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1.
Robert Konieczny Jan Kępczyński Maria Pilarska Danuta Cembrowska Diedrik Menzel Jozef Šamaj 《Journal of Plant Growth Regulation》2009,28(4):331-340
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. 相似文献
2.
3.
Ivanchenko MG Napsucialy-Mendivil S Dubrovsky JG 《The Plant journal : for cell and molecular biology》2010,64(5):740-752
The hormone auxin is known to inhibit root elongation and to promote initiation of lateral roots. Here we report complex effects of auxin on lateral root initiation in roots showing reduced cell elongation after auxin treatment. In Arabidopsis thaliana, the promotion of lateral root initiation by indole-3-acetic acid (IAA) was reduced as the IAA concentration was increased in the nanomolar range, and IAA became inhibitory at 25 nM. Detection of this unexpected inhibitory effect required evaluation of root portions that had newly formed during treatment, separately from root portions that existed prior to treatment. Lateral root initiation was also reduced in the iaaM-OX Arabidopsis line, which has an endogenously increased IAA level. The ethylene signaling mutants ein2-5 and etr1-3, the auxin transport mutants aux1-7 and eir1/pin2, and the auxin perception/response mutant tir1-1 were resistant to the inhibitory effect of IAA on lateral root initiation, consistent with a requirement for intact ethylene signaling, auxin transport and auxin perception/response for this effect. The pericycle cell length was less dramatically reduced than cortical cell length, suggesting that a reduction in the pericycle cell number relative to the cortex could occur with the increase of the IAA level. Expression of the DR5:GUS auxin reporter was also less effectively induced, and the AXR3 auxin repressor protein was less effectively eliminated in such root portions, suggesting that decreased auxin responsiveness may accompany the inhibition. Our study highlights a connection between auxin-regulated inhibition of parent root elongation and a decrease in lateral root initiation. This may be required to regulate the spacing of lateral roots and optimize root architecture to environmental demands. 相似文献
4.
Ethylene regulates lateral root formation and auxin transport in Arabidopsis thaliana 总被引:2,自引:0,他引:2
Negi S Ivanchenko MG Muday GK 《The Plant journal : for cell and molecular biology》2008,55(2):175-187
Lateral root branching is a genetically defined and environmentally regulated process. Auxin is required for lateral root formation, and mutants that are altered in auxin synthesis, transport or signaling often have lateral root defects. Crosstalk between auxin and ethylene in root elongation has been demonstrated, but interactions between these hormones in the regulation of Arabidopsis lateral root formation are not well characterized. This study utilized Arabidopsis mutants altered in ethylene signaling and synthesis to explore the role of ethylene in lateral root formation. We find that enhanced ethylene synthesis or signaling, through the eto1-1 and ctr1-1 mutations, or through the application of 1-aminocyclopropane-1-carboxylic acid (ACC), negatively impacts lateral root formation, and is reversible by treatment with the ethylene antagonist, silver nitrate. In contrast, mutations that block ethylene responses, etr1-3 and ein2-5 , enhance root formation and render it insensitive to the effect of ACC, even though these mutants have reduced root elongation at high ACC doses. ACC treatments or the eto1-1 mutation significantly enhance radiolabeled indole-3-acetic acid (IAA) transport in both the acropetal and the basipetal directions. ein2-5 and etr1-3 have less acropetal IAA transport, and transport is no longer regulated by ACC. DR5-GUS reporter expression is also altered by ACC treatment, which is consistent with transport differences. The aux1-7 mutant, which has a defect in an IAA influx protein, is insensitive to the ethylene inhibition of root formation. aux1-7 also has ACC-insensitive acropetal and basipetal IAA transport, as well as altered DR5-GUS expression, which is consistent with ethylene altering AUX1-mediated IAA uptake, and thereby blocking lateral root formation. 相似文献
5.
Effects of the ethylene precursor 1-aminocyclopropane-1-carboxylic acid (ACC) and three ethylene inhibitors, AgNO3, aminoethoxyvinyglycine (AVG) and CoCl2, on root formation were tested in vitro using shoot cultures of the apple (Malus×domestica Borkh.) cultivar Royal Gala. ACC inhibited root formation by delaying root emergence and increasing callus formation at the
bases of shoots. In contrast, ethylene inhibitors promoted root formation. Both AgNO3 and AVG at the appropriate concentrations increased the percentage of shoots producing roots and reduced callus formation
at the base of these shoots. AgNO3 stimulated root emergence and enhanced root growth, while AVG increased the number of roots per shoot. CoCl2 slightly increased root number and rooting efficiency. These promotive effects may result from a reduction in ethylene concentration
or inhibition of ethylene action. The results found in this study may be used to improve the rooting efficiency of other apple
cultivars and rootstocks, and possibly of other plant species.
Received: 2 March 1997 / Revision received: 1 July 1997 / Accepted: 18 July 1997 相似文献
6.
We tested that the hypothesis that root elongation might be controlled by altering the level of ethylene in intact primary roots of maize(Zea mays L.). We measured root elongation in a short period using a computerized root auxanometer. Compounds which regulate ethylene production were applied to intact primary roots in different time periods. Root elongation was stimulated by the treatment with ethylene antagonists such as Co2+, aminoethoxyvinylglycine (AVG) and L-canaline. This result suggested that root elongation was closely related to ethylene level of intact primary roots. Furthermore, IAA- and 1-aminocyclopropane-1-carboxylic acid (ACC)-induced inhibition of root elongation was reversed by treatment with Co2+. The application of ACC to roots which have been exposed to IAA and Co2+ have no significant effect on root elongation. However, the inhibition of root elongation by ACC in roots previously treated with IAA and AVG became manifest when the applied IAA concentrations were lower. These results were consistent with the hypothesis that the level of ethylene in intact roots functions to moderate root elongation, and suggested that auxin-induced inhibition of root elongation results from auxin induced promotion of ethylene production. 相似文献
7.
We tested that the hypothesis that root elongation might be controlled by altering the level of ethylene in intact primary
roots of maize(Zea mays L.). We measured root elongation in a short period using a computerized root auxanometer. Compounds which regulate ethylene
production were applied to intact primary roots in different time periods. Root elongation was stimulated by the treatment
with ethylene antagonists such as Co2+, aminoethoxyvinylglycine (AVG) and L-canaline. This result suggested that root elongation was closely related to ethylene
level of intact primary roots. Furthermore, IAA- and 1-aminocyclopropane-1-carboxylic acid (ACC)-induced inhibition of root
elongation was reversed by treatment with Co2+. The application of ACC to roots which have been exposed to IAA and Co2+ have no significant effect on root elongation. However, the inhibition of root elongation by ACC in roots previously treated
with IAA and AVG became manifest when the applied IAA concentrations were lower. These results were consistent with the hypothesis
that the level of ethylene in intact roots functions to moderate root elongation, and suggested that auxin-induced inhibition
of root elongation results from auxin induced promotion of ethylene production. 相似文献
8.
Changxi Yin Quanrong Wu Hanlai Zeng Kai Xia Jiuwei Xu Rongwei Li 《Journal of Plant Growth Regulation》2011,30(1):20-29
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. 相似文献
9.
10.
Taylor Paul W.J.; Ko Hian-Lien; Fraser Tracy A.; Masel Niall; Adkins Stephen W. 《Journal of experimental botany》1994,45(8):1163-1168
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 相似文献
11.
The inhibitory effects of indole-3-acetic acid (IAA) and 1-aminocyclopropane-1-carboxylic acid (ACC) on elongation growth of pea (Pisum sativum L.) seedling roots were investigated in relation to the effects of these compounds on ethylene production by the root tips. When added to the growth solution both compounds caused a progressively increasing inhibition of growth within the concentration range of 0.01 to 1 micromolar. However, only ACC increased ethylene production in root tips excised from the treated seedlings after 24 hours. High auxin concentrations caused a transitory increase of ethylene production during a few hours in the beginning of the treatment period, but even in 1 micromolar IAA this increase was too low to have any appreciable effect on growth. ACC, but not IAA, caused growth curvatures, typical of ethylene treatment, in the root tips. IAA caused conspicuous swelling of the root tips while ACC did not. Cobalt and silver ions reversed the growth inhibitory effects induced by ACC but did not counteract the inhibition of elongation or swelling caused by IAA. The growth effects caused by the ACC treatments were obviously due to ethylene production. We found no evidence to indicate that the growth inhibition or swelling caused by IAA is mediated by ethylene. It is concluded that the inhibitory action of IAA on root growth is caused by this auxin per se. 相似文献
12.
Transverse cortical microtubule (CMT) arrays in lettuce root epidermal cells randomize soon after a shift from pH 6.0 to pH 4.0, and this randomization is essential for root hair initiation. We investigated the hormonal regulation of CMT randomization. At pH 4.0, 1 micro M of the auxin competitive inhibitor 2-(p-chlorophenoxy)-2-methylpropionic acid (PCIB), 0.1 micro M of the ethylene biosynthesis inhibitor aminoethoxyvinylglycine (AVG) or 0.1 micro M of the ethylene action inhibitor Ag(+) suppressed CMT randomization and root hair initiation. At pH 6.0, addition of 0.1 micro M indole-3-acetic acid (IAA) or 1 micro M of the ethylene precursor 1-aminocyclopropane-1-carboxylic acid (ACC) induced CMT randomization and root hair initiation. Culturing with 0.1 micro M IAA plus 0.1 micro M AVG, or 1 micro M ACC plus 1 micro M PCIB also induced these phenomena. ACC (1 micro M) plus 100 micro M PCIB inhibited CMT randomization and root hair initiation, but 1 micro M AVG with 0.1 micro M Ag(+) and 0.1 micro M IAA induced them. These results suggest that auxin is essential for CMT randomization. As a higher concentration of PCIB was required to suppress CMT randomization when ACC was added, the greater amount of ethylene produced at pH 4.0 may promote the induction by auxin of CMT randomization in hair-forming cells. 相似文献
13.
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 相似文献
14.
Ethylene inhibitors enhance in vitro root formation on faba bean shoots regenerated on medium containing thidiazuron 总被引:8,自引:0,他引:8
The possible involvement of ethylene in in vitrorooting of faba bean (Vicia faba L.) shootsregenerated on medium containing thidiazuron wasinvestigated. The effects of the ethylene precursor1-aminocyclopropane-1-carboxylic acid (ACC) and threeethylene inhibitors, silver nitrate (AgNO3),acetyl salicylic acid (ASA) and cobalt chloride(CoCl2) on root formation were tested in vitrousing TDZ-induced shoots of faba bean accession 760.ACC inhibited root formation. In contrast, ethyleneinhibitors promoted root formation, AgNO3 at theappropriate concentrations enhanced root emergence andincreased root number per shoot, root growth rate, androot length. Both CoCl2 and ASA at theappropriate concentrations increased rootingefficiency. These promotive effects may result from areduction in ethylene concentration or inhibition ofethylene action. The results offer a new approach toimprove the rooting efficiency of TDZ-induced shootsof faba bean and possibly of other plant species. 相似文献
15.
16.
Deferral of senescence and abscission by chemical inhibition of ethylene synthesis and action in bean explants 总被引:1,自引:1,他引:0 下载免费PDF全文
Three compounds known to inhibit ethylene synthesis and/or action were compared for their ability to delay senescence and abscission of bean explants (Phaseolus vulgaris L. cv Contender). Aminoethoxyvinyl-glycine (AVG), AgNO3, and sodium benzoate were infiltrated into the petiole explants. Their effect on abscission was monitored by measuring the force required to break the abscission zone, and their effect on senescence was followed by measuring chlorophyll and soluble protein in the distal (pulvinus) sections. AVG at concentrations between 1 and 100 micromolar inhibited ethylene synthesis by about 80 to 90% compared to the control during sampling periods of 24 and 48 hours after treatment. This compound also delayed the development of abscission and senescence. Treatment with AgNO3 at concentrations between 1 and 100 micromolar progressively reduced ethylene production, but to a lesser extent than AVG. The effects of AgNO3 on senescence and abscission were quite similar to those of AVG. Sodium benzoate at 50 micromolar to 5 millimolar did not inhibit ethylene synthesis during the first 24 hours, but appreciably inhibited ethylene synthesis 48 hours after treatment. It also delayed the development of abscission and senescence. The effects of AVG, Ag+, and sodium benzoate suggest that ethylene could play a major role in both the senescence induction phase and the separation phase in bean explants. 相似文献
17.
Plants have developed numerous mechanisms to store hormones in inactive but readily available states, enabling rapid responses to environmental changes. The phytohormone auxin has a number of storage precursors, including indole-3-butyric acid (IBA), which is apparently shortened to active indole-3-acetic acid (IAA) in peroxisomes by a process similar to fatty acid β-oxidation. Whereas metabolism of auxin precursors is beginning to be understood, the biological significance of the various precursors is virtually unknown. We identified an Arabidopsis thaliana mutant that specifically restores IBA, but not IAA, responsiveness to auxin signaling mutants. This mutant is defective in PLEIOTROPIC DRUG RESISTANCE8 (PDR8)/PENETRATION3/ABCG36, a plasma membrane–localized ATP binding cassette transporter that has established roles in pathogen responses and cadmium transport. We found that pdr8 mutants display defects in efflux of the auxin precursor IBA and developmental defects in root hair and cotyledon expansion that reveal previously unknown roles for IBA-derived IAA in plant growth and development. Our results are consistent with the possibility that limiting accumulation of the IAA precursor IBA via PDR8-promoted efflux contributes to auxin homeostasis. 相似文献
18.
We have previously shown that both endogenous auxin and ethylenepromote adventitious root formation in the hypocotyls of derootedsunflower (Helianthus annuus) seedlings. Experiments here showedthat promotive effects on rooting of the ethylene precursor,1-aminocyclopropane-l-carboxylic acid (ACC) and the ethylene-releasingcompound, ethephon (2-chloro-ethylphosphonic acid), dependedon the existence of cotyledons and apical bud (major sourcesof auxin) or the presence of exogenously applied indole-3-aceticacid (IAA). Ethephon, ACC, aminoethoxyvinylglycine (an inhibitorof ethylene biosynthesis), and silver thiosulphate (STS, aninhibitor of ethylene action), applied for a length of timethat significantly influenced adventitious rooting, showed noinhibitory effect on the basipetal transport of [3H]IAA. Theseregulators also had no effect on the metabolism of [3H]IAA andendogenous IAA levels measured by gas chromatography-mass spectrometry.ACC enhanced the rooting response of hypocotyls to exogenousIAA and decreased the inhibition of rooting by IAA transportinhibitor, N-1-naphthylphthalamic acid (NPA). STS reduced therooting response of hypocotyls to exogenous IAA and increasedthe inhibition of rooting by NPA. Exogenous auxins promotedethylene production in the rooting zone of the hypocotyls. Decapitationof the cuttings or application of NPA to the hypocotyl belowthe cotyledons did not alter ethylene production in the rootingzone, but greatly reduced the number of root primordia. We concludethat auxin is a primary controller of adventitious root formationin sunflower hypocotyls, while the effect of ethylene is mediatedby auxin. Key words: Auxin, ethylene, adventitious rooting, sunflower 相似文献
19.
Yuki Ogura-Tsujita Hiroshi Okubo 《In vitro cellular & developmental biology. Plant》2006,42(6):614-616
Summary Shoot formation from rhizome explants of Cymbidium kanran was promoted on Murashige and Skoog (MS) medium: (1) with 1 mgl−1 (4.4μM) 6-benzyladenine (BA) and 0.1 mgl−1 (0.54μM) α-naphthaleneacetic acid (NAA); (2) with ethylene inhibitor (silver nitrate, AgNO3); or (3) by reducing ammonium nitrate (NH4NO3) and potassium nitrate (KNO3) to 25 and 50%, respectively, of their original concentrations. Shoot formation by BA and NAA was strongly inhibited with
the application of ethephon, an ethylene releaser. The ethylene production from the rhizome explants was reduced 30–55% on
low nitrogen medium after 1–3 mo. of culture and 52% on BA and NAA medium after 1 mo. of culture compared with explants on
standard MS medium. No difference in endogenous auxin (indole-3-acetic acid, IAA) and cytokinin (isopentenyl adenosine, iPA)
contents in the rhizomes was found between the treatments. Low ethylene levels were correlated with higher frequency of shoot
formation from the rhizomes. 相似文献
20.
Role of Ethylene on de Novo Shoot Regeneration from Cotyledonary Explants of Brassica campestris ssp. pekinensis (Lour) Olsson in Vitro 总被引:5,自引:2,他引:3 下载免费PDF全文
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. 相似文献