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。     

Modulation of Chlorophyll, Carotene and Xanthophyll Formation by Penicillin, Benzyladenine and Embryonic Axis in Mung Bean (Phaseolus aureus L.) Cotyledons

Penicillin stimulated the synthesis of pigments in the cotyledonsof intact embryos and excised cotyledons of mung bean (Phaseolusaureus L.) and enhanced benzyladenine-induced accumulation ofchloroplast pigments. The presence of the embryonic axis duringlight exposure proved to be beneficial for chlorophyll synthesisby the cotyledons whereas its presence in dark germination producedan adverse effect. The possible involvement of nucleic acidand protein synthesis in light-regulated chlorophyll formationis suggested. The stimulating effect on pigment synthesis providedby penicillin in this system seems to involve a maintenanceof nucleic acid and protein synthesis. Phaseolus aureus L., mung bean, pigment synthesis, 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.     

Differential effects of benzyladenine and potassium on DNA, RNA, protein and chlorophyll contents and on expansion growth of detached cucumber cotyledons in the dark and light

Benzyladenine (BA) and KCl were applied to detached cucumber ( Cucumis sativus L. cv. Ohio) cotyledons in continuous light or in the dark with subsequent light. BA brought about an increase in fresh weight and in DNA, RNA and carotenoid contents in both treatments. KCl did not cause an increase in fresh weight and cellular constituents in the dark, but it did result in an increased fresh weight and DNA content after illumination or in continuous light. BA + KCl treatment resulted in increased carotenoid and DNA contents in the dark, and in increases in fresh weight and all cellular constituents upon subsequent exposure to light. The effects of BA and BA + KCl on growth and chlorophyll synthesis decreased with cotyledon age.
BA pretreatment in the dark eliminated the lag phase in chlorophyll synthesis and increased the rate of synthesis. Treatment in continuous light had little effect. KCl did not shorten the lag phase in chlorophyll synthesis, but it stimulated the rate of synthesis in the light. Dark pretreatment with BA + KCl markedly increased the effect of BA on chlorophyll synthesis. Chlorophyll content and fresh weight were higher in cotyledons treated with BA followed by KCl than in cotyledons treated in the reverse order. These results suggest that growth and greening in cucumber cotyledons are primarily controlled by BA and that KCl intensifies the BA effect after irradiation.     

Influence of the Embryonic Axis on Protein Hydrolysis in Cotyledons of Cucurbita maxima

Four-day time course studies of the hydrolysis of cotyledonal storage protein were conducted on intact seeds, seed cotyledons detached from their embryonic axes and on detached cotyledon pairs germinated in the presence of three excised embryonic axes of Cucurbita maxima Duch., cv. Chicago Worted Hubbard. Detached cotyledons germinated alone showed little hydrolysis of the storage protein. However, the amount of protein hydrolysis of the detached cotyledon pairs germinated in the presence of three excised embryonic axes was comparable to the amount hydrolyzed in the cotyledons of intact germinating seeds. Visual growth differences among these treatments were also evident. The size and yellow color intensity of the fourth day treatments were shown to increase in the following order: detached cotyledon pairs alone, intact seedlings, detached cotyledon pairs in the presence of three excised axes. The growth of the hypocotyl and radical was also modified by removal of the cotyledons. These findings suggest that storage protein degradation and cotyledonal growth are controled by the axis. They also indicate that the cotyledons have some influence on the growth of the axes. Time-course studies were made on the hydrolysis of storage protein in the cotyledons of squash and on the distribution of the hydrolytic products during the germination of light- and dark-grown plants. The storage protein was not hydrolyzed during the first 24 hours. It was hydrolyzed at a uniform rate from 1 to 5 days and at a slightly decreased rate from 5 to 7 days. Most of the hydrolytic products were transported to the axial tissue. Proteinase activity in the cotyledons rapidly increased during germination to a maximum level at 2 to 3 days. This was followed by a decline to about the initial value after 7 days.     

A double enhancement of greening in the cotyledons of cucumber seedlings by excision and red light

Cotyledons excised without the hypocotyl hook from 6-day-old etiolated cucumber ( Cucumis sativus L. var. Elem) seedlings accumulated a significantly higher amount of chlorophyll than cotyledons excised with hooks or intact cotyledons. It was found that maximum ehancement of greening was achieved after 2 h of dark incubation following excision. Pretreatments with red light effected an additive rise in chlorophyll level in subsequent white light after a dark incubation, suggesting that the effects of excision and phytochrome on greening act independently. Etiolated seedlings were variously dissected before greening and it was found that enhancement occurred only when cotyledons were excised at the level of the hypocotyl hook or above it. Similar results were obtained when the dissected plants were pre-treated with red light.     

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.     

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10mg/l 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。     

Cytokinins in Germinating Seeds of Phaseolus vulgaris L. I. Changes in Endogenous Levels Within the Cotyledons

Ethanolic extracts from the cotyledons of mature dry Phaseolusvulgaris L. seed yielded cytokinin-like activity which co-chromatographedwith zeatin and ribosylzeatin. Under conditions which stimulatedgermination and cotyledon expansion, the level of these cytokininsdecreased rapidly in both intact embryos and excised cotyledons.In the excised cotyledons the decrease was continuous, resultingin very low levels of cytokinin being detected after 4 daysof incubation. With the embryonic axis present, however, theinitial decrease was arrested and reversed after 3 days. Thissuggests that the cotyledons do not synthesize cytokinins butthat these hormones are imported from the embryonic axis, particularlyonce radicle growth is well under way. Phaseolus vulgaris, bean, cotyledons, cytokinins, germination     

Evidence that Ethylene is not Involved in Red-light-induced Stimulation of Chlorophyll Formation in Etiolated Cucumber Cotyledons

The involvement of ethylene in red-light-induced stimulationof chlorophyll (Chl) formation was studied because one of thered-light effects on Chl formation (the lateappearing effect)interacts with the ethylene effect in 3-day-old excised etiolatedcotyledons of cucumber (Cucumis sativus L. cv. Aonagajibai).Ethylene production by etiolated cotyledons of intact seedlingsin the dark is enhanced by a red-light pulse, but the effectdoes not occur in excised cotyledons. Application of ethylenein the dark to 3-day-old intact seedlings has little effecton Chl formation in the cotyledon during subsequent continuousillumination, although ethylene pretreatment of 5-day-old seedlingssignificantly stimulates Chl formation. Removal of endogenousethylene by mercuric perchlorate [Hg(ClO₄)₂] does not specificallysuppress the red-light action on Chl formation in both attachedand excised cotyledons. Inhibition of ethylene synthesis byaminoethoxyvinylglycine does not affect the red-light effecton Chl formation in excised cotyledons. These facts indicatethat ethylene does not operate as a mediator of red light instimulating Chi formation in either attached or excised cotyledons. (Received December 13, 1981; Accepted March 30, 1981)     

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。     

Hormonal control of proteinase activity in squash cotyledons

A crude proteolytic enzyme preparation which hydrolyzes casein was isolated from the cotyledons of squash seedlings. The presence of ethylene diamine tetraacetate or cysteine did not appreciably affect the activity of the preparation. During the course of germination, the level of proteolytic activity increased in the cotyledons of intact embryos through the third day and then decreased. The presence of the embryonic axis during the first 32 hours of germination was a prerequisite for the development of maximum proteolytic activity.     

Effect of the hypocotyl hook on greening in etiolated cucumber cotyledons

Four-day-old etiolated cucumber cotyledons (Cucumis sativus, L.) were excised and allowed to green in white fluorescent light at 28 C. Cotyledons excised with a full hypocotyl hook exhibited a lag phase of 1 hour before entering the rapid greening phase, whereas cotyledons excised without any hypocotyl hook exhibited a lag phase of 6 hours. Cotyledons excised with varying lengths of hypocotyl hook accumulated chlorophyll roughly in proportion to the hook length. When cotyledons were excised with a full hook and were partially or totally shielded from light with aluminum foil, the samples with the hook covered accumulated more chlorophyll than the wholly exposed samples. The samples with the cotyledons covered showed no net accumulation of chlorophyll irrespective of hook's exposure to light. These data suggest the contribution of some factor or factors by the hypocotyl hook which reduce the lag phase during greening.     

Stimulation of chlorophyll synthesis by benzyladenine and potassium in excised and intact cucumber cotyledons

Both benzyladenine (BA) and potassium (K) stimulated chlorophyll synthesis in cucumber ( Cucumus sativus L. cv. National Pickling) cotyledons. However, differences existed between the effects of BA and K. Stimulation of chlorophyll synthesis by BA (1 mg l⁻¹, 4.4 μ M ) was observed in excised cotyledons after 4 and 8 h of illumination but not after 24 h, whereas the stimulation caused by K (40 m M ) continued. In contrast to BA, K was unable to eliminate the lag phase of chlorophyll production, and it also required light for its stimulation of cotyledon expansion. Both BA and K were required to maximize cotyledon expansion and chlorophyll production. In intact plants, K was not limiting for chlorophyll synthesis since foliar or soil pretreatments with K did not markedly stimulate greening. Foliar pretreatment with BA stimulated chlorophyll levels in intact plants, whereas soil pretreatment with BA inhibited chlorophyll production, probably because BA was not readily transported from the roots to the shoot and created a "sink" effect. Inhibitor studies showed that stimulation by K of greening did not depend on RNA or chloroplastic protein synthesis to the extent that has been reported for BA. Thus it appears that BA and K stimulate chlorophyll synthesis via different mechanisms, although both cytokinins and K are essential for maximum rates of greening.     

Sugar uptake and translocation in the castor bean seedling I. Characteristics of transfer in intact and excised seedlings

Changes in the dry weights of various parts of the castor bean seedling showed that the rates of transfer of material through the cotyledons to the embryonic axis exceeded 2 mg/hour after 5 to 6 days of germination. The sugar present in the endosperm was predominantly, and in the cotyledon almost exclusively, sucrose. Anatomical features were described which contribute to the efficiency of the cotyledons as organs of absorption and transmittal of sucrose to the embryonic axis, where hexoses are much more prevalent.The ability of the cotyledons to absorb sucrose survived removal of the endosperm from the seedling. A series of experiments is described in which the cotyledons of such excised seedlings were immersed in sucrose-(14)C and measurements made of uptake and of translocation to various parts of the seedling. Increasing rates of absorption were observed as the sucrose concentration was raised to 0.5 m and these rates were maintained for several hours. Removal of the embryonic axis (hypocotyl plus roots) drastically altered both the response to sucrose concentration and the time course of absorption by the cotyledons.More than 80% of the sugar normally entering the cotyledons from the endosperm is transmitted to the embryonic axis and this extensive turnover was seen also in pulse/chase experiments with excised seedlings. The cotyledons of excised seedlings absorbed sucrose against high apparent concentration gradients. The absorption was stimulated by phosphate and had a pH optimum at about pH 6.4. It was inhibited by arsenate, azide and 2,4-dinitrophenol.     

Water Relations of Seed Development and Germination in Muskmelon (Cucumis melo L.) : V. Water Relations of Imbibition and Germination

The initiation of radicle growth during seed germination may be driven by solute accumulation and increased turgor pressure, by cell wall relaxation, or by weakening of tissues surrounding the embryo. To investigate these possibilities, imbibition kinetics, water contents, and water (Ψ) and solute (ψ_s) potentials of intact muskmelon (Cucumis melo L.) seeds, decoated seeds (testa removed, but a thin perisperm/endosperm envelope remains around the embryo), and isolated cotyledons and embryonic axes were measured. Cotyledons and embryonic axes excised and imbibed as isolated tissues attained water contents 25 and 50% greater, respectively, than the same tissues hydrated within intact seeds. The effect of the testa and perisperm on embryo water content was due to mechanical restriction of embryo swelling and not to impermeability to water. The Ψ and ψ_s of embryo tissues were measured by psychrometry after excision from imbibed intact seeds. For intact or decoated seeds and excised cotyledons, Ψ values were >−0.2 MPa just prior to radicle emergence. The Ψ of excised embryonic axes, however, averaged only −0.6 MPa over the same period. The embryonic axis apparently is mechanically constrained within the testa/perisperm, increasing its total pressure potential until axis Ψ is in equilibrium with cotyledon Ψ, but reducing its water content and resulting in a low Ψ when the constraint is removed. There was no evidence of decreasing ψ_s or increasing turgor pressure (Ψ-ψ_s) prior to radicle growth for either intact seeds or excised tissues. Given the low relative water content of the axes within intact seeds, cell wall relaxation would be ineffective in creating a Ψ gradient for water uptake. Rather, axis growth may be initiated by weakening of the perisperm, thus releasing the external pressure and creating a Ψ gradient for water uptake into the axis. The perisperm envelope contains a cap of small, thin-walled endosperm cells adjacent to the radicle tip. We hypothesize that weakening or separation of cells in this region could initiate radicle expansion.     

Stimulation by Ethylene of Chlorophyll Biosynthesis in Dark-grown Cucumber Cotyledons

Five-day-old etiolated cucumber (Cucumis sativus L. var. Alpha Green) cotyledons produced more chlorophyll over a 4-hour illumination period after a prolonged exposure (12 to 72 hours) in the dark to ethylene concentrations ranging from 0.1 to 10 μl/l. Intact seedlings and excised cotyledons responded in the same way to this treatment. This effect does not involve a shortening of the lag phase of chlorophyll accumulation. Exposure of cotyledons to ethylene during the illumination period did not produce the same stimulatory effect on chlorophyll synthesis and, under certain conditions, chlorophyll synthesis was slightly inhibited by exposure to ethylene in the light.     

Inhibitory effect of polyamines on the activity of endopeptidase in mung bean cotyledons

The activity of cysteine endopeptidase (EP) in the cotyledons of mung bean seeds increased with time after germination. When cotyledons were excised from the embryonic axis in the course of seedling growth, the activity of EP in the excised cotyledon markedly dropped during the following incubation of 1 d. However, the level of EP protein in excised cotyledons, as examined by immunoblotting, was similar to that in axis-attached cotyledons at the corresponding stage. Thus, it seems that the low activity of EP in excised cotyledons is not due to a decrease in the content of EP protein, but due to a loss of the activity of existing EP. Treatment of attached cotyledons with polyamines (PAs; putrescine and spermidine [Spd]) resulted in a decrease in EP activity, while the same PA-treatment brought about little alteration in the level of EP protein. This indicates that PAs somehow produce an inhibitory effect on the activity of EP. Axis-removal resulted in an accumulation of Spd in the cotyledon. The possibility is suggested that PA, especially Spd, is involved in the inhibition of EP activity in excised mung bean cotyledons.     

Amylase Activities in Attached and Excised Cotyledons and in Embryonic Axes of Pisum sativum L.

Amylase activity increased in attached cotyledons of peas, Pisumsativum L. var. Bördi, only during imbibition and remainedalmost constant up to 96 h after germination, but in excisedcotyledons the activity increased slightly at first then markedly.In contrast, the content of the reducing sugars was higher inattached cotyledons than in excised ones. A similar inverserelationship has been found between the concentration of reducingsugars in axes (both attached and excised) and amylase activity. The leakage from intact seeds contained more reducing sugarsthan the leakage from excised cotyledons, whereas the amountof proteins released from the cotyledons was four times greaterduring imbibition. This increase in amylase activity in excisedcotyledons is not thought to be the result of axis excision,but to be the result of the leakage of sugars from the cotyledonsduring incubation. These results suggest that the concentration of reducing sugarsmay be a factor that regulates amylase activity in vivo in boththe cotyledons and axis during the germination of pea seeds. (Received August 4, 1982; Accepted December 14, 1982)     

Hormonal Regulation, and Intracellular Localization of a 33-kD Cationic Peroxidase in Excised Cucumber Cotyledons

Ethylene enhanced chlorosis and levels of 33-kilodalton cationic peroxidase (33-CPO) in excised cucumber (Cucumis sativus L. cv `Poinsett 76') cotyledons. Compared to other hormones, such as kinetin, indoleacetic acid, gibberellic acid, and abscisic acid, ethylene was the only effective promoter of 33-CPO synthesis. The hypothesis that peroxidase plays a role in chlorophyll degradation was tested by comparing levels of 33-CPO in cotyledons treated with compounds thought to either retard (kinetin, indoleacetic acid and gibberellic acid), or promote (abscisic acid and methyl jasmonate [MJ]) senescence. It was concluded that 33-CPO did not play a role in senescence since no direct correlation between chlorophyll content and 33-CPO was observed. MJ was as effective as ethylene in inducing senescence. However, ethylene did not appear to be involved in the action of MJ. Using immunocytochemistry, 33-CPO was found to be located primarily around starch grains and near the plasmalemma. High levels of 33-CPO were also found in cells destined to be vascular tissue.