Aromatic amino acid aminotransferase activity and indole-3-acetic acid production by associative nitrogen-fixing bacteria

In this work, we report the detection of aromatic amino acid aminotransferase (AAT) activity from cell-free crude extracts of nine strains of N(2)-fixing bacteria from three genera. Using tyrosine as substrate, AAT activity ranged in specific activity from 0.084 to 0.404 micromol min(-1)mg(-1). When analyzed under non-denaturating PAGE conditions; and using tryptophan, phenylalanine, tyrosine, and histidine as substrates Pseudomonas stutzeri A15 showed three isoforms with molecular mass of 46, 68 and 86 kDa, respectively; Azospirillum strains displayed two isoforms which molecular mass ranged from 44 to 66 kDa and Gluconacetobacter strains revealed one enzyme, which molecular mass was estimated to be much more higher than those of Azospirillum and P. stutzeri strains. After SDS-PAGE, some AAT activity was lost, indicating a differential stability of proteins. All the strains tested produced IAA, especially with tryptophan as precursor. Azospirillum strains produced the highest concentrations of IAA (16.5-38 microg IAA/mg protein), whereas Gluconacetobacter and P. stutzeri strains produced lower concentrations of IAA ranging from 1 to 2.9 microg/mg protein in culture medium supplemented with tryptophan. The IAA production may enable bacteria promote a growth-promoting effect in plants, in addition to their nitrogen fixing ability.     

Glyphosate-increased levels of indole-3-acetic acid in yellow nutsedge leaves correlate with gentisic acid levels

The effects of glyphosate [N-(phosphonomethyl)glycine] on endogenous in-dole-3-acetic acid (IAA) level, IAA oxidase activity, and possible interactions with alterations in phenolic metabolism have been examined in yellow nutsedge ( Cyperus esculentus L.) plants. IAA was quantified by flame ionization detector gas-chroma-tography, phenols were quantified by high-performance liquid chromatography and the auxin protection and the IAA oxidase activities were determined spectrophoto-metrically and/or polarographically. A significant increase in IAA content was recorded after glyphosate treatment. No IAA oxidase activity was detected in control and treated tissues. Auxin protection activity and gentisic acid were present in all extracts assayed, and their concentrations increased as the rate of glyphosate application increased. Addition of gentisic acid to an extract of control plants increased the auxin protection detected. These findings indicate that the high levels of free IAA in yellow nutsedge leaves after glyphosate application are due to the inhibition of the IAA oxidase activity by increased levels of the IAA-protecting phenol gentisic acid.     

Free tryptophan and indole-3-acetic acid levels in the leaves and vascular pathways of Ricinus communis L.

Levels of free tryptophan in the leaves, phloem and xylem saps of Ricinus communis L. were determined by colorimetric assay. Values of 0.38 g ml^-1 in root pressure sap and 96.0 g ml^-1 in phloem sap were recorded. Tryptophan levels were highest in mature and senescing leaves. Levels of indoleacetic acid (IAA) in the phloem sap and leaves were determined by gas chromatography—mass spectrometry using a deuterated internal standard. A mean value of 13.0 ng ml^-1 was recorded in phloem sap. The distribution in the leaves showed an inverse relationship to that of tryptophan, being highest in young leaves.Abbreviations IAA indoleacetic acid - GC-MS Gas chromatography-mass spectrometry - PFP-derivative pentafluoropropionyl-derivative - TLC thin layer chromatography     

硼对吲哚乙酸在植物体内运输的影响

以绿豆为指示作物,研究缺硼对侧芽生长及³H-吲哚乙酸（IAA）在完整植株体内运输的影响.结果表明：缺硼诱导侧芽生长,导致³H-IAA移动峰靠近植株顶端,茎中³H-IAA的放射性活度也低于供硼充分的植株,说明缺硼抑制了³H-IAA在植株体内的极性运输;无论缺硼与否侧芽中均未检测到³H-IAA,所以侧芽的生长与³H-IAA在其中的积累没有关系,表明硼并不是通过调节IAA在侧芽中的积累,而是通过调节IAA在主茎的移动流调控侧芽生长;给缺硼植株供硼24 h能够恢复IAA在植株体内的极性运输能力.     

Stimulation of the oxidative decarboxylation of indole-3-acetic acid in citrus tissues by ethylene

Ethylene has been shown to stimulate the degradation of indole-3-acetic acid (IAA) in citrus leaf tissues via the oxidative decarboxylation pathway, resulting in the accumulation of indole-3-carboxylic acid (ICA). Preliminary data indicated that ethylene stimulates only the first step of this pathway, i.e. the decarboxylation of IAA which leads to the formation of indole-3-methanol. The effect of ethylene seems to be a specific one since 2,5-norbornadiene, an ethylene action inhibitor, significantly inhibited the stimulation of IAA decarboxylation by ethylene. It has long been suggested that peroxidase or a specific form of the peroxidase complex (`IAA oxidase') catalyse this step. However, we did not observe a clear effect of ethylene on the peroxidase system. An alternative possibility, that the stimulatory effect of ethylene on IAA catabolism results from increased formation of hydrogen peroxide (H₂O₂), a co-factor for peroxidase activity, was verified by direct measurements of H₂O₂ in the tissues or by assaying the activity of gluthathione reductase, which has been shown to be induced by oxygen species. This possibility is further supported by the observations showing that IAA decarboxylation in control tissues was enhanced to the level detected in ethylene-treated tissues by application of H₂O₂.     

Catabolism of indole-3-acetic acid in citrus leaves: identification and characterization of indole-3-aldehyde oxidase

A new enzyme, named indole-3-aldehyde oxidase (IAldO), was identified in citrus ( Citrus sinensis L. Osbeck cv. Shamouti) leaves. The enzyme was partially purified by (NH₄)₂SO₄ fractionation. Sephadex G-200 gel filtration and DEAE-cellulose ion exchange chromatography. IAldO catalyzes the oxidation of indole-3-aldehyde (IAld) to indole-3-carboxylic acid (ICA) with the production of H₂O₂. The enzyme is highly specific for IAld. The apparent K_M of the enzyme for IAld is 19 μ M . The optimum oxidation of IAld occurs at pH 7. 5. The molecular mass of the enzyme, as determined by Sepharose-6B gel filtration, is about 200 kDa. Based on inhibitor studies, it is concluded that IAldO is not a flavin-linked oxidase and there is no requirement for free sulfhydryl groups or divalent cations for maximum activity. The enzyme is strongly inhibited by benzaldehyde. Ethylene pretreatment, wounding and aging of leaf tissues did not affect enzyme activity, suggesting that the enzyme is constitutive in citrus tissues.     

Optimization of medium for indole-3-acetic acid production using Pantoea agglomerans strain PVM

Aims: To optimize the medium components for the production of indole‐3‐acetic acid (IAA) by isolated bacterium Pantoea agglomerans strain PVM. Methods and Results: Present study deals with the production of an essential plant hormone IAA by a bacterial isolate P. agglomerans strain PVM identified by 16S rRNA gene sequence analysis. The medium containing 8 g l^?1 of meat extract and 1 g l^?1 of l ‐tryptophan (precursor) at optimum pH 7, 30°C and 48‐h incubation gave the maximum production of IAA (2·191 g l^?1). Effect of IAA synthesized on in vitro root induction in Nicotiana tobacum (leaf) explants was compared with that of control. IAA was characterized by high‐performance thin‐layer chromatography, high‐performance liquid chromatography and gas chromatography–mass spectroscopy. Conclusions: Pantoea agglomerans strain PVM was a good candidate for the inexpensive and utmost production of IAA in short period, as it requires simple medium (meat extract and l ‐tryptophan). Significance and Impact of the Study: The present report first time showed the rapid, cost‐effective and maximum production of IAA. No reports are available on the optimization of particular medium components for the production of IAA. This study demonstrates a novel approach for in vitro root induction in N. tobacum (leaf) explants.     

Mode of action of glyphosate in relation to metabolism of indole-3-acetic acid

Studies were conducted with radio-labeled indole-3-acetic acid ([2-¹⁴C] IAA) and tobacco callus culture ( Nicotiana tabacum L. cv. White Gold) to investigate the mode of action of the herbicide glyphosate (N-phosphonomethylglycine). The tissue was first grown with or without glyphosate for 1 to 14 days and then incubated with [2-¹⁴C] IAA for 4 h. Metabolism of [2-¹⁴C] IAA in the tissue was studies by solvent fractionation, high performance liquid chromatography and liquid scintillation counting. The tissue grown with 0.2 m M glyphosate had low level of free [2-¹⁴C] IAA and high levels of other fractions containing metabolites and conjugates of the labeled IAA. After 1 day of glyphosate treatment the free [2-¹⁴C] IAA level in the tissue was reduced by 77% compared to that of the control; after 10 days of treatment the decrease was 96%. The decrease in the free [2-¹⁴C] IAA level was not due to inhibition of IAA uptake, but due to enhanced rates of oxidation and conjugate formation of IAA. The increased oxidation of IAA in the treated tissue was not due to a direct effect of glyphosate on IAA-oxidase since glyphosate was inactive on IAA oxidation in a cell-free system in vitro. The glyphosate-induced growth inhibition was partially overcome by addition of 1 μ M 2,4-dichlorophenoxyacetic acid to the medium. The results lead to the conclusion that glyphosate inhibits growth by depletion of free IAA through rapid acceleration of both conjugate formation and oxidative degradation of IAA.     

Cytokinin effects on root growth and possible interactions with ethylene and indole-3-acetic acid

Etiolated pea seedlings ( Pisum sativum L. cv. Weibull's Marma) were used to investigate the effects of exogenous cytokinins on root growth. Benzylaminopurine (BAP) added to the growth solution inhibited the elongation and formation of lateral roots and stimulated swelling of the root tips. Similar effects were obtained with zeatin. The effects were obtained over a wide concentration range down to 0.01 μ M . Growth responses appeared only after treatment for several hours, and the duration of treatment had an important influence on the degree of the effects. BAP caused a moderate increase in ethylene production as measured in excised 10-mm-long root tips. Lowering ethylene production by treatment with cobalt ions counteracted both the inhibition and swelling caused by BAP. Treatment with silver ions also reversed the effect to some extent, indicating that ethylene is involved in the response of the roots to BAP. To further study the involvement of the increased ethylene production in the elongation and swelling response, the effects were compared with those obtained after application of 1-aminocyclopropane-1-carboxylic acid (ACC) in relation to the ethylene produced from this compound. This comparison showed that the increase in ethylene production caused by BAP was too low to explain the response of the roots. However, ACC treatment caused a considerable lowering of the content of indole-3-acetic acid (IAA) in the root tips, whereas BAP did not; instead, BAP increased the amount of IAA per root tip. It is concluded that cytokinins influence growth processes in roots via several mechanisms. A synergistic interaction between endogenous IAA, maintained at a high level by the cytokinin treatment, and the increased ethylene levels appears to explain most of the cytokinin effects during the first day of treatment.     

Transport and accumulation of indole-3-acetic acid in pea cuttings under two levels of irradiance

The transport and accumulation of 2-[¹⁴C]-IAA applied to the apex of cuttings of Pisum sativum L. cv. Alaska was greater in cuttings from stock plants grown under 38 W m⁻² than 16 W m⁻². Accumulation of ^14C in the base of the cuttings from the highest level of irradiance was correspondingly more significant. The level of irradiance to the stock plants greatly affected the rate of accumulation, while the light conditions during IAA transport had a minor effect. The amount of IAA reaching the base of the cuttings increased with increasing concentration of IAA in the treatment solution, but the percentage of applied IAA reaching the base decreased.
The relative chromatographic partition of ethanol-extractable ¹⁴C showed that, after 12 h of IAA-transport, the amount of 2-[¹⁴C]-IAA was higher in the base of cuttings from 38 W m⁻² than in those from 16 W m⁻². After a further 12 h of transport the relative amounts of 2-[¹⁴C]-IAA in the two types of cuttings were reduced to the same lower level.
A possible role of an irradiance-mediated difference in the topographic distribution of IAA in the base of pea cuttings on the subsequent adventitious root formation is discussed.     

Immunohistochemical observation of indole-3-acetic acid at the IAA synthetic maize coleoptile tips

To investigate the distribution of IAA (indole-3-acetic acid) and the IAA synthetic cells in maize coleoptiles, we established immunohistochemistry of IAA using an anti-IAA-C-monoclonal antibody. We first confirmed the specificity of the antibody by comparing the amounts of endogenous free and conjugated IAA to the IAA signal obtained from the IAA antibody. Depletion of endogenous IAA showed a corresponding decrease in immuno-signal intensity and negligible cross-reactivity against IAA-related compounds, including tryptophan, indole-3-acetamide, and conjugated-IAA was observed. Immunolocalization showed that the IAA signal was intense in the approximately 1 mm region and the outer epidermis at the approximately 0.5 mm region from the top of coleoptiles treated with 1-N-naphthylphthalamic acid. By contrast, the IAA immuno-signal in the outer epidermis almost disappeared after 5-methyl-tryptophan treatment. Immunogold labeling of IAA with an anti-IAA-N-polyclonal antibody in the outer-epidermal cells showed cytoplasmic localization of free-IAA, but none in cell walls or vacuoles. These findings indicated that IAA is synthesized in the 0–2.0 mm region of maize coleoptile tips from Trp, in which the outer-epidermal cells of the 0.5 mm tip are the most active IAA synthetic cells.     

Calcium stimulation of ethylene production induced by 1-aminocyclopropane-1-carboxylic acid and indole-3-acetic acid

Journal of Plant Growth Regulation - Ca2+ stimulates 1-aminocyclopropane-1-carboxylic acid (ACC)- and indole-3-acetic acid (IAA)-dependent ethylene production in mung bean hypocotyls and senescing...     

Effect of indole-3-acetic acid administration by gavage and by subcutaneous injection on rat leukocytes

This study was done to investigate the effect of indole-3-acetic acid (IAA) administered subcutaneously and by gavage on neutrophil function and cytotoxicity in neutrophils and lymphocytes. A gavage administration resulted in an increase in phagocytic capacity in neutrophils in a dose depended manner for 1 mg, 2 mg, 18 mg, and 40 mg of IAA per kg of body mass, respectively, compared with the control. Similarly, subcutaneous administration of IAA at 2, 18, and 40 mg per kg of body mass promoted a significant rise in phagocytosis by neutrophils. H2O2 production in neutrophils from treated rats by gavage was similar to those receiving subcutaneous IAA treatment, and did not show a significant difference between treatments and control. IAA treatment, whether by gavage or subcutaneous, did not produce an alteration in antioxidant enzyme activities or in glucose-6-phosphate dehydrogenase activity of either neutrophils or lymph nodes. Subcutaneous IAA administration did not alter the neutrophil and lymphocyte death as deduced by unaltered membrane integrity, DNA fragmentation and mitochondrial transmembrane potential, compared with controls. In conclusion, IAA administration either subcutaneously or by gavage could increase the phagocytic capacity by neutrophils and this acid administration did not have prooxidant effects or cytotoxic effects on neutrophils and lymphocytes.     

Production of indole-3-acetic acid by several wild-type strains of Ustilago maydis

Indole-3-acetic acid (IAA) was identified and quantitated in spent media from cultures of ten Ustilago maydis strains. IAA was identified by thin-layer chromatography, high performance liquid chromatography (HPLC) and u.v. spectroscopy, and was quantitated by HPLC. All strains produced IAA in a tryptophan (Trp)-supplemented minimal medium at levels of 0.1 to 4.0 g IAA/ml of spent medium as assessed by HPLC. The highest levels of IAA were found in strains I2 and P2. The latter was also capable of producing IAA without addition of Trp to the medium.     

Identification of enzymes involved in indole-3-acetic acid degradation

Strains of Bradyrhizobium japonicum with the ability to catabolize indole-3-acetic acid (IAA) and strains of B. japonicum, Rhizobium loti, and Rhizobium galegae, unable to catabolize IAA, were analyzed for enzymes involved in the pathway for IAA degradation. Two enzymes having isatin as substrate were detected. An isatin amidohydrolase catalyzing the hydrolysis of isatin into isatinic acid was found in some B. japonicum strains and in two Rhizobium species, R loti and R. galegae. The enzyme was inducible (4–5-fold) by its substrate, isatin, and the partially purified enzyme from R. loti showed an apparent K_M of 11 M for isatin. A NADPH-dependent isatin reductase was measured in extracts from a strain of B. japonicum lacking the isatin amidohydrolase. The structure of the reaction product, dioxindole was verified by NMR spectroscopy. Isatin reductase activity was also detected in extracts of dry pea seeds, and present in at least two isoforms. A low K_M of 10 M for isatin was found with a partially purified preparation of the pea enzyme. The presence of such an enzyme activity in pea indicates dioxindole and isatin as possible intermediates in IAA degradation in pea.     

Promotion of hypocotyl elongation in loblolly pine (Pinus taeda L.) by indole-3-acetic acid

Elongation of excised loblolly pine ( Pinus taeda L.) hypocotyls was promoted by indole-3-acetic acid and the fungal metabolite, fusicoccin. Gibberellic acid, kinetin, zeatin, or zeatin-riboside were either without effect or promoted elongation only slightly. The most auxin-responsive tissue was just below the cotyledonary node, and elongation was confined to sections excised from the upper 2 cm of the hypocotyl. Indole-3-acetic acid induced elongation rates in the hypocotyl sections equal to those of intact hypocotyls when the sections were excised from young seedlings. Elongation rates decreased in intact hypocotyls before the excised tissues lost responsiveness to the auxin. Hypocotyl elongation in loblolly pine is discussed in relation to hypocotyl elongation in angiosperm species.     

Immunocytochemical localization of indole-3-acetic acid in primary roots of Zea mays

Colloidal gold-labelled antibody was used to localize indole-3-acetic acid in caps of primary roots of Z. mays cv. Kys. Gold particles accumulated on the nucleus, vacuoles, mitochondria, and some dictyosomes and dictyosome-derived vesicles. This is the first localization of indole-3-acetic acid in dictyosomes and dictyosome-derived vesicles and indicates that dictyosomes and vesicles constitute a pathway for indole-3-acetic acid movement in and secretion from root cap cells. Our findings provide cytochemical evidence to support the hypothesis that indole-3-acetic acid plays an important role in root gravitropism.     

Tracheid production in response to indole-3-acetic acid varies with internode age in Pinus sylvestris stems

Summary Different concentrations of indole-3-acetic acid (IAA) in lanolin were applied to the cambial region of approximately 10- and 34-year-old internodes in the main stem of Pinus sylvestris (L.) trees during the tracheid production period. After 5 weeks of treatment, the radial width of xylem produced in both ages of internode was positively related to exogenous IAA concentration measured at 0, 1 and 3 cm directly below the application site. Tracheid production in response to exogenous IAA in the 34-year-old internode was approximately one-half of that in the 10-year-old internode. The endogenous IAA level in the 7-, 17- and approximately 34-year-old internodes of similar trees was measured by radioimmunoassay, using gas chromatography-selected ion monitoring-mass spectrometry for validation. No consistent relationship was found between xylem radial width and IAA concentration. The data indicate that the cambium's ability to respond to exogenous IAA is qualitatively the same in 1-year-old shoots and older internodes. However, as the internode ages, there is a decrease in the extent of the response and in the optimal IAA level for inducing tracheid production.     

Mechanisms of cytotoxicity induced by horseradish peroxidase/indole-3-acetic acid gene therapy

We have previously proposed the horseradish peroxidase (HRP) and the non-toxic plant hormone indole-3-acetic acid (IAA) as a novel system for gene-directed enzyme/prodrug therapy (GDEPT). The cytotoxic potential of HRP/IAA GDEPT and the induction of a bystander effect were demonstrated in vitro under normoxic as well as hypoxic tumour conditions. To date, the chemical agents and the cellular targets involved in HRP/IAA-mediated toxicity have not been identified. In the present work, some of the molecular and morphological features of the cells treated with HRP/IAA gene therapy were analysed. Human T24 bladder carcinoma cells transiently transfected with the HRP cDNA and exposed to the prodrug IAA showed chromatin condensation, formation of apoptotic bodies, DNA fragmentation, and Annexin V binding. Similar effects were observed when the cells were incubated with the apoptotic agent cisplatin. Caspases appeared to be involved as effectors in HRP/IAA-mediated apoptosis, since treatment with a general caspase inhibitor decreased the fraction of cells with micronuclei (MN) by 30%, with fragmented DNA by 50%, and with condensed chromatin by 60%. However, very little degradation of one of the downstream targets of caspase-3, PARP, could be detected, and apoptosis alone did not appear to account for the killing levels measured with a clonogenic assay. The effect of HRP/IAA treatment on cell cycle progression was also investigated, and a rapid cytostatic effect, equally affecting all phases of the division cycle, was observed.