Effect of silver nitrate on sugarcane cell suspension growth, protoplast isolation, ethylene production and shoot regeneration from cell suspension cultures

Silver nitrate (AgNO₃), an inhibitor of the physiological actionof ethylene, reduced cell growth, promoted ethylene production,increased the yield of protoplasts and reduced shoot regenerationfrom sugarcane heterogeneous cell suspension cultures. The increasein the rate of protoplast isolation from cultures treated withAgNO₃ (0 to 59 µM) correlate with an increase in endogenousethylene production by the cells. The addition to the culturemedium of chemicals that either inhibited (aminoethoxyvinylglycine,AVG) or promoted (aminocyclopropane-1-carboxylic acid, ACC)ethylene biosynthesis did not alter the number of protoplastsisolated from these cultures. However, protoplasts were isolatedwith AVG in combination with AgNO₃ even though ethylene productionwas inhibited. These results suggested that AgNO₃ may be havinganother more direct effect on protoplast release. One such sitemay be the cell wall or on cell metabolism conditioning cellsto release protoplasts after enzyme treatment. Key words: Sugarcane, cell suspension, protoplast, silver nitrate, ethylene     

Ethylene production during anther culture of Brussels sprouts (Brassica oleracea var gemmifera) and its relationship with factors that affect embryo production

The ethylene inhibitor silver nitrate (AgNO₃) is known to overcome the poor response of the Brussels sprouts cultivar Hal to anther culture. Ethylene production by Hal anthers after 6 h of culture at 35°C was on average 10- and 20-fold greater than from anthers of the highly responsive cultivars Gower and GA1 x RDF2. The initial 24 h period at 35°C necessary for embryogenesis in anther culture of Brussels sprouts generally reduced ethylene production by the anthers after 6, 24, 48 and 72 h of culture, although the effect was not seen in 2 out of 3 Hal experiments until 24 h, and after 6 h was only found with 1 of 3 GA1 x RDF2 experiments. Embryo production was inhibited by the inclusion of the ethylene precursor, 1-aminocyclopropane-1-carboxylic acid (ACC) or the ethylene-releasing compound, ethephon in the media. Silver nitrate (AgNO₃) and the ethylene biosynthesis inhibitor aminoethoxyvinylglycine (AVG) promoted embryogenesis but did not substitute for the high temperature treatment. The relevance of ethylene production during anther culture to the effects of genotype and high temperature on anther culture embryogenesis is discussed.Abbreviations ACC 1-aminocyclopropane-1-carboxylic acid - AVG aminoethoxyvinylglycine     

Micropropagation of Potato: Evaluation of Closed, Diffusive and Forced Ventilation on Growth and Tuberization

Different types of ventilation of the culture vessel headspace,each with and without the ethylene inhibitor AgNO₃(3.0 µM)or the ethylene precursor 1-aminocyclopropane-1-carboxylic acid(ACC) (2.0 µM) in the culture medium, were investigatedin terms of their effects on the growth of potato cuttings (Solanumtuberosum L. ‘cara’). Concentrations of CO₂ , O₂andethylene in the culture vessel headspaces were monitored duringthe study. Growth was substantially enhanced and vitrification(stunting and epinasty of leaves and hooking of stem apices)was reduced by increasing the efficiency of ventilation, theeffects being greatest with forced ventilation. In the conventionaldiffusive treatment (via a polypropylene membrane), leaf epinastyoccurred but the leaves were not stunted unless ACC had beenadded. AgNO₃prevented vitrification in the latter case and reducedit in the sealed treatment. On the other hand, with all forcedventilation treatments, even with the addition of ACC, the plantletsgrew well and some of the growth parameters exceeded those inthe diffusive + AgNO₃treatment. Ethylene removal was clearlyan important factor contributing to the better growth foundwith diffusive and especially with the forced ventilation treatment;with the latter, ethylene concentrations in the culture vesselswere virtually zero. In addition, enhanced CO₂supply probablycontributed to the better performance under forced ventilationcompared to diffusive ventilation. Callus developed on the stembases in all sealed (airtight) and diffusive treatments exceptwhere AgNO₃was used. No callus was observed in any treatmentwhere forced ventilation was applied and in vitro tuberization(tuber size) was considerably improved by this treatment. Copyright2001 Annals of Botany Company Callus, ethylene, potato, tuberization, vitrification     

Effect of Ethylene and Culture Environment on Rice Callus Proliferation

Modifications to the gaseous envelope by callus during culturein Petri dishes were shown to reduce growth and promote necrosisof several rice (Oryza sativa L.) cultivars. Incubatingcallusunder a continuous flow of gas mixtures of known compositionsuggested that the inhibition of growth was caused by the accumulationof ethylene, the depletion of oxygen and, to a lesser extent,the accumulation of carbon dioxide. In order to evaluate theimportance of ethylene accumulation aminoethoxyvinylglycine(AVG), 1-aminocyclopropane-l-carboxylic acid (ACC and silvernitrate (AgNO₃), were added to the nutrient medium and ethylenemeasurements performed during callus culture. Ethylene restrictedcallus growth particularly under high (35 °C) as comparedto moderate (25 °C) temperatures and under illuminated ascompared to darkened incubation. Under illuminated incubationat 25 °C AVG (5 mmol m^–3) and AgNO°(50 mmol m^–3)significantly improvedcallus growth (100 and 60% respectively)while ACC (200 mmol m^–3) significantly decreased growth(40%). AVG and AgNO₃ were less effective under dark incubationat 25 °C where ethylene production was lower. Furthermore,callus growth was significantly better in large as comparedto small culture vessels since the ethylene concentration wasdiluted and more oxygen was available for respiration. Bettercontrol of ethylene and increased oxygen availability couldbe a way ofproducing healthy callus for the formation of embryogenictissues of otherwise recalcitrant cultivars of rice (e.g. IndicaIR42) and may be a way of improving manipulation of other cerealspecies. Key words: 1-Aminocyclopropane-1-carboxylic acid, aminoethoxyvinylglycine, callus, ethylene, Oryza sativa, silver nitrate     

Influence of putrescine, silver nitrate and polyamine inhibitors on the morphogenetic response in untransformed and transformed tissues of Cichorium intybus and their regenerants

The addition of 40 mM putrescine (Put) to Murashige and Skoog's (MS) medium resulted in increased shoot multiplication and shoot growth in untransformed plants relative to transformed plants of Cichorium intybus L. Put at a concentration of 40 mM also resulted in flowering in both systems on the 28th day, with elevated titers of endogenous conjugated Put and spermine (Spm) in both untransformed and transformed plants. The addition of 40 µM AgNO₃ to untransformed axillary buds of C. intybus L. cultured on MS media resulted in increased shoot multiplication (36.9DŽ.63 shoots per culture) and increased shoot growth (7.82ǂ.76 cm) as compared to transformed ones (11.6ǂ.89 shoots per culture; 3.20ǂ.24 cm). Moreover, cultures treated with 40 µM AgNO₃ showed in vitro flowering on the 28th day in both systems, with the endogenous levels of conjugated spermine being higher in untransformed plants than in transformed ones. The morphogenetic response and the endogenous conjugated pool of polyamines were lower following !-DL-difluromethylarginine and !-DL-difluromethylornithine treatments; the addition of put (40 mM) and AgNO₃ (40 µM) restored these to normal levels. Under exogenous put feeding, ethylene production was lower in both the untransformed and transformed cultures. We believe that an interplay between polyamine and ethylene biosynthesis is involved in regulating the morphogenetic response in both transformed and untransformed shoots of C. intybus. The response to AgNO₃ and Put treatment was not altered by the transformation process.     

Ethylene, Nitrate and Nitrite Interactions in the Promotion of Dark Germination of Common Purslane Seeds

Ethylene (10 µ1^–1) caused about one-third of highlydark-dormant seeds of common purslane (Portulaca oleracea L.)to germinate in the dark. Attempts were made to increase germinationin the dark with nitrate and ethylene combinations. When applieddirectly to the seeds, KNO₃ did not stimulate germination andKNO₃ plus ethylene did not increase germination above that ofethylene alone. Pre-incubation of seeds in KNO₃ for 4 to 7 dbefore the ethylene applications significantly increased germination.The effects of the KNO₃ pre-incubation were additive at eachof four ethylene concentrations (0.1–100 µ11^–1).Potassium nitrate was effective only when ethylene followedthe KNO₃ pre-incubation period. Potassium nitrite stimulatedabout 25 per cent of the seeds to germinate without a pre-incubationperiod and without ethylene. Also, ethylene plus KNO₂ enhancedgermination above that achieved by either stimulus alone. Silvernitrate did not block the ethylene promotion of germination,but reversed the typical ethylene inhibition of seedling growthfollowing germination. The results support the views that nitrateexerted its effect via conversion to nitrite within the seedand that the rate of nitrate conversion may be a limiting factorin the dark germination of common purslane seeds. Ethylene mayfacilitate nitrite activity by increasing seed sensitivity tothe stimulus. Common purslane, Portulaca oleracea L., ethylene, nitrate, nitrite, germination, dormancy     

AgNO3对橡胶树花药愈伤组织形态及体胚发生的影响

橡胶树的花药愈伤组织在长期继代过程中,胚性易下降甚至丧失;而AgNO3作为乙烯活性抑制剂,被广泛应用于植物组织培养中.该研究以继代培养4 a以上的热研7-33-97花药愈伤组织为材料,在继代培养基中添加2.5 mg·L-1 AgNO3预培养35 d后,观察预培养前后愈伤组织表形及其细胞形态的变化,并设计不同浓度AgNO3及不同处理时间对其进行体胚诱导,90 d后分别统计胚状体总数和正常胚数.结果表明:浅黄色质地柔软的愈伤组织在含AgNO3的培养基上预培养后能转变成鲜黄色易碎愈伤组织,在倒置显微镜下前者大多表现为不规则多边形,细胞内含物较稀薄;而后者则呈圆形或椭圆形,细胞内含物丰富,属于典型的胚性细胞.在体胚诱导的第1个月添加5 mg·L-1 AgNO3能显著促进体胚的发生,AgNO3浓度升至10 mg·L-1时体胚发生受到抑制,且畸形胚的形成率显著增加;在含5 mg·L-1 AgNO3的培养基中培养2个月以上,体胚发育明显受阻,大部分形成畸形胚.该研究结果在一定程度上恢复了橡胶树长期继代花药愈伤组织的胚性能力,并提高了其体胚发生频率,为橡胶树花药胚性愈伤组织长期继代培养过程中胚性的保持提供了参考.     

Ethylene Biosynthesis and Xylogenesis in Lactuca Pith Explants Cultured In Vitro in the Presence of Auxin and Cytokinin: The Effect of Ethylene Precursors and Inhibitors

The possible involvement of ethylene in the induction of xylemdifferentiation was studied in lettuce (Lactuca saliva L. cv.Romaine) pith parenchyma explants. The addition of the ethyleneprecursors L-methionine (0.25 µM), S-adenosylmethionine(25 µM) and 1-aminocyclopropane-l-carboxylic acid (0.01µM), or the ethylene-releasing agent 2-chloroethylphosphonicacid (1.0 µM), to a standard IAA-kinetin-containing mediumenhanced xylogenesis compared to control explants cultured inthe absence of these compounds. In the presence of the ethyleneinhibitors aminoethoxyvinylglycine, Co(NO₃)₂ and AgNO₃, xylogenesiswas inhibited. Inhibition of xylogenesis by aminoethoxyvinylglycine(75 µM), Co(NO₃)₂ (50 µM) and AgNO₃ (6.0 µM)was reversed by exogenous 1-aminocyclopropane-l-carboxylic acid(0.01 µM), 2-chloroethylphosphonic acid (5.0 µM)and L-methionine (0.25 µM), respectively. Ethylene productionby explants cultured on media containing L-methionine or 1-aminocyclopropane-l-carboxylicacid was greater than the biosynthesis of ethylene by explantscultured in the absence of these compounds. The incorporationof 2-chloroethylphosphonic acid into the culture medium resultedin higher rates of ethylene production compared to explantscultured on the IAA-kinetin medium. The presence of either aminoethoxyvinylglycineor Co(NO₃)₂ inhibited ethylene production by explants culturedon the IAA-kinetin medium. The data support the hypothesis thatethylene plays a positive role in the initiation of xylem differentiation. Key words: Xylogenesis, Differentiation, Ethylene, IAA, Kinetin, Lactuca sativa     

Efficient in vitro plant regeneration from immature zygotic embryos of pearl millet [Pennisetum glaucum (L.) R. Br.] and Sorghum bicolor (L.) Moench

We report here an in vitro culture system that provides reliable, highly efficient regeneration from immature embryos of pearl millet [Pennisetum glaucum (L.) R. Br.] and sorghum [Sorghum bicolor (L.) Moench]. Immature embryos were isolated 10-20 days after pollination and cultured on various L3 media. The influence of different parameters during the callus induction phase was examined with respect to the regeneration rate: (1) the concentrations of 2,4-dichlorophenoxyacetic acid (2,4-D) and various cytokinins; (2) the addition of AgNO₃; (3) the use of maltose or sucrose as a carbon source. Modifications in the phytohormones alone resulted in the regeneration of fertile sorghum plants at high efficiency. Significant increases in the regeneration rates of pearl millet genotypes were achieved by the combination of sucrose as a carbon source and silver nitrate as a potential ethylene inhibitor.     

Regulation of Tracheary Element Differentiation by Exogenous L-Methionine in Callus of Soya Bean Cultivars

The relationship between the induction of tracheary elementdifferentiation and exogenous L-methionine was examined in agar-growncultures of soya bean callus initiated from Glycine max L. ‘Wayne’and ‘Clark 63’. Although Wayne is a normal cultivarsoya bean, seedlings of Clark 63 exhibit abnormal growth at25 °C due to exessive ethylene biosynthesis at this temperature.Wayne callus showed increased xylogenesis in the presence ofexogenous L-methionine (3.7 µg 1^–1) in comparisonto IAA–KN controls at both 20 and 25 °C. Clark 63callus produced greater numbers of tracheary elements in responseto exogenous L-methionine only at 25 °C. The induction ofxylem differentiation was independent of the maintenance temperatureof the stock cultures of both cultivars. Xylogenesis initiatedbyan IAA–KN medium was inhibited by the addition of AgNO₃(20 mg 1^–1) to the extent of 76.5 per cent in cv. Wayneand 6 per cent in cv. Clark 63. The inhibitory effect was partiallyreversed by the addition of L-methionine (3.7 µg 1^–1)to the IAA–KN–AgNO₂ medium. These data support thehypothesis that xylogenesis in vitro involves auxin, cytokininand ethylene. differentiation, xylogenesis, L-methionine, ethylene, Glycine max L., soya bean, callus culture, auxin, kinetin     

The involvement of ethylene in in vitro maturation of mid-binucleate pollen of Nicotiana tabacum

The role of ethylene during in vitro maturation of Nicotianatabacum pollen from the mld-binucleate (MB) stage was analysedby the addition of aminooxyacetic acid (AOA), aminoethoxyvinylglycine(AVG), CoCl₂ and AgNO₃ to the maturation medium (AMGLu). Anincrease in ethylene production was obtained in both isolatedpollen and pollen surrounded by sporophytic tissue during insitu maturation. in vitro maturation of pollen was inhibitedby AOA and AVG; ACC and ethrel were able to overcome this inhibitoryeffect. Cyclohexylamine (CHA) reverted the inhibition provokedby both Ag⁺ and Co²⁺ The results reported in this paper indicatethat ethylene is one of the factors implicated in in vitro maturationof MB pollen of Nicotiana tabacum. Key words: Nicotiana tabacum, maturation, germination, pollen, ethylene     

Improvement of embryogenic callus induction and shoot regeneration of buffalograss by silver nitrate

Addition of the ethylene antagonist, silver nitrate (AgNO₃), into callus induction medium significantly enhanced embryogenic callus production (both induction frequency and callus growth) of field-collected male immature inflorescence cultures of buffalograss NE84-45-3 and 'Texoka'. No stimulatory effect of AgNO₃ was observed on embryogenic callus induction for female immature inflorescence culture of a female genotype `609' and `Texoka'. Calli initiated on AgNO₃-containing media had more shoot-regenerating calli than those initiated on AgNO₃-free media, when they were transferred to the regeneration media. Benzyladenine at 2.2 μM gave the best response for regeneration, regardless of the callus source. Although average number of shoots regenerated per callus was lower for calli initiated on AgNO₃-containing media, total number of shoots regenerated was higher. The stimulatory effect, however, was environment and genotype dependent. While the addition of AgNO₃ significantly stimulated embryogenic callus induction of NE84-45-3 immature inflorescences collected in Fall 1995 and May 1997, it only slightly increased the embryogenic callus induction frequencies in May 1996 when rainy conditions occurred. For male inflorescences of `Texoka' collected in early May, AgNO₃ significantly enhanced embryogenic callus production consistently over the two-year period (1996, 1997). Published as Journal Series No. 1351, Agricultural Research Division, University of Nebraska. This revised version was published online in June 2006 with corrections to the Cover Date.     

Ethylene inhibitors promote in vitro regeneration of cowpea (Vigna unguiculata L.)

Summary Ethylene is a plant growth regulator that is known to influence in vitro morphogenesis. This study investigated the effects of three ethylene inhibitors, silver nitrate (AgNO₃), 2,5-norbornadiene, and cobalt chloride (CoCl₂), on the regeneration of cowpea from cotyledon explants. Significant increases in the percentage of regeneration occurred as a result of adding either 50 μM AgNO₃ or 100 μM 2,5-norbornadiene. The number of shoots produced per explant was enhanced by adding 25 μM CoCl₂ or 100 μM norbornadiene. Maximum shoot elongation was obtained with 25 μM of either CoCl₂ or norbornadiene. The effect of the duration of exposure to AgNO₃ was also determined. The greatest percent regeneration was obtained with the addition of 60 μM AgNO₃ either to both the initiation and regeneration stages, or to only the regeneration stage. The promotive effects on organogenesis in response to ethylene inhibitors suggests an important role for ethylene in the process of in vitro morphogenesis of cowpea and may contribute to its normally low regeneration frequency.     

Effect of Potato-2 Medium on Anther Culture of Interspecific Rice Hybrids

The effect of two culture media, potato-2 and N₆ supplementedwith kinetin and either 2,4-dichlorophenoxyacetic acid (2,4-D)or -naphthalene acetic acid (NAA) on anther culture responseof two interspecific rice hybrids was studied. While calluscould be successfully induced and plants regenerated from theF₁ of O. saliva x O. rufipogon, the other hybrid, O. salivax O. longistaminala did not respond to the anther culture. Nevertheless,some success in callus induction was achieved when anthers froma few selected F₂ plants were cultured from the latter cross.No interaction effects between the media (potato-2, N₆ and growthhormones (2,4-D and NAA) for anther response to callusing wereobserved. Potato-2 medium proved to be superior to N₆ in termsof increased anther response, early callus induction, multiplecalli formation and also overall green plant regeneration Oryza saliva L., O. rufipogon Griff., O. longistaminata A. Chev. et Roehr, interspecific hybrid, anther culture, potato-2 medium, N₆ medium     

Long-day flowering of Lemna perpusilla 6746 in Mo-deficient medium

Lemna perpusilla 6746, a short-day duckweed, flowered undercontinuous illumination if some of the SH inhibitors, such ascyanide or tungstate were added to the M-sucrose medium. Theeffect of tungstate was not overcome by simultaneous applicationof molybdate, but deletion of the Mo from the medium was enoughto induce the long-day flowering. In vivo assay of nitrate reductaseactivity suggested that nitrate reduction was not inhibitedby tungstate, CuSO₄ or AgNO₃ which induced longday flowering.The possibility was suggested that suppression of some Mo-requiringprocess other than nitrate reduction brings about the long-dayflowering in this plant. (Received November 12, 1975; )     

Role of Ethylene on de Novo Shoot Regeneration from Cotyledonary Explants of Brassica campestris ssp. pekinensis (Lour) Olsson in Vitro

The promotive effect of AgNO₃ and aminoethoxyvinylglycine (AVG) on in vitro shoot regeneration from cotyledons of Brassica campestris ssp. pekinensis in relation to endogenous 1-amino-cyclopropane-1-carboxylic acid (ACC) synthase, ACC, and ethylene production was investigated. AgNO₃ enhanced ACC synthase activity and ACC accumulation, which reached a maximum after 3 to 7 days of culture. ACC accumulation was concomitant with increased emanation of ethylene which peaked after 14 days. In contrast, AVG was inhibitory to endogenous ACC synthase activity and reduced ACC and ethylene production. The promotive effect of AVG on shoot regeneration was reversed by 2-chloroethylphosphonic acid at 50 micromolar or higher concentrations, whereas explants grown on AgNO₃ medium were less affected by 2-chloroethylphosphonic acid. The distinctive effect of AgNO₃ and AVG on endogenous ACC synthase, ACC, and ethylene production and its possible mechanisms are discussed.     

Silver Ions Increase Auxin Efflux Independently of Effects on Ethylene Response

Silver nitrate and aminoethoxyvinylglycine (AVG) are often used to inhibit perception and biosynthesis, respectively, of the phytohormone ethylene. In the course of exploring the genetic basis of the extensive interactions between ethylene and auxin, we compared the effects of silver nitrate (AgNO₃) and AVG on auxin responsiveness. We found that although AgNO₃ dramatically decreased root indole-3-acetic acid (IAA) responsiveness in inhibition of root elongation, promotion of DR5-β-glucuronidase activity, and reduction of Aux/IAA protein levels, AVG had more mild effects. Moreover, we found that that silver ions, but not AVG, enhanced IAA efflux similarly in root tips of both the wild type and mutants with blocked ethylene responses, indicating that this enhancement was independent of ethylene signaling. Our results suggest that the promotion of IAA efflux by silver ions is independent of the effects of silver ions on ethylene perception. Although the molecular details of this enhancement remain unknown, our finding that silver ions can promote IAA efflux in addition to blocking ethylene signaling suggest that caution is warranted in interpreting studies using AgNO₃ to block ethylene signaling in roots.     

A study of factors affecting embryo yields from anther culture of cabbage

In cabbage (Brassica oleracea var. capitata), a thermal shock treatment of 24 h at 35 °C at the start of the culture period resulted in higher embryos per 100 anthers (30.0) compared to a treatment of 48 h. Similarly , a chilling treatment of 24 h at 4 °C resulted in a higher embryo yield (6.0) per 100 anthers compared to a treatment of 48 h. However, the embryo yields were significantly higher (p> 0.01) in thermal shock than chilling treatments in all experiments. Treatments of 6 days at either 35 °C or 4 °C gave no embryos. The most responsive cultivar was the F₁ hybrid , Hercules, in all experiments. Although anther culture was successful in the other genotypes, the open pollinated ones, the highest number of embryo yields per 100 anthers was obtained in the hybrid. High temperature treatment before culture had a beneficial effect on the embryo yields. The responsiveness of anthers to addition of increasing concentration of silver nitrate (AgN0₃) (the ethylene inhibitor) to the culture medium, showed a progressive increase in the embryo yields in all the genotypes. Since embryos were also formed in the absence of silver nitrate, probably, due to a greater genotype × medium interaction, it is noted that the presence of silver nitrate in the medium may not be essential for cabbage anther culture as reported earlier. The findings of this study may be recommended for large production of cabbage embryos in culture.     

Ethylene and cytokinin interaction in the morphogenesis of Pelargonium × hortorum L.H. Bailey in vitro

Pelargonium × hortorum ‘Grand Prix’ which is susceptible to leaf yellowing and ‘Bergpalais’ which is not susceptible to leaf yellowing were chosen for the experiments. Ethylene production and action as well as the associated morphological response of Pelargonium shoots grown in the presence of a precursor of ethylene biosynthesis 1-aminocyclopropane-1-carboxylic acid (ACC), ethylene inhibitors: α-aminooxyacetic acid (AOA) and silver nitrate (AgNO₃) and different cytokinins: (meta-topolin) (mT) or 6-benzylaminopurine (BAP) were studied. It was found that ‘Grand Prix’ was more sensitive to ethylene than ‘Bergpalais’ and it showed the leaf yellowing in response to 0.1 mg l^?1 ACC. Moreover, it was noted that ACC added separately or together with cytokinin influenced Pelargonium morphogenesis. Depending on the concentration of ACC (0.1–2.0 mg l^?1), it either stimulated or inhibited shoot and root formation as well as the growth of shoots and leaf blades. ACC-induced leaf yellowing in ‘Grand Prix’ was effectively inhibited by mT. In contrast, BAP did not enhance shoot quality. Simultaneously, the presence of mT in the medium resulted in up to a twofold increase in the ethylene production by ‘Grand Prix’ shoots throughout the culture period compared with the shoots growing on the BAP-medium. The inhibitor of ethylene action (AgNO₃) added with cytokinin prevented the yellowing of Pelargonium shoots, but simultaneously influenced the formation of mature shoots with limited long-term multiplication potential. The shoots of P. × hortorum ‘Grand Prix’ treated with AgNO₃ and mT emitted two- and sevenfold more ethylene after 11th and 21st day of culture compared with those treated with AgNO₃ and BAP. It is suggested that mT inhibits the early senescence of Pelargonium in vitro by decreasing its sensitivity to ethylene.     

Evaluation of a closed system,diffusive and humidity-induced convective throughflow ventilation on the growth and physiology of cauliflower in vitro

The effects of ethylene inhibitors (silver nitrate – AgNO₃ and silver thiosulphate – Ag₂S₂O₃ as inhibitors of ethylene activity, cobalt chloride – CoCl₂ as inhibitor of ethylene biosynthesis) and ethylene stimulator (aminocyclopropane-1-carboxylic acid – ACC) were studied on the growth of cauliflower (Brassica oleracea L.) seedlings cultured in closed vessels (60 cm³). The addition of ethylene inhibitors have significant stimulatory effects on the growth and development of seedlings and the effects were greatest with 10 μM AgNO₃, the fresh weight of leaves was 2.6×, and the leaf area 2.8× those of the control (no additives). The effects of various methods of ventilation (humidity-induced convective through-flow ventilation, diffusive ventilation and sealed condition) on the growth and physiology of in vitrocauliflower seedlings were also investigated. The seedlings were cultured either in the presence or absence of AgNO₃ (inhibitors of ethylene activity) and ACC (a precursor). Ethylene and CO₂ levels in the head-space of the culture vessels were monitored. The humidity-induced through-flow ventilation system has shown to be effective for improving growth, leaf chlorophyll content and the rate of net photosynthesis and preventing symptoms of hyperhydricity, such as leaf epinasty, and franginess, reduction of leaf area etc. In contrast, the results also indicated that the sealing of culture vessels could have serious inhibitory effects on growth and development, induce hyperhydricity and reduce leaf chlorophyll content. In the light period, CO₂ depletion occurred in the head-space of the sealed vessels (ca. 40 μl l^-1), the CO₂ concentration increased with increasing efficiency of the ventilation. No ethylene accumulation was noticed in the head-space of the culture vessels when humidity-induced throughflow ventilation was applied; however, high ethylene accumulation occurred in sealed vessels. This revised version was published online in June 2006 with corrections to the Cover Date.