The biosynthesis of acetovanillone in tobacco cell-suspension cultures

A soluble enzyme, extracted from tobacco cell-suspension cultures 24 h after treatment with 100 μM methyl jasmonate, has been shown to synthesize acetovanillone (apocynin) from feruloyl-CoA in the presence of NAD. The enzyme displayed Michaelis-Menten kinetics with apparent K_m values of 5.6 μM for feruloyl-CoA and 260 μM for NAD and exhibited very high specificity for its substrates. The increase in acetovanillone synthase activity was followed by an increase in the concentration of both acetovanillone and acetosyringone in the culture medium. No intermediate could be detected when analysing the reaction medium by HPLC during the formation of acetovanillone in cell-free extracts. The apparent molecular mass estimated by gel permeation on an FPLC column was ca. 79 kDa. To our knowledge, this is the first report of an enzymic system catalysing the synthesis of an acetophenone. This work demonstrates that the biosynthesis of acetophenones in tobacco proceeds from hydroxycinnamic acids through a CoA-dependent β-oxidation pathway. Interestingly in methyl jasmonate-treated cells, which synthesize very large amounts of hydroxycinnamoylputrescines, inhibition of the synthesis of these conjugates increased the concentration of acetovanillone and acetosyringone in the culture medium, suggesting that the two metabolic pathways can compete for their common precursors, i.e. hydroxycinnamoyl-CoA thioesters.     

Cycloheximide stimulation of cyanide-resistant respiration in suspension cultures of senescent pear fruit cells

Pear fruit cells undergoing a period of senescence in auxin-deprived media develop a substantial cyanide resistant respiration in response to the addition of 0.7 to 3.5 micromolar cycloheximide. The inhibitor does not affect overall cellular repiratory activity and titrations with salicylhydroxamic acid reveal that only a minor portion, about 10%, of the alternate pathway is utilized by the cycloheximide-treated senescent cells. The alternate respiratory pathway appears to be of mitochondrial origin but is not induced by chloramphenicol.     

Salicylic acid enhances the activity of the alternative pathway of respiration in tobacco leaves and induces thermogenicity

A rise in the level of endogenous salicylic acid (SA) during flowering of the thermogenic voodoo lily, Sauromatum guttatum, leads to a pronounced temperature elevation by stimulation of the alternative respiratory pathway. We have studied the thermal response of tobacco (Nicotiana tabacum L.) leaves, a non-thermogenic tissue, to exogenous SA, and its relation to alternative respiration. A reproducible increase in surface temperature of 0.5–1.0°C was registered with high-resolution infrared cameras. The same phenomenon was observed when 2,6-dihydroxybenzoic acid, an active analogue of SA, was used. Non-active SA analogues, such as 3- and 4-hydroxybenzoic acid, did not induce thermogenicity. The thermal effect of SA was abolished with inhibitors of the alternative pathway, such as salicylhydroxamic acid and propyl gallate. Polarographic measurement of the respiratory activity, including that of the alternative pathway in SA-treated plants, showed a significant increase of both total respiration and the alternative pathway compared with non-treated controls. Therefore, we postulate that, as in thermogenic species, SA enhances the activity of total respiration and of the cyanide-resistant pathway in tobacco leaves, subsequently leading to an elevation in surface temperature.     

Inhibition of phytoalexin biosynthesis in elicitor-treated tobacco cell-suspension cultures by calcium/calmodulin antagonists

A role for calcium/calcium-binding proteins in a mechanism of signaling elicitor-inducible phytoalexin biosynthesis was investigated. Two classes of calcium/calmodulin antagonists, phenothiazines and naphthalenesulfonamides, inhibited sesquiterpene phytoalexin accumulation in tobacco (Nicotiana tabacum) cell-suspension cultures when added 1 h before elicitor. The antagonists also inhibited the induction of sesquiterpene cyclase enzyme activity, a key regulatory enzyme for sesquiterpene biosynthesis. The antagonists suppressed the induction of sesquiterpene cyclase only if added before or simultaneously with elicitor. Additionally, the antagonists inhibited (a) accumulation of the cyclase protein as measured in immunoblots; (b) the in vivo synthesis rate of the cyclase protein, measured as the incorporation of [³⁵S]methionine into immunoprecipitable cyclase protein; and (c) the cyclase mRNA translational activity, measured as the incorporation of [³⁵S]methionine into immunoprecipitable cyclase protein synthesized by in vitro translation of RNA isolated from antagonist-treated, elicitor-induced cells. In contrast, elicitor-inducible phenylalanine ammonia lyase enzyme activity, the level of the enzyme protein, the in vivo synthesis rate, and the mRNA translational activity were not affected by any of the antagonist treatments. Uptake and incorporation of [³⁵S]methionine into total cellular proteins and total in vitro translation products were also not indiscriminately altered by the antagonist treatments. The current results suggest that calcium and/or calmodulin-like proteins may be elements of a signal transduction pathway mediating elicitor-induced accumulation of phytoalexins in tobacco.     

Induction by ethylene of cyanide-resistant respiration

Ethylene and cyanide induce an increase in respiration in a variety of plant tissues, whereas ethylene has no effect on tissues whose respiration is strongly inhibited by cyanide. It is suggested that the existence of a cyanide-insensitive electron transport path is a prerequisite for stimulation of respiration by ethylene.     

环境胁迫与植物抗氰呼吸

抗氰呼吸广泛存在于高等植物、一些真菌和藻类中。抗氰呼吸的发生和运行程度除与植物自身发育和内在生理状态有关外,还受到许多外界条件（逆境因子）的影响。目前,有关植物抗氰呼吸的环境调节以及环境胁迫条件下植物抗氰交替途径运行的生理学意义已成为植物呼吸代谢领域的研究热点。本研究综述了环境胁迫与植物抗氰呼吸的研究进展。     

Regulation of respiration in rotenone-treated tobacco cell suspension cultures

Cells of Nicotiana tabacum L. suspension cultures were treated with the respiratory inhibitor rotenone, which specifically inhibits complex I activity of mitochondria. Rotenone retarded cell growth, as shown by decreases in fresh weight, dry weight and cell numbers on a suspension-volume basis. However, rates of the coupled respiration were higher in rotenone-treated compared to control cells when expressed on a fresh-weight basis. Rates of the rotenone-insensitive respiration increased substantially on both a fresh-weight and extractable-cellular-protein basis 24 h after rotenone treatment. ATP/ADP ratios were not significantly different between control and rotenone-treated cells. Our results indicated that cells of tobacco suspension cultures were able to maintain a slow rate of growth and adequate ATP/ADP ratios without the operation of complex I. Received: 12 June 2000 / Accepted: 2 August 2000     

D-Erythroascorbic acid activates cyanide-resistant respiration in Candida albicans

Higher plants, protists and fungi possess cyanide-resistant respiratory pathway, which is mediated by alternative oxidase (AOX). The activity of AOX has been found to be dependent on several regulatory mechanisms including gene expression and posttranslational regulation. In the present study, we report that the presence of cyanide in culture medium remarkably retarded the growth of alo1/alo1 mutant of Candida albicans, which lacks d-arabinono-1,4-lactone oxidase (ALO) that catalyzes the final step of d-erythroascorbic acid (EASC) biosynthesis. Measurement of respiratory activity and Western blot analysis revealed that increase in the intracellular EASC level induces the expression of AOX in C. albicans. AOX could still be induced by antimycin A, a respiratory inhibitor, in the absence of EASC, suggesting that several factors may act in parallel pathways to induce the expression of AOX. Taken together, our results suggest that EASC plays important roles in activation of cyanide-resistant respiration in C. albicans.     

The induction of cyanide-resistant respiration in Hansenula anomala

Cyanide-resistant respiration was induced in the yeast, Hansenula anomala in the presence of cyanide or antimycin A, which blocks the electron transport after ubiquinone. The de novo protein synthesis in cytosol and oxygen were deduced to be involved in this induction process. The period required for the induction varied during the growth stage, suggesting that involvement of additional physiological factor(s) in this induction process. The organism could multiply in the presence of antimycin A by developing cyanide-resistant respiration despite a decreased growth rate.     

Stress situations induce cyanide-resistant respiration in spoilage yeasts

AIMS: To investigate the conditions that promote the expression of cyanide-resistant respiration (CRR) in the spoilage yeasts Pichia membranifaciens and Debaryomyces hansenii. METHODS AND RESULTS: CRR was detected by sensitivity of oxygen consumption to salicylhydroxamic acid. It was absent in both yeasts in the early exponential phase, but was triggered by several stress situations. Starvation under aerobic conditions, decreasing pH or incubation of the culture in a narrow temperature range below the maximum temperature for growth promoted the emergence of CRR in both yeasts. In D. hansenii, CRR was also induced by 1.5-2 mol l(-1) NaCl. Although the presence of H2O2 and menadione induced CRR, radical scavengers had no effect on the emergence of CRR. Also, the level of reactive oxygen species did not vary with the CRR activity. CONCLUSIONS: Under aerobic conditions, a respiratory pathway alternative to the cytochrome chain is triggered by stress conditions in P. membranifaciens and D. hansenii. SIGNIFICANCE AND IMPACT OF THE STUDY: The relationship between stress situations and CRR must be taken into account in studies on the performance of spoilage yeasts in the food processing environments where several forms of stress are common.     

Acquisition of embryogenic potential in carrot cell-suspension cultures

Embryogenic suspension cultures of domesticated carrot (Daucus carota L.) are characterized by the presence of proembryogenic masses (PEMs) from which somatic embryos develop under conditions of low cell density in the absence of phytohormones. A culture system, referred to as starting cultures, was developed that allowed analysis of the emergence of PEMs in newly initiated hypocotyl-derived suspension cultures. Embryogenic potential, reflected by the number of FEMs present, slowly increased in starting cultures over a period of six weeks. Addition of excreted, high-molecular-weight, heat-labile cell factors from an established embryogenic culture considerably accelerated the acquisition of embryogenic potential in starting cultures. Analysis of [³⁵S]methionine-labeled proteins excreted into the medium revealed distinct changes concomitant with the acquisition of embryogenic potential in these cultures. Analysis of the pattern of gene expression by in-vitro translation of total cellular mRNA from starting cultures with different embryogenic potential and subsequent separation of the [³⁵S]methionine-labeled products by two-dimensional polyacrylamide gel electrophoresis demonstrated a small number of abundant in-vitro-translation products to be present in somatic embryos and in embryogenic cells but absent in nonembryogenic cells. Several other in-vitro-translation products were present in explants, non-embryogenic and embryogenic cells but were absent in somatic embryos. Hybridization of an embryoregulated complementary-DNA sequence, Dc3, to RNA extracted from starting cultures showed that the corresponding gene is expressed in somatic embryos and PEMs but not in non-embryogenic cells.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - cDNA complementary DNA - PAGE polyacrylamide gel electrophoresis - PEM proembryogenic mass     

The physiological significance of cyanide-resistant respiration in higher plants

Abstract A brief survey of the biochemistry of the alternative oxidative pathway (‘cyanide-resistant respiration’) and its occurrence in vivo is given. Several hypotheses about the physiological significance of the alternative chain are discussed. These include a role in (1) heat production, (2) fruit ripening, (3) respiration of plants that contain high levels of cyanogenic glycosides, producing HCN upon wounding, (4) oxidation of NADH that is produced by various causes in excess of that required for ATP production, (5) ion uptake, and (6) osmoregulation. In intact roots of higher plants, the activity of the alternative pathway is more active when less carbohydrate is required for assimilation of N (NH+₄ NO-₃ or N₂) and is less active in those when carbohydrates are being stored in a storage organ or when the availability of photosynthate is reduced. An increase in carbohydrate requirement for osmoregulation is also correlated with decreased alternative chain activity. It is concluded that the alternative pathway in roots plays an important role in oxidation of sugars which are not required for carbon skeletons, energy production for growth and maintenance processes, osmoregulation or storage. However, the significance of this role may vary in different tissues and physiological states.     

Inhibition of cyanide-resistant respiration in pea cotyledon mitochondria by chloroquine

The action on mitochondrial respiration of a ubiquinone analog, chloroquine, has been studied using purified mitochondria from the cotyledons of germinating peas (Pisum sativum L. var. Homesteader). Chloroquine at 3 millimolar did not inhibit malate or succinate oxidation at pH 7.2, but it did inhibit malate (but not succinate) oxidation at pH 8.2. Cyanide-resistant respiration was also inhibited.     

Essential role of ferrous iron in cyanide-resistant respiration in Hansenula anomala

Antimycin A-dependent induction of cyanide-resistant respiration in Hansenula anomala was completely blocked by o-phenanthroline, alpha,alpha'-dipyridyl, or 8-hydroxyquinoline. Pulse-labeling of the cells with [35S]methionine in the presence of both antimycin A and o-phenanthroline indicated that the 36-kDa protein previously reported to be involved in cyanide-resistant respiration [(1989) J. Biochem. 105, 864-866] was formed in mitochondria even under these conditions. The addition of Fe2+, but not Fe3+, ions to these cells in the presence of cycloheximide resulted in the rapid expression of cyanide-resistant respiration activity. These results suggest that in the presence of both antimycin A and o-phenanthroline an inactive form of the 36-kDa protein was formed and Fe2+ ions converted it to the active form. It is also likely that Fe2+ ions are involved in the reaction mechanism of cyanide-resistant respiration.     

Fusicoccin action in cell-suspension cultures of Corydalis sempervirens Pers.

Mid-log-phase cell suspensions of Corydalis sempervirens Pers., when incubated in micromolar or submicromolar concentrations of fusicoccin, strongly acidified the culture medium. High-affinity fusicoccin-binding sites were found in microsomes prepared from these cells using the radioligand [³H]-9-norfusicoccin-8-alcohol. Binding was saturable with an apparent dissociation constant (K _d) of 2.8 nM, a pH optimum of 6.0, a temperature optimum of 35° C and was rapid (t_1/2 = 8 min). The site abundance was 0.76±0.17 pmol · (mg of protein)^–1. In the same membrane preparations, the K⁺, Mg²⁺-ATPase (EC 3.6.1.3) was characterized. The enzyme was highly vanadate-sensitive (IC₅₀=6.5 M) and nucleotide-specific (ATPNTP), had a pH optimum of 6.2, an apparent K _m for ATP of 0.23±0.12 mM, and V _max of 10.6±1.8 nkat (mg of protein)^–1. Fusicoccin doubled V _max and lowered, by a factor of 2, the apparent K _m for ATP of the enzyme when the cells were incubated with the toxin for 30 min prior to homogenization of the cells. The stimulation of the enzyme was also pronounced when fusicoccin was added to the homogenization medium just prior to homogenization of the cells, but was slight to zero when the toxin was added at the microsomal stage. The pronounced stimulatory effect of fusicoccin on the ATPase was seen at pH 7.1, i.e. at a pH typical for the cytoplasmic compartment, but was not detectable at pH 6.2, the pH optimum of the enzyme. The implications of these findings for an understanding of fusicoccin action are discussed.Abbreviations [³H]ABE-FC 9-nor-8-(4-azido-3,5-[³H]-benzoyl-diaminoethyl)-fusicoccin - FC fusicoccin - FCol 9-norfusicoc-cin-8-alcohol - Mes 2(N-morpholino)ethanesulfonic acid This work was supported by the Deutsche Forschungsgemeinschaft, Bonn, FRG and the Fonds der Chemischen Industrie, Frankfurt, FRG (literature provision).     

Control of diferulate formation in dicotyledonous and gramineous cell-suspension cultures

Primary cell wall polysaccharides of some plants carry ester-linked feruloyl groups that can be oxidatively dimerised both within the protoplast and after secretion into the apoplast. Apoplastic dimerisation has been postulated to form inter-polysaccharide cross-links, contributing to wall assembly, but this role remains conjectural. By feeding cultured cells with [¹⁴C]cinnamate, we monitored the kinetics of polysaccharide-binding and subsequent dimerisation of ¹⁴C-labelled feruloyl groups. Cultured maize and spinach cells took up [¹⁴C]cinnamate more rapidly than barley, Arabidopsis, Acer, tomato and rose cultures. Maize and spinach cells rapidly formed [¹⁴C]feruloyl-polysaccharides and, simultaneously, low-M_r [¹⁴C]feruloyl esters. When all free [¹⁴C]cinnamate had been consumed, there followed a gradual recruitment of radiolabel from the low-M_r pool into the polysaccharide fraction. A proportion of the [¹⁴C]feruloyl-polysaccharides was sloughed into the culture medium, the rest remaining wall-bound. Some of the polysaccharide-bound [¹⁴C]feruloyl groups were coupled to form dehydrodiferulates. At least six putative isomers of [¹⁴C]dehydrodiferulate were formed both rapidly (thus intra-protoplasmically) and gradually (thus mainly apoplastically). These data do not support the hypothesis that intra-protoplasmic dimerisation yields predominantly one isomer (8–5′-dehydrodiferulate). In maize, apoplastic coupling was much more extensive in 7-day old than in 2-day-old cultures; indeed, in 2-day-old cultures apoplastic coupling could not be evoked even by exogenous H₂O₂, suggesting strong control of peroxidase action by apoplastic factors. When apoplastic coupling was minimised by exogenous application of peroxidase-blockers (iodide, dithiothreitol and cysteine), a higher proportion of the secreted [¹⁴C]feruloyl-polysaccharides was sloughed into the medium. This observation lends support to the hypothesis that feruloyl coupling contributes to wall assembly.     

Promotion of indoleacetic Acid oxidase isoenzymes in tobacco callus cultures by indoleacetic Acid

Indoleacetic acid oxidase in tobacco callus cultures (Nicotiana tabacum L., cv. White Gold) was composed of at least two groups of isoenzymes, which were distinctly different in electrophoretic mobilities and in responses to growth substances. Indoleacetic acid had dual effects; at low concentrations it promoted the development of two fast-migrating indoleacetic acid oxidase isoenzymes, but at high concentrations it increased the level of other indoleacetic acid oxidase isoenzymes with low and moderate electrophoretic mobilities. However, indoleacetic acid was not unique in such effects; 2,4-dichlorophenoxyacetic acid and 2,4,5-trichlorophenoxyacetic acid were effective at concentrations lower than that of indoleacetic acid.     

白假丝酵母菌耐药与抗氰呼吸的相关性研究

目的探讨白假丝酵母菌的耐药情况及其与抗氰呼吸的相关性。方法用真菌药敏测定试剂盒测定从临床分离出来的37株白假丝酵母菌的耐药性,并从中选出5株耐药菌和5株敏感菌进行抗氰呼吸的研究。结果白假丝酵母菌对益康唑的耐药率最高,达54.1%,耐药白假丝酵母菌的抗氰呼吸速率均值为(17.56±6.75)nmol/(min.A620),敏感白假丝酵母菌的抗氰呼吸速率均值为(7.99±5.80)nmol/(min.A620),耐药白假丝酵母菌的抗氰呼吸速率明显升高,且耐药菌株抗氰呼吸速率占总呼吸的比例明显高于敏感菌株(P0.05),差异具有显著性。结论兰州市区白假丝酵母菌对益康唑耐药性较高,且白假丝酵母菌的耐药与抗氰呼吸途径相关。     

The relationship between phosphate status and cyanide-resistant respiration in bean roots

Bean ( Phaseolus vulgaris L.) seedlings were cultured on complete or phosphate-deficient nutrient medium. After 14 days of culture on phosphate-deficient medium the visible symptoms of P_i deficiency were observed only in the shoot, the fresh and dry weights of the roots were slightly higher than in control plants. The decreased P_i content in the roots had little effect on total respiration rate but had an effect on the level of inhibition of respiration by cyanide. The high resistance of respiration to cyanide observed in P_i-deficient roots was the result of the suppression of cytochrome path activity and an increased participation of the alternative, cyanide-resistant pathway. The cytochrome pathway activity increased when inorganic phosphate was supplied to P_i-deficient roots for 1 or 3.5 h. It is speculated that the suppression of cytochrome pathway in P_i-deficient roots may result from restriction of the phosphorylating capacity or a partial inhibition of cytochrome oxidase activity.