Natural Occurrence of Indoleacetamide and Amidohydrolase Activity in Etiolated Aseptically-Grown Squash Seedlings

Etiolated seedling tissues of aseptically grown squash (Cucurbitamaxima Duch) contain indole-3-acetamide (IAM) as a natural endogenouscompound, conclusively identified by gas chromatography-massspectrometry (GC-MS). Roots of aseptically raised seedlingsalso contain amide hydrolysing activity, which converts IAMto IAA, indoleacetonitrile (IAN) to IAM and IAA, and 1-naphthaleneacetamideto 1-naphthaleneacetic acid. This activity was enriched 48-foldby fractional precipitation with ammonium sulphate, Sephadexgel nitration and anion exchange chromatography. Being hydrolytic,it works equally well in air and in vacuo, without added cofactors.The partially purified enzyme works optimally between pH 7 and7.5, and a K_m value of 80 µM was calculated with IAM asthe substrate. The product of this reaction was definitivelyidentified as IAA by GC-MS. The temperature optimum of thisamidohydrolase lies around 45°C, and it is stable to freezing.A comparison of its properties with the amidohydrolase of Agrobacteriumor crown gall tissue, shows it to be different. In view of thenatural occurrence of both IAM and the amidohydrolase, it issuggested that the IAM pathway of IAA biogenesis is feasiblein etiolated squash seedlings. ⁴Deceased 2/2-1993.     

NO2 Suppression of Light-Induced Nitrate Reductase in Squash Cotyledons

NADH-nitrate reductase (NR) (EC 1.6.6.1 [EC] ) activity in the cotyledonsof squash (Cucurbita maxima Duch.) seedlings showed daily variationwhen the seedlings were subjected to an alternating light-darkcycle. When the seedlings were transferred into continuous darkness,NR activity rose at first and then decreased continuously. Irradiationafter continuous darkness induced a rapid increase in NR activity;this light induction of NR activity was inhibited completelyby fumigation with 4 ppm nitrogen dioxide (NO₂). This inhibitoryeffect of NO₂ was prominent even at 1 ppm and became more pronouncedas the concentration of NO₂ increased. NO₂ fumigation did notremarkably affect the content of reductant (NADH) in the cotyledons.The results of immunoblotting using anti-NR serum indicatedthat irradiation induced the increase in the NR-polypeptidecontent and NO₂ fumigation inhibited the increase, suggestingthat NO₂ put an inhibitory effect on the synthesis of NR inducedby irradiation. ⁴ Present address: College of Environmental Health, Azabu University,Fuchinobe, Sagamihara, Kanagawa 229, Japan ⁵ Present address: Faculty of Home Economics, Otuma Women'sUniversity, Sanban-cho, Chiyoda, Tokyo 102, Japan (Received October 21, 1987; Accepted January 13, 1988)     

Differences between Spinach and Kidney Bean Plants in Terms of Sensitivity to Fumigation with NO2

Fumigation of plants of five species with NO₂ in darkness causedvisible injuries to leaves, with the most severe injuries inkidney bean plants and the least severe in spinach plants. Fumigationof these plants in the light caused virtually no visible injuries.NO₂-fumigated leaves accumulated nitrite in the darkness butnot in the light. The level of accumulated NO₂^– was decreasedby light much more rapidly in spinach leaves than in those ofkidney bean, with much less injury to spinach leaves than tothose of kidney bean. A larger amount of NO₂^– accumulatedin the trifoliate leaves of kidney bean plants cultivated withNO₃^– as a main source of nitrogen than in those of plantscultivated with NH₄⁺, and the former plants were more susceptibleto injury from NO₂ than the latter. Administration of NO₂^–to leaves of spinach and kidney bean plants induced the destructionof Chi in the light. The extent of the destruction of Chi wassmaller in spinach than in kidney bean, consistent with theirrespective responses to NO₂. The NO₂^–-induced destructionof Chi was inhibited to some extent by scavengers of free radicals.Activities of superoxide dismutase (SOD) were higher in leavesof spinach than in those of kidney bean. These results indicatethat NO₂^– is the toxic species generated by fumigationwith NO₂ and that spinach has a greater tolerance for NO₂ thankidney bean, probably as a result both of a higher capacityfor reduction of NO₂^– and a higher level of activity ofSOD. (Received June 5, 1991; Accepted January 27, 1992)     

Changes in Levels of Cytokinins in Etiolated Squash Seedlings after Illumination

When etiolated seedlings of squash (Cucurbita maxima Duch. cv.Houkou-aokawaamaguri) were exposed to light, their cotyledonsbegan to accumulate chlorophyll at a low rate for the firsthour but at a high rate therafter. After 0, 1 and 2 h of illumination,cytokinin levels in cotyledons, hypocotyls and roots were analyzedby ELISA (enzyme-linked immunosorbent assay) and GC-SIM (gaschromatography-selected ion monitoring). Cytokinin levels measuredby ELISA were about 10 times higher than those measured by GC-SIM,suggesting that ELISA was not suitable for the measurementsof cytokinin levels in the extracts from these tissues. Cytokininsfound by GC-SIM were t-RZ (t-ribosyl zeatin), c-RZ, t-Z (t-zeatin),c-Z, RiP (ribosyl isopentenyladenine) and iP (isopoentenyladenine).Levels of biologically active cytokinins (t-RZ and t-Z) didnot show marked changes after illumination. Levels of c-RZ andc-Z did, however, decrease in cotyledons and increase in hypocotylsafter illumination. Promotion of the accumulation of the chlorophyllin detached squash cotyledons by exogenously applied t-Z waspartially inhibited by the addition of c-Z, suggesting thatthe decrease in the endogenous level of c-Z in cotyledons ofintact seedlings after illumination permits the light-inducedformation of chlorophyll. (Received August 8, 1990; Accepted April 4, 1991)     

Aluminum-Induced Rapid Root Inhibition and Changes in Cell-Wall Components of Squash Seedlings

Growth of squash (Cucurbita maxima Duch.) roots was significantly inhibited by 1 mM AlCl3 as early as 1 h after the treatment. The growth inhibition was confined to the elongating zone (1-6 mm from the root tip). Chemical analysis of cell-wall polysaccharides from roots revealed that aluminum increased pectin, hemi-cellulose, and cellulose contents after 3 h of treatment. The effect of aluminum on pectin content was found in the elongating zone including the root tip, whereas change in cellulose content was confined to only nonelongating zones. Hemicellulose content increased in all of the regions along the root axis. The increase in the pectin fraction was due to the increases in uronic acids, galactose, and arabinose constituents, whereas hemicellulose content changed due to increases in glucose, xylose, galactose, and arabinose. The results clearly indicate that aluminum rapidly reduced squash root growth by inhibiting cell elongation and altering metabolism of cell-wall polysaccharides in the nonelongating zone as well as in the elongating zone.     

Change in Activity of Terminal Oxidases in The Roots of Rice Seedlings Under Oxygen-deficient Condition

Three-day old and seven-day old rice seedlings (Oryza sativa L. variety Yinfang) were treated under oxygen-deficient condition (by substituting the air with nitrogen in sealed glass bottles). Localization of cytochrome oxidase and polyphenol oxidase in roots were determined histochemically at fixed intervals after treatment (8, 24, 32, 48, 72 and 96 hours). The results obtained in this investigation may be briefly summarized as follows: 1. Polyphenol oxidase and cytochrome oxidase are detected in the seedlings from the second day of germination. 2. Maximum activity of polyphenol oxidase in the root tip appears on the fourth day of germination but it decreases progressively thereafter. In the vascular bundles of maturation zone, however, the enzyme activity is found to increase continuously with in- crease in age. If oxygen supply is limited or is withdrawn, a sharp decrease of enzyme activity occurs after 8 hours of treatment. It continues to decrease rapidly and almost disappears after about 48 hours. 3. The activity of cytochrome oxidase increases steadily up to the 10th day of germination when it reaches its plateau and is maintained at such a level thereafter. Under the condition of limited oxygen supply, the enzyme activity decreases but it still shows relative increases in activity as the plant grows. It appears likely that adaptive formation of this enzyme occurs during oxygen deficiency. On the basis of the observed results, one may suggest that the adaptation of cytochrome oxidase to limited oxygen supply probably plays an important role in the tolerance of rice to submergence under water. 4. The results show that these two types of terminal oxidases are more sensitive to oxygen on the third day than on the seventh day of germination.     

二氧化硫污染对植物体酶活性的影响

通过用６种浓度的ＳＯ２气体对６种植物进行熏气处理,然后测定植物叶片内的过氧化物酶,抗坏血酸氧化酶及多酚氧化酶的活性,为环境监测提供理论依据。通过试验,发现ＳＯ２气体对植物叶内不同酶的活性的影响有别。６种植物受不同浓度的ＳＯ２污染,叶内的过氧化物酶活性随ＳＯ２浓度增加而增加,促进叶片的衰老;而对其他的２种酶,则６种植物表现不同     

The Effect of Short-Term H2S Fumigation on Nitrate Reductase Activity in Spinach Leaves

Short-term exposure of spinach plants to 250 ppb H₂S at a photonfluence rate of 35µmol m^–2s^–1 (within the400–700 nm range) in the ambient air did not affect invitro nitrate reductase activity (NRA) in the leaves. Likewise,H₂S exposure did not significantly affect in vivo NRA measuredunder anaerobic conditions. In vivo NRA of untreated plantswas apparently inhibited in the presence of oxygen. However,shortterm H₂S exposure increased in vivo "aerobic" NRA up tofive fold of that of untreated plants. H₂S induced increaseof in vivo "aerobic" NRA depended on the sulfide concentration.After 24 hours of exposure maximal increase (two to five fold)of in vivo NRA "aerobic" was observed at 220 ppb H₂S. It isproposed that H₂S inhibited NADH oxidizing enzymes, which resultedin an increase in NADH supply to nitrate reductase (NR) in thepresence of oxygen. It was unlikely that the increase in invivo "aerobic" NRA in sulfide exposed plants was due to an alteredcompetition between mitochondrial respiration and NR since leafrespiration was not affected by an exposure to 250 ppb H₂S (Received February 12, 1986; Accepted June 27, 1986)     

Breakdown of Ribulose Bisphosphate Carboxylase and Change in Proteolytic Activity during Dark-induced Senescence of Wheat Seedlings

When 8-day-old wheat seedlings (Triticum aestivum L. var. Chris) are placed in the dark the fully expanded primary leaves undergo the normal changes associated with senescence, for example, loss of chlorophyll, soluble protein, and photosynthetic capacity (Wittenbach 1977 Plant Physiol. 59: 1039-1042). Senescence in this leaf is completely reversible when plants are transferred to the light during the first 2 days, but thereafter it becomes an irreversible process. During the reversible stage of senescence the loss of ribulose bisphosphate carboxylase (RuBPCase) quantitated immunochemically, accounted for 80% of the total loss of soluble protein. There was no significant change in RuBPCase activity per milligram of antibody-recognized carboxylase during this stage despite an apparent decline in specific activity on a milligram of soluble protein basis. With the onset of the irreversible stage of senescence there was a rapid decline in activity per milligram of carboxylase, suggesting a loss of active sites. There was no increase in total proteolytic activity during the reversible stage of senescence despite the loss of carboxylase, indicating that this initial loss was not due to an increase in total activity. An 80% increase in proteolytic activity was correlated with the onset of the irreversible stage and the rapid decline in RuBPCase activity per milligram of carboxylase. Delaying senescence with zeatin reduced the rate of loss of carboxylase and delayed both the onset of the irreversible stage and the increase in proteolytic activity to the same degree, suggesting that these events are closely related. The main proteinases present in wheat and responsible for the increase in activity are the thiol proteinases. These proteinases have a high affinity for RuBPCase, exhibiting an apparent K_m at 38 C of 1.8 × 10⁻⁷ m. The K_m for casein was 1.1 × 10⁻⁶ m. If casein is representative of noncarboxylase protein, then the higher affinity for carboxylase may provide an explanation for its apparent preferential loss during the reversible stage of senescence.     

Irreversible Effects of Water Stress on Growth and Stomatal Development in Cotyledons of Etiolated Squash Seedlings

Growth of etiolated squash cotyledons and hypocotyls was suppressedwhen the seedlings were subjected to 60 mM polyethylene glycol(PEG) in 1/5 strength of Hoagland solution. The fresh weightof the hypocotyl completely recovered when the water stresswas relieved after one day of PEG treatment. The fresh weightof the cotyledons, however, did not completely recover eventhree days after the relief of water stress. The transpiration rate of the cotyledons was substantially reducedby the water stress, and it also did not completely recoverafter the water stress was relieved. Microscopic observationof stomata of the cotyledons by a replica method revealed thatthe water stress reduced the increase in both stomatal widthand density, and this reduction did not completely recover afterthe water stress was relieved. After one day of water stress, the endogenous ABA content ofthe cotyledon was increased from 68 to 114 ng/g fr wt. Afterthe water stress was relieved, the increased ABA content decreasedlinearly over two days to 20 ng/sg fr wt, the same value asin unstressed cotyledons. These results indicate that the effect of water stress on thehypocotyl growth was reversible but that the effect on the cotyledonswas irreversible. The irreversible effect of water stress onthe growth of the cotyledons probably resulted from the inhibitionof stomatal development, but endogenous ABA did not appear toinhibit the development. (Received March 24, 1986; Accepted June 25, 1986)     

Cyclic GMP-Binding Activity in Avena sativa Seedlings

Binding of ³H-labeled cyclic GMP (³H-cGMP) to the structural components of subcellular fractions was studied in oat seedlings. The binding was found to depend on the conditions of incubation and illumination of growing plants. In the green seedlings, the binding activity was lower than in the etiolated seedlings. The highest binding was observed in soluble cytosolic fraction where two types of specific sites for cGMP binding (with high and low affinity to the cyclic mononucleotide) were detected. The binding activity was found to increase as a result of red light influence via phytochrome, as well as in the presence of calcium ions and calcium–calmodulin complex.     

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.     

The Changes of Protein Content and Synthetic Activity in Squash Pollen During Germination

The total protein content of squash (Cucurbita moschata Duch.) pollen decreased gradually during in vitro germination. It was caused by the release of wall proteins and part of the cytoplasmic proteins. The release of the pollen wall proteins was not dependent on germination, it was a passive diffusion process. However, the cytoplasmic proteins did not release until the pollen germinated, a fraction of them was synthesized de novo during germination. The RNA and protein synthetic activities initiated soon after in vitro pollen germination. The RNA synthesis decreased during germination. As about half the activity was inhibited by α-amanitin, mRNA might be the major RNA synthesized de novo. The total protein synthesis increased during germination, almost all of this synthesis was inhibited by cycloheximide, and partially by α-amanitin, but it was not affected significantly by actinomycin D. These results indicated that both stored and de novo synthesized mRNA might play a role in the protein synthesis. The content of stored mRNA of squash pollen was about 11-3 pg/grain as measured by UV absorption after its purification from total RNA (2440 pg/grain) by oligo (dT)-cellulose affinity chromatagraphy. Both cycloheximide and α-amanitin inhibited pollen tube growth in vitro. Actinomycin D and tunicamycin inhibited pollen germination in the first hour, however, no reduction ,of the tube length was observed later. Cyclohex,nide inhibited the pollen germination and tube elongation in vivo, that fitted well with the in vitro results. According to these results, it was suggested that the de novo syntheses of mRNA and protein were neccessary for the maintenance of pollen tube growth.     

Lipase Activity in Germinating Seedlings of Cucumeropsis edulis

Acetone powders prepared from dormant and germinating seedlingsof Cucumeropsis edulis contained an active lipase system whichshowed increasing lipase activity with germination. Kineticproperties indicated maximum activity at pH 5 and at a temperatureof 37 ° C, and the enzyme exhibited a zero-order reactionrate for the first 2 h of hydrolysis. The results obtained showedthat the enzyme is non-specific in its mode of action, hydrolysingfatty acids irrespective of chain length, degree of unsaturation,and the position of fatty acids in the triglycerides. The deterioration and spoilage of ‘ground’ seedsin storage has been shown to be due to the release of endogenouslipase during grinding. The release of lipase is greater thegreater the water content of the seeds     

Light-Dependence of Phospholipase D Activity in Oat Seedlings

The effect of light on the activity of phospholipase D (PLD) in oat (Avena sativa L.) seedlings and the dependence of this enzyme activity on the regime of their illumination were studied. The PLD activity in etiolated seedlings was 1.5–2.0-fold higher than in green plants. The illumination of etiolated seedlings with white light resulted in a decrease in PLD activity to its level in the seedlings grown under light. In contrast, the transfer of green seedlings to darkness enhanced the activity of the enzyme up to its level in etiolated seedlings. The illumination of etiolated seedlings with red light inhibited the PLD as well. It was shown that this photoeffect decreased with seedling aging and correlated with a phytochrome content in plants. Far-red light reversed the effect of red light. The involvement of phytochrome in the control of the PLD activity is discussed.     

NO参与玉米幼苗对盐胁迫的应答

以玉米幼苗为材料,研究盐胁迫下其內源NO含量、NR和NOS活性的变化;NOS专一性抑制剂L-NAME和NR非专一性抑制剂NaN3对玉米幼苗內源NO含量的影响;利用激光共聚焦显微技术观测盐胁迫下玉米幼苗根部NO含量的变化及其分布特点。结果表明,盐胁迫下玉米幼苗根尖和叶片中NO含量有猝发现象,NOS活性也随之显著提高,NR活性则显著降低;L-NAME或NaN3均可降低盐胁迫所引起的玉米幼苗NO水平的增加,L-NAME对NO含量的影响比NaN3更显著。推测,NO参与玉米幼苗对盐胁迫的应答,NOS途径是盐胁迫下玉米幼苗內源NO合成的主要途径。     

Gas Chromatography-Flame Thermionic Detector Analysis of Cytokinins in Etiolated Squash Seedlings using 14C-BA as an Internal Standard

Cytokinin contents in cotyledon, hypocotyl and root of etiolatedsquash (Cucurbita maxima Duch.) seedlings were determined byinstrumental analysis using ¹⁴C-benzyladenine (¹⁴C-BA) as aninternal standard. Crude extracts were purified using insolublepolyvinylpyrrolidone, cellulose-phosphate column and SEP-PAKC18 cartridge, then applied to a Sephadex LH-20 column to separatezeatin riboside (ZR), isopentenyl adenosine, isopentenyl adenine,¹⁴C-BA and a mixture of zeatin (Z) and dihydrozeatin (DHZ).The recovery rate for the cytokinin fractions after LH-20 wascorrected by ¹⁴C-BA. Each cytokinin fraction was further purifiedby HPLC which also separated Z and DHZ in the LH-20 fraction.Before permethylation, ¹⁴C-BA was added to each of the cytokininfractions to correct the methylation rates. Each methylatedcytokinin fraction was again purified by HPLC, then subjectedto gas chromatography with a capillary column and flame thermionicdetector. The detection limit of cytokinins by this system was0.1 ng. cis-ZK was the most abundant cytokinin in all tissues of theetiolated squash seedlings. Active cytokinins such as trans-ZRand trans-Z were mostly found in cotyledons with lesser amountsin the roots. DHZ was most abundant in the cotyledon. All cytokininsisolated by this procedure were confirmed by gas chromatographyselectedion monitoring. (Received December 26, 1986; Accepted June 1, 1987)     

干旱和NaCl胁迫下梭梭幼苗中甜菜碱含量和甜菜碱醛脱氢酶活性的变化（简报）

梭梭幼苗的甜菜碱含量和甜菜碱醛脱氢酶（BADH）活性随外界NaCl浓度的增加和干旱胁迫时间的延长而增加。干旱和NaCl促进旱生植物梭梭体内甜菜碱积累与BADH活性有关。