The Relationship of Some Glycosidases to the Endogenous and IAA-induced Growth of Light-grown Cucumber Hypocotyls

Some glycosidases in light-grown cucumber (Cucumis sativus L. cv. Aonaga-jibae) hypocotyl sections were examined with respect to their localization and relation to endogenous and IAA-induced growth. Frozen-thawed sections were used directly for measurement of enzyme activities, and β-glucosidase, α- and β-galactosidases and β-xylosidase were assayed by using p- or o-nitro-phenylglycopyranosides as substrates. The order of the activity of these enzymes were β -glucosidase > β -galactosidase =α-galactosidase > β-xylosidase. No activity of α-glucosidase was detected. High glycosidase activities were found in the youngest region of the hypocotyl, where the endogenous growth rate was highest. However, there was no significant difference in the activities of this region between seedlings at different growth stages. Among the enzymes tested, β -glucosidase showed a high correlation with the endogenous growth rate. β-glucosidase was found to be mostly associated with the cell wall fraction, while β-galactosidase was rather found in the soluble fraction of the cell. Separation of the epidermis from the section showed that a very high activity of β-glucosidase was associated with the epidermis. In both whole sections and isolated cell wall fractions, IAA was shown to have no effect on the activities of β-glucosidase and β-galactosidase.     

Influence of Ethidium Bromide on the Gibberellin-Induced Elongation of Cucumber Seedlings

Ethidium bromide, a DNA intercalating agent, acts synergistically with gibberellin on the elongation of cucumber seedling hypocotyls at concentrations of 0.05 and 1.0 μg per plant. At higher concentrations and when given prior to the GA treatment, ethidium bromide acts antagonistically with gibberellin.     

Levels of Indol-3yl-acetic acid (IAA), IAA-oxidase and Peroxidase in Developing Cucumber Seedlings

The level of indol-3yl-acetic acid (IAA) in the cotyledons of cucumber seedlings increases in the period 4 to 11 days after germination. In hypocotyls and roots the IAA level decreases. IAA-oxidase activity of homogenates of cotyledons, hypocotyls and roots decreases with age. The soluble fraction of all three organs contains an IAA-oxidase, which may be allosteric. It is suggested that this IAA oxidase limits the upper level of IAA in the cell. The cell wall fraction of the three organs contains IAA-oxidases with conventional kinetics. The function of this IAA oxidase is probably to degrade exogenous IAA.     

Tryptophan Decarboxylase Activity in Developing Cucumber Seedlings

The rate of decarboxylation of DL-tryptophan-carboxyl-¹⁴C in homogenates of cotyledons, hypocotyls and roots of sterile and non-sterile cucumber seedlings of 4, 8 and 11 days was measured. Tryptophan decarboxylating activity is highest in hypocotyls, lowest in cotyledons. In all organs the activity decreases with age. This enzyme activity does not parallel the IAA level in the organs during ageing.     

Raphanusol B: A Growth Inhibitor of Light-grown Radish Seedlings

A growth inhibitor, for which the name raphanusol B is proposed,was isolated in crystalline form from light-grown Sakurajimaradish seedlings and has been shown to be 1-sinapoylglucoseby spectrometric analysis. Raphanusol B inhibited the growthof intact and excised hypocotyls of etiolated radish seedlings.The raphanusol B content of the radish seedlings increased greatlyunder red light, but decreased in the dark. ¹Present address: Department of Chemistry, Faculty of Science,Kagoshima University, Korimoto 1, Kagoshima 890, Japan. (Received October 6, 1980; Accepted December 6, 1980)     

A Close Relationship between Increases in Galactosyltransferase Activity and the Accumulation of Galactolipids during Plastid Development in Cucumber Seedlings

Changes in the activity of UDP-galactose:diacylglycerol galactosyltransferase(UDGT), a key enzyme in galactolipid biosynthesis, during germinationwere investigated in cucumber (Cucumis sativus L. cv. Aonagajibai)seedlings. After germination, UDGT activity increased duringgrowth in darkness for 4 days, reaching 10 times the activityin ungerminated seeds. Illumination of 4-day-old dark-grownseedlings strongly stimulated the activity. By contrast, inseedlings grown continuously in darkness, the increase in UDGTactivity ceased after 4 days and the activity remained constantthereafter. A similar increase in the specific activity of UDGTwas observed i n the envelope fraction from seedlings, indicatingthat the increase in the enzymatic activity preceded synthesisof other proteins in the envelope membrane. Coincident withthe change in the enzymatic activity, here was an increase inlevels of monogalactosyl diacylglycerol (MGDG) and digalactosyldiacylglycerol (DGDG), two major constituents of chloroplastmembrane lipids, in the germinated seedlings. Cycloheximideinhibited the light-mediated increase in the enzymatic activityby illumination of 4-day-old dark-grown seedlings, and, as aconsequence, it inhibited the accumulation of MGDG and DGDG.It was clear, therefore, that protein synthesis was necessaryduring this activation. Addition of a cytokinin, benzyladenine(BA), stimulated the increase in the UDGT activity. The increasein the UDGT activity caused by BA was accompanied by the accumulationof galactolipids, as in the case of the activation by light.These results suggest that activation of the final reactionin the synthesis of MGDG, which is catalyzed by the galactosyl-transferase,contributes to the accumulation of galactolipids during thedevelopment of the chloroplast membrane. (Received December 3, 1994; Accepted July 3, 1995)     

Influence of Cell Age on Chlorophyll Formation in Light-grown and Etiolated Wheat Seedlings

A method is described for relating the age of a cereal leaf cell to its distance from the leaf base. The rates of chlorophyll synthesis per plastid in the first leaf of light-grown and of greening etiolated seedlings of wheat (Triticum aestivum, var. Maris Dove) increase with cell age. Normally developing plastids of light-grown wheat take over 24 hours to reach the chlorophyll a/b ratio characteristic of mature wheat chloroplasts (4.5), but mature etioplasts need only 8 hours light to achieve this a/b ratio. Plastid greening potential depends only on cell age, whereas the chlorophyll a/b ratio is influenced both by cell age and by light.     

Desaturation of Oleic and Linoleic Acids by Leaves of Dark- and Light-grown Maize Seedlings

Oleate and linoleate desaturation in leaves of maize seedlings was largely independent of previous light treatment of the seedlings; there was no evidence of light-induced desaturase activities. These results are in sharp contrast to those observed with developing cucumber cotyledons in which pronounced increase in desaturation occurs after exposure of tissue to light. The rates of desaturation of oleate were about four times those of linoleate in both etiolated and 16-hour greened maize leaves. In both etiolated and greened tissues, about two-thirds of the label from oleate was esterified after 4 hours, half of which was in phosphatidylcholine. Phosphatidylcholine and diglyceride contained large proportions of [¹⁴C]linoleate formed from [¹⁴C]oleate but not [¹⁴C]linolenate. In monogalactolipid, about two-thirds of the labeled fatty acids were linolenate. In vivo desaturase activity was present in tissue of widely different levels of differentiation and chlorophyll content obtained from light-grown maize seedlings.     

Response of Ammonia Assimilation in Cucumber Seedlings to Nitrate Stress

The influence of increased nitrate concentration—14 (control) and 140 mmol L⁻¹ (T)—in hydroponic culture on ammonia assimilation in cucumber (Cucumis sativus L. cv. Xintaimici) seedlings was investigated. The results showed that NH₃ accumulation in the roots and leaves of T seedlings increased significantly, indicating that NH₃ toxicity might be involved in nitrate stress. Under control conditions, GS and GOGAT activity were much higher in the leaves than in the roots, whereas GDH activity was much higher in the roots than in the leaves. Correlation analysis showed that NH₃ concentration had a strong negative linear relationship with GDH activity in the roots but had a strong negative linear relationship with GS and GOGAT activity in the leaves. These results indicate that NH₃ might be assimilated primarily via GDH reaction in the roots and via GS/GOGAT cycle in the leaves. Short-term nitrate stress resulted in the increase of GS and GOGAT activity in the roots and GDH activity in the leaves of T seedlings, indicating possible shifts in ammonia assimilation from the normal GDH pathway to GS/GOGAT pathway in the roots and from the normal GS/GOGAT pathway to the GDH pathway in the leaves under nitrate stress, but with the increase of treatment time, GS, GOGAT, and GDH activity in the roots and leaves of T seedlings decreased possibly due to low water potential and NH₃ toxicity.     

Control of Leaf and Stem Growth in Light-grown Pea Seedlings by Two High Irradiance Responses

The control exerted by light on leaf and stem growth in light-grown Alaska pea seedlings was studied during the main photoperiod. Two high irradiance responses were observed. The action spectrum for one had a single sharp peak at 600 nanometers. The action spectrum for the other showed a broad peak between 440 and 470 nanometers. These two light responses must be activated simultaneously for any inhibition of stem growth or promotion of leaf growth. Both action spectra may be explained in terms of the high irradiance response of phytochrome.     

亚精胺诱导黄瓜幼苗对白粉病抗性的研究

以黄瓜品种‘长春密刺’幼苗为材料,研究了亚精氨(Spd)诱导黄瓜幼苗对白粉病的抗性,并测定Spd处理和白粉菌接种对黄瓜叶片4种防御酶活性及3种防卫基因表达的影响。结果显示:(1)0.2～1.0mmol.L-1 Spd对黄瓜幼苗白粉病抗性均有不同程度的诱抗效果,并以0.8mmol.L-1 Spd处理效果最明显,诱导效率可达55.3%。(2)喷施Spd或接种白粉菌均可提高黄瓜叶片过氧化物酶(POD)、苯丙氨酸解氨酶(PAL)、几丁质酶和β-1,3-葡聚糖酶的活性,且诱导并接种处理的植株叶片上述酶活性均比只诱导不接种处理的上升速度更快;同时,Spd处理和接种白粉菌可以提高植株叶片中POX、PAL、PR-1a基因的表达量。研究表明,Spd处理可以诱导防卫基因表达的增强,提高防御酶活性,显著降低病情指数,增强黄瓜幼苗对白粉病的抗性。     

钙对低氧胁迫下黄瓜幼苗体内多胺及多胺氧化酶的影响

以‘中农8号’黄瓜品种为实验材料,采用营养液栽培法研究了钙对根际低氧胁迫下黄瓜幼苗体内多胺(PAs)含量及多胺氧化酶(PAO)活性的影响。结果表明:(1)各处理黄瓜幼苗根系和叶片中的PAs含量以及3种形态的腐胺(Put)、亚精胺(Spd)、精胺(Spm)含量均表现为低氧高钙(8 mmol.L-1Ca2 )>低氧常钙(2 mmol.L-1Ca2 )>低氧缺钙(0 mmol.L-1Ca2 )>通气常钙(2 mmol.L-1Ca2 )处理,而PAO活性却表现出相反的趋势(通气常钙>低氧缺钙>低氧常钙>低氧高钙),且处理间大多存在显著差异(P<0.05);根系中的PAs含量明显高于叶片,而PAO活性明显低于叶片。(2)黄瓜幼苗体内3种形态的PAs以游离态含量最高,其次是结合态,最低为束缚态;游离态和结合态PAs在叶片中均以Spd为主,在根系中均以Put为主,束缚态PAs含量在根系和叶片中均为Spd>Put>Spm。研究表明,在低氧胁迫下,营养液加钙引起黄瓜幼苗体内多胺含量的上升和PAO活性下降,钙参与了黄瓜幼苗体内多胺的代谢过程,对缓解低氧胁迫有重要作用。     

Relative Contribution of Ribulose 1,5-Diphosphate Carboxylase and Phosphoenolpyruvate Carboxylase to CO2 Fixation Activity in Roots of Dark-grown or Light-grown Lens culinaris Seedlings

The pathway of carbon assimilation in greening roots was compared to the pathway in leaves of Lens culinaris seedlings by means of labelling distribution analysis among the products of ¹⁴CO₂ fixation in vivo, and in vitro with ribulose 1,5-diphosphate as the substrate. In green leaves, CO₂ fixation via ribulose 1,5-diphosphate carboxylase predominated largely while, in green roots, this carboxylase activity and the phosphoenolpyruvate carboxylase contributed almost equally to the whole in vivo CO₂ fixation. A participation of the activities of both carboxylases according to the double carboxylation pathway in the synthesis of dicarboxylic acids (malate and aspartate) was demonstrated in vitro after 48 h of greening in roots but seemed to be absent in in vivo experiments.     

Effects of Gibberellin and Growth-retarding Chemicals on Respiration and Catalase Activity in Various Organs of Cucumber Seedlings

Cucumber seedlings were grown in darkness on filter paper saturatedwith water, gibberellin (GA), growth-retarding chemicals (mainlyAmo-1618) or both GA and Amo-1618. The effects on oxygen consumptionand catalase activity were studied on cotyledons, radicles,and hypocotyl tips. GA increased respiration and catalase activity of hypocotyland cotyledons, decreased radicle respiration, and had no significanteffect on its catalase activity. Amo-1618 decreased respirationof hypocotyl and cotyledons and increased that of the radicles.It stimulated catalase activity in all three organs. The inverse effects of GA and Amo-1618 on oxygen uptake andcatalase activity were mutually antagonized when both compoundswere applied at concentrations counteracting their oppositeeffects on hypocotyl elongation. No stimulating effect on catalase activity was found with mostother growth-retarding chemicals. Some of them had no significanteffect on the enzyme, and one even decreased its activity.     

蚯蚓粪对黄瓜苗期土传病害的抑制作用

试验表明,蚯蚓对农业有机废弃物进行生物降解的产物－蚯蚓粪,在一定程度上能够控制蔬菜类黄瓜苗期土传病害的发生,并表现出明显的促生长效应,蚯蚓粪控制病害的程度与蚯蚓粪的量有一定的关系,当蚯蚓粪与土体积比为20％时,控制病的程度最大,防效达96．1％,这种作用主要与蚯 蚓粪中的微生物性质有关,蚯蚓粪能大大提高土壤中的微生物量和微生物活性,从而大大增强了病土中与病原菌进行能源竞争的微生物的竞争能力,同时从新鲜蚯蚓粪中成功分离到拮抗活性强,抗菌谱广的拮抗微生物,初步研究结果说明,一般性抑制和特殊性抑制两种机制在蚯蚓粪对病害的控制中起作用。     

Promotion of Hypocotyl Elongation in Watermelc Seedlings by 6-Benzyladenine

Hypocotyl elongation under white fluorescent light was aboutdoubled in dwarf watermelon (Citrullus lanatus0 (Thunb.) Matsu.and Nakai) seedlings treated with 0.1 to 0.3 µg apicaland 3 x 10–6 to 10.3 M root applications of 6-benzyladenine(BA). BA-enhancement of growth occurred primarily during thefirst 48 h after treatment. Increased hypocotyl length in BA-treatedseedlings was attributed more to longer cells than to an increasein cell number. Early hypocotyl growth of normal seedlings wasalso significantly enhanced by BA although final hypocotyl lengthwas not substantially affected. Benzyladenine caused expansion of cotyledons and, at higherdoses, lateral expansion of hypocotyls. BA-induced increasesin fresh weight of cotyledons and hypocotyls were accompaniedby an increase in dry weight of hypocotyls at the expense ofroots which had less dry matter than untreated seedlings.     

Similarity between Cytokinin and Blue Light Inhibition of Cucumber Hypocotyl Elongation

The cytokinin benzyladenine inhibited endogenous hypocotyl elongation in intact etiolated seedlings of cucumber (Cucumis sativus L.). In hypocotyl segments, the inhibitory effect of benzyladenine on growth was clearly detectable in the presence of indoleacetic acid. Fusicoccin-induced elongation was unaffected by the presence of cytokinin. The effect of cytokinin on elongation of the segments was determined by measuring changes in fresh weight, a linear function of extension growth. The effect of benzyladenine on hypocotyl growth was at least as large in segments prepared from red-light-grown seedlings as in those from seedlings grown in total darkness. A comparison was made between the inhibitory effects of cytokinin and blue light. The use of the calcium chelator ethyleneglycol-bis(β-aminoethyl ether)-N, N′-tetraacetic acid indicated that calcium ions are required for manifestation of benzyladenine-induced inhibition.     

Enhancement by Putrescine of Gibberellin-Induced Elongation in Hypocotyls of Lettuce Seedlings

Effects of diamines, polyamines, and other basic amino acidson the growth of lettuce hypocotyls were investigated. Putrescine,cadaverine and agmatine enhanced the hypocotyl growth in thepresence of gibberellin, while spermidine and spermine werenon-effective. Arginine and ornithine, which may be precursorsof putrescine, had similar effect. While the growth inhibitiondue to arcaine (1,4-diguanidinobutane), which is a agmatineiminohydrolase inhibitor, was recovered by agmatine, cadaverine,putrescine, and spermidine, putrescine most effectively recoveredits growth-enhancing effect. (Received August 25, 1982; Accepted December 27, 1982)     

Isolation of Indole-3-ethanol Oxidase from Cucumber Seedlings

Previous work in this laboratory has shown that cucumber (Cucumis sativus L.) seedlings contain large amounts, relative to other indolic compounds, of extractable indole-3-ethanol (IEt); tracer studies have established that IEt is metabolized to IAA. We have now succeeded in isolating an enzyme from these seedlings which catalyzes the oxidation of IEt to indole-3-acetaldehyde (IAAld). The identification of the product as IAAld was based on solvent partitioning of the free aldehyde and its bisulfite adduct and radiochromatography following incubation of enzyme with ¹⁴C-IEt. A novel, quantitative colorimetric test for IAAld was also developed utilizing the Salkowski reagent. Partial purification of the enzyme was achieved by salt gradient chromatography on Bio-Rex 70, heating the preparation to 70 C, and chromatography on Sephadex G-150. This purification procedure yielded an enzyme activity purified in excess of 3000-fold, and studies on a standardized Sephadex column suggest a molecular weight of the enzyme of approximately 105,000. The reaction was found to proceed only aerobically; and, in the absence of other electron acceptors, O₂ appears to be reduced to H₂O₂. The enzyme has nearly maximum activity from pH 8 to 11.     

低温胁迫对黄瓜子叶抗坏血酸过氧化物酶活性和谷胱甘肽含量的影响

低温胁迫下黄瓜幼苗子叶抗坏血酸过氧化物酶活性和GSH含量显著下降,下降幅度随低温胁迫程度增加而递增。不同低温胁迫下酶活性和GSH含量变化与子叶电解质泄漏和MDA的增加呈负相关。幼苗用MV和MDA预处理可加剧由低温引起的抗坏血酸过氧化物酶活性和GSH含量降低,而用苯甲酸钠和α-生育酚预处理则可减轻这种降低,显示出过量的活性氧及其引发的膜脂过氧化产物MDA对抗坏血酸过氧化物酶和GSH均有伤害影响。