-1-1模型,受2对加性-显性-上位性主基因+加性-显性多基因控制,存在基因型与环境互作效应.但是,不同环境条件下F₁的遗传倾向和遗传参数不同,F₂的主基因遗传率为42.1%～97.5%,其遗传差异主要由黄瓜结果期两地日照和温度差异所致.强单性结实黄瓜品种选育以双亲均为强单性结实材料为宜,杂种后代宜在不同生态条件下选择鉴定.     

The uptake and metabolism of 3H-benzylaminopurine in tobacco (Nicotiana tabacum L.) and cucumber (Cucumis sativus L.) explants

The uptake and metabolism of ³H-benzylaminopurine(³H-BAP) were studied in explanted stem pith andleaves of tobacco and in the hypocotyls and cotyledonsof cucumber. The explants were kept for 2, 5, 8 and 20h on MS medium with 0.8 mg.l^–1 2,4-D,0.5 mg.l^–1 BAP and 13.2 mg.l^–1 aspartic acid(induction medium) with or without ³H-BAP and¹⁴C-sucrose. The highest uptake of ³H-BAPwas observed in tobacco leaves and cucumbercotyledons. The major metabolite in both species was³H-benzylaminopurine riboside (³H-BAPR). Thehighest level was found in explanted cucumbercotyledons after 20 h in culture, the lowest inexplanted tobacco stem pith. Intensive 7-glucosylationof ³H-BAP was observed in explanted tobaccoleaves after 20 h in culture, where the levels of7-glucoside of ³H-BAP and of free ³H-BAPwere equal. To study the morphogenic effect of growth regulators(BAP and 2,4-D), the explants were subcultured aftershort-term induction (20 h) to MS medium without anygrowth regulators. In most cases, incubation of 20 hon induction medium was sufficient to induce therespective morphogenesis. Cucumber hypocotyl andtobacco stem pith explants formed a callus on theirbasal end. Root formation was observed on explantedcucumber cotyledons and shoot formation on tobaccoleaves. Long-term culture (3 weeks) of tobacco leaveson induction medium led to the formation of callus andglobules. The microscopic analysis of globulesindicated the presence of meristematic and tracheidalcells.     

The effect of gamma irradiation dose on cucumber (Cucumis sativus L.) haploid embryo production

Pollination with irradiated pollen was the only effective way for the induction of haploid embryo in cucurbits. The possibility of using lower doses of γ rays (Co⁶⁰ source) was studied. The effect of 0.2 and 0.3 kGy of rays was tested on five cucumber lines and three hybrids in the first experiment. It was found that there was hardly any difference between the total number of embryos produced by all studied forms. The highest number of isolated embryos was obtained from hybrids Gy-3 M and BxOg (111 and 188 respectively). The plant regeneration was estimated at 3.3 %. The best two lines and one hybrid were used in the second experiment to find the lowest possible dose of irradiation. The dose 0.05 kGy produced only diploid embryos and was rejected as too low. Other three doses (0.1; 0.2; and 0.3 kGy) effected embryo development in relation to the irradiation applied with the highest number obtained at the lowest dose. However the number of plants regenerated from each combination was similar. The plant regeneration in this experiment was 7.7 %. The effect of 0.1 and 0.3 kGy was tested during the next two years on one highly vigorous variety. It was confirmed that 0.1 kGy stimulated the development of higher number of haploid embryos.     

Effect of benzoic acid hydroxyl- and methoxy-ring substituents on cucumber (Cucumis sativus L.) root membrane potential

Abstract

The allelopathic effect of some benzoic acid (BA) OH- and OCH₃-ring substituents was studied on cucumber root transmembrane potential difference (Vm). Most of the methoxy-BAs induced a rapid Vm depolarization, followed by a Vm hyperpolarization, with the only exception for p-anisic acid (pA). On the other hand, salicylic acid (SA) and 3,4-dimethoxybenzoic acid (DHB) strongly depolarized Vm. A positive correlation was found between Vm hyperpolarization and lipophilicity of methoxylated BAs, whereas a positive correlation was found between lipophilicity and Vm depolarization of hydroxylated BAs. The influence of BAs on K⁺ was studied by means of specific blocking with Cs⁺ indicating a possible direct interaction of SA, gallic acid (GA), vanillic acid (VA) and 3,4-dimethoxybenzoic acid (DMB). Interference of BAs with the Vm hyperpolarizing effect of root perfusion with the fungal toxin fusicoccin were also observed.     

A novel role for cyanide in the control of cucumber (Cucumis sativus L.) seedlings response to environmental stress

The effects of potassium cyanide (KCN) pretreatment on the response of cucumber (Cucumis sativus L.) plants to salt, polyethylene glycol (PEG) and cold stress were investigated in the present study. Here, we found that KCN pretreatment improved cucumber seedlings tolerance to stress conditions with maximum efficiency at a concentration of 20 µM. The results showed that pretreatment with 20 µM KCN alleviated stress‐induced oxidative damage in plant cells and clearly induced the activity of alternative oxidase (AOX) and the ethylene production. Furthermore, the structures of thylakoids and mitochondria in the KCN‐pretreated seedlings were less damaged by the stress conditions, which maintained higher total chlorophyll content, photosynthetic rate and photosystem II (PSII) proteins levels than the control. Importantly, the addition of the AOX inhibitor salicylhydroxamic acid (1 mm ; SHAM) decreased plant resistance to environmental stress and even compromised the cyanide (CN)‐enhanced stress tolerance. Therefore, our findings provide a novel role of CN in plant against environmental stress and indicate that the CN‐enhanced AOX might contribute to the reactive oxygen species (ROS) scavenging and the protection of photosystem by maintaining energy charge homoeostasis from chloroplast to mitochondria.     

Ploidy instability of embryogenic cucumber (Cucumis sativus L.) callus culture

Embryogenic callus cultures were established from immature cucumber(Cucumis sativus L.) embryos on E20A (Dumas de Vaulxet al. 1981) or MS (Murashige and Skoog 1962) media supplemented with 6-benzylaminopurine (BAP), α-naphthylacetic acid (NAA) and/or 2,4-dichlorophenoxyacetic acid (2,4-D). Regeneration of plants was observed after a transfer to culture media either without growth regulators or supplemented with kinetin and NAA. Flow cytometry was employed to estimate DNA ploidy levels. Most of cell nuclei in young leaf tissues were found in G₁ phase with 2C DNA content. Callus cultures were mixoploid with DNA content ranging from 2C to 32C. The frequency of polyploid cells was increasing with the age of culture and the polyploidization was accompanied by a gradual loss of regeneration ability. Plants regenerated from callus cultures were classified as diploid (57 %), tetraploid (18 %), octoploid (4 %) and mixoploid (2n/4n, 4 %) and (4n/8n, 17 %). The results of this study confirmed a close link between the polyploidization and the loss of totipotencyin vitro. Tetraploid plants obtained in this study have a potential to be used in interspecific crosses where their tetraploid status could help in overcoming existing breeding barriers due to differences in chromosome number.     

Complexity untwined: The structure and function of cucumber (Cucumis sativus L.) shoot phloem

Cucurbit phloem is complex, with large sieve tubes on both sides of the xylem (bicollateral phloem), and extrafascicular elements that form an intricate web linking the rest of the vasculature. Little is known of the physical interconnections between these networks or their functional specialization, largely because the extrafascicular phloem strands branch and turn at irregular angles. Here, export in the phloem from specific regions of the lamina of cucumber (Cucumis sativus L.) was mapped using carboxyfluorescein and ¹⁴C as mobile tracers. We also mapped vascular architecture by conventional microscopy and X-ray computed tomography using optimized whole-tissue staining procedures. Differential gene expression in the internal (IP) and external phloem (EP) was analyzed by laser-capture microdissection followed by RNA-sequencing. The vascular bundles of the lamina form a nexus at the petiole junction, emerging in a predictable pattern, each bundle conducting photoassimilate from a specific region of the blade. The vascular bundles of the stem interconnect at the node, facilitating lateral transport around the stem. Elements of the extrafascicular phloem traverse the stem and petiole obliquely, joining the IP and EP of adjacent bundles. Using pairwise comparisons and weighted gene coexpression network analysis, we found differences in gene expression patterns between the petiole and stem and between IP and EP, and we identified hub genes of tissue-specific modules. Genes related to transport were expressed primarily in the EP while those involved in cell differentiation and development as well as amino acid transport and metabolism were expressed mainly in the IP.     

Control of succinate oxidation by cucumber (Cucumis sativus L.) cotyledon mitochondria

The aim of this work was to assess the extent to which mitochondria control the gluconeogenic flux in cucumber (Cucumis sativus L.) cotyledons, by quantifying the distribution of control of succinate oxidation by cotyledon mitochondria. The methods of metabolic control analysis were applied under state 3 and state 4 conditions and in the presence of cell-free extracts in order to simulate in-vivo conditions. Oxygen uptake by isolated cotyledon mitochondria oxidising succinate under state 3 conditions was examined using inhibitor titrations. During lipid mobilisation in light-grown cotyledons (3-4 d post-imbibition), control was shared between the adenine-nucleotide translocator (flux-control coefficient, C = 0.25–0.28) and the dicarboxylate-uptake system (C = 0.69–0.72). The dicarboxylate-uptake system was also important in dark-grown cotyledons at this stage (C = 0.55–0.57). In the photosynthetic phase of development (more than 5 d post-imbibition) control rested with the respiratory chain. Application of an external ATP demand provided either by cell-free extracts of cucumber cotyledons or a glucose/hexokinase ADP-regenerating system showed that the reactions outside the mitochondria exert control (C = 0.45–0.54 and C = 0.24–0.38, for cytosolic extract and glucose/hexokinase, respectively). The adenine-nucleotide translocator was a controlling step of both oxygen uptake (C = 0.11–0.32) and the flux between succinate and hexose phosphates (C = 0.28). Other mitochondrial steps made a significant contribution to control. Control of oxygen uptake was dependent on both the nature of the external load and on the rate of phosphorylation. A potential role for mitochondrial membrane-transport processes, including the adenine-nucleotide translocator, is proposed for the integration of lipid breakdown and gluconeogenesis in vivo.Abbreviations AdNT adenine-nucleotide translocator - C flux-control coefficient - F1,6BP fructose-1,6-biphosphate - F1,6BPase fructose-1,6-biphosphatase - F2,6BP fructose-2,6-bi-phosphate - F6P fructose-6-phosphate - OAA oxaloacetate - PEP phospho(enol)pyruvate - PFK phosphofructokinase - PFP pyrophosphate fructose-6-phosphate 1-phosphotransferase This work was supported by the Gatsby Charitable Foundation (Sainsbury Research Studentship to S.A.H.) and the Agricultural and Food Research Council (grant No. PG43/516 to C.J.L.).     

Acclimation of chlorophyll biosynthetic reactions to temperature stress in cucumber (Cucumis sativus L.)

The adaptive responses of the greening process of plants to temperature stress were studied in cucumber (Cucumis sativus L. cv. Poinsette) seedlings grown at ambient (25 °C), low (7 °C) and high (42 °C) temperatures. Plastids isolated from these seedlings were incubated at different temperatures and the net syntheses of various tetrapyrroles were monitored. In plastids isolated from control seedlings grown at 25 °C, the optimum temperature for synthesis of Mg-protoporphyrin IX monoester or protochlorophyllide was 35 °C. Temperature maxima for Mg-protoporphyrin IX monoester and protochlorophyllide syntheses were shifted to 30 °C in chill-stressed seedlings. The net synthesis of total tetrapyrroles was severely reduced in heat-stressed seedlings and the optimum temperature for Mg-protoporphyrin IX monoester or protochlorophyllide synthesis shifted slightly towards higher temperatures, i.e. a broader peak was observed. To further study the temperature acclimation of seedlings with respect to the greening process, tetrapyrrole biosynthesis was monitored at 25 °C after pre-heating the plastids (28–70 °C) isolated from control, chill- and heat-stressed seedlings. In comparison to 28 °C-pre-heated plastids the percent inhibition of protochlorophyllide synthesis in 40 °C-pre-heated plastids was higher than for the control (25 °C-grown) in chill-stressed seedlings and lower than for the control in heat-stressed seedlings. Maximum synthesis of total tetrapyrroles and protoporphyrin IX was observed when chloroplasts were heated at 50 °C, which was probably due to heat-induced activation of the enzymes involved in protoporphyrin IX synthesis. Prominent shoulders towards lower or higher temperatures were seen in chill-stressed or heat-stressed seedlings, respectively. The shift in optimum temperature for tetrapyrrole biosynthesis in chill- and heat-stressed seedlings was probably due to acclimation of membranes possibly undergoing desaturation or saturation of membrane lipids. Proteins synthesized in response to temperature-stress may also play an important role in conferring stress-tolerance in plants. Received: 8 October 1998 / Accepted: 19 November 1998     

Virus particles in guttate and xylem of infected cucumber (Cucumis sativus L.)

Particles of plant viruses representing ten genera were visualised by electron microscopy in samples of guttate from systemically infected cucumber (Cucumis sativus L.) plants. For the majority of viruses tested, guttation samples tested positively by ELISA and infectivity was also demonstrated. Virus particles of zucchini yellow mosaic potyvirus were also observed in xylem in sections of infected root tissue. Since guttate originates from xylem exudate, this study demonstrates the potential for xylem tissue to act as a conduit for a diverse group of plant viruses in planta     

Inheritance and linkage relationships of isozyme loci in cucumber (Cucumis sativus L.)

Summary Genetic analyses were conducted among 18 provisionary isozyme loci in Cucumis sativus L. Fourteen loci demonstrated simple Mendelian inheritance while observed variation at four loci (Gpi2, Gr2, Pgm3, Skdh2) was determined not to have a predictable genetic basis. Joint segregation analyses among the 14 genetically predictable polymorphic loci resulted in the assignment of 12 loci to four linkage groups. Linkage groups contain the following loci: (1) Gr1, Pgm1, Idh, Pgd1; (2) Pep-pap, Mdh2, Mdh3, Gpi1; (3) Pep-la, Per4; (4) Pgd2, G2dh. Mpi2 and Mdh1 segregated independently. Recombination fractions for linked loci ranged between 0.051 (Pgm1-Idh) to 0.385 (Pep-la-Per4). Some practical applications of isozyme marker loci for cucumer improvement are discussed.     

不同倍性黄瓜的形态和一些生理生化指标比较

由同一基因型产生的单倍体、二倍体和四倍体黄瓜的叶面积和花大小等形态性状、单位面积叶绿素含量和苹果酸脱氢酶(MDH)表达量等生理生化指标随染色体倍性的增加而增加,过氧化物酶(POD)活性则随倍性的增加而降低,剂量效应明显;其他形态指标和可溶性蛋白含量等与染色体倍性无明显相关性.     

Calcium absorption as an index of root parameters of cucumber (Cucumis sativus L.)

Summary In a solution culture study the absorption of Ca in the shoot of cucumber (Cucumis sativus L.) and various root parameters viz fresh weight, dry weight, length and surface area were measured at weekly intervals. All the root parameters were significantly correlated (p=0.01) with the amount of Ca absorbed when the concentration of Ca was such (5 meq/l) that the absorption capacity of the root membrane was fully saturated. The use of this relationship has been suggested in estimating the amount of roots developed in the soil system where identical conditions exist with respect to Ca concentration. Such estimated values have been termed as equivalent root length or equivalent root surface area as the case may be. P and K flux into the roots growing in the soil system have been worked out from these estimates of root parameters.     

Uptake, transport and metabolism of 14C-2,4-dichlorophenoxyacetic acid (14C-2,4-D) in cucumber (Cucumis sativus L.) explants

The uptake, distribution and metabolism of 2,4-D using 14C-labelled 2,4-dichlorophenoxyacetic acid (14C-2,4-D) was studied in isolated hypocotyl and cotyledon explants of cucumber (Cucumis sativus L.) in vitro. Cotyledons had a higher uptake capacity than hypocotyls; the uptake in cotyledons increased linearly up to 20 h, while in hypocotyls only up to 8 h. The distribution of 14C-activity in both organs was basipetal, but more pronounced in cotyledons. The 2,4-D taken up by cotyledons was metabolized very rapidly: only 7% of 14C-activity was associated with free 2,4-D after 20 h exposure. Hypocotyls metabolized 2,4-D more slowly: after 20 h 50% of the 14C-activity was still associated with free 2,4-D. After short incubation periods (2–5 h) 2,4-D-aspartate was a predominant metabolite, after longer incubation (8–20 h) 2,4-D-glucosyl ester prevailed. Roots or callus were formed on the base of cotyledons depending on the length of exposure to 2,4-D.