The control of food mobilisation in seeds of Cucumis sativus L.

The development of maximal rates of lipid and protein hydrolysis in cucumber cotyledons depends upon the removal of the testa and the presence of the embryonic axis. The testa appears to exert at least part of its inhibitory influence by suppressing the development of enzyme activity associated with lipolysis and proteolysis. There is, however, no evidence to suggest that the presence of the embryonic axis is a pre-requisite for the development of optimal enzyme activity.Abbreviations TLC thin layer chromatography - GC-MS gas chromatography-mass spectrometry - GLC gas-liquid chromatography - TCA trichloroacetic acid     

The control of food mobilization in seeds of Cucumis sativus L.

An analysis of the in vitro activities of proteolytic enzymes from cotyledons of germinating cucumber seeds has been carried out and the effects of protein degradation products on such activities monitored. Aminopeptidase activity is substantially inhibited with either L-leucine or L-phenylalanine and trypsin activity with L-arginine. Aminopeptidase activity was also markedly reduced in the presence of individual di- and tripeptides. Of the peptides tested, however, only L-tryptophyl-L-phenylalanine inhibited the degradation of native cucumber seed protein by the endogenous cucumber seed protease(s) (autodigestive activity).Abbreviations TCA trichloroacetic acid - L-leuglygly L-leucylglycylglycine - L-pheglygly L-phenylalanylglycylglycine - L-phe-L-leu L-phenylalanyl-L-leucine - L-leu-L-phe L-leucyl-L-phenylalanine - L-tryp-L-phe L-tryptophyl-L-phenylalanine - LPA L-leucine-p nitroanilide - BAPNA -N-benzoyl-DL-arginine-p nitroanilide - ADA autodigestive activity     

Photocontrol of hypocotyl elongation in light-grown Cucumis sativus L.

An interaction is demonstrated between the effects of phytochrome and cryptochrome (the specific blue-light photoreceptor) in the inhibition of hypocotyl elongation of light-grown cucumber (Cucumis sativus L.) cv. Ridge Greenline seedlings. At certain fluence rates of blue light the total inhibition response is greater than the sum of the separate responses to each photoreceptor. The threshold for response to blue light is reduced at least 30-fold by additional red-light irradiation. The synergistic effect is demonstrated for two different fluence rates of red light. Synergism is mediated by phytochrome in both the cotyledons and the hypocotyl.Abbreviations and symbols BL blue light - FR far-red light - Pfr far-red-absorbing form of phytochrome - R red light - photostationary state of phytochrome - _c calculated      

Photocontrol of hypocotyl elongation in light-grown Cucumis sativus L.

The control by phytochrome of hypocotyl elongation of light-grown Cucumis sativus L. after a white-light period was examined. The farred-absorbing form of phytochrome inhibits hypocotyl elongation. The response to phytochrome photostationary state () is not linear; all values of from 0.004 to 0.13 promote growth maximally, in the range of values of from 0.13 to 0.22 there is a linear growth response, between values of of 0.22 and 0.35 there is again no differential effect, and for values above 0.35 there is a strong (near linear) effect of on elongation. A kinetic examination of events following the white-light period shows that the major recovery from the photoperiod requires 8.5 h of darkness. End-of-day far-red treatment produces a very different response pattern, with a minor growth stimulation within 28 min of treatment followed by a major effect after 80 to 90 min. Three hours after far-red treatment there is a transient decline in growth rate which persists for about 2 h. Over the whole time course there is a great stimulation of growth rate compared with the controls. A similar growth-rate pattern also occurs if the end-of-day is 0.48, although the magnitude of the growth stimulation is less. Two components are affected by end-of-day , namely the time at which growth recovers and the subsequent growth rate. In the long term, the latter accounts for most of the differences in elongation growth. The dark recovery when only the hypocotyl is irradiated requires 4 h, but end-of-day far-red treatment reduces this to about 1.5 h. The persistence of the far-red-absorbing form of phytochrome for many hours in darkness in these light-grown plants is also demonstrated.Abbreviations and symbols D darkness - FR far-red light - Pfr far-red-absorbing form of phytochrome - R red light - WL white light (from fluorescent lamps) - photostationary state of phytochrome - _c calculated      

Inhibition of chilling-induced photooxidative damage to leaves of Cucumis sativus L. by treatment with amino alcohols

The effect of pretreatment of cucumber (Cucumis sativus L.) roots with choline chloride or ethanolamine on leaf phospholipid composition and light-induced leaf damage during chilling was studied. Photooxidative chlorophyll degradation was similarly inhibited by both amino alcohols. The decrease of the chlorophyll a/chlorophyll b ratio and the increase of polyunsaturated-fatty-acid degradation during chilling in the light were equally inhibited by pretreatment with choline chloride or ethanolamine. Treatment with choline chloride and ethanolamine caused, respectively, 43% and 26% increases in the total phospholipid contents of the leaves. After treatment with choline chloride, the phosphatidylcholine content was higher than the content of phosphatidylethanolamine; the reverse was true after treatment with ethanolamine. The chlorophyll concentration increased less than the phospholipid concentration, resulting in a decreased chlorophyll/phospholipid ratio of treated leaves. During chilling in the light, degradation of phosphatidylcholine, ethanolamine and phosphatidyl glycerol occurred. Phosphatidyl glycerol was less sensitive than phosphatidylcholine and ethanolamine. The degradation was equally inhibited by pretreatment with either amino alcohol. Possible connections between the phospholipid content of leaf membranes and the inhibition of chilling-induced photooxidative leaf damage are discussed.Abbreviations CC choline chloride - Chl chlorophyll - EA ethanolamine - PC phosphatidyl choline - PE phosphatidyl ethanolamine - PG phosphatidyl glycerol     

A light-enhanced metabolism of sulfite in cells of Cucumis sativus L. cotyledons

The effects of light and several photosynthetic inhibitors on the rate of sulfite metabolism in cells obtained from Cucumis sativus L. cotyledons was studied. The cells were treated with 200 M Na₂SO₃ and the disappearance of sulfite was monitored using either dithiobisnitrobenzoic acid or fuchsin. The rate of sulfite disappearance in light was double the dark rate. Disalicylidene propanediamine at 1 mM increased this light-enhanced metabolism approx. 50%; neither 1 M 3,4-dichlorophenyl-N,N-dimethylurea nor 0.1 mM cyanazine, which completely inhibited CO₂-dependent oxygen evolution, affected the rate of sulfite metabolism. Addition of 200 M Na₂SO₃ to the cells partially inhibited ¹⁴CO₂ fixation. The rate of sulfite consumption by the cells did not affect this inhibition. We conclude that light-dependent sulfite metabolism is cucumber cells may utilize reduced ferredoxin generated as a result of photosynthetic electron transport. An injurious interaction between CO₂ fixation and sulfite appears to occur independently of the sulfite-metabolism process.Abbreviations DCMU 3,4-dichlorophenyl-N,N-dimethylurea - DSPD disalicylidene propanediamine - DTNB 5,5-dithiobis-(2-nitrobenzoic acid)     

In vitro culture of Cucumis sativus L.

Summary The ability to regenerate plants from leaf explants has been tested for three highly inbred cucumber lines (B, G, S), their reciprocal hybrids, F₂ and BC₁ generations. The lines differed from each other in their regenerating ability, which was expressed by the percentage of explants regenerating embryoidal callus and mean number of plantlets per plant. Thus, the lines could be classified as frequently (B), intermediately (G) or occasionally regenerating ones (S). There were no reciprocal cross differences in the regeneration. It was found that the intermediately and intensively regenerating lines contain two pairs of dominant genes responsible for plant regeneration, characterized by complementary and probably additive interaction. The frequently regenerating line differed from the intermediately regenerating in the effect of one gene. It is supposed that the above-mentioned genes belong to three different loci. The ability to regenerate plants from leaf expiants had high heritability.     

Mechanism of photosystem-I photoinhibition in leaves ofCucumis sativus L.

It was recently shown that the site of photoinhibition in leaves of Cucumis sativus L. at low temperatures is Photosystem I (PSI), not PSII (I. Terashima et al. 1994, Planta 193, 300–306). In the present study, the mechanisms of this PSI photoinhibition in vivo were examined. By lowering the photon flux density during the photoinhibitory treatment of leaves at 4°C for 5 h to less than 100 mol·m^–2s^–1, we were able to separate the steps of the destruction of the electron-transfer components. Although P-700, the reaction-center chlorophyll, was almost intact in this low-light treatment, the quantum yield of the electron transfer through PSI and photochemically induced absorption change at 701 nm were markedly inhibited. This, along with the results from the measurements of the light-induced absorption changes in the presence of various concentrations of methyl viologen, an artificial electron acceptor, indicates that the component on the acceptor side of the PSI, A₁ or F_x, is the first site of inactivation. When the photon flux density during the treatment was increased to 220 mol·m^–2s^–1, the destruction of P-700 itself was also observed. Furthermore, the partial degradation of the chlorophyll-binding large subunits was observed in photoinhibited leaves. This degradation of the subunits was not detected when the treatment was carried out under nitrogen atmosphere, the condition in which the electron transfer is not inhibited. Thus, the photoinhibitory processes in the reaction center of PSI go through three steps, the inactivation of the acceptor side, the destruction of the reaction-center chlorophyll and the degradation of the reaction center subunit(s). The similarities and the differences between the mechanisms of PSI photoinhibition and those of PSII photoinhibition are discussed.Abbreviations DAD 2,3,5,6-tetramethyl-p-phenylenediamine - LHCI, LHCII light-harvesting chlorophyll-a/b proteins associating with photosystems I and II, respectively - PFD photon flux density We are grateful to Dr. I. Enami (Department of Biology, Faculty of Science, Science University of Tokyo) and Drs. H. Matsubara and H. Oh-oka (Department of Biology, Faculty of Science, Osaka University) for generous gifts of antisera used in the present work. We also thank A. Aoyama for technical assistance. This work was partly supported by the grants from the Ministry of Education, Science and Culture, Japan.     

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.).     

The site of photoinhibition in leaves of Cucumis sativus L. at low temperatures is photosystem I,not photosystem II

Maximum quantum yields (QY) of photosynthetic electron flows through PSI and PSII were separately assessed in thylakoid membranes isolated from leaves of Cucumis sativus L. (cucumber) that had been chilled in various ways. The QY(PSI) in the thylakoids prepared from the leaves treated at 4° C in moderate light at 220 mol quanta·m^–2·s^–1 (400–700 nm) for 5 h, was about 20–30% of that in the thylakoids prepared from untreated leaves, while QY(PSII) decreased, at most, by 20% in response to the same treatment. The decrease in QY(PSI) was observed only when the leaves were chilled at temperatures below 10° C, while such a marked temperature dependency was not observed for the decrease in QY(PSII). In the chilling treatment at 4° C for 5 h, the quantum flux density that was required to induce 50% loss of QY (PSI) was ca. 50 umol quanta·m^–2·s^–1. When the chilling treatment at 4° C in the light was conducted in an atmosphere of N₂, photoinhibition of PSI was largely suppressed, while the damage to PSII was somewhat enhanced. The ferricyanide-oxidised minus ascorbate-reduced difference spectra and the light-induced absorbance changes at 700 nm obtained with the thylakoid suspension, indicated the loss of P700 to extents that corresponded to the decreases in QY(PSI). Accordingly, the decreases in QY(PSI) can largely be attributed to destruction of the PSI reaction centre itself. These results clearly show that, at least in cucumber, a typical chillingsensitive plant, PSI is much more susceptible to aerobic photoinhibition than PSII.Abbreviations DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - P700 primary electron donor of PSI - PPFD photosynthetically active photon flux density - QY quantum yield We are grateful to invaluable comments by Prof. S. Katoh, K. Hikosaka and the members of our laboratory. We also thank A. Aoyama for technical assistance. This work was partly supported by the grants from the Ministry of Education, Science, and Culture, Japan, to I. Terashima (#03740342 and #04640621).     

The role of cotyledons in phototropism of de-etiolated seedlings

Simulated phototropic curvatures caused by differential masking of the cotyledons of de-etiolated seedlings exposed to white light are unconnected with true phototropism. In Cucumis sativus L. and Helianthus annuus L. such curvatures result from a red-light-induced inhibition coming from the exposed cotyledon. True phototropic bending in these species under long-term exposure to fairly high irradiances (as in nature) is a response to blue light. It occurs even when cotyledons are completely covered. These results show that the cotyledons do not perceive the phototropic stimulus and need not be illuminated for phototropism to occur.     

Secondary plasmodesmata formation in the minor-vein phloem of Cucumis melo L. and Cucurbita pepo L.

Numerous branched plasmodesmata (pd) are present between bundle-sheath cells (BSCs) and specialized companion cells known as intermediary cells (ICs) in the minor-vein phloem of melon (Cucumis melo L.) and squash (Cucurbita pepo L.). These pd were found to be secondary, i.e., they form across existing walls. Sink, sink-source transition, and source tissues were sampled from developing and mature leaves. In sink tissue, IC precursors divide to produce the two to four ICs and associated sieve elements which are present by the time of the sink-source transition. Plasmodesmata along the interface between the IC precursor and adjacent BSCs in sink tissue are unbranched and few in number. Before the leaf tissue undergoes the sink-source transition, the number of pd channels (individual branches of pd) becomes more numerous. This increase in number of pd channels occurs at least in part and perhaps entirely by branching, resulting in more channels on the IC-side than on the BSC-side. In melon there is a 12-fold increase in the number of pd channels within the IC-side of the interface and a corresponding 9-fold increase in pd channels within the BSC-side. Thus, secondary pd form by the time of the sink-source transition and may be involved in phloem loading and photoassimilate export. The system described is well-defined and amenable to experimental manipulation: secondary pd form in large numbers, at a particular interface, over a short period of time, and in a highly predictable manner.Abbreviations BSC bundle-sheath cell - DAP days after planting - IC intermediary cell - LPI leaf plastochron index - pd plasmodesmata - PI plastochron interval We thank Edith Haritatos, Rich Medville, Esther Gowan, and Nancy Dussault for expert technical assistance. This research was supported by an NSF/DOE/USDA Cornell Plant Science Center fellowship (G.M.V.), Natural Sciences and Engineering Research Council Grant GP0138401 and Université de Montréal, Fonds internes de recherche (D.U.B.), and NSF grant IBN-9419703 (R.T.).     

Inheritance of seed weight in Cucumis sativus (L.) var. sativus and var. hardwickii (Royle) Kitamura

Summary A series of experiments was conducted to determine the inheritance of seed weight in cucumber. Matings between a Cucumis sativus var. sativus (Cs) L. inbred line (USDA WI 1606; P₁) and a C. sativus var. hardwickii (Royle) Kitamura (Ch) collection (PI 215589; P₂) were made to produce seed of reciprocal F₁, F₂, and BC₁ families. Families were grown under field and greenhouse conditions, and seeds were extracted from fruit 55 to 60 days post-pollination. Seed of F₁ and F₂ families was obtained using the Cs inbred WI2808 (P₁₂) and the Ch collection LJ 90430 (P₁₀), and seed of F₁ families were produced using a North Carolina Design II mating scheme in which three Cs (P₃= GY-14; P₄=WI 1379; P₅=WI 1909) inbreds were used as maternal parents and seven Ch collections (P₂; P₆= PI462369; P₇=486336; P₈=LJ91176; P₉=273469; P₁₀= 2590430; P₁₁=PI187367) were used as paternal parents. Mean seed weights of F₁ progeny reflected the dominance of genes of the C. sativus var. sativus parent. Transformation to number of seeds per unit weight resulted in increased variance homogeneity within generations and a broad-sense heritability ranging between 26% to 56%. Additive and dominance effects were important in the expression of seed weight in P₁×P₂ progeny produced in the greenhouse and additive effects were important in field grown progeny resulting from P₁×P₂ and P₁₀×P₁₂ matings. The estimated number of factors or loci involved ranged between 10 to 13, depending on the method of calculation.     

An improved method for the generation and transfection of protoplasts from Cucumis sativus Cotyledons

Summary A protocol was developed for the preparation of Cucumis sativus var Straight 8 protoplasts that incorporates a two-step Ficoll^® gradient and results in a high percentage of viable, debris-free protoplasts suitable for the transient expression of foreign genes. Polyethylene glycol and electroporation were compared for their effect on protoplast transfection with commonly used reporter genes. Using a polyethylene glycol method, cucumber protoplasts transfected with a plasmid containing the -glucuronidase gene showed high expression levels, while protoplasts transfected with a plasmid containing the chloramphenicol acetyl transferase gene showed levels of activity that were barely distinguishable from mock-transfected controls. Tomato ringspot virus genomic RNA was also transfected into the protoplasts, and the assembly of viral particles was confirmed.     

Distribution and immunolocalization of stachyose synthase in Cucumis melo L.

Indirect evidence for the site of stachyose biosynthesis has been provided by determining the occurrence and distribution of stachyose, raffinose and galactinol, the donor of the galactosyl moiety for stachyose synthesis, in Cucumis melo L. cv. Ranjadew. Studies of enzyme activities for the synthesis of these sugars and their distribution in different plant organs and isolates has led to the conclusion that stachyose is synthesized mainly in mature leaves and seeds. Nevertheless, stachyose-synthase activity varied with leaf age, the developmental stage of a plant, the growing season and the plant cultivar used. No stachyose or stachyose-synthase activity could be detected in isolated mesophyll protoplasts and chloroplasts, whereas both were found in a minor-vein-enriched fraction isolated from mature leaves. The conclusion that stachyose biosynthesis is associated with minor veins was confirmed by immunolocalization of the enzyme. Positive specific immunoreactivity of stachyose synthase with polyclonal anti-stachyose-synthase antibodies, labeled with protein A-gold, was detected in intermediary cells of leaf minor veins. The implication of this local synthesis of the main transport sugar for phloem loading in mature leaves of Cucumis melo is discussed.Abbreviation RUBPCase ribulose-1,5-bisphosphate carboxylase This work was supported by Deutsche Forschungsgemeinschaft. The excellent assistance of Ms. B. Müller in preparing the samples for electron microscopy is gratefully acknowledged. The authors thank Professor H.J. Schneider-Poetsch for anti-RuBPCase antibodies.     

Immunochromatographic purification of gibberellins from vegetative tissues of Cucumis sativus L: Separation and identification of 13-hydroxy and 13-deoxy gibberellins

Immunological methods are described for the separation and purification of 13-hydroxy and 13-deoxy-gibberellins of Cucumis sativus. Qualitative and quantitative data show that 13-deoxygibberellins predominate over 13-hydroxygibberellins in stems and leaves of this species.Abbreviations FCS foetal calf serum - FW fresh weight - GA_n gibberellin A_n - GC-MS combined gas chromatography-mass spectrometry - IAC immunoaffinity chromatography David Marshall is thanked for help with the preparation of the extracts. The authors also thank ICI Plant Protection, Jealotts Hill, Bracknell, Berks., UK, the Science and Engineering Research Council, the Agricultural and Food Research Council, and also the National Science Foundation (grant DCB 8718540 to V.M. Sponsel) for financial support.     

Insertion and amplification of a DNA sequence in satellite DNA of Cucumis sativus L. (cucumber)

Summary Another satellite DNA repeat (type IV) in the genome of Cucumis sativus (cucumber) was found and investigated with respect to DNA sequence, methylation, and evolution. This satellite shows a repeat length of 360 bp and a GC-content of 47%. The repeats of type IV are highly conserved among each other. Evidence for CG and CNG methylation is presented. By comparison to the previously described satellites (type I/II and type III) from cucumber, it is evident that this repeat is created by an insertion of a 180 bp DNA sequence similar to type I–III into another DNA sequence (or vice versa), and subsequent amplification forming a new satellite repeat. The different satellites of the type I/II, type III, and the 180 bp insert of type IV show a sequence homology of 60%–70%, indicating that the complex satellite DNA of cucumber is originated from a common progenitor by mutation, additional insertion, and amplification events. Copies of a sequence similar to a part of type IV are present in the genome of the related species Cucumis melo (melon).     

Pathway of assimilate transfer between mesophyll cells and minor veins in leaves of Cucumis melo L.

Photoassimilating mature leaves of Cucumis melo exported carbon at a rate of 1.7 mg C·dm^-2·h^-1. Radiolabeling with ¹⁴C showed that stachyose and raffinose are the main carbohydrates translocated. Autoradiograms indicated that sieve elements of the abaxial phloem of minor veins are the sole conduits for carbon export from mature leaves and carbon import into immature leaflets. Sieve elements of the abaxial phloem are associated with intermediary cells which are intimately connected with the surrounding mesophyll cells by numerous plasmodesmata. Photoassimilate, labeled with ¹⁴C, was released into the leaf apoplast and could be trapped in a buffer solution circulating over the abraded adaxial epidermis. Carbon efflux was 1% of the carbon-export rate. A comparable distribution of ¹⁴C among the sugars, amino acids and organic acids, recovered from the free space and from leaf extracts, was recorded. The composition of released ¹⁴C-labeled carbohydrates in the free space resembled the pattern of photoassimilate, but differed clearly from the translocate. Release of organic compounds into the leaf apoplast was stimulated by chelating agents like Na-ATP, ethylenediaminetetraacetic acid and ethylene glycol-bis(-aminoethyl ether)-N,N,N,N-tetraacetic acid; a correlation between carbon efflux into the apoplast and carbon export from the leaf was not detected. It is suggested that the release of organic compounds into the leaf apoplast of Cucumis melo is the consequence of a general leakage from mesophyll and vascular parenchyma cells. A selective release of transport oligosaccharides was not observed. The experimental results presented here do not preclude a symplastic transfer of assimilates in mature leaves.Abbreviations EDTA ethylenediaminetetraacetate - EGTA ethylene glycol-bis(-aminoethyl ether)-N,N,N,N-tetraacetate - PCMBS p-chloromercuribenzenesulfonic acid     

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.