表油菜素内酯对黄瓜子叶过氧化物酶活性和可溶性蛋白含量的影响

０．５ｍｇ／Ｌ的表油菜素内酯（ｅｐｉ－ＢＲ）能显著地促进黄瓜子叶叶绿素ａ、叶绿素ｂ的含量和叶绿素ａ／叶绿素ｂ比值的下降,表明ｅｎｉ－ＢＲ能促进子叶的衰老。从过氧化物酶（ＰＯＤ）的活性测定及同工酶谱发现ｅｐｉ－ＢＲ可提高其活性,暗示它可能通过提高子叶ＰＯＤ的活性而加速子叶叶绿素的降解。另一方面,ｅｐｉ－ＢＲ促进子时可溶性蛋白含量的下降,其中主要是ＲｕＢＰ羧化酶含量的下降,同时,ｅｐｉ－ＢＲ引起子叶游离氨基酸的累积。     

Study on the Plant Growth-Stimulating Activities of Marine

By using bioassays, some plant growth-regulating activities of matrine were determined. The results obtained indicated that matrine obviously increased both the fresh and the dry weight of isolated cucumber cotyledons. Matrine decreased the total chlorophyll content but stimulated the photosynthesis of isolated cucumber cotyledons cultured in light (5000 Ix, 26 ℃). Furthermore, the rooting of isolated cucumber cotyledons cultured in the dark (25 ℃) was markedly promoted by matrine. These phenomena showed that matrine had distinct plant growth-stimulating activites.     

Phytochrome-mediated control of respiratory activities of mitochondria in cotyledons of dark-grown cucumber seedlings

Mitochondria isolated from cotyledons of dark-grown cucumber ( Cucumber sativus L., cv. Shimotsuki-Aonaga) seedlings after illumination with continuous far-red light showed an increased capacity for oxidation of malate or α-ketoglutarate, as compared with those from cotyledons of non-illuminated seedlings. This increase is supposed to be caused by phytochrome action (high irradiance response). Exogenous NAD⁺ had no effect on the rate of the oxidation of α-ketoglutarate or malate by mitochondria isolated from far-red light-treated cotyledons, but it enhanced the oxidation rate of mitochondria from control cotyledons to the level of mitochondria from light-treated ones. The NAD (NAD⁺+ NADH) content was higher in mitochondria isolated from continuously far-red light-treated cotyledons than in mitochondria from controls. The NAD content was also increased by the treatment with a red light pulse and this response was reversed by a subsequent far-red light pulse. It is proposed that phytochrome controls respiratory activities of cucumber mitochondria by changing the size of the NAD pool in the mitochondria.     

Stimulation of cytokinins and chlorophyll synthesis in cucumber cotyledons by triadimefon

Triadimefon [1-(4-chlorophenoxy)-3,3-dimethyl-1-(1,2,4-triazol-1-yl)-2-butanone] changes the morphology and partitioning of dry matter in cucumber ( Cucumis sativus L. cv. National Pickling) seedlings. The dry weights, potassium and cytokinin levels in the cotyledons and roots of the treated seedlings were higher, whereas the hypocotyl weights were lower than the controls. When etiolated intact seedlings or cotyledons excised from triadimefon-pretreated dark-grown seedlings were exposed to light, chlorophyll synthesis in the pretreated cotyledons was stimulated. Triadimefon does not have cytokinin-like activity in the cucumber cotyledon greening bioassay, but appears to induce the plants to produce more cytokinims, probably by stimulating root growth. Hence it is proposed that the stimulation of chlorophyll production by triadimefon in cucumber cotyledons is mediated by maintaining high levels of potassium and cytokinins in the cotyledons.     

Inter-organ Control of Greening in Etiolated Cucumber Cotyledons

Inter-organ control of greening in etiolated cucumber (Cucumis sativus L. cv. Aonagajibae) cotyledons was investigated. Four- or six-day-old excised or intact etiolated cucumber cotyledons were illuminated under aerobic conditions. Excised cotyledons without hypocotyl hooks produced chlorophyll without a prolonged lag phase and the rate of chlorophyll formation was not depressed if they were illuminated immediately after excision. If the excised cotyledons were incubated in the dark before illumination, chlorophyll accumulation at the end of 6 h of continuous illumination was remarkably lowered as the dark period lengthened, especially in 6-day-old cotyledons. The rapid loss of chlorophyll-forming capacity of excised cotyledons during dark preincubation suggests a stimulatory effect of hypocotyls on the greening in cotyledons. The treatment of excised cotyledons with bleeding sap in the dark for 18 h resulted in the promotion of chlorophyll formation during subsequent continuous illumination. Partial fractionation of bleeding sap with organic solvents and paper chromatography indicates that the active substances showed the same behavior as cytokinins. These facts add weight to the hypothesis that cytokinins from roots flow into cotyledons and stimulate greening.     

离体培养黄瓜子叶诱导雌花的研究

采用添加Spd和IAA的MS培养基培养离体黄瓜子叶,研究了Spd和IAA对雌花诱导的协同作用,及昼夜温差、培养基中N素和pH值对雌花诱导的影响。结果表明,分别添加Spd、IAA时的雌花诱导率和单株雌花数偏低或为0,12 mg·L^-1 Spd与0.01mg·L^-1 IAA 配合时的诱导效果明显高于单独处理的,而对照组未见雌花,说明Spd和IAA对雌花诱导的协同作用显著。在0、2、6、10℃昼夜温差,60、70、80、90 mmol·L^-1的N素含量和pH 5.4、5.8、6.2、6.6的培养条件下,70 mmol·L^-1 N、6℃温差和pH 6.2时的雌花诱导效果较好,表明适当提高昼夜温差、培养基中N素和pH值有利于黄瓜子叶的雌花诱导。     

ATP Synthesis in Cotyledons of Cucumber and Mung Bean Seeds during the First Hours of Imbibition

ATP concentration increased rapidly during the first 6h of imbibitionin cotyledons of cucumber and mung bean seeds. The increasewas strongly inhibited by 1-h treatment of tissues with cyanidein both species. Carbonylcyanide m-chlorophenylhydrazone, anuncoupler of oxidative phosphorylation, showed little effectduring the first hour of the treatment, but its inhibitory effecton ATP synthesis became significant after 3 h. Mitochondrialfractions prepared from 6-h-old cucumber cotyledons were capableof phosphorylating ADP to ATP. These results suggest that mitochondrialoxidative phosphorylation may be involved in ATP synthesis duringthe early hours of imbibition in both cucumber and mung beanseeds. (Received December 7, 1987; Accepted April 9, 1988)     

Evaluation of h secretion relative to zeatin-induced growth of detached cucumber cotyledons

Cytokinins promote expansion of cotyledons detached from seedlings of more than a dozen species. The zeatin-enhanced expansion of cucumber (Cucumis sativus L. cv Marketer) cotyledons was investigated. In addition, whether acid secretion is involved in wall loosening accompanying such accelerated growth was evaluated. For cotyledons abraded with carborundum or cut into either eight or 18 pieces, we detected no zeatin-enhanced acidification of the growth medium during growth periods of 3 days. Measurements of pH values on each surface of zeatin-treated, abraded cotyledons after 3 days of growth also showed no detectable acidification caused by the hormone. Furthermore, with several buffers at pH values ranging from 5 to 8, growth of nonabraded, abraded, or cut cotyledons with or without zeatin was independent of external pH. However, experiments restricted to about 12 hours indicated that certain acidic buffers enhanced growth of cotyledons cut into 18 pieces. Lastly, concentrations of fusicoccin that caused growth promotion equal to that of zeatin initiated substantial acidification of the medium. Collectively, these data suggest that zeatin-induced expansion of detached cucumber cotyledons is independent of H⁺ secretion.     

ffects of Some Inhibitors on Potassium-and IAA-Induced Adventitious Root Formation of Excised Cucumber Cotyledon

The effects of some inhibitors on potassium- and IAA-induced rooting were studied adopting the root-formation bioassay in the excised cucumber ( Cucumis sativus L. ) cotyledon. 5-fluomuracil at 7 Ï 10-4 – 7 Ï10-1 mmol/L and cycloheximide at 3.5 Ï 10-4 – 1.05 Ï10-2 mmol/L significantly inhibited potassium- and IAA-induced adventitious root formation of the excised cucumber cotyledons, respectively. Na3VO4 at 0.1 – 1.0 mmol/L obviously inhibited potassium and IAA-induced adventitious rooting of the excised cucumber cotyledons, and similar inhibitory effect was found with 2,3,5-triiodobenzoic acid (TIBA) at 2 Ï 10-4 – 2 Ï 10-l mmol/L.There is a close relationship between potassium and IAA-induced adventitious rooting and the promotive effect of potassium on rooting is possibly brought about via affecting the endogenous level of IAA.     

The Roles of the Cotyledons and Auxin in the Adventitious Root Formation of Hypocotyl Cuttings of Light-Grown Cucumber Seedlings

Adventitious root formation in encumber hypocotyl cuttings was studied. Root formation was quantitatively related to the amount of the cotyledons attached to the hypocotyl. Complete removal of the cotyledons diminished root formation entirely. Hut the removal of the apical bud had no effect. Treatment of the hypocotyl with triiodobenzoic acid resulted in the inhibition of root formation. On t he other hand, IAA promoted root formation. Promoting concentration of IAA was 1 mg/1 for the cuttings with intact cotyledons and 10 mg/1 for those with l/8th of the cotyledons. The first two or three days of treatment was most effective. The presence of auxin (IAA-like. substance) in cucumber seedlings was demonstrated by paper chromatography and the pea straight test. It is concluded that the cotyledon is necessary for root formation in cucumber hypocotyl cuttings and that auxin is at least one of the factors supplied from the cotyledons.     

Lepidimoide Promotes Light-Induced Chlorophyll Accumulation in Cotyledons of Sunflower Seedlings

The effect of disaccharide lepidimoide on light-induced chlorophyll accumulation was studied in cotyledons of sunflower (Helianthus annuus L.) seedlings and detached cucumber (Cucumis sativus L.) cotyledons. From studies on the structure-activity relationships of lepidimoide, its analogs, and sucrose with respect to light-induced chlorophyll accumulation in the cotyledons of sunflower seedlings, both lepidimoide and the free carboxylic acid of lepidimoide (lepidimoic acid) showed the highest promoting activity, whereas the hydrogenated lepidimoide, which lacks a double bond in the C4, 5 position in uronic acid, showed lower activity than lepidimoide; however, sucrose exhibited very weak activity. These results suggest that lepidimoide acts as a new type of plant growth regulator, not simply as a carbon source providing energy. Lepidimoide promoted not only light-induced chlorophyll accumulation in sunflower cotyledons but also light-induced 5-aminolevulinic acid content, which is considered to be a rate-limiting step in chlorophyll biosynthesis. Lepidimoide with cytokinin stimulated the accumulation of chlorophyll and 5-aminolevulinic acid additively. In detached cucumber cotyledons, lepidimoide also promoted light-induced chlorophyll accumulation. These results indicate that lepidimoide, in cooperation with cytokinin, causes light-induced chlorophyll accumulation in the cotyledons of several dicot plant species by affecting the level of 5-aminolevulinic acid. Received April 4, 1997; accepted September 28, 1998     

Casein kinase activity in etiolated Cucumis sativus cotyledons

Two calcium- and light-dependent protein kinases have been reported in etiolated Cucumis sativus cotyledons (Vidal et al. 2007). In the present work, we studied casein kinase (CK) activity in etiolated cucumber cotyledons of in-gel and in vitro kinase assays, using specific CK inhibitors, and ATP and GTP as phosphate donors. Two proteins with CK activity were detected in both casein gels and autophosphorylation assays. One of them, with a molecular mass of approximately 36 kDa, showed biochemical CK1 characteristics: it was inhibited by specific CK1 inhibitors and only used ATP as phosphate donor. The second, with a molecular mass of approximately 38 kDa, had CK2 characteristics; it used both ATP and GTP as phosphate donors, was inhibited by all specific CK2 inhibitors, and was recognized by a polyclonal antibody directed against the α catalytic subunit of a CK2 from tobacco. The kinase activity of the CK2 detected in etiolated cucumber cotyledons showed circadian rhythmicity in both in vitro and in-gel casein phosphorylation and in autophosphorylation assays. Thus, our results suggest that the CK2 of approximately 38 kDa could be related to the circadian oscillator of C. sativus cotyledons.     

A development-dependent hemagglutinin from cucumber surfaces: I. Hemagglutinin activity of cotyledon surfaces

During studies on the chemistry of plant surfaces, we observed that concomitant with the development of cucumber (Cucumis sativus L. cv `ELEM') cotyledons an agglutinin that agglutinates human erythrocytes appeared on epicuticular surfaces. The agglutinin was released from cotyledon surfaces into distilled water by a 1-minute immersion (or even less). Homogenization of the washed cotyledons released residual agglutinating activity. The surface-located hemagglutinating activity was age-dependent and occurred in dark- and light-grown cotyledons. Agglutinating activities were present in light-grown cotyledons of 2- to 14-day-old seedlings and in dark-grown cotyledons of 3- to 17-day-old seedlings. Agglutinating activities were maximal in cotyledons of 3- to 4-day-old seedlings. No activity could be detected in dry seeds or in seedlings up to 2 days and after 17 days of germination. The hemagglutinating activity was specifically inhibited by N,N′,N″-triacetylchitotriose, chitin, and chitosan.     

Osmotic potential of the epidermal cells of cucumber hypocotyls as affected by gibberellin and cotyledons

By using light-grown cucumber (cv. Aonagajibae) seedlings withfully expanded cotyledons, the osmotic potential of the epidermalcells of the hypocotyl, as determined by the plasmolysis methodwas examined in relation to the effects of gibberellin (GA₇)and cotyledons. GA₇ at a dosage level of 0.05 µg/plantapplied to the apical bud lowered the osmotic potential; thedecrease was significant 5 hr after the GA₇ treatment. Removalof the cotyledons, covering them with aluminum foil, or applyinglinuron, a DCMU analogue, to them caused an increase in thepotential. In light-grown cucumber seedlings, the maintenanceof a lower osmotic potential in the epidermal cells of the hypocotylwas concluded to be regulated by the photosynthetic activityof the cotyledon and also by gibberellin. ¹Noriko Katsu, Kitano-Haitsu 203, Saginuma 1-9-10, Takatsu-ku,Kawasaki 218, Japan. (Received May 30, 1980; )     

黄瓜子叶扩张与细胞分裂素的关系

BA(benzyl adenine)专一性地促进离体黄瓜子叶的扩张。为了研究BA的作用机理,我们采用间接EIISA和HPLC的方法测定了子叶扩张过程中内源玉米素 (Z) 和玉米素核苷(ZR)含量的变化。离体黄瓜(Cucumis sativus,津研4号)子叶用100mg／1的BA培养,72小时之后,处理子叶鲜重的增加比对照高70％。Z+ZR在BA处理的子叶中有大量的积累。结果表明BA可能诱发了黄瓜子叶中的细胞分裂素生物合成和代谢的某些基因。     

Role of polyamines in the cytokinin-dependent physiological processes II. Modulation of polyamine levels during cytokinin-stimulated expansion of cucumber cotyledons

The cucumber cotyledon expansion test was used as a model system to study a possible relationship between cytokinin and polyamines. When kinetin was applied to excised cotyledons incubated in the dark it caused a marked increase in the activity of arginine decarboxylase. As a result of ADC action, putrescine content also rose markedly, whereas the level of spermidine and spermine decreased. However, inhibition of putrescine biosynthesis with D-arginine did not affect cytokinin promotion growth. Applied alone, putrescine had no significant effect on growth. These results indicate that the large increase in putrescine content that derives from cytokinin treatment cotyledons is not essential for cytokinin-induced expansion of cotyledons. Addition of K⁺ and Ca²⁺ ions to the cotyledons incubated with cytokinin caused a marked reduction in the putrescine level and ADC activity. The higher level of putrescine (35 %) and spermine (62 %) bound to chromatin and the large increase (174 %) in spermidine content bound to ribosomes which derive from cytokinintreated cotyledons in relation to literature data can indicate that these polyamines may play an important role in gene expression during cytokinin-stimulated expansion of cucumber cotyledons. The inhibition of cytokinin effect, viz. enlargement of the cotyledons by inhibitors of spermidine biosynthesis, additionally suggessted a possible involvement of polyamines in cytokinin action.     

Influence of chloroplast development on the activation of the diphenyl ether herbicide acifluorfen-methyl

The activity of acifluorfen-methyl (AFM); methyl 5-(2-chloro-4-[trifluoromethyl] phenoxy)-2-nitrobenzoate in excised cucumber cotyledons (Cucumis sativus L.) was examined. AFM induced membrane disruption, was significantly greater when etiolated cotyledons were illuminated 16 hours at 150 microeinsteins per square meter per second photosynthetically active radiation versus incubation under illumination of 4-fold greater intensity. These results were unexpected since the loss of membrane integrity is initiated by photodynamic reactions. Untreated, etiolated cotyledons were not able to accumulate chlorophyll under the higher light intensity while control and herbicide treated cotyledons greened significantly under the lower intensity illumination suggesting that some process associated with greening stimulated AFM activity. Inhibition of greening by cycloheximide also reduced AFM activity. Intermittent lighting induced greening in AFM treated cotyledons without causing any detectable loss of plasmalemma integrity. Utilization of this system for pretreatment of cotyledons prior to continuous illumination revealed that activity was greater when tissue was greened in the presence of AFM than when herbicide treatments were made after a greening period of the same duration. The results indicate that the pigments in situ in etiolated tissue are sufficient, without greening, to initiate membrane disruption by AFM. However, greening increases the herbicidal efficacy greatly. Furthermore, the stimulation appears to be due to specific interactions between AFM and the developing plastid and is not attributable solely to an increase in endogenous photosensitizers.