Function of serotonin in seeds of walnuts

In plants serotonin (5-hydroxytryptamine) may function as a hormone and as a protective agent against predation. A role for serotonin as a secondary plant product involved in ammonia detoxification in seeds of walnuts (Juglans regia) is now also proposed. Serotonin is formed from tryptophan synthesized via the constitutive enzymes of the shikimate pathway localized in the plastids, and is stored in protein bodies developed in the cotyledons during maturation. By the accumulation of serotonin in these protein bodies, the seeds, which have no vacuoles for storage or excretion of hydrophilic secondary plant products, are able to detoxify ammonia by the synthesis of serotonin.     

Melatonin stimulates the expansion of etiolated lupin cotyledons

Melatonin (N-acetyl-5-methoxytryptamine) is an indoleamine which is structurally related to tryptophan, serotonin and indole-3-acetic acid (IAA), among other important substances. Many studies have clearly demonstrated its presence in different plant organs, including roots, stems, leaves, flowers, fruits and seeds. Since it discovery in plants in 1995, authors have postulated many physiological roles for melatonin, although research into this molecule in plants is still in its infancy. The data presented in this study demonstrate that melatonin stimulates the expansion of etiolated cotyledons of lupin (Lupinus albus L.) to a similar extent to that observed for IAA but less than in the case of kinetin. Endogenous melatonin in imbibed cotyledons has been quantified using a liquid chromatography method with fluorescence detection and capacity of cotyledons to absorb melatonin has been determined. The observed effect of melatonin on lupin cotyledon expansion can be added to the other effects demonstrated by our group such as its role as growth promoter and rooting promotor in adventitious and lateral roots.     

Nachweis und Lokalisation von Tryptophan-Synthetase in Samen von Juglans regia L.

Summary Cell-free extracts from seeds of Juglans regia synthesize tryptophan from L-serine and indole. Tryptophan synthetase has maximal activity in the range between pH 7 and 8. The enzyme is associated with a particulate fraction (density 1,210 g/ml) which is separated from the mitochondria (density 1,191 g/ml) after isopycnic density centrifugation on a continuous sucrose gradient.     

Origin of somatic embryos from repetitively embryogenic cultures of walnut (Juglans regia L.): Implications forAgrobacterium-mediated transformation

Early stages of somatic embryo development from embryogenic cultures ofJuglans regia (Persian or English walnut) are described. Histological examination reveals that secondary somatic embryos arise from cotyledons and hypocotyls of primary embryos cultured in the dark. The embryos originate by transverse to oblique divisions of surface cells. Single-cell origin of the secondary embryos confirms the potential of the repetitive embryogenesis system forAgrobacterium-mediated transformation and regeneration of non-chimeric, transgenic walnut plants.     

Somatic embryogenesis and plant regeneration from cotyledons of walnut,Juglans regia L.

Immature cotyledons of open-pollinated seeds from five walnut (Juglans regia L.) cultivars were excised from fruits at 6–11 weeks after full pistillate bloom and grown on a sequence of media to induce somatic embryogenesis. Globular, heart, cotyledonary and complete somatic embryos were obtained. Embryogenic cultures were maintained for more than a year by repetitive embryogenesis in which the roots, cotyledons and hypocotyls of somatic embryos formed additional adventive somatic embryos. Mature somatic embryos required a cold treatment of 8–10 weeks at 2–4°C to overcome apical dormancy. Selected plantlets derived from these somatic embryos were grown to young plants in soil. In addition, somatic embryogenesis was induced in J. hindsii (Jeps.), Jeps., and in Pterocarya sp., another member of the Juglandaceae.     

Salt stress‐induced seedling growth inhibition coincides with differential distribution of serotonin and melatonin in sunflower seedling roots and cotyledons

Indoleamines regulate a variety of physiological functions during the growth, morphogenesis and stress‐induced responses in plants. Present investigations report the effect of NaCl stress on endogenous serotonin and melatonin accumulation and their differential spatial distribution in sunflower (Helianthus annuus) seedling roots and cotyledons using HPLC and immunohistochemical techniques, respectively. Exogenous serotonin and melatonin treatments lead to variable effect on hypocotyl elongation and root growth under NaCl stress. NaCl stress for 48 h increases endogenous serotonin and melatonin content in roots and cotyledons, thus indicating their involvement in salt‐induced long distance signaling from roots to cotyledons. Salt stress‐induced accumulation of serotonin and melatonin exhibits differential distribution in the vascular bundles and cortex in the differentiating zones of the primary roots, suggesting their compartmentalization in the growing region of roots. Serotonin and melatonin accumulation in oil body rich cells of salt‐treated seedling cotyledons correlates with longer retention of oil bodies in the cotyledons. Present investigations indicate the possible role of serotonin and melatonin in regulating root growth during salt stress in sunflower. Effect of exogenous serotonin and melatonin treatments (15 μM) on sunflower seedlings grown in the absence or presence of 120 mM NaCl substantiates their role on seedling growth. Auxin and serotonin biosynthesis are coupled to the common precursor tryptophan. Salt stress‐induced root growth inhibition, thus pertains to partial impairment of auxin functions caused by increased serotonin biosynthesis. In seedling cotyledons, NaCl stress modulates the activity of N‐acetylserotonin O‐methyltransferase (HIOMT; EC 2.1.1.4), the enzyme responsible for melatonin biosynthesis from N‐acetylserotonin.     

Fatty acid changes in Hibiscus esculentus tissues during growth

Lipids were isolated from roots, stems, cotyledons, leaves, buds, flowers, pods and seeds of okra (Hibiscus esculentus) at different stages of plant growth from germination to seed formation and their fatty acid compositions analysed. The lipid contents of roots and stems were 1–3%, cotyledons 3.7–9%, leaves 2.5–5.1% and seeds 2.2–20.2%. Palmitic, linoleic and linolenic were the main fatty acids present in all tissues at all stages, but their relative proportions varied. Cyclopropene fatty acids (CFA) were present at some stages in roots and seeds. In the roots their formation coincided with bud formation (35 days after sowing) and their content reached a maximum (12.8%) seven days after flowering. CFA were present in maturing seeds from 31 days after flowering and occurred as dihydro derivatives throughout. Dihydro derivatives of the CFA were absent in all other tissues. Heptadecenoic acid was present (0.4–1.3%) in root lipids at all stages and in the stem lipids (0.4–1.2%) in the initial stages and after flowering.     

Regeneration by somatic embryogenesis of triploid plants from endosperm of walnut,Juglans regia L. cv Manregian

Plants were regenerated by somatic embryogenesis from endosperm tissue of open-pollinated seeds of Juglans regia L. cv Manregian. These plants were obtained by growing endosperm tissue on media similar to those used for plant regeneration from walnut cotyledons (Tulecke and McGranahan 1985). The plants appear morphologically uniform and have a triploid chromosome number of 3n=48. Nine plants have been grown to a young sapling stage in soil. This embryogenic line from endosperm has been maintained in culture for two years by the process of repetitive somatic embryogenesis.     

Drought-induced leaf shedding in walnut: evidence for vulnerability segmentation

Trees of Juglans regia L. shed leaves when subjected to drought. Before shedding (when leaves are yellow), the petioles have lost 87% of their maximum hydraulic conductivity, but stems have lost only 14% of their conductivity. This is caused by the higher vulnerability of petioles than stems to water-stress induced cavitation. These data are discussed in the context of the plant segmentation hypothesis.     

Mechanisms of primordium formation during adventitious root development from walnut cotyledon explants

 In walnut (Juglans regia L.), an otherwise difficult-to-root species, explants of cotyledons have been shown to generate complete roots in the absence of exogenous growth regulators. In the present study, this process of root formation was shown to follow a pattern of adventitious, rather than primary or lateral, ontogeny: (i) the arrangement of vascular bundles in the region of root formation was of the petiole type; (ii) a typical root primordium was formed at the side of the procambium within a meristematic ring of actively dividing cells located around each vascular bundle; (iii) the developing root apical meristem was connected in a lateral way with the vascular bundle of the petiole. This adventitious root formation occurred in three main stages of cell division, primordium formation and organization of apical meristem. These stages were characterized by expression of LATERAL ROOT PRIMORDIUM-1 and CHALCONE SYNTHASE genes, which were found to be sequentially expressed during the formation of the primordium. Activation of genes related to root cell differentiation started at the early stage of primordium formation prior to organization of the root apical meristem. The systematic development of adventitious root primordia at a precise site gave indications on the positional and biochemical cues that are necessary for adventitious root formation. Received: 30 July 1999 / Accepted: 16 February 2000     

Characterization and expression profile analysis of a sucrose synthase gene from common bean (Phaseolus vulgaris L.) during seed development

A full-length cDNA encoding common bean (Phaseolus vulgaris L.) sucrose synthase (designated as Pv_BAT93 Sus), which catalyses the synthesis and cleavage of sucrose, was isolated from seeds at 15 days after pollination (DAP) by rapid amplification of cDNA ends (RACE). The full-length cDNA of Pv_BAT93 Sus had a 2,418 bp open reading frame (ORF) encoding a protein of 806 amino acid residues. Sequence comparison analysis showed that Pv_BAT93 Sus was very similar to several members of the sucrose synthase family of other plant species. Tissue expression pattern analysis showed that Pv_BAT93 Sus was expressed in leaves, flowers, stems, roots, cotyledons, and particularly during seed development. Expression studies using in situ hybridization revealed altered spatial and temporal patterns of Sus expression in the EMS mutant relative to wild-type and confirmed Sus expression in common bean developing seeds. The expression and accumulation of Sus mRNA was clearly shown in several tissues, such as the suspensor and embryo, but also in the transfer cells and endothelium. The results highlight the diverse roles that Sus might play during seed development in common bean.     

Changes in IAA, tryptophan and activity of soluble peroxidase associated with zygotic embryogenesis in Araucaria angustifolia (Brazilian pine)

In A. angustifolia seeds the highest values of freeIAA occurred in the embryonic axis, at the initial phases of development. Thesevalues decreased sharply coincident with the increase of IAA with thedifferentiation of cotyledons and seed elongation. During seed development,tryptophan concentrations varied inversely with free IAA and directly withconjugated IAA. An increase in peroxidase activity was followed by a decreaseinfree IAA in the embryo axis, and in conjugated IAA in the megagametophyte.Megagametophyte tissues did not exhibit significant variation in free IAAduringseed development. Following the stage where cotyledons arise, tryptophandecreased in the megagametophyte and increased in the cotyledons and embryonicaxis.     

Application of Synchrotron Radiation X-Ray Fluorescence (μ-SRXF) and X-Ray Microanalysis (SEM/EDX) for the Quantitative and Qualitative Evaluation of Trace Element Accumulation in Woody Plants

Different analytical techniques were applied to describe the localization of lead and chromium in the tissues of walnut (Juglans regia) and maple (Acer saccharinum) plants exposed to soils that had been artificially contaminated with heavy metals. Two X-ray-based techniques, synchrotron radiation X-ray fluorescence (μ-SRXF) and X-ray microanalysis (SEM/EDX), were utilized in association with induced coupled plasma optical emission spectrometry (ICP-OES). These techniques allowed the definition of maps showing a preferential accumulation of lead in the root periderm of both plants and a limited translocation of the metal to the stems. Accordingly, estimation of the lead concentration with ICP-OES showed that roots contained, on a dry weight basis, 20 to 40 times more metal than stems. Chromium, supplied to the plants as Cr³⁺ or Cr⁶⁺, was taken up only in the latter case and in limited amounts. In general, walnut was more efficient than maple in the uptake of lead and chromium. The combination of X-ray-based techniques and ICP-OES proved to be a powerful quantitative tool in mapping, with high definition, the sites of metal storage in plant tissues.     

Diverse regulation by sucrose of enzymes involved in storage lipid breakdown in germinating lupin seeds

The regulatory function of sucrose in the activity of lipid-degrading enzymes was investigated in germinating seeds of yellow lupin (Lupinus luteus L.), white lupin (Lupinus albus L.) and Andean lupin (Lupinus mutabilis Sweet). The study was conducted on isolated embryo axes, excised cotyledons and seedlings cultured in vitro for 96 h on medium with 60 mM sucrose or without the sugar. The activity of lipase (lipolysis), acyl-CoA oxidase and catalase (fatty acid β-oxidation) was enhanced in all studied organs cultured on medium without sucrose. The activity of cytosolic aconitase (glyoxylate cycle) was stimulated by sucrose in seedling axes and isolated embryo axes, whereas in seedling cotyledons and excised cotyledons, it was inhibited. The regulatory function of sucrose in phosphoenolpyruvate carboxykinase (gluconeogenesis) was observed only in isolated embryo axes and the activity was lower in carbohydrate deficiency conditions. The peculiar features of storage lipid breakdown in germinating lupin seeds and its regulation by sucrose are discussed.     

Biological Control of Black Rot (Xanthomonas campestris pv. campestris) of Cabbage in Tanzania with Bacillus strains

We evaluated the biocontrol efficacy of strains of Bacillus from Tanzania against the black rot pathogen, Xanthomonas campestris pv. campestris, in cabbage and the influence of the method of application under field conditions. The incidence and severity of black rot in the foliage, stems and heads of the highly susceptible cultivar, Copenhagen Market, were significantly reduced, especially when antagonists were applied through the roots as compared to application through the seeds or foliage (cotyledons). Promising antagonists included strains of B. cereus, B. lentimorbus and B. pumilus.     

Lectin biosynthesis in callus culture established from seeds ofCanavalia virosa

Plant tissue cultures established from isolated embryos or cotyledons were used to investigate the lectin biosynthesis inCanavalia virosa. The lectin (CVL) was detected by double immunodiffusion and hemagglutination tests. CVL was present in all callus cultures. The stem and leaf of the plantlet generated from the embryo also contain CVL, but no CVL was detected in the roots. As compared to mature seeds, callus derived from cotyledon of immature seeds exhibited the largest CVL content. Acknowledgements: The first author would like to express his sincere thanks to Council of Scientific and Industrial Research for the fellowship awarded to him to work on this project.     

News & Notes Indole Acetic Acid and Its Metabolism in Root Nodules of a Monocotyledonous Tree Roystonea regia

A monocotyledonous tree, Roystonea regia, was found to bear root nodules. The root nodules contained a high amount (16.9 μg/g fresh mass) of indole acetic acid (IAA). A big tryptophan pool (1555.1 μg/g fresh mass) was found in the root nodules, which might serve as a source of IAA production. The presence of IAA-metabolizing enzymes IAA oxidase and peroxidase indicated metabolism of IAA in the root nodules. The symbiont isolated from the root nodules of R. regia, a Rhizobium sp., produced high amount of IAA in culture when supplemented with tryptophan. The possible role of this IAA production in the monocotyledonous tree–Rhizobium symbiosis is discussed. Received: 31 December 1997 / Accepted: 5 February 1998     

Plant regeneration via direct embryo axis-like shoot and root formation from excised cotyledon explants of ginseng seedlings

Summary Cotyledon explants of Panax ginseng at various developmental stages were cultured on Murashige and Skoog (MS) medium with 0.5 μM indole butyric acid and 8.8 μM N⁶-benzyladenine. Upon culturing of cotyledon explants from mature zygotic embryos, 34% of the explants formed somatic embryos, and 46% formed adventitious shoots. In the cotyledon explants from 1-wk-old seedlings, embryo axis-like shoots and roots developed at a high frequency (79%) near the excised portion of the cotyledon base. The developmental pattern of embryo axis-like organ formation was structurally different from that of somatic embryos and adventitious shoots but similar to that of parts of the embryo axis of zygotic embryos. In the early stages of embryo axis-like organ formation, epicotyl-like shoot primordia were developed directly from the cotyledon base after 2 wk of culture; subsequently roots developed near the base of the epicotyl-like shoots and eventually regenerated into plantlets with both shoots and roots. The frequency of embryo axis-like organ formation declined as the growth of seedlings proceeded. In addition, the frequency of somatic embryo and adventitious bud formation rapidly declined with the age of the cotyledons. Plant regeneration via embryo axis-like organ formation might be a new pattern of morphogenesis in P. ginseng cotyledon culture.     

Optimization of in vitro bud induction and plantlet formation from mature embryos of Aleppo pine (Pinus halepensis Mill.)

Summary Studies were undertaken to optimize tissue culture conditions for micropropagation of Aleppo pine (Pinus halepensis Mill.) from mature embryos and various explants of the embryo. Over 90% of the embryo explants gave rise to adventitious buds within 4 wk. Intact embryos were the most suitable explants for shoot bud induction. Both isolated cotyledons and hypocotyls produced adventitious buds, but these developed slowly and failed to elongate. N⁶-Benzyladenine (BA) alone at 5.0μM was the most effective cytokinin when added to gelled to gelled von Arnold and Eriksson’s (AE) medium containing 3% sucrose. Adventitious bud development was achieved on hormone-free AE medium, and shoot elongation was optimum on three quarter-strength Bornman’s MCM medium, with 0.1% conifer-derived activated charcoal. Shoots were multiplied on three-quarter strength MCM medium, containing 5μM BA. To induce adventitious roots on the elongated shoots, pulse treatment with 1 mM IBA for 6 h, followed by the transfer of the shoots to sterile peat:vermiculite (1:1) mixture, was beneficial. After acclimatization for 3 to 4 wk under mist, almost all the rooted shoots could be transplanted successfully to the greenhouse, where the plants exhibited normal growth habit. Histologic studies on the ontogeny of adventitious shoot formation from mature embryo explants revealed temporal structural changes in different parts of the explant. Induction of mitotic divisions on the shoot-forming medium resulted in the formation of meristemoids in the epidermal and subepidermal layers of the explant, located initially at both the tips of the cotyledons and the axils of adjacent cotyledons. Shoot buds arising in the axils of adjacent cotyledons were due to new cell division and not to any preexisting meristem.     

豌豆茎尖切除对茎和子叶中细胞分裂素含量的影响

豌豆植株去顶后６ｈ,茎中内源Ｚ／ＺＲ和ｉ－Ａｄｅ／Ａｄｏ的含量明显增加,１２ｈ后达到最高值,其后迅速下降、人工合成生长素ＮＡＡ可代替茎尖的作用抑制这些变化。经同样处理后子叶中的ＣＫｓ含量也表现出类似的变化。同时切去茎尖、子叶及根１２ｈ后茎中Ｚ／ＺＲ及ｉ－Ａｄｅ／Ａｄｏ的含量明显低于仅切去茎尖植株的ＣＫｓ含量,但高于ＮＡＡ处理。表明茎尖产生的生长素抑制了茎中ＣＫｓ含量的增加。