Ethylene as an endogenous inhibitor of root regeneration in tomato leaf discs cultured in vitro

We examined ethylene effects on root regeneration in tomato leaf discs cultured in vitro. Applied ethylene or Ethephon did not stimulate rooting in the leaf discs. In the presence of indoleacetic acid. 5 × 10^-6M, these substances significantly inhibited root formation. Ethylene production (nl C₂H₄· (24 h)^-1. flask^-1) was positively correlated with increased IAA concentrations at various times during the culture period and, as a consequence, with the rooting response after 168 h. However, separate testing of equimolar concentrations of seven different auxins and auxin-like compounds showed no positive correlation between the rate of ethylene production and subsequent rooting response. Aeration of gas-tight flasks containing leaf discs and absorption of ethylene evolved from the discs by mercuric perchlorate in gas-tight flasks or pre-treatment of leaf discs with AgNO₃ significantly enhanced IAA induced root regeneration. Thus, these studies indicate that ethylene is not a rooting hormone per se. Furthermore, ethylene (whether applied externally or synthesized by the tissue) does not appear to account for the ability of auxin to stimulate rooting.     

濒危植物盘龙参种子的非共生萌发及种苗的快繁研究

以盘龙参种子为材料,筛选离体条件下适宜种子非共生萌发、种苗快繁的培养基。结果表明:盘龙参种子在无植物生长物质的培养基中能够萌发,但不能发育成苗;在含有1.0mg·L-1 KT、0.1mg·L-1 IAA和0.1mg·L-1 GA3的培养基中萌发,并能进一步发育形成种苗;在较高浓度生长素(1.2mg·L-1 NAA)的培养基中不能萌发。种苗在较高浓度细胞分裂素和较低浓度生长素配比的培养基中能够增殖,最高增殖系数可达到2.8,转入壮苗生长培养基中培养80d后可以移栽温室。最适增殖培养基为1/2MS+12.0mg·L-1 6-BA+0.1mg·L-1 NAA+10.0mg·L-1腺嘌呤;最适壮苗生根培养基为1/2MS+1.0mg·L-1 KT+0.1mg·L-1 IAA+10.0mg·L-1腺嘌呤。     

Synergistic effect of ethylene inhibitors and putrescine on shoot regeneration from hypocotyl explants of Chinese radish (Raphanus sativus L. var. longipinnatus Bailey) in vitro

Summary The role of ethylene and putrescine on shoot regeneration from hypocotyl explants of Chinese radish (Raphanus sativus L. var. longipinnatus Bailey cv. Red Coat) was investigated. Explants were recalcitrant in culture, but exogenous application of ethylene inhibitor [20–30 M aminoethoxyvinylglycine (AVG) or AgNO₃] enhanced shoot regeneration of explants grown on medium supplemented with 2 mg/l N⁶-benzyladenine and 1 mg/l 1-naphthaleneacetic acid. The best regeneration occurred in the medium containing AgNO₃ in combination with AVG. Culture medium solidified with agarose in the presence of AgNO₃ but not AVG was also beneficial to shoot regeneration. Exogenous putrescine, 2-chloroethylphosphonic acid and 1-aminocyclopropane-1-carboxylate had no effect on shoot regeneration. However, regeneration was greatly promoted by 10–25 mM putrescine in combination with 30 M AgNO₃ or AVG. Explants with high regenerability grown in the presence of AgNO₃ or in combination with putrescine emanated high levels of ethylene throughout the 21-d culture period. By contrast, AVG or putrescine alone resulted in a decrease in ethylene production. For rooting of shoot cuttings, IAA and IBA at 1–5 mg/l were more effective than NAA.Abbreviations ACC 1-aminocyclopropane-1-carboxylate - AVG aminoethoxyvinylglycine - BA N⁶-benzyladenine - CEPA 2-chloroethylphosphonic acid - IAA indole-3-acetic acid - IBA indole-3-butyric acid - MS Murashige and Skoog (1962) medium - NAA 1-naphthaleneacetic acid - PAs polyamines - SAM S-adenosyl-L-methionine     

Ethylene as a regulator of senescence in tobacco leaf discs

The regulatory role of ethylene in leaf senescence was studied with excised tobacco leaf discs which were allowed to senesce in darkness. Exogenous ethylene, applied during the first 24 hours of senescence, enhanced chlorophyll loss without accelerating the climacteric-like pattern of rise in both ethylene and CO₂, which occurred in the advanced stage of leaf senescence. Rates of both ethylene and CO₂ evolution increased in the ethylene-treated leaf discs, especially during the first 3 days of senescence. The rhizobitoxine analog, aminoethoxy vinyl glycine, markedly inhibited ethylene production and reduced respiration and chlorophyll loss. Pretreatment of leaf discs with Ag⁺ or enrichment of the atmosphere with 5 to 10% CO₂ reduced chlorophyll loss, reduced rate of respiration, and delayed the climacteric-like rise in both ethylene and respiration. Ag⁺ was much more effective than CO₂ in retarding leaf senescence. Despite their senescence-retarding effect, Ag⁺ and CO₂, which are known to block ethylene action, stimulated ethylene production by the leaf discs during the first 3 days of the senescing period; Ag⁺ was more effective than CO₂. The results suggest that although ethylene production decreases prior to the climacteric-like rise during the later stages of senescence, endogenous ethylene plays a considerable role throughout the senescence process, presumably by interacting with other hormones participating in leaf senescence.     

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.     

Promotion of ethylene biosynthesis in peach mesocarp discs by auxin

In this study, we investigated the ability of auxin to promote ethylenebiosynthesis in fruit tissue. Discs prepared from preclimacteric peach fruit(Prunus persica L. Batsch cv.Akatsuki) were incubated for 3 weeks on a solid MS medium containing variousconcentrations of 1-naphthaleneacetic acid (NAA). Higher ethylene productionwasobserved with an increasing concentration of NAA. As the developmental stageprogressed, the time it took for the discs to produce ethylene became shorterand the amount of ethylene became greater. Auxin-induced ethylene productionwaseffectively inhibited by adding 100 M ofCoCl₂ to the medium. The stimulatory effect of auxin on anthocyaninformation was not affected by Co²⁺, although softening wasinhibited, suggesting that the effect of auxin on softening is mediated byethylene.     

Cytokinin and Ethylene Affect Auxin Transport-Dependent Rhizogenesis in Hypocotyls of Common Ice Plant (<Emphasis Type="Italic">Mesembryanthemum crystallinum</Emphasis> L<Emphasis Type="Italic">.</Emphasis>)

Hypocotyl explants of Mesembryanthemum crystallinum regenerated roots when cultured vertically with either the apical end (AE) or basal end (BE) in media containing indole-3-acetic acid (IAA). IAA alone induced roots regularly from the basal end of the explants, either from the cut surface immersed in the medium or from the opposite side. The inhibitors of auxin efflux carriers, α-naphthylphthalamic acid (NPA) and 2,3,5-triiodobenzoic acid (TIBA), inhibited rhizogenesis only from AE-cultured explants, indicating the role of polar auxin transport in root regeneration in this system. Cytokinin (zeatin, kinetin, BAP) added to auxin-containing medium reduced rhizogenesis from the explants maintained with BE and AE and additionally changed the IAA-induced pattern of rooting in AE-cultured explants by favoring rooting from the apical end and middle part of the hypocotyl with its concomitant reduction from the basal end. The addition of kinetin did not influence the content of IAA in the explants maintained with AE, suggesting that the cytokinin effect on root patterning was not dependent on auxin biosynthesis. Kinetin, however, strongly enhanced ethylene production. The importance of ethylene in regulating PAT-dependent rhizogenesis was tested by using an ethylene antagonist AgNO₃, an inhibitor of ethylene synthesis aminoethoxyvinylglycine (AVG), and a precursor of ethylene, 1-aminocyclopropane-1-carboxylic acid (ACC). AgNO₃ applied together with IAA or with IAA and kinetin strongly reduced the production of ethylene, inhibited rhizogenesis, and induced nonregenerative callus from BE, suggesting the need for ethylene signaling to elicit the rhizogenic action of auxin. A reduction of rhizogenesis and decrease of ethylene biosynthesis was also caused by AVG. In addition, AVG at 10 μM reversed the effect of cytokinin on root patterning, resulting in roots emerging only from BE on the medium with IAA and kinetin. Conversely, ACC at 200 μM markedly enhanced the production of ethylene and partly mimicked the effect of cytokinin when applied with IAA alone, thus confirming that in cultured hypocotyls of ice plant, cytokinin affects IAA-induced rhizogenesis through an ethylene-dependent pathway.     

Leaf number and position effects on the survival and performance of grape microcuttings in vitro,and the sensitivity of the cut nodal region to the medium

The presence of leaf in microcuttings of grape cvs. Arka Neelamani and Thompson Seedless promoted rooting in vitro (MS, 1 μM IAA, 0.1 μM GA₃, 3% sucrose) but the effect varied depending on the number of leaves and position of the leaf on the cutting. Single node cuttings with a full-length lower internode and a lamina at top (LAT) showed earlier rooting and more root and shoot growth than cuttings with lamina positioned at the middle (LAM), while cuttings with a leaf at the base (LAB) of the cutting and full-length upper internode exhibited a lower percent rooting and sprouting, poor root and shoot growth, and low survival. Partial or complete removal of the upper internodal segment in LAB cuttings improved rooting and sprouting suggesting the possible operation of an inhibitory effect by the upper internode. Retaining an upper leaf in LAB cuttings (LAB+UL) resulted in necrosis of the upper leaf often followed by the lower one. The extent of necrotic damage was influenced by the leaf area and position or age of the cutting on the stock shoot. Retaining the lower internode in LAB and LAB+UL cuttings which held the node–leaf junction away from the medium, or reducing the concentration of MS medium helped significantly in improving the survival and performance of these cuttings. The difference in reaction between LAB and LAT cuttings was attributable mainly to the difference in the sensitivity of the stem part that came in contact with the medium. Removal of the leaf in LAB cuttings reduced this sensitivity. The majority of the LAB and LAB+UL cuttings, as well as non-rooting or delayed rooting LAT and LAM cuttings, exhibited high purple pigmentation of leaf, petiole and stem. Two-leafed cuttings in vitro showed poor survival, less rooting and low plantlet output compared to single-leafed cuttings. This revised version was published online in June 2006 with corrections to the Cover Date.     

The Effects of Gibberellin4+7 on the Vase Life and Flower Quality of Alstroemeria Cut Flowers

Leaf yellowing is a major problem in Alstroemeria and absence of leaf senescence symptoms is an important quality attribute. Two Alstroemeria cultivars ‘Yellow King’ and ‘Marina’ were sourced from a commercial farm and harvested when sepals began to reflex. Stems were re-cut under water and kept in vase solutions of gibberellin A₄₊₇ (0, 2.5, 5.0, 7.5, 10.0, 12.5 or 15.0 mg l⁻¹ [Provide^r]). Treatments and cultivars were combined in a factorial fashion and arranged in a completely randomised design. Application of GA₄₊₇ in the holding solution at 2.5–10.0 mg l⁻¹ significantly delayed the onset of leaf senescence by around 7 days and significantly increased days to 50% petal fall by ca. 2 days. Additionally, these GA₄₊₇ concentrations resulted in higher retention of leaf nitrogen, leaf chlorophyll and also increased leaf water content, while reducing leaf dry weight, all relative to untreated controls. Cultivar ‘Yellow King’ had significantly longer vase life and a better retention of leaf quality than ‘Marina’. Our results suggest that a concentration of 10 mg l⁻¹ GA₄₊₇ can be used to prolong vase life, delay leaf senescence and enhance post-harvest quality of Alstroemeria cut flowers during their transport to market.     

Quercetin and silver nitrate modulate organogenesis in <Emphasis Type="Italic">Carissa carandas</Emphasis> (L.)

An in vitro organogenesis protocol for Carissa carandas L. was developed using an auxin transport inhibitor (quercetin) and silver nitrate (AgNO₃), an inhibitor of ethylene action, in association with cytokinins in the culture medium. This protocol produced the maximum number of shoots from aseptic seedling-derived shoot apex explants of C. carandas. The highest rate of shoot multiplication was recorded on MS medium containing 2.0 mg L^?1 6-benzylaminopurine; 0.5 mg L^?1 kinetin, and 0.75 mg L^?1 quercetin at after 4 wk of culture. Similar results were obtained when MS medium fortified with 2.0 mg L^?1 BAP, 0.5 mg L^?1 kinetin, and 1.5 mg L^?1 AgNO₃ was used. However, successful rooting was achieved on quarter strength MS medium with 0.5 mg L^?1 indole-3-acetic acid. In this study, an inhibitor of auxin transport and ethylene action maximized shoot multiplication in medium fortified with cytokinins. The established rapid micropropagation method could be used to conserve elite genotypes of C. carandas.     

Effect of culture media and irradiance level on growth and morphology of Persea americana Mill microcuttings

Avocado shoots were multiplied in vitro in two culture media of different consistency, double phase and solid medium, at three different irradiance levels: 35, 60 and 85 μmol m⁻² s⁻¹. Effects of culture and environmental conditions in multiplication rate, rooting capacity, hyperhydricity and leaf surface morphology of microcuttings were evaluated. Double phase medium induced hyperhydricity, producing leaf microcuttings with deformed stomata and low crystalline epicuticular waxes; microcuttings also showed reduced rooting capacity. By contrast, solid medium promoted leaf area development on microcuttings and decreased hyperhydricity. Stomatal index was not affected by these treatments but stomatal density was, interacting with the amount of irradiance applied. Increasing irradiance decreased concentration of chlorophyll a and carotenoids in the leaf but did not affect leaf hyperhydricity. This revised version was published online in June 2006 with corrections to the Cover Date.     

镉胁迫下硒对罗汉果组培苗光合特性的影响

实验以罗汉果组培苗为材料,室内栽培在内装市售营养土的塑料盆中,以0、10、50、100、200mg·kg-1浓度镉离子和1mg·kg-1浓度硒处理,培养20d后分析罗汉果幼苗的相关光合生理指标。结果表明:低浓度Cd2+对叶片叶绿素含量、光合速率(Pn)、蒸腾速率(Tr)、气孔导度(Gs)影响不大或稍有上升,但高浓度镉离子处理植株叶片的叶绿素含量、光合速率(Pn)、蒸腾速率(Tr)、气孔导度(Gs)明显下降;随Cd2+处理浓度的增加,叶片胞间CO2浓度(Ci)呈现上升趋势;加硒则延缓叶绿素下降,促进光合速率(Pn)、蒸腾速率(Tr)、气孔导度(Gs)上升,降低叶片胞间CO2浓度(Ci)。表明高浓度镉离子的毒害导致罗汉果组培苗叶片光合性能受到伤害,从而影响罗汉果幼苗生长。镉硒混合处理反映出硒对镉的毒害有缓解作用。     

Role of auxin and its modulators in the adventitious rooting of <Emphasis Type="Italic">Eucalyptus</Emphasis> species differing in recalcitrance

It is well established that auxins play a central role in the determination of rooting capacity, which is essential for vegetative propagation. Recent studies with apple trees have pointed to significant effects of auxin stability, wound related phenolics and ethylene production in the control of adventitious rooting. In the present study, a comparative analysis of the adventitious rooting of microcuttings of Eucalyptus saligna (easy-to-root species) and Eucalyptus globulus (difficult-to-root species) was carried out with different types of auxins, light intensities, presence or absence of apical meristem, different concentrations of phenolic compounds and presence or absence of an ethylene action inhibitor. Parameters evaluated were the percent rooting, number of roots per rooted cutting, length of longest root and mean rooting time. Results showed that auxins of intermediate stability are more favorable to rooting (particularly for the recalcitrant species), higher light intensities in the presence of exogenous auxins promote the rooting response, the absence of meristematic apex or externally supplied phenolics are not limiting for the rooting induced by exogenous auxins, and ethylene appears to play a minor role in the development of adventitious roots in microcuttings of Eucalyptus, indicating that the rhizogenic response results from direct effect of auxins.     

Development of Autotrophy and Tolerance to Acclimatization of Myrtus Communis Transplants Cultured In Vitro under Different Aeration

The behaviour of myrtle (Myrtus communis L.) plantlets during the last phase of in vitro culture before transplanting was studied. Myrtle plants were sampled from Mediterranean shrubland vegetation. In vitro growth of myrtle microcuttings was evaluated during the rooting phase using 500 cm³ containers fitted with two different types of closures. The number of gas exchanges and time in which aerated and closed vessels lose half of their gas content were calculated. Both types of vessel closure allowed photosynthetic activity in myrtle cultures even though the higher aeration rate induced higher net photosynthetic rate (P_N) during all the culture. In vitro morphogenetic and rooting of myrtle microcuttings were affected by the different environment conditions inside the culture vessels: plantlet growth and root formation of myrtle explants increased in aerated vessels in comparison with closed ones. The well developed root system, the higher P_N and dry mass accumulation during the pre-acclimatization phase in aerated vessels induced a better ability to face the transplant stress.     

Effect of Indol-3-yl Acetic Acid on Photosynthetic Characteristics of Wheat Flag Leaf During Grain Filling

Area and fresh and dry masses of flag leaf show two phases of development during grain filling in Triticum aestivum. The initial large increase in leaf size is mainly due to water intake. Contents of chlorophylls and carotenoids, reducing sugars, and sucrose, Hill reaction rate, and photosynthetic activity increased during leaf growth, but a noticeable decline in these parameters followed throughout leaf senescence. The maximum accumulation of polysaccharides and proteins occurred at the beginning of grain set, but a continuous decline in their absolute values was manifested during grain filling. Grain priming with indol-3-yl acetic acid (IAA) at 25 mg kg^-1 stimulated the flag leaf growth, namely its fresh and dry masses and its area. Furthermore, the stimulatory effect was mainly due to the increase in the pigment formation that in turn increased the photosynthetic activity of flag leaf during grain filling. On the other hand, the highest dose of IAA (50 mg kg^-1) attenuated the growth and physiological activity of flag leaf through its inhibitory action on leaf fresh and dry masses, leaf area, pigments, saccharides and protein formation, as well as its effect on ¹⁴CO₂ assimilation.     

An explanation for the light requirement of AgNO3 to inhibit ethylene-induced abscission

The loss of the antiethylene activity of Ag⁺ on leaf abscission by incubation in the dark was investigated. When primary leaves were removed from cuttings of Vigna radiata previously sprayed with AgNO₃, dark-induced abscission of the petioles was inhibited, compared to untreated leafless controls, in the presence or absence of ethephon, an ethylene-releasing compound. Malformin did not negate inhibition of petiole abscission induced by Ag⁺. Although leaf removal restored the antiethylene activity of Ag⁺ in the dark, macerates of leaves from dark-aged cuttings did not negate the ability of Ag⁺ to inhibit petiole abscission in the dark. Abscisic acid completely abolished the ability of Ag⁺ to counteract ethephon-induced leaf abscission in the light, and almost completely abolished the Ag⁺-induced inhibition of petiole abscission from explants in the dark. It is proposed that the phytochrome requirement for the antiethylene activity of Ag⁺ on ethephon-induced leaf abscission involves prevention of the formation, accumulation, or transport of a substance in leaves in the dark which negates Ag⁺ activity. This substance may be abscisic acid or another substance with similar biological activity.     

Dependence of the resting [Ca2+]cyt of RBL-1 cells on Ca2+ entry

The cytoplasmic Ca²⁺ concentration ([Ca²⁺]_cyt) in resting cells in an equilibrium between several influx and efflux mechanisms. Here we address the question of whether capacitative Ca²⁺ entry to some extent is active at resting conditions and therefore is part of processes that guarantee a constant [Ca²⁺]_cyt. We measured changes of [Ca²⁺]_cyt in RBL-1 cells with fluorometric techniques. An increase of the extracellular [Ca²⁺] from 1.3 mM to 5 mM induced an incrase in [Ca²⁺]_cyt from 105±10 nM to 145±8.5 nM. This increase could be inhibited by 10 μM Gd³⁺, 10 μM La³⁺ or 50 μM 2-aminoethoxydiphenyl borate, blockers of capacitative Ca²⁺ entry. Application of those blockers to a resting cell in a standard extracellular solution (1.3 mM Ca²⁺) resulted in a decrease of [Ca²⁺]_cyt from 105±10 nM to 88.5±10 nM with La³⁺, from 103±12 to 89±12 nM with Gd³⁺ and from 102±12 nM to 89.5±5 nM with 2-aminoethoxydiphenyl borate. From these data, we conclude that capacitative Ca²⁺ entry beside its function in Ca²⁺ signaling contributes to the regulation of resting [Ca²⁺]_cyt.     

On the role of calcium in indole-3-acetic acid movement and graviresponse in etiolated pea epicotyls

To determine whether Ca²⁺ plays a special role in the early graviresponse of shoots, as has been reported for roots, we treated etiolated pea epicotyls with substances known to antagonize Ca²⁺ (La³⁺), to remove Ca²⁺ from the wall (spermidine, EGTA), to inhibit calmodulin mediated reactions (chlorpromazine), or to inhibit IAA transport (TIBA). We studied the effect of these substances on IAA and Ca²⁺ uptake into 7 mm long subapical 3rd internode etiolated pea epicotyl sections and pea leaf protoplasts, on pea epicotyl growth, and graviresponse and on lateral IAA redistribution during gravistimulation.Our results support the view that adequate Ca²⁺ in the apoplast is required for normal IAA uptake, transport and graviresponse. Experiments with protoplasts indicate that Ca²⁺ may be controlling a labile membrane porter, possibly located on the external surface of cell membrane, while inhibitor experiments suggest that calmodulin is also implicated in both the movement of IAA and graviresponse. Since a major transfer of Ca²⁺ through free space during graviresponse has not yet been demonstrated, and since inhibition of calcium channels does not affect IAA redistribution (Migliaccio and Galston, 1987, Plant Physiology 85:542), we conclude that no clear evidence links prior Ca²⁺ movement with IAA redistribution during graviresponse in stems.Abbreviations IAA indole-3-acetic acid - CPZ chlorpromazine - EGTA ethylene glycol bis-(aminoethyl ether) N, N, N¹, N¹-tetracetic acid - G C gravicurvature The research was supported by NASA grant NSG-7290 to AWG.     

牛角瓜离体快繁技术

该文选用牛角瓜茎段为外植体,通过组织培养方法探索牛角瓜组织培养和种苗快繁技术。结果表明:最佳外植体表面消毒方法是以0.1%HgCl_2处理7 min,外植体存活率为32.3%;初代培养基为MS+蔗糖30 g·L~(-1)+琼脂3.5 g·L~(-1),培养20 d后形成3～4 cm高的再生芽。增殖培养前期筛选的较为适宜的增殖培养基为MS+6-BA 1.5 mg·L~(-1)+NAA 0.05 mg·L~(-1)+蔗糖30 g·L~(-1)+琼脂3.5 g·L~(-1),增殖系数4.6。但在后续的培养过程中发现,牛角瓜组培苗易玻璃化,且随着世代更迭,玻璃化程度加重,到了第四代几乎全部玻璃化。因此在上述增殖培养的基础上,以AgNO_3作为玻璃化抑制剂,筛选出最终的增殖培养基为MS+6-BA1.5 mg·L~(-1)+NAA 0.05 mg·L~(-1)+AgNO_31.0 g·L~(-1)+蔗糖30 g·L~(-1)+琼脂3.5 g·L~(-1)。用此增殖培养基,培养25 d,苗高5～8 cm,增殖系数5.8,玻璃化率低于10%,且连续培养多代,玻璃化率维持在10%以下。生根壮苗培养基为1/2MS+NAA 1.0 mg·L~(-1)+蔗糖20 g·L~(-1)+琼脂3.6 g·L~(-1),培养14 d,生根率98%;将生根苗移栽于70%遮阴度的大棚中,30 d后,苗高20 cm左右,成活率85%。利用该方法可对牛角瓜优良种苗进行规模化生产。     

Endogenous Auxin is Required but Supraoptimal for Rapid Growth of Rice (Oryza sativa L.) Seminal Roots, and Auxin Inhibition of Rice Seminal Root Growth is Not Caused by Ethylene

The dual effects of auxin and ethylene on rice seminal root growth were investigated in this study. Low concentrations of exogenous indole-3-acetic acid (IAA) had no effect on rice seminal root growth, whereas higher concentrations (≥0.003 μM) were inhibitory. In contrast, low concentrations of the auxin action inhibitor p-chlorophenoxyisobutyric acid (PCIB), ranging from 0.5 to 50 μM, promoted rice seminal root growth, whereas high concentrations of PCIB (≥500 μM) and the polar auxin transport inhibitor 2,3,5-triiodobenzoic acid (TIBA) inhibited rice seminal root growth. These results suggest that endogenous auxin is required but supraoptimal for rapid growth of rice seminal roots. In addition, although rice seminal root growth was inhibited by the exogenous ethylene-releasing compound ethephon or the ethylene precursor 1-aminocyclopropane-1-carboxylic acid (ACC) as well as exogenous IAA, the 50% inhibition of growth (I₅₀) caused by ethephon or ACC was weakened by certain concentrations of the ethylene action inhibitor Ag⁺ (0.016-0.4 μM). However, the I₅₀ caused by exogenous IAA was strengthened by Ag⁺ or the ethylene biosynthetic inhibitor aminoethoxyvinylglycine (AVG) and weakened by certain concentrations of PCIB (0.5-50 μM). Together, the inhibitory mechanisms of auxin and ethylene on rice seminal root growth should be different, and auxin inhibition of rice seminal root growth should not be caused by ethylene. Furthermore, our results indicated that a certain threshold level of ethylene was required to maintain rice seminal root growth, and that ethylene within the threshold may antagonize auxin inhibition of rice seminal root growth.