乙烯利、ACC、AOA和AgNO3对绿豆下胚轴插条不定根形成的作用

以绿豆下胚轴插条为实验材料,研究了乙烯利、ACC、AOA和AgNO,对其不定根形成的影响。结果表明：乙烯利和ACC能促进绿豆下胚轴插条的生根,最适浓度分别为50μmol／L和10μmol／L;AOA和AgNO3明显抑制不定根形成,随浓度增加,抑制作用增强。插条离体后24h内对ACC的促进作用和AOA的抑制作用敏感。插条在0-6h和18-24h用ACC处理,在0-2h和22-24h用50μmol／L乙烯利处理的生根效果好。乙烯在不定根形成的诱导期和起始晚期起促进作用。     

Influence of 2,3,5-Triiodobenzoic Acid and 1-N-Naphthylphthalamic Acid on Indoleacetic Acid Transport in Carnation Cuttings: Relationship with Rooting

³H-IAA transport in excised sections of carnation cuttings was studied by using two receiver systems for recovery of transported radioactivity: agar blocks (A) and wells containing a buffer solution (B). When receivers were periodically renewed, transport continued for up to 8 h and ceased before 24 h. If receivers were not renewed, IAA transport decreased drastically due to immobilization in the base of the sections. TIBA was as effective as NPA in inhibiting the basipetal transport irrespective of the application site (the basal or the apical side of sections). The polarity of IAA transport was determined by measuring the polar ratio (basipetal/acropetal) and the inhibition caused by TIBA or NPA. The polar ratio varied with receiver, whereas the inhibition by TIBA or NPA was similar. Distribution of immobilized radioactivity along the sections after a transport period of 24 h showed that the application of TIBA to the apical side or NPA to the basal side of sections, increased the radioactivity in zones further from the application site, which agrees with a basipetal and acropetal movement of TIBA and NPA, respectively. The existence of a slow acropetal movement of the inhibitor was confirmed by using ³H-NPA. From the results obtained, a methodological approach is proposed to measure the variations in polar auxin transport. This method was used to investigate whether the variations in rooting observed during the cold storage of cuttings might be related to changes in polar auxin transport. As the storage period increased, a decrease in intensity and polarity of auxin transport occurred, which was accompanied by a delay in the formation and growth of adventitious roots, confirming the involvement of polar auxin transport in supplying the auxin for rooting. Received April 19, 1999; accepted December 2, 1999     

Involvement of Abscisic Acid and Indole-3-acetic Acid in the Flowering of Pharbitis nil

The involvement of abscisic acid (ABA) and indole-3-acetic acid (IAA) in the regulation of flowering of Pharbitis nil was investigated through exogenous applications and analyses of endogenous levels. Both hormones inhibited the flowering of P. nil when they were applied before or after a single 15-h dark treatment. The inhibitory effect of ABA and IAA was significant when they were applied before the dark treatment, and the application to plumules was more effective than that to cotyledons. In all applications, the inhibitory effect of IAA was stronger than that of ABA. Endogenous levels of ABA and IAA in the plumules were compared between flower-inductive (15-h dark treatment) and noninductive (continuous light) light conditions. There was no significant difference in the ABA level between light and dark conditions, whereas the level of IAA was decreased by the dark treatment. These results suggest that biosynthesis and/or catabolism of IAA is affected by the light treatment and therefore may be involved in the regulation of early flowering processes in the apex. The inhibitory effects of ABA and IAA were reversed by an application of gibberellin A₃, indicating that gibberellin A₃ counteracts the flowering processes affected by ABA and IAA. Application of aminoethoxyvinylglycine restored the flowering response inhibited by IAA, which suggests the possibility that the inhibitory effect of IAA is the result of enhanced ethylene biosynthesis. Received November 22, 1996; accepted February 17, 1997     

绿豆幼苗生长状态对环境羟基自由基水平的影响

为了解植物生长状态对环境羟基自由基水平的影响,研究了相同培养条件下不同生长状态的绿豆(Vigna radiata)幼苗对空气中的羟基自由基水平的影响。结果表明,正常生长的绿豆幼苗周围环境羟基自由基水平显著高于没有植物生长的环境,失活幼苗对周围环境羟基自由水平没有显著影响;渗透胁迫的绿豆幼苗对环境羟基自由基水平影响极显著,渗透胁迫程度不同其影响程度也有所不同;绿豆幼苗对环境羟基自由基水平的影响与其呼吸速率密切相关。这证明绿豆幼苗生长对环境羟基自由基水平有影响,且这种影响依赖于其生理代谢过程及生长状态。     

Physiological and genetic analysis of root responsiveness to auxin-producing plant growth-promoting bacteria in common bean (Phaseolus vulgaris L.)

Plant root development can be largely affected through the association of roots with plant growth-promoting rhizobacteria (PGPR). However, little is known about the identity of plant genes enabling such PGPR-plant root associations. Differences in the responsiveness to PGPR among cultivars suggest genetic variation for this trait within germplasm. In this study, two genotypes of common bean (Phaseolus vulgaris L.), BAT477 and DOR364, were identified showing contrasting responsiveness in root development to inoculation with the PGPR Azospirillum brasilense Sp245. Inoculation with an A. brasilense Sp245 mutant strain strongly reduced in auxin biosynthesis or addition of increasing concentrations of exogenous auxin to the plant growth medium, indicated that the differential response to A. brasilense Sp245 among the bean genotypes is related to a differential response to the bacterial produced auxin. To further assess the role of the plant host in root responsiveness, a population of Recombinant Inbred Lines (RILs) of the DOR364×BAT477 cross was used to evaluate the efficacy of exogenous auxin on root development. We detected significant phenotypic variation among the RILs for basal root formation during germination upon addition of auxin to the growth medium. Genetic analysis revealed two quantitative trait loci (QTLs) associated with basal root responsiveness to auxin of which one explained 36% of the phenotypic variation among the RILs. This latter QTL mapped to the same location as a QTL for root tip formation at low P, suggesting that the host effect on root responsiveness to IAA interacts with specific root development. Also, significant correlations between basal root responsiveness to auxin and growth, root tips and root dry weight at low P were identified. To our knowledge, this is the first report on QTL detection for root responsiveness to auxin.     

纳米化的二氧化钛促进绿豆下胚轴不定根形成

5～200mg·L-1纳米化的TiO2能明显增加绿豆下胚轴不定根的数目、根干重和生根范围;光照条件下显著促进绿豆下胚轴不定根的形成;不同时间促生根效果不同,以6～18 h的效果最好.     

Effect of Pot Size and Timing of Plant Growth Regulator Treatments on Growth and Tuber Yield in Greenhouse-Grown Norland and Russet Burbank Potatoes

The effects of pot size, timing of the application of paclobutrazol (PTZ) and gibberellic acid (GA₃), and the counteractive effect of these two compounds on growth and tuber yield of greenhouse-grown Norland and Russet Burbank potatoes were investigated. Plants were grown either in 1.5-liter pots (15 cm deep) or 3.0-liter pots (18 cm deep) and received a foliar application of either 1.5 mm PTZ or 9 × 10⁻³ mm GA₃ at early or late stolon initiation. Some plants that had been foliar treated with 1.5 mm PTZ at early stolon initiation were foliar treated with 9 × 10⁻³ mm GA₃ at late stolon initiation. PTZ reduced haulm length in both cultivars significantly, particularly when the treatment was applied at early stolon initiation, but the late treatment reduced haulm length only when growing in 3.0-liter pots. Irrespective of the timing of treatment, GA₃ increased haulm length in Norland growing in both pot sizes, but the treatment increased haulm length in Russet Burbank only when applied at late stolon initiation. GA₃ applied after PTZ did not overcome the growth-inhibiting effect of the PTZ treatment. The PTZ treatment effectively increased usable tuber number/plant (UTN) in Norland, but PTZ had no effect on UTN in Russet Burbank. PTZ reduced usable tuber weight/plant (UTW) only in Norland growing in 1.5-liter pots. By contrast, GA₃ increased UTN only when treated at late stolon initiation of 1.5-liter pot-grown Norland, whereas the same treatment was effective when applied only at early stolon initiation for Russet Burbank. For Norland, the increase in UTN by early applied PTZ was reduced by the subsequent application of GA₃. The use of 3.0-liter pots for minituber production in both Norland and Russet Burbank appears to have no advantage over growing in 1.5-liter pots, particularly when PTZ or GA₃ is used to enhance tuberization. Received May 30, 1997; accepted February 3, 1998     

New Plant Growth Regulators Protect Photosynthesis and Enhance Growth Under Drought of Jack Pine Seedlings

To determine whether natural plant growth regulators (PGRs) can enhance drought tolerance and the competitive ability of transplanted seedlings, 1.5-year-old jack pine (Pinus banksana Lamb.) seedlings were treated with homobrassinolide, salicylic acid, and two polyamines, spermine and spermidine, triacontanol, abscisic acid (ABA), and the synthetic antioxidant, Ambiol. PGRs were fed into the xylem for 7 days and plants were droughted by withholding water for 12 days. ABA, Ambiol, spermidine, and spermine at a concentration of 10 μg L⁻¹ stimulated elongation growth under drought, whereas ABA, Ambiol, and spermidine maintained higher photosynthetic rates, higher water use efficiency, and lower Ci/Ca ratio under drought compared with control plants. The damaging effects of drought on membrane leakage was reversed by Ambiol, ABA, triacontanol, spermidine, and spermine. Because ABA, Ambiol, and both polyamines enhanced elongation growth and also reduced membrane damage in jack pine under drought, they show promise as treatments to harden seedlings against environmental stress. The protective action of these compounds on membrane integrity was associated with an inhibition of ethylene evolution, with a reduction in transpiration rate and an enhancement of photosynthesis, which together increased water use efficiency under drought. Although most of the tested compounds acted as antitranspirants, the inhibition in membrane leakage in ABA-, Ambiol-, and polyamine-treated plants appeared more closely related to the antiethylene action. Received December 30, 1998; accepted October 14, 1999     

DDT降解菌株Chryseobacterium sp. PYR2对小麦的促生作用及其机理

【背景】前期结果表明,DDT降解菌株Chryseobacterium sp. PYR2可高效去除土壤中的DDT等污染物,具有潜在的应用价值,但该菌对植物的影响尚不清楚。【目的】探讨菌株Chryseobacterium sp. PYR2对植物的促生作用及其机理,为后续开发DDT降解及植物促生双效功能菌剂提供理论依据。【方法】配制该菌株的不同梯度稀释菌悬液,用纸卷发芽法和盆栽法研究菌悬液对小麦种子萌发和植株生长的影响;Salkowski法测定PYR2合成吲哚-3-乙酸(Indole-3-acetic acid,IAA)量;单因素实验研究不同培养条件对菌株生长及IAA合成的影响;液相色谱-串联质谱-多反应监测(LC-MS/MS-MRM)方法分析IAA在PYR2菌体内的生物合成途径。【结果】PYR2菌悬液可明显提高小麦种子萌发率并促进小麦植株的生长,小麦的侧根数、株高、鲜重、干重等指标均明显提高。该作用是由于菌株PYR2可以合成植物生长激素IAA。最适IAA合成条件:温度30°C,pH 7.0-8.0,盐浓度0.5%,L-色氨酸50mg/L。代谢液中检测到色醇、色胺和吲哚-3-乙酰胺3种中间代谢产物,推测PYR2体内存在3条IAA合成途径,分别为吲哚-3-丙酮酸(IPy A)、TAM和IAM途径。【结论】菌株PYR2对小麦具有明显的促生效果,是由于其具有多条高效合成IAA的代谢途径,表明其在农药污染土壤的生物修复及作物种植中具有潜在的应用前景。     

Role of Ethylene Biosynthesis and Auxin Content and Transport in High Temperature-Induced Abscission of Pepper Reproductive Organs

High temperatures induced abscission of pepper (Capsicum annuum L. cv. Maor) reproductive organs at various developmental stages. The role of ethylene biosynthesis and auxin economy in high temperature-induced abscission is described. High temperatures somewhat increased ethylene production in the reproductive organs, but the highest temperature treatment, which was the most active in inducing reproductive organ abscission, decreased it. In contrast to ethylene, 1-aminocyclopropane-1-carboxylic acid levels increased significantly in response to high temperatures and correlated positively with the increase in temperature. High temperatures reduced indole-3-acetic acid levels and particularly auxin transport capacity in the reproductive organs. The data suggest that the reduction of auxin transport capacity is the major mechanism by which high temperatures induce reproductive organ abscission in pepper. Received September 27, 1996; accepted March 13, 1997     

The Effect of the Ethylene Action Inhibitor 1-Cyclopropenylmethyl Butyl Ether on Early Plant Growth

Increased levels of ethylene in plants are responsible for many deleterious effects such as early senescence, fruit deterioration and inhibition of root elongation. Several cyclopropene derivatives have previously been studied as inhibitors of ethylene action in plants. This study focuses on one such compound, 1-cyclopropenylmethyl butyl ether and its effect on the growth of roots and shoots of canola plants as well as rooting of mung bean seedlings 1-cyclopropenylmethyl butyl ether increased root length in canola plants, but had no significant effect on shoot length. In rooting studies, mung bean seedlings treated with 1-cyclopropenylmethyl butyl ether prior to root excision had fewer numbers of roots than control plants that were not treated with the ethylene action inhibitor. The same rooting study, when repeated in the presence of 1-aminocyclopropane-1-carboxylic acid (ACC), demonstrated an overall increase in the number of roots of inibitor-treated and non-treated plants, however, the inhibitor was still effective in decreasing the number of roots, compared to its non-treated conterpart. Online publication: 7 April 2005     

Effects of Exogenously Applied Jasmonates on Growth and Intracellular pH in Maize Coleoptile Segments

The effects of jasmonic acid (JA) on elongation growth of coleoptile segments from etiolated maize (Zea mays L.) were investigated in the presence and absence of auxin. When supplied alone, at physiological concentrations (10⁻⁹, 10⁻⁸, and 10⁻⁵ m), JA (or methyl-JA) inhibited growth. JA at a similar range of concentrations also inhibited auxin-induced elongation growth. To determine whether this effect on growth depended on endogenous abscisic acid (ABA), we grew maize coleoptiles in the presence of norflurazon (an inhibitor of carotenoid biosynthesis) that results in reduced endogenous ABA levels. Growth of etiolated coleoptile segments from these plants was inhibited by JA (or methyl-JA) in both the absence and presence of auxin. Previously, we have observed a correlation between elongation growth and cytosolic pH (pH_i), in which auxin lowers pH_i, and growth inhibitors such as ABA raise pH_i. We examined the effect of low concentrations of methyl-JA on pH_i with dual emission dye, carboxy seminaphthorhodafluor-1, and confocal microscopy. To confirm these studies, we also used in vivo ³¹P NMR spectrometry to ascertain the changes in pH_i after addition of jasmonate to maize coleoptiles. Coleoptiles grown in either the absence or presence of norflurazon responded to methyl-JA or JA by increases in pH_i of approximately 0.2 pH unit. This response occurs over a period of 15–20 min and appears to be independent of endogenous ABA. This alkalization induced by JA is likely to form a permissive environment for JA signal transduction pathway(s). Received February 5, 1999; accepted August 25, 1999     

Inhibitory Effects of Methyl Jasmonate on the Germination and Ethylene Production in Cocklebur Seeds

Methyl jasmonate (JA-Me) inhibited the germination of cocklebur (Xanthium pennsylvanicum Wallr.) seeds. The inhibition of the germination of cocklebur seeds treated with JA-Me at concentrations less than 300 μm was nullified by ethylene applied exogenously, although the inhibitory effect of 1,000 μm JA-Me was not recovered completely even by high concentrations of ethylene (10,000 μL/liter). JA-Me inhibited ethylene production before seed germination. The level of 1-aminocyclopropane-1-carboxylic acid (ACC) in the cotyledonary tissues treated with JA-Me decreased but not the level of 1-(malonylamino)cyclopropane-1-carboxylic acid (MACC). JA-Me inhibited the conversion of ACC to ethylene in the tissues. These results suggested that JA-Me inhibits ethylene production by prevention of ACC oxidation in addition to ACC synthesis. We believe that the inhibition of ethylene production by JA-Me results in the retardation of the germination of cocklebur seeds. Received June 4, 1997; accepted October 23, 1997     

Effect of Brassinolide on Growth and Shikonin Formation in Cultured Onosma paniculatum Cells

The effect of brassinolide (BR) on cell growth and shikonin and its derivative formation in Onosma paniculatum cell culture was studied. BR addition with IAA and BAP (+BR/+IAA/+BAP) in B₅ medium slightly increased the cell growth at 0.01–0.1 ppb concentration compared with a growth control (−BR/+IAA/+BAP). Only BR addition (+BR/−IAA/−BAP) at 0.001–100 ppb in B₅ medium significantly increased the cell fresh weight compared with a growth control (−BR/−IAA/−BAP). The same concentration of BR tested at 0–1000 ppb increased the cell fresh weight of +IAA/+BAP significantly more than that of −IAA/−BAP. BR at 0.001–0.1 ppb with IAA and BAP added (+BR/+IAA/+BAP) in M₉ medium increased shikonin and its derivative content markedly by 31–87%, compared with its control (−BR/+IAA/+BAP). BR at 0.001–1000 ppb without IAA and BAP added to M₉ medium (+BR/−IAA/−BAP) also increased shikonin and its derivative content compared with its control (−BR/−IAA/−BAP). However, the amount of shikonin and derivative formed of +IAA/+BAP was greater than that of −IAA/−BAP only at the same concentration of BR at 0–1 ppb. These combined results show that BR at 0.01 ppb with IAA and BAP added was the best for cell growth and shikonin formation. Formation of shikonin and its derivative by adding BR at 0.01 ppb with IAA and BAP (+BR/+IAA/+BAP) in M₉ medium was significantly enhanced 4 days after BR addition compared with a production control (−BR/+IAA/+BAP). In contrast, +BR/−IAA/−BAP vs. −BR/−IAA/−BAP was not as effective as +BR/+IAA/+BAP vs. −BR/+IAA/+BAP for the shikonin formation. The time course study for shikonin formation also showed that +BR/+IAA/+BAP and −BP/+IAA/+BAP only slightly increased cell growth in M₉ medium. Similarly, soluble protein content in the cells treated by BR at 0.01 ppb with IAA and BAP (+BR/+IAA/+BAP) exceeded that of the control (−BR/+IAA/+BAP) 4 days after BR addition. And +BR/−IAA/−BAP only slightly increased the soluble protein content over that of −BR/−IAA/−BAP. Received November 2, 1998; accepted August 25, 1999     

The Effects of Naphthalene Acetic Acid,Kinetin and Wound on the Callus Formation with Relation to the Biosyntheses of Tryptophan and Indole Acetic Acid in the Cotyledon of Mung Bean

The effects of the exogenous auxin——NAA, kinetin and wound on the callus formation of the cotyledon of mung bean (Phaseolus radiatus L.) with relation to the biosyntheses of endogeonous tryptophan (Trp) and IAA have been studied. The results indicate that wound plays an important role in the callus formation. The size of wounded surface is directly proportional to the proliferation of the callus tissue. The levels of free Trp and endogenous 1AA decreased in the initial period of the callus formation of mung bean cotyledon but increased in the later period. The substitution of L-Trp for NAA in the culture medium would play almost the same role in the callus proliferation. It has proposed that the exogenous phytohormones affect the biosyntheses of endogenous Trp and IAA, thereafter induce the callus formation. The wound has an important synergism with the phytohormones in this process.     

Effect of auxins and plant oligosaccharides on root formation and elongation growth of mung bean hypocotyls

The interaction of auxins – IAA, IBA or NAA – with galactoglucomannan oligosaccharides (GGMOs) on adventitious root formation and elongation growth of mung bean hypocotyl cuttings was studied. GGMOs induced adventitious roots in the absence of auxins; however, their effect was lower compared with IBA or NAA. On the other hand, in the presence of auxins, GGMOs inhibited adventitious root induction. Their effect depended on the concentration of oligosaccharides and the type of auxin used. The highest inhibition effect of GGMOs at a concentration of 10⁻⁸ M in the presence of IBA and NAA was observed. In the presence of IAA their inhibition was non-significant in regard to the concentration. The interaction of auxins with GGMOs resulted in the formation of adventitious roots on a shorter part of hypocotyls compared with the effect of auxins alone. However, roots were induced more extensively along the hypocotyls treated with GGMOs compared with the control. GGMOs inhibited the length of induced adventitious roots in the presence of IAA, while in combination with IBA or NAA they were ineffective. The elongation of hypocotyls induced by IAA or IBA was inhibited by GGMOs, too. However, in the presence of NAA or by endogenous growth they were without any significant effect on elongation growth. These findings suggest that GGMOs in certain concentrations might inhibit rooting and the elongation process dependant on auxin used.     

Effect of Bis(guanylhydrazones) on Growth and Polyamine Uptake in Plant Cells

In the present work the effect of several bis(guanylhydrazones) on the growth of Helianthus tuberosus tuber explants was studied. Different aliphatic congeners of glyoxal bis(guanylhydrazone) were tested. Most of the compounds displayed an inhibitory effect on growth, and a correlation between the structure of the molecule and the inhibitory activity was observed. Experiments carried out with glyoxal bis(guanylhydrazone) and its congeners methyl-, ethylmethyl-, and methylpropylglyoxal bis(guanylhydrazones) show that as the total number of side chain carbon atoms in the molecule increases, the inhibitory potency also increases. A depletion of spermidine levels was also found in the explants treated with ethylmethylglyoxal bis(guanylhydrazone), which turned out to be one of the most potent growth inhibitors. The addition of spermidine caused a significant reversion of the antiproliferative action of glyoxal bis(guanylhydrazone). The effect of these compounds on spermidine uptake in protoplasts isolated from carrot phloem parenchyma was also investigated. Only a slight competition was found when antagonists were present at concentrations 20 times higher than the polyamine, thus suggesting that bis(guanylhydrazones) do not share, at least at low concentrations, the polyamine transport system in plant cells. Received January 10, 1997; accepted January 22, 1999     

Effect of the ectomycorrhizal fungus Hebeloma cylindrosporum on in vitro rooting of micropropagated cuttings of arbuscular mycorrhiza-forming Prunus avium and Prunus cerasus

 The effect of different genotypes of the ectomycorrhizal fungus Hebeloma cylindrosporum on in vitro rooting of micropropagated cuttings of Prunus avium and P. cerasus was studied in an attempt to determine whether ectomycorrhizal fungi could enhance in vitro adventitious root formation in plants which form arbuscular endomycorrhizas. The rooting percentage of P. avium cuttings was approximately 16% in the absence of hormonal treatment; it increased up to 30% in the presence of 5.7 μM IAA which was the most favourable auxin concentration. The rooting percentage of cuttings cultivated in the absence of IAA was enhanced by all the studied strains of H. cylindrosporum. It ranged from 50 to 60% with the IAA-overproducing mutant D 111 or the wild-type dikaryon D1, to 100% in the presence of the mutants 331 or D 117. The cuttings of P. cerasus showed a higher rooting ability than those of P. avium since approximately 40% of them were able to root in the absence of hormonal treatment. Except for the mutant D117, their rooting percentage was not significantly improved by H. cylindrosporum. Fungal inoculation also affected the survival of cuttings at acclimatization: 50% of the uninoculated P. avium cuttings survived whereas the survival percentage of inoculated cuttings ranged from 30 to 100% depending on the fungal genotype. With P. cerasus, the percentage of survival of uninoculated cuttings ranged from 85 to 100% and fungi either did not significantly improve it or lowered it. At acclimatization fungal hyphae could be observed in close contact with adventitious roots, but they did not establish mycorrhizal association. The shoot height of P. avium plantlets obtained from inoculated cuttings was not significantly different from that of plantlets originating from uninoculated ones. By contrast, fungal inoculation generally depressed the growth of acclimatized P. cerasus plantlets. The possibility of using ectomycorrhizal fungi as a tool to enhance rooting of micropropagated cuttings of plants which do not form ectomycorrhizas is discussed. Received: 25 November 1996 / Accepted: 2 June 1997     

利用大肠杆菌细胞工厂生产吲哚-3-乙酸的研究

目的:利用重组大肠杆菌全细胞转化色氨酸生产IAA.方法:在大肠杆菌胞内构建两条全新的IAA合成途径,即吲哚-3-乙酰胺(indole-3-acetamide,IAM)途径和色胺(tryptamine,TRP)途径.结果:IAM途径涉及两个酶,分别是色氨酸-2-单加氧酶(IAAM)和酰胺酶(AMI1),构建好的重组大肠杆...