Uptake of amino acids by the aquatic resurrection plant Chamaegigas intrepidus and its implication for N nutrition

Chamaegigas intrepidus is a poikilohydric aquatic plant that lives in rock pools on granitic outcrops in Central Namibia. The pools are filled intermittently during the summer rains, and the plants may pass through up 20 rehydration/dehydration cycles during a single wet season. Rehydrated plants also have to cope with substantial diurnal fluctuations in the pH and extreme nutrient deficiency. Ammonium concentrations are normally around 30 μM. Additional nitrogen sources are amino acids. Total free amino acids are up to 15 μM with glycine and serine as the predominant amino acids. Experiments on uptake of radiolabelled amino acids into roots of C. intrepidus showed high␣affinity (K _M= 16 μM) and low-affinity (K _M= 159 μM) uptake systems. The K _M of the high-affinity system is well in accordance with the free amino acid concentration found in the water of the pools. We conclude that amino acids, predominantly glycine and serine, can be utilised by C. intrepidus in its natural habitat. Since glycine uptake showed a strong reduction at pH 10, nitrogen uptake from glycine or serine should occur mainly in the morning when the pH of the pool water is slightly acid. Further experiments with ¹⁵N-labelled ammonium in combination with non-labelled glycine demonstrated high ¹⁵N values in plant tissues. Under experimental conditions C. intrepidus preferred ammonium as a nitrogen source. The implication of amino acids for nitrogen nutrition of C. intrepidus may depend on the relation of inorganic and organic nitrogen available in the pool water and the preferential utilisation of one or the other nitrogen source may change during the day corresponding with pH changes in the water. Received: 28 January 1998 / Accepted: 24 July 1998     

Ecology and management of moorland pools: balancing acidification and eutrophication

Moorland pools originally are shallow, often hydrologically isolated, soft-water bodies, with a low productivity. Some thousands of moorland pools originated from the late Pleistocene onwards in the heathland landscape in The Netherlands and adjacent areas, where soils have a poor buffering capacity. As the pools are largely fed by atmospheric precipitation, they are very vulnerable to changes in the environment, e.g. eutrophication and acidification. Moorland pools are exposed to very high rates of wet atmospheric deposition: 44–50 mmol m⁻² yr⁻¹ sulphate and 84–103 mmol m ⁻² yr⁻¹ ammonium. Mass budgets indicate that 20–70% of the input of sulphate by precipitation is reduced, 40–100% of the ammonium input escapes to the air or sediments, apparently due to nitrification, and 90–100% of incoming nitrate disappears. The production of alkalinity ranges from 12 to 52 meq m⁻² yr⁻¹. The efficiency of these processes augments with pH-values of surface water increasing from 4.1 to 5.4. The accumulation of reduced sulphur compounds in the sediments is a threat in extremely dry summers, when desiccation causes oxydation of these compounds, resulting in very low pH-values (≤ 3.7). Acidification by acid atmospheric deposition and eutrophication by agricultural acidification are the main threats to the moorland pool ecosystems and affect the species composition of assemblages of aquatic macrophytes, desmids, diatoms, macrofauna, fishes and amphibians, as has been shown by comparison of old and recent records on their distribution and paleolimnological methods. Afforestation exacerbates acidification and also reduces wind dynamics. Particularly the decrease of isoetids and desmids by both processes indicate the biological impoverishment of the pools. Reductions of (potential) acid atmospheric deposition to less than 40 mmol m⁻² yr and of ammonia to less than 30 mmol m⁻² yr are necessary for recovery of the moorland pools. Methods for the addition of buffering material to a number of moorland pools, to counteract acidification until these deposition rates have lowered sufficiently, are given, as well as other methods for restoring the biological quality of moorland pools.     

Flower morphology of the resurrection plant Chamaegigas intrepidus Dinter and some of its potential pollinators

The resurrection plant Chamaegigas intrepidus Dinter (Scrophulariaceae) is a rare endemic species growing in ephemeral rock pools on isolated granite outcrops in Central Namibia. Previous studies suggested a high degree of gene flow within individual pools. Therefore, floral morphology, pollination and potential pollinators of the plant species were studied while the plants were at full flower set.The zygomorphous, intensively scenting flowers carry dense layers of trichomes (400–1600 mm⁻²) on the lower lip, similar to well-known oil-flowers. Four species of potential pollinators could be found. Two of them the Hymenoptera, Apis mellifera and Liotrigona bottegoi, were found to be rare, whereas beetles of the genus Condylops spec. (Condylops erongoensis and a new species) showed up with numbers up to 50 individuals m⁻² in some pools, visiting the flowers most frequently. Individuals of Liotrigona and Condylops were proven to carry pollen of Chamaegigas after their flower visits. The results are discussed in relation to the genetic variability of the plant and the phenomenon of pollen limitation in rare plant species.     

Urea and thiourea transport in Aspergillus nidulans

Wild-type Aspergillus nidulans has an active transport system specific for urea which concentrates urea at least 50-fold relative to the extracellular concentration. It is substrate concentration dependent, with an apparent K _m of 3×10^–5 m for urea. Competition studies and the properties of mutants indicate that thiourea is taken up by the same system as urea. Thiourea is toxic at 5mm to wild-type cells of Aspergillus nidulans. Mutants, designated ureA1 to ureA16, resistant to thiourea have been isolated, and transport assays and growth tests show that they are specifically impaired in urea transport. The mutant ureA1 has a higher K _m value than the wild type for thiourea uptake. The ureA locus has been assigned to linkage group VIII. ureA1 is recessive for thiourea resistance while semidominant for the low uptake characteristic. The urea uptake system is under nitrogen regulation, with l-glutamine as the probable effector. The mutants, meaA8 and gdhA1, which are insensitive to ammonium control of many nitrogen-regulated metabolic systems, are also insensitive to ammonium control of urea uptake, but both are sensitive to l-glutamine regulation.Formerly at the Department of Genetics, University of Glasgow, Glasgow, Scotland.     

Isolation of a Novel <Emphasis Type="Italic">N</Emphasis>-acetyl-<Emphasis Type="SmallCaps">d</Emphasis>-lactosamine Specific Lectin from <Emphasis Type="Italic">Alocasia cucullata</Emphasis> (Schott.)

An N-acetyl-d-lactosamine (LacNAc) specific lectin from tubers of Alocasia cucullata was purified by affinity chromatography on asialofetuin-linked amino activated silica. The pure lectin showed a single band in SDS-PAGE at pH 8.8 and was a homotetramer with a subunit molecular mass of 13.5 kDa and native molecular mass of 53 kDa. It was heat stable up to 55 °C for 15 min and showed optimum hemagglutination activity from pH 2 to 11. The lectin was affected by denaturing agents such as urea (2 m), thiourea (2 m) and guanidine–HCl (0.5 m) and did not require Ca²⁺ and Mn²⁺ for its activity. It was a potent mitogen at 10 μg/ml towards human peripheral blood mononuclear cells with 50% growth inhibitory potential towards SiHa (human cervix ) cancer cell line at 100 μg/ml.     

Amidase and urease activities in plants

Summary Foliar fertilization has received considerable attention in recent years. Because of the importance of amides and urea as N sources, this work was carried out to study the enzymes that catalyze the hydrolysis of these compounds in plant leaves. The methods developed for assay of these enzymes in plants involve determination by steam distillation of the NH₄ ⁺–N produced by amidase or urease activity when plant materials are incubated at 37°C with buffered (0.1M THAM pH 8.0) amide solution or buffered (0.1M THAM pH 7.5) urea solution, respectively. Amidase and urease were detected in 21 diverse plants in the families of Gramineae and Leguminosae. Results showed that amidase and urease have optimum activities at buffer pH values of 8.0 and 7.5, respectively. Both amidase and urease activities were decreased significantly upon freezing or air-drying of plant samples before enzyme assay. These differences were proportional to the original activities of fresh plant materials. Studies on the effect of temperature on amidase and urease activities showed that these enzymes are inactivated at temperatures above 60 and 70°C, respectively. The energy of activation of the reaction catalyzed by amidase and urease in plants, expressed in kJ·mole^–1, ranged from 44.0 to 51.2 (avg.=47.1) and from 43.1 to 56.5 (avg.=51.2) when formamide and urea were used as substrates, respectively. The apparent K_m constants of these enzymes varied among the plant samples studied. By using the Lineweaver-Burk plot, the K_m values for amidase when formamide was used as a substrate ranged from 2.0 to 9.4 (avg.=5.8 mM) and for urease ranged from 0.4 to 1.6 (avg.=0.8 mM). The V_max values of 7 plant samples, expressed in g of NH₄ ⁺–N produced/0.1 g of plant materials/2h, ranged from 137 to 514 for amidase and from 29 to 123 for urease. The importance of these enzymes in application of amides and urea to plant leaves is discussed.     

Cryopreservation of white poplar (Populus alba L.) by vitrification of in vitro-grown shoot tips

 Shoot tips from in vitro-grown, cold-hardened stock plants of white poplar (Populus alba L.) were successfully cryopreserved at –196  °C by one-step vitrification. After preculturing at 5  °C for 2 days on hormone-free MS medium containing different sucrose concentrations, and loading for 20 min with 2 m glycerol and 0.4 m sucrose, shoot tips were treated with the PVS2 vitrification solution and plunged directly into liquid nitrogen. Best survival rate (90%) was obtained when shoot tips were precultured on 0.09 m sucrose, hormone-free MS medium, vitrified by exposure to PVS2 solution for 60 min at 0  °C and, following cryopreservation, rewarmed at 40  °C and washed in 1.2 m sucrose solution for 20 min. Regrowth was improved by plating shoot tips on a gelled MS medium containing 1.5 μm N⁶-benzyladenine plus 0.5 μm gibberellic acid, while shoot rooting was achieved on MS medium containing 3 μm indole-3-butyric acid. Following this procedure, almost 60% rooted shoots were obtained from cryopreserved shoot tips. Received: 1 February 1999 / Revision received: 3 May 1999 · Accepted: 21 May 1999     

Urea uptake and urease activity in Corynebacterium glutamicum

When Corynebacterium glutamicum is grown with a sufficient nitrogen supply, urea crosses the cytoplasmic membrane by passive diffusion. A permeability coefficient for urea diffusion of 9 × 10^–7 cm s^–1 was determined. Under conditions of nitrogen starvation, an energy-dependent urea uptake system was synthesized. Carrier-mediated urea transport was catalyzed by a secondary transport system linked with proton motive force. With a K _m for urea of 9 μM, the affinity of this uptake system was much higher than the affinity of urease towards its substrate (K _m approximately 55 mM urea). The maximum uptake velocity depended on the expression level and was relatively low [2–3.5 nmol min^–1 (mg dry wt.)^–1]. Received: 11 August 1997 / Accepted: 2 December 1997     

Overwintering habitat selection by the mummichog, Fundulus Heteroclitus, in a Cape Cod (USA) salt marsh

This study tracked the seasonal distribution and winter habitat selection of the mummichog, Fundulus heteroclitus (Linnaeus), in a Cape Cod, Massachusetts salt marsh. Fish (mean size = 43.1 mm total length, range = 10–93 mm) were collected with a 1 m² throw trap and by excavating sediments. In fall, F. heteroclitus began migrating upstream in creeks and eventually moved into upstream pools where they remained throughout winter. F. heteroclitus burrowed into the sediments of these pools at a density of 0.5 fish m^–2, but was not found burrowed in the sediments of downstream pools or any creeks. Sediments in upstream pools were composed of a higher proportion of fine-grained particles and organic content than other marsh pools and creeks, and winter temperatures in upstream pool sediments remained above 1 °C. Temperatures in the water column and sediments of downstream pools regularly dropped below –1.8 °C, exceeding the lethal limit for F. heteroclitus. These results support other recent work showing that F. heteroclitus migrates upstream in salt marshes in fall and overwinters in salt marsh pools. Moreover, this study demonstrates that F. heteroclitus does not utilize all available pools as overwintering habitat but apparently selects pools with sediments that offer a thermal refuge from lethal winter temperatures.     

Growth of Phaseolus vulgaris on Various Nitrogen Sources: The Importance of Urease

Rhizobium-inoculatcd plants of Phaseolus vulgaris L. were grownwith different N-sources (nitrate, ammonium, urea) and differentconcentrations of urea. The distribution of growth between plantparts varied with N-sources. Nitrate and ammonium were moreinhibitory to nodulation than urea, which at 40 mol m^–3N had no effect. Urease activity varied in amount and locationover a range of urea concentrations. At higher concentrations,more urea was transported to and increased urease activity wasfound in the shoot Lower levels of activity in plants relianton N₂-fixation were consistent with a ureide-degradation pathwaynot involving urea. Moderate doses of urea could be assimilatedconcomitantly with N₂-fixation. At higher levels of appliedurea, nodulation and ureide transport to the shoots were reduced,although increased growth could not be maintained at concentrationsof applied urea greater than 6.0 mol m^–3 urea N. Key words: Phaseolus vulgaris, growth, nitrogen source, urease     

基于不同氮源培养条件的巴氏芽孢杆菌脲酶功能转录组分析

巴氏芽孢杆菌是源于土壤的革兰氏阳性菌,人们利用其高效的脲酶活性诱导产生碳酸钙的现象开发了多种应用场景.然而,巴氏芽孢杆菌的生物矿化相关代谢机制还不够明确,尤其是对在矿化作用中发挥核心作用的脲酶基因结构、表达调控机制及关联代谢等方面的研究相对较少.当前,巴氏芽孢杆菌应用研究中面临的矿化反应不可控性及不稳定性等问题都源于脲酶代谢机制的研究匮乏.因此,进一步揭示巴氏芽孢杆菌脲酶的基因信息、表达调控机制及相关代谢机理迫在眉睫.本文通过转录组测序,对比了4种培养条件下巴氏芽孢杆菌的生长情况和基因表达情况,解析了脲酶的代谢机制,结果进一步证明ATP合成与脲酶表达及尿素水解相关联,最终预测了脲酶的双操纵子结构.     

Influence of N and Ni supply on nitrogen metabolism and urease activity in rice (Oryza sativa L.)

Nickel is considered to be an essential micronutrient in plants because of its role in the metalloenzyme urease. In order to characterize the metabolic consequences of Ni deprivation, the significance of Ni supply for growth and N metabolism of rice plants grown with either NH4NO3 or urea as sole N source was evaluated. Growth of plants receiving NH4NO3 was not affected by the Ni status, and neither were the activities of arginase and glutamine synthetase. However, urease activity was not detectable in leaves of low-Ni plants, which in conjunction with arginase action, led to the accumulation of urea in plants grown with NH4NO3. Amino acid contents and mineral nutrient status (except Ni) were not affected by the Ni treatment.Urea-grown Ni-deprived plants showed reduced growth and accumulated large amounts of urea owing to the lack of urease activity. These plants were further characterized by low amino acid contents indicating impaired usage of the N supplied. They also exhibited reduced levels of the urea precursor arginine, which is merely attributed to the overall N economy in these plant. When urea-grown plants were supplied with 0.5 mmol m^-3 Ni in the nutrient solution, the dry weight and the amino acid N contents were increased at the expense of the urea contents, indicating efficient use of urea N in Ni-supplemented plants.A critical Ni concentration in the shoot regarding dry matter production of NH4NO3-grown plants could not be deduced, while 25 g Ni kg^-1 DW is certainly inadequate for urea-grown plants. This suggests that the Ni requirement strongly depends on the N source employed.Keywords: Amino acids, ornithine cycle, Ni supply, rice, urea, urease activity.      

Further Characteristics of the Ca2+-inactivated Cl− Channel in Xenopus laevis Oocytes

Removal of extracellular Ca²⁺ activates ion channels in the plasma membrane of defolliculated oocytes of the South Africa clawed toad Xenopus laevis. At present, there is controversy about the nature of the Ca²⁺-inactivated ion channels. Recently, we identified one of these channels as a Ca²⁺-inactivated Cl⁻ channel (CaIC) using single channel analysis. In this work we confirm and extend previous observations on the CaIC by presenting a decisive extension of the regulation and inhibition profile. CaIC current is reversibly blocked by the divalent and trivalent cations Zn²⁺ (half-maximal blocker concentration, K_1/2= 8 μm), Cu²⁺ (K_1/2= 120 μm) and Gd³⁺ (K_1/2= 20 μm). Furthermore, CaIC is inhibited by the specific Cl⁻ channel blocker NPPB (K_1/2≈ 3 μm). Interestingly, CaIC-mediated currents are further sensitive to the cation channel inhibitor amiloride (500 μm) but insensitive to its high affinity analogue benzamil (100 μm). An investigation of the pH-dependence of the CaIC revealed a reduction of currents in the acidic range. Using simultaneous measurements of membrane current (I _m ), conductance (G _m ) and capacitance (C _m ) we demonstrate that Ca²⁺ removal leads to instant activation of CaIC already present in the plasma membrane. Since C _m remains constant upon Ca²⁺ depletion while I _m and G _m increase drastically, no exocytotic transport of CaIC from intracellular pools and functional insertion into the plasma membrane is involved in the large CaIC currents. A detailed overview of applicable blockers is given. These blockers are useful when oocytes are utilized as an expression system for foreign proteins whose investigations require Ca²⁺-free solutions and disturbances by CaIC currents are unwanted. We further compare and discuss our results with data of Ca²⁺-inactivated cation channels reported by other groups. Received: 18 June 1999/Revised: 13 August 1999     

Urease from Arthrobacter oxydans,a nickel-containing enzyme

In Arthrobacter oxydans, Klebsiella aerogenes and Sporosarcina ureae, growth with urea as a nitrogen source turned out to be more sensitive to inhibition by EDTA than that with ammonia. The inhibition was overcome by added nickel chloride, but not by other divalent metal ions tested. In A. oxydans the uptake of ⁶³Ni was paralleled by an increase in urease (urea amidohydrolase, EC 3.5.1.5) activity under certain conditions. Following growth with radioactive nickel, urease from this strain was enriched by heat treatment and acetone fractionation. Copurification of ⁶³Ni and urease was observed during subsequent Sephadex gel chromatography. Almost the entire labelling was detected together with the purified enzyme after focusing on polyacrylamide gel. The relative molecular mass of the purified urease was estimated to be 242,000. The pH optimum was 7.6, the K _m-value 12.5 mmol/l and the temperature optimum 40°C; heat stability was observed up to 65°C. In presence of 10 mmol/l EDTA the protein-nickel binding remained intact at pH 7; at pH 5 and below, nickel was irreversibly removed with concommitant loss of enzyme activity. The results demonstrated that nickel ions are required for active urease formation in the bacterial strains studied, and that urease from A. oxydans is a nickel-containing enzyme.Dedicated to Professor Dr. H.-G. Schlegel on the occasion of his 60th birthday     

Evidence for carrier-mediated,energy-dependent uptake of urea in some bacteria

Evidence for the existence of an energy-dependent urea permease was found for Alcaligenes eutrophus H16 and Klebsiella pneumoniae M5a1 by studying uptake of ¹⁴C-urea. Since intracellular urea was metabolized immediately, uptake did not result in formation of an urea pool. Evidence is based on observations that the in vivo urea uptake and in vitro urease activity differ significantly with respect to kinetic parameters, temperature optimum, pH optimum, response towards inhibitors and regulation. The K _m for urea uptake was 15–20 times lower (38 M and 13 M urea for A. eutrophus and K. pneumoniae, respectively) than the K _m of urease for urea (650 M and 280 M urea), the activity optimum for A. eutrophus was at pH 6.0 and 35°C for the uptake and pH 9.0 and 65°C for urease. Uptake but not urease activity in both organisms strongly decreased upon addition of inhibitors of energy metabolism, while in K. pneumoniae, potent inhibitors of urease (thiourea and hydroxyurea) did not affect the uptake process. Significant differences in the uptake rates were observed during growth with different nitrogen sources (ammonia, nitrate, urea) or in the absence of a nitrogen source; this suggested that a carrier is involved which is subject to nitrogen control. Some evidence for the presence of an energy-dependent uptake of urea was also obtained in Pseudomonas aeruginosa DSM 50071 and Providencia rettgeri DSM 1131, but not in Proteus vulgaris DSM 30118 and Bacillus pasteurii DSM 33.Non-standard abbreviations CCCP Carbonylcyanide-m-chlorphenylhydrazone - DCCD dicyclohexylcarbodiimide - DNP 2,4-dinitrophenole     

Arginine degradation by arginase in mitochondria of soybean seedling cotyledons

 Arginase (EC 3.5.3.1) localization was studied in soybean (Glycine max L.) seedling cotyledons. Subcellular fractionation in a discontinuous Percoll gradient showed that arginase was localized in the mitochondrion. Arginine (Arg) uptake by mitochondria was demonstrated by co-sedimentation of [³H]Arg-derived label and the mitochondrial marker enzyme cytochrome c oxidase. Arginine uptake was complete in about 10 min. Since detergent but not NaCl released most label, we conclude that Arg was taken up and not bound to the organellar surface. Arginine transport was not saturable, at least up to 20 mM. Basic amino acids were the best inhibitors of Arg uptake. The uncoupler 2,4-dinitrophenol did not inhibit Arg uptake. At least 30% of l-[guanido-¹⁴C]Arg taken up by mitochondria was degraded by arginase in seedling cotyledons, while little or no degradation was detected in mitochondria from developing embryos, even though the Arg uptake level was similar in both mitochondrial preparations. These results are consistent with our previously reported pattern of arginase expression and urea accumulation during embryo development and seed germination (A. Goldraij and J.C. Polacco, 1999, Plant Physiol. 119: 297–303). The lack of Arg degradation allows developing embryos to conserve Arg, the main N-reserve amino acid utilized by germinating soybean. Received: 7 July 1999 / Accepted: 21 September 1999     

Effects of 2,3-Butanedione 2-Monoxime on Ca2+ Release Channels (Ryanodine Receptors) of Cardiac and Skeletal Muscle

Single channel and [³H]ryanodine binding measurements were performed to test for a direct functional interaction between 2,3-butanedione 2-monoxime (BDM) and the skeletal and cardiac muscle sarcoplasmic reticulum Ca²⁺ release channels (ryanodine receptors). Single channel measurements were carried out in symmetric 0.25 m KCl media using the planar lipid bilayer method. BDM (1–10 mm) activated suboptimally Ca²⁺-activated (0.5–1 μm free Ca²⁺) single, purified and native cardiac and skeletal release channels in a concentration-dependent manner by increasing the number of channel events without a change of single channel conductances. BDM activated the two channel isoforms when added to either side of the bilayer. At a maximally activating cytosolic Ca²⁺ concentration of 20 μm, BDM was without effect on the cardiac channel, whereas it inhibited skeletal channel activities with IC₅₀≈ 2.5 mm. In agreement with single channel measurements, high-affinity [³H]ryanodine binding to the two channel isoforms was increased in a concentration-dependent manner at ≤1 μm Ca²⁺. BDM was without a noticeable effect at low (≤0.01 μm) Ca²⁺ concentrations. At 20 μm Ca²⁺, BDM inhibited the skeletal but not cardiac channel. These results suggest that BDM regulates the Ca²⁺ release channels from the sarcoplasmic reticulum of skeletal and cardiac muscle in a concentration, Ca²⁺ and tissue-dependent manner. Received: 31 December 1998/Revised: 9 March 1999     

Metabolism of nitrate and ammonium in seedlings of Norway spruce (Picea abies) measured by in vivo 14N and 15N NMR spectroscopy

In vivo ¹⁵N and ¹⁴N nuclear magnetic resonance spectroscopy was used to investigate the assimilation of nitrate and ammonium in seedlings of Norway spruce (Picea abies [L.] Karst.). The main objective was to study accumulation of free NH+₄ and examine to what extent the nitrogen source affects the composition of the free amino acid pools in roots, stems and needles. NH+₄ concentrations in plants growing in the presence of 0.5–50 mM ammonium were quantified using ¹⁴N NMR. The NH+₄ values in tissues ranged from 6 to 46 μmol (g fresh weight)^?1. with highest concentrations in roots and needles. The tissue NH+₄ peaked at 5.0 mM NH+₄ in the medium. and failed to increase when NH+₄ in the medium was increased to 50 mM, indicating metabolic control of the concentration of this cation in tissues. The ¹⁴N NMR spectra were used to estimate pH of the NH+₄ storage pools. Based on the pH sensitivity of the quintet of ¹⁴NH+₄ resonance, we suggest that the pH of the ammonium storage compartments in the roots and stems should be 3.7–3.8, and in needles 3.4–3.5, representing extremely low pH values of the tissue. ¹⁵N from nitrate or ammonium was first incorporated into the amide group of glutamine and then into α-amino groups, confirming that the glutamine synthetase/ glutamate synthase cycle is the major route of nitrogen assimilation into amino acids and thus plays a role in lowering the levels of NH+₄ in the cytoplasm. NH+₄ can also be assimilated in roots in plants growing in darkness. The main ¹⁵N-labelled amino acids were glutamine. arginine and alanine. Almost no ¹⁵N signals from needles were observed. Double labelling (δN + w, wN) of arginine is consistent with the operation of the ornithine cycle, and enrichment indicates that this cycle is a major sink of newly assimilated nitrogen. Nitrogen assimilation in roots in the presence of added methionine sulphoximine and glutamate indicated the catabolic action of glutamate dehydrogenase. The ¹⁵N NMR spectra of plants grown on ¹⁵N-urea showed a marked increase in the labelling of ammonium and glutamine. indicating high urease activity. Amino acids were also quantified using high pressure liquid chromatography. Arginine was found to be an important transport form of nitrogen in the stem.     

Plant regeneration in pigeonpea [Cajanus cajan (L.) Millsp.] by organogenesis

A method for regenerating pigeonpea [Cajanus cajan (L.) Millsp.] plants has been developed using distal cotyledonary segments of mature seeds as explants. A large number of shoot buds were induced directly from explants of genotypes T-15-15 and GAUT-82-90 when cultured on six different basal media fortified with 22.2 μm N⁶-benzylaminopurine, 2.3 μm kinetin, and 271 μm adenine sulfate. The shoot buds developed into shoots when they were subcultured on the same medium but with one-tenth concentrations of cytokinins and adenine sulfate. The shoots elongated by subculturing first two to three times on Murashige and Skoog (MS) basal medium supplemented with 2.22 μm N⁶-benzylaminopurine and 0.54 μm α-naphthaleneacetic acid or on half-strength MS medium containing 2.89 μm gibberellic acid, and then once on the same medium without growth regulators. Elongated shoots were rooted with 80–85% efficiency on MS medium with 4.92 μm indole-3-butyric acid and the plantlets were transferred for hardening. Plants survival in pots was 70–75%. This method may be useful for improving the crop through genetic manipulations. Received: 11 August 1997 / Revision received: 12 January 1998 / Accepted: 30 January 1998     

Nonselective Cation and BK Channels in Apical Membrane of Outer Sulcus Epithelial Cells

The outer sulcus epithelium was recently shown to absorb cations from the lumen of the gerbil cochlea. Patch clamp recordings of excised apical membrane were made to investigate ion channels that participate in this reabsorptive flux. Three types of channel were observed: (i) a nonselective cation (NSC) channel, (ii) a BK (large conductance, maxi K or K _Ca ) channel and (iii) a small K⁺ channel which could not be fully characterized. The NSC channel found in excised insideout patch recordings displayed a linear current-voltage (I-V) relationship (27 pS) and was equally conductive for Na⁺ and K⁺, but not permeable to Cl⁻ or N-methyl-d-glucamine. Channel activity required the presence of Ca²⁺ at the cytosolic face, but was detected at Ca²⁺ concentrations as low as 10⁻⁷ m (open probability (P _o ) = 0.11 ± 0.03, n= 8). Gadolinium decreased P _o of the NSC channel from both the external and cytosolic side (IC₅₀∼ 0.6 μm). NSC currents were decreased by amiloride (10 μm− 1 mm) and flufenamic acid (0.1 mm). The BK channel was also frequently (38%) observed in excised patches. In symmetrical 150 mm KCl conditions, the I-V relationship was linear with a conductance of 268 pS. The Goldman-Hodgkin-Katz equation for current carried solely by K⁺ could be fitted to the I-V relationship in asymmetrical K⁺ and Na⁺ solutions. The channel was impermeable to Cl⁻ and N-methyl-d-glucamine. P _o of the BK channel increased with depolarization of the membrane potential and with increasing cytosolic Ca²⁺. TEA (20 mm), charybdotoxin (100 nm) and Ba²⁺ (1 mm) but not amiloride (1 mm) reduced P _o from the extracellular side. In contrast, external flufenamic acid (100 μm) increased P _o and this effect was inhibited by charybdotoxin (100 nm). Flufenamic acid inhibited the inward short-circuit current measured by the vibrating probe and caused a transient outward current. We conclude that the NSC channel is Ca²⁺ activated, voltage-insensitive and involved in both constitutive K⁺ and Na⁺ reabsorption from endolymph while the BK channel might participate in the K⁺ pathway under stimulated conditions that produce an elevated intracellular Ca²⁺ or depolarized membrane potential. Received: 14 October 1999/Revised: 10 December 1999