Analysis of methionine enkephalin in human pituitary by multi-dimensional reversed-phase high-performance liquid chromatography, radioreceptor assay, radioimmunoassay, fast atom bombardment mass spectrometry, and mass spectrometry—mass spectrometry

Methionine enkephalin (ME = YGGFM) was measured in five individual human post-mortem pituitaries using four different analytical methods, with the objective of comparing the molecular specificities of the methods. Radioreceptor assay (RRA) used a receptor-rich preparation from brain and [³H]etorphine as radioligand to determine ME-like receptoractivity (ME-LR). Radioimmunoassay (RIA) measured ME-like immunoreactivity (ME-LI). Pituitary samples analyzed by RRA and RIA were purified first with a high-performance liquid chromatography (HPLC) gradient on a polymer analytical column. Fast atom bombardment mass spectrometry (FAB-MS) in two different detection modes quantified ME using the protonated molecular ion MH⁺ of ME at 574 a.m.u. and B/E linked-field selected reaction monitoring (SRM) to monitor the specific unimolecular metastable transition that produced the unique amino acid sequence-determining tetrapeptide fragment ion YGGF⁺ from the MH⁺ precursor ion. Both FAB-MS methods used the deuterated internal standard YGG[²H₅-F]M. Samples analyzed with FAB-MS were purified first with multi-dimensional reversed-phase HPLC. The first dimension was an ODS gradient, and the second dimension was a polymer isocratic elution. The following ME amounts were measured (mean ± standard error of the mean): ME-LR, 7.0 ± 1.9 μg g⁻¹ tissue; ME-LI, 1.8 ± 0.7 μg g⁻¹ tissue; MH⁺, 2.7 ± 0.6 μg g⁻¹ tissue; SRM, 3.0 ± 0.8 μg g⁻¹ tissue. The FAB SRM method provided the highest level of molecular specificity amount these four analytical methods used to measure picomole amounts of endogenous ME in a human pituitary.     

Decrease of proteolytic degradation of recombinant hirudin produced by Pichia pastoris by controlling the specific growth rate

The effects of the specific growth rate and methanol concentration on the degradation of hirudin produced by recombinant Pichia pastoris were investigated. When a methanol-limited state and the specific growth rate of 0.02 h^–1 were maintained during the fermentation, a minimum degradation of hirudin and a maximum specific hirudin production rate were achieved. By this strategy, the production of intact recombinant hirudin Hir65 reached 0.7 g l^–1 in fed-batch fermentation. Its proportion was 35% to all forms of hirudin.     

Coupled transport of protons and anions through lipid bilayer membranes containing a long-chain secondary amine

Summary Transport of protons and halide ions through planar lipid bilayers made from egg lecithin and a long-chain secondary amine (n-lauryl [trialkylmethyl] amine) inn-decane was studied. Net proton fluxes were measured with a pH electrode, and halide fluxes were measured with⁸²Br^– and³⁶Cl^–. In membranes containing the secondary amine, a large net proton flux was produced either by a Br^– gradient with symmetrical pH or by a pH gradient with symmetrical Br^–, but not by a pH gradient in Br^–-free solutions. This H⁺ flux was electrically silent (nonconductive), and the H⁺ permeability coefficient was >10^–3 cm sec^–1 in 0.1m NaBr. In Br^–-free solutions, H⁺ selectivity was observed electrically by measuring conductances and zero-current potentials generated by H⁺ activity gradients. The permeability coefficient for this ionic (conductive) H⁺ flux was about 10^–5 cm sec^–1, several orders of magnitude smaller than the H⁺ permeability of the electroneutral pathway. Large electroneutral Br^– exchange fluxes occurred under symmetrical conditions, and the permeability coefficient for Br^– exchange was about 10^–3 cm sec^–1 at pH 5. The one-way Br^– flux was inhibited by substituting SO ₄ ⁼ for Br^– on the trans side of the membrane. These results support a titratable carrier model in which the secondary amine exists in three forms (C, CH⁺ and CHBr). Protons can cross the membrane either as CHBr (nonconductive) or as CH⁺ (conductive), whereas Br^– crosses the membrane primarily as CHBr (nonconductive). In addition to these three types of transport, there is also a pH-dependent conductive flux of Br^– which has a permeability coefficient of about 10^–7 cm sec^–1 at pH 5. Experiments with lipid monolayers suggest that the pH dependence of this conductive flux is caused by a change in surface potential of about +100 mV between pH 9.5 and 5.0.     

Simultaneous determination of methionine and total homocysteine in human plasma by gas chromatography–mass spectrometry

A gas chromatographic–mass spectrometric method for the simultaneous determination of methionine and total homocysteine in human plasma is described. dl-[²H₄]Methionine and dl-[²H₈]homocystine were used as internal standards. The method involved reduction of the disulfide bond with dithiothreitol, purification by cation-exchange chromatography using a BondElut SCX cartridge and derivatization with isobutyl chlorocarbonate in water–ethanol–pyridine. Quantitation was performed by selected-ion monitoring of the quasi-molecular ions of N(O,S)-isobutyloxycarbonyl ethyl ester (IBC-OEt) derivatives for methionine and [²H₄]methionine, respectively, and the fragment ions ([M+H–COOisoBu–COOEt]⁺) for IBC-OEt derivatives for homocysteine and [²H₄]homocysteine, respectively. The sensitivity, specificity, accuracy and precision of the method were demonstrated to be satisfactory for measuring concentrations of methionine and total homocysteine in human plasma.     

Purification and characterization of β-agarase from agar-liquefying soil bacterium, Acinetobacter sp., AG LSL-1

The extracellular β-agarase LSL-1 produced by an agar-liquefying, soil bacterium Acinetobacter sp., AG LSL-1 was purified to homogeneity by combination of ion-exchange and size exclusion chromatography with final yield of 44%. The enzyme has a specific activity of 397 U mg⁻¹ protein and with a molecular mass of 100 kDa. The agarase was active in the pH range of 5.0–9.0, optimally at pH 6.0 and temperature between 25 °C and 55 °C and optimal at 40 °C. The enzyme retained 63% of native activity at 50 °C suggesting it is a thermostable. The activity of the agarase was completely inhibited by metal ions, Hg²⁺, Ag⁺ and Cu²⁺, whereas 25–40% of native activity was retained in the presence of Zn²⁺, Sn²⁺ and SDS. Neoagarobiose was the final product of hydrolysis of both agarose and neoagarohexaose by the purified agarase LSL-1. Based on the molecular mass and final products of agarose hydrolysis, the β-agarase LSL-1 may be further grouped under group III β-agarases and may be a member of GH-50 family. This is the first report on the purification and biochemical characterization of β-agarase from an agar-liquefying Acinetobacter species.     

Evaluation of automated electrospray-TOF mass spectrometryfor metabolic fingerprinting of the plant metabolome

Metabolic fingerprinting is increasingly employed in microbial and plant metabolomics. Identification and evaluation of analytical factors that influence mass spectra produced with automated electrospray time of flight mass spectrometry to support metabolic fingerprinting are described. Instrument resolution of 4000 (FWHM) at mass 200 Da provided detection of ions of the same nominal mass but different monoisotopic masses. Complex mass spectra were obtained from polar extracts of tomato fruit in positive and negative ion mode. These spectra consist of metabolite ions (molecular, adduct and fragment) and those derived from the extraction medium, largely in the form of [M+H]⁺, [M–H]^–, [M+Na]⁺, [M+K]⁺, [2M+H]⁺, [M+Cl]^– and [2M–H]^–. Ionisation suppression reduced sensitivity, although its effect was consistent for a wide range of metabolite concentrations. Variability in ion signal intensity was lower in analytical (2.2–30.1%) compared to biological (within fruit 9.6–27.6%; between-fruit 13.2–34.4%) replicates. The method is applicable to high throughput metabolic fingerprinting and, with accurate mass measurements, is able to provide reductions in data complexity and preliminary identification of metabolites.     

Purification and characterization of hyperthermotolerant leucine aminopeptidase from Geobacillus thermoleovorans 47b

A thermophilic bacterium, which we designated as Geobacillus thermoleovorans 47b was isolated from a hot spring in Beppu, Oita Prefecture, Japan, on the basis of its ability to grow on bitter peptides as a sole carbon and nitrogen source. The cell-free extract from G. thermoleovorans 47b contained leucine aminopeptidase (LAP; EC 3.4.11.10), which was purified 164-fold to homogeneity in seven steps, using ammonium sulfate fractionation followed by the column chromatography using DEAE-Toyopearl, hydroxyapatite, MonoQ and Superdex 200 PC gel filtration, followed again by MonoQ and hydroxyapatite. The enzyme was a single polypeptide with a molecular mass of 42,977.2 Da, as determined by matrix-assisted laser desorption ionization and time-of-flight mass spectrometry, and was found to be thermostable at 90°C for up to 1 h. Its optimal pH and temperature were observed to be 7.6–7.8 and 60°C, respectively, and it had high activity towards the substrates Leu-p-nitroanilide (p-NA)(100%), Arg-p-NA (56.3%) and LeuGlyGly (486%). The K_m and V_max values for Leu-p-NA and LeuGlyGly were 0.658 mM and 25.0 mM and 236.2 mol min^–1 mg^–1 protein and 1,149 mol min^–1 mg^–1 protein, respectively. The turnover rate (k_cat) and catalytic efficiency (k_cat/ K_m) for Leu-p-NA and LeuGlyGly were 10,179 s^–1 and 49,543 s^–1 and 15,470 mM^–1 s^–1 and 1981.7 mM^–1 s^–1, respectively. The enzyme was strongly inhibited by EDTA, 1,10-phenanthroline, dithiothreitol, -mercaptoethanol, iodoacetate and bestatin; and its apoenzyme was found to be reactivated by Co²⁺ .     

Production of hirudin by recombinant Saccharomyces cerevisiae in a membrane-recycle fermentor

Summary Recombinant Saccharomyces cerevisiae was employed to continuously produce hirudin in a membrane cell recycle fermentor. The gene cooing for the anticoagulant protein was combined with the GAL10 promoter for controlled expression and the MF 1 signal sequence for secretion to the fermentation broth. A dilution rate of 0.1h^–1 yielded a maximum hirudin concentration of 59mg / l with a specific hirudin concentration of 2.4 mg /g cell mass among dilution rates studied ranging from 0.05h^–1 to 0.3h^–1. Cell bleeding gave the same fermentation results as cell recycle fermentation without cell bleeding. The productivity of the cell recycle fermentation process was 6.0mg hirudin/l · hr, corresponding to a 1.7-fold increase compared with a conventional continuous culture.     

Ca2+ pumping ATPase of cardiac sarcolemma is insensitive to membrane potential produced by K+ and Cl− gradients but requires a source of counter-transportable H+

Summary The sensitivity of the Ca²⁺ pumping ATPase of bovine cardiac sarcolemma (SL) to changes in membrane potential was studied in a preparation of sealed SL vesicles. Membrane potential was imposed by preincubating the vesicles in media of defined ion composition (K⁺, Cl^–, choline⁺ and gluconate^–) and diluting into media of differing ion composition. The durations of the ion gradients and relative ion permeabilities were determined in separate experiments by the dependence of the half time for net K⁺ (or choline⁺) movement coupled with these anions (Cl^– or gluconate^–), registered by the fluorescence of 1-anilino-8-naphthalene sulfonate (Chiu, V.C.K., Jaumes. D.H. 1980.J. Membrane Biol. 56:203–218). Relative permeabilities were: 1.0, K⁺, 10.0, 1 m valinomycin-K⁺; 4.0, Cl^–, 0.66, choline⁺; 0.38, gluconate^–. Durations of the gradients ranged between 17 sec (KCl, valinomycin) to 195 sec (K⁺-gluconate^–). In separate experiments. active Ca²⁺ uptake was monitored using chlorotetracycline (CTC) fluorescence, a technique validated by 45-Ca²⁺ measureaments (Dixon, D., Brandt, N., Haynes, D.H. 1984.J. Biol. Chem. 259:13737–13741). Active Ca²⁺ uptake was initiated in the presence of monovalent ion gradients. The values of the membrane potentials (E _m ) imposed by the monovalent ion gradients were calculated using the ion concentrations, their relative permeabilities and the Goldman-Hodgkin-Katz equation. No effect of membrane potential on transport rate was observed (4%, for 5–7%sd) for imposed potentials as extreme as +71 and –67 mV. Formal analysis shows that the above observations are not compatible with models in which the Ca²⁺ pumping ATPase functions in an electrogenic or charge-uncompensated fashion. Further experimentation showed that the pump rate is slowed when uptake is measured at less-than-adequate concentrations of buffer (5vs. 25mm HEPES/Tris). This, together with further control experiments using nigericin and FCCP, gave evidence that the pump requires a source of counter-transportable H⁺ in the vesicle lumen. The above experimentation also underlines the need for control of internal pH to obviate erroneous interpretation of ion perturbation experiments. The results are compared with results obtained with the Ca²⁺ ATPase pump of skeletal sarcoplasmic reticulum.     

Isolation and biochemical characterization of a new NADH oxidase from Lactobacillus brevis

A new NADH oxidase, useful for the regeneration of NAD⁺, was isolated and characterized from Lactobacillus brevis. In crude extracts the activity was from 10–15 U mg^–1. After purification by four chromatographic steps, an activity of 116 U mg^–1 was obtained with 14% yield. Highest activity was from pH 5.5–7 and at 40°C. The enzyme requires dithiothreitol to prevent oxidative deactivation. The K _m value for NADH was 24 M.     

Immunoreactivity of subunits of the (Na + K)-ATPase Cross-reactivity of the α,α+ and β forms in different organs and species

The immunologic cross-reactivity of the α and α+ forms of the large subunit and the β subunit of the (Na⁺ + K⁺)-ATPase from brain and kidney preparations was examined using rabbit antiserum prepared against the purified holo lamb kidney enzyme. As previously reported by Sweadner ((1979) J. Biol. Chem. 254, 6060–6067) phosphorylation of the large subunit of the (Na⁺ + K⁺)-ATPase in the presence of Na⁺, Mg²⁺, and [γ-³²P]ATP revealed that dog and, very likely, rat brain contain two forms of the large subunit (designated α and α+) while dog, rat, and lamb kidney contain only one form (α). The cross-reactivity of the α and α+ forms in these preparations was investigated by resolving the subunits by SDS-polyacrylamide gel electrophoresis. The separated polypeptides were transferred to unmodified nitrocellulose paper, and reacted with rabbit anti-lamb kidney serum, followed by detection of the antigen-antibody complex with ¹²⁵I-labeled protein A and autoradiography. By this method, the α and α+ forms of rat and dog brain, as well as the α form found in kidney, were shown to cross-react. In addition, membranes from human cerebral cortex were shown to contain two immunoreactive bands corresponding to the α and α+ forms of dog brain. In contrast, the brain of the insect Manduca sexta contains only one immunoreactive polypeptide with a molecular weight intermediate to the α and α+ forms of dog brain. The β subunit from lamb, dog and rat kidney and from dog and rat brain cross-reacts with anti-lamb kidney (Na⁺ + K⁺)-ATPase serum. The mobility of the β subunit from dog and rat brain on SDS-polyacrylamide electrophoresis gels is greater than the mobility of the β subunit from lamb, rat or dog kidney.     

Characterization of a secreted cholesterol oxidase from Rhodococcus sp.GKI (CIP 105335)

Extracellular cholesterol oxidase (COX) (EC 1.1.3.6) was produced by Rhodococcus sp. GK1 cells grown in a defined mineral salt medium containing a mixture of phytosterols (sitosterol, campesterol, stigmasterol) as the sole source of carbon and energy. In the same time, the sterols acted as enzyme inducers. The medium was enriched with yeast extract in order to stimulate enzyme secretion. COX was purified from the culture supernatants by affinity-like chromatography on a column packed with kieselguhr and cholesterol. Enzyme bound onto the column was eluted with 0.05 M phosphate buffer pH 7.0 containing Triton X-100 at 0.1% (w/v). Some properties of the purified COX were determined. Its specific activity at pH 7.0 and 30 °C, was around 5.5 units mg^–1. The molecular mass of the enzyme, as estimated by SDS-PAGE, was 59 kDa. Its isoelectrofocusing point was around pH 8.9. The C-5 double bond and the alkyl chain moiety in sterol molecules were necessary for an adequate oxidation of the sterol 3-ol. Enzyme inhibition by the ions (0.1 mM): AsO₂ ^–, Ba²⁺, Co²⁺, Cd²⁺, Cu²⁺, N₃ ^–, Ni²⁺, and Pb²⁺ was negligible (around 10%). However, COX inhibition by 0.1 mM of either Zn²⁺, 2-[(ethylmercurio)-thio]benzoic acid, or Hg²⁺ was 18%, 22% and 93% respectively. Inhibition of activity by Hg²⁺ was significant, even at 1 M. The purified COX (0.1–0.15 mg ml^–1 in 0.05 M phosphate pH 7.0) was relatively heat-stable at temperatures up to 50 °C. At this temperature, the half-life of its activity was around 70 min. However, 90% of the enzyme initial activity was lost by 20 min incubation at 60 °C. The aminoacid sequence of the COX N-terminal segment was: H2N–Ala–Pro–Pro–Val–Ala–Ser–X–Arg–Tyr–X–(Phe)– (X might be 2 Cys residues).     

Signal transduction mechanism for the stimulation of the sarcolemmal Na+−Ca2+ exchanger by insulin

The signal transduction pathway for insulin-mediated activation of sarcolemmal Na⁺–Ca²⁺ exchange was examined. Insulin stimulated Na⁺–Ca²⁺ exchanger activity in a dose-dependent manner, with the EC50 being about 0.7 U/l. The insulin effect was blocked by the protein kinase inhibitor, staurosporine, indicating possible involvement of a protein kinase in insulin action. Also, the relationship between the insulin effect and activation of a G protein, was examined by testing the effects of 5 guanylyl imidodiphosphate (Gpp(NH))p) on Na⁺–Ca²⁺ exchange in, the presence and absence of insulin. When exchanger activity was assayed at a calcium concentration of 40 M, insulin alone had no effect whereas ATP and Gpp(NH)p increased exchanger activity. However, insulin responsiveness was restored in vesicles preloaded with either ATP or Gpp(NH)p, suggesting that insulin may act through a combination of G protein coupling and protein phosphorylation to enhance Na⁺–Ca²⁺ exchanger activity. We conclude that calcium overload in the diabetic heart may involve a defect in acute activation of the exchanger by insulin.     

Stable continuous constitutive expression of a heterologous protein in Saccharomyces cerevisiae without selection pressure

The stability of heterologous protein expression in Saccharomyces cerevisiae during continuous culture without selection for plasmid-containing cells was investigated. The protein chosen was the leech thrombin inhibitor desulphato-hirudin, which is tolerated well by S. cerevisiae when over-expressed. Expression was from a 2- derived multicopy vector containing a synthetic hirudin gene under control of the constitutive glyceraldehyde-3-phosphate dehydrogenase derived GAPFL promoter. The behaviour of the system was studied at three dilution rates (D) corresponding to approximately 30% (0.06 h^–1), 60% (0.12 h^–1) and 90% (0.17 h^–1) of the estimated maximum D. The level of plasmid loss was low at all Ds, with only 5–10% plasmid-free cells observed at 75 generations. The plasmid was most stably maintained at the intermediate D of 0.12 h^–1, where the rate of loss was comparable to the loss of the native 2- plasmid. Hirudin expression was also highest at D=0.12 h^–1, possibly as a result of cell lysis at D=0.06 h^–1 and D=0.17 h^–1, leading to the release of vacuolar proteases and subsequent proteolysis of hirudin. Differences in expression levels were not a result of changes in plasmid copy number, which was in the range 40–60 throughout all three experiments. The high stability of this system at all Ds investigated shows that heterologous protein expression is not a burden to S. cerevisiae when the protein expressed is tolerated well. Correspondence to: M. Ibba     

Na+ and K+ fluxes stimulated by Na+-coupled glucose transport: Evidence for a Ba2+-insensitive K+ efflux pathway in rabbit proximal tubules

Summary Addition of glucose or the nonmetabolizable analogue -methyl-d-glucoside to rabbit proximal tubules suspended in a glucoseand alanine-free buffer caused a sustained increase in intracellular Na⁺ content (+43±7 nmol · (mg protein)^–1) and a concomitant but larger decrease in K⁺ content (–72±11 nmol· (mg protein)^–1). A component of the net K⁺ efflux was Ba²⁺ insensitive, and was inhibited by high (1mm) but not low (10 m) concentrations of the diuretics, furosemide and bumetanide. The increase in intracellular Na⁺ content is consistent with the view that the increased rates of Na⁺ and water transport seen in the proximal tubule in the presence of glucose can be attributed (at least in part) to a stimulation of basolateral pump activity by an increased [Na⁺] _i .     

Electrophysiological studies of forskolin-induced changes in ion transport in the human colon carcinoma cell line HT-29 cl.19A: Lack of evidence for a cAMP-activated basolateral K+ conductance

Summary Forskolin (i.e, cAMP)-modulation of ion transport pathways in filter-grown monolayers of the Cl^–-secreting subclone (19A) of the human colon carcinoma cell line HT29 was studied by combined Ussing chamber and microimpalement experiments.Changes in electrophysiological parameters provoked by serosal addition of 10^–5 m forskolin included: (i) a sustained increase in the transepithelial potential difference (3.9±0.4 mV). (ii) a transient decrease in transepithelial resistance with 26±3 · cm² from a mean value of 138±13 · cm² before forskolin addition, (iii) a depolarization of the cell membrane potential by 24±1 mV from a resting value of –50±1 mV and (iv) a decrease in the fractional resistance of the apical membrane from 0.80±0.02 to 0.22±0.01. Both, the changes in cell potential and the fractional resistance, persisted for at least 10 min and were dependent on the presence of Cl^– in the medium. Subsequent addition of bumetanide (10^–4 m), an inhibitor of Na/K/2Cl cotransport, reduced the transepithelial potential, induced a repolarization of the cell potential and provoked a small increase of the transepithelial resistance and fractional apical resistance. Serosal Ba²⁺ (1mm), a known inhibitor of basolateral K⁺ conductance, strongly reduced the electrical effects of forskolin. No evidence was found for a forskolin (cAMP)-induced modulation of basolateral K⁺ conductance.The results suggest that forskolin-induced Cl^– secretion in the HT-29 cl.19A colonic cell line results mainly from a cAMP-provoked increase in the Cl^– conductance of the apical membrane but does not affect K⁺ or Cl^– conductance pathways at the basolateral pole of the cell. The sustained potential changes indicate that the capacity of the basolateral transport mechanism for Cl^– and the basal Ba²⁺-sensitive K⁺ conductance are sufficiently large to maintain the Cl^– efflux across the apical membrane. Furthermore, evidence is presented for an anomalous inhibitory action of the putative Cl^– channel blockers NPPB and DPC on basolateral conductance rather than apical Cl^– conductance.     

Concentration and flux of solutes from snow and forest floor during snowmelt in the West-Central Adirondack region of New York

Decreases in pH and increases in the concentration of Al and NO ₃ ^– have been observed in surface waters draining acid-sensitive regions in the northeastern U.S. during spring snowmelt. To assess the source of this acidity, we evaluated solute concentrations in snowpack, and in meltwater collected from snow and forest floor lysimeters in the west-central Adirondack Mountains of New York during the spring snowmelt period, 29 March through 15 April 1984.During the initial phase of snowmelt, ions were preferentially leached from the snowpack resulting in elevated concentrations in snowmelt water (e.g. H⁺ = 140 eq.l^–1; NO ₄ ^2– = 123 eq.l^–1; SO ₃ ^– = 160 eq.l^–1). Solute concentrations decreased dramatically within a few days of the initial melt (< 50 eq.l^–1). The concentrations of SO ₄ ^2– and NO ₃ ^– in snowpack and snowmelt water were similar, whereas NO^– ₃ in the forest floor leachate was at least two times the concentration of SO ₄ ^2– .Study results suggest that the forest floor was a sink for snowmelt inputs of alkalinity, and a net source of H⁺, NO ₃ ^– , dissolved organic carbon, K⁺ and Al inputs to the mineral soil. The forest floor was relatively conservative with respect to snowmelt inputs of Ca²⁺, SO ₄ ^2– and Cl^–. These results indicate that mineralization of N, followed by nitrification in the forest floor may be an important process contributing to elevated concentrations of H⁺ and NO ₃ ^– in streams during the snowmelt period.     

Influence of inorganic microelements on the production of camptothecin with suspension cultures of <Emphasis Type="Italic">Camptotheca acuminata</Emphasis>

The effects of eight microelements (I^–, BO₃ ^3–, MoO₄ ^2–, Co²⁺, Cu²⁺, Mn²⁺, Fe²⁺, Zn²⁺) on the biosynthesis of camptothecin and the growth of suspension cultures of Camptotheca acuminata were studied. The increase of I^– to 25 M l^–1, Cu²⁺ to 1 M l^–1, Co²⁺ to 2 M l^–1 and MoO₄ ^2– to 10 M l^–1 in Murashige and Skoog (MS) medium resulted in 1.66, 2.84, 2.53 and 2.04 times higher of camptothecin yield than that in standard MS medium respectively. Combined treatment of I^– (25 M l^–1), Cu²⁺ (1 M l^–1), Co²⁺ (2 M l^–1) and MoO₄ ^2– (10 M l^–1) lead to improve cell dry weight, camptothecin content, and camptothecin yield to 30.56 g l^–1, 0.0299%, and 9.15 mg l^–1, respectively, which were 20.2, 208.9 and 273.8% increment respectively when compared with those of control.     

Soil organic carbon and nutrient status in old-growth montane coniferous forest watersheds,Isla Chiloé, Chile

Montane temperate forests of the Cordillera de Piuchué Ecosystem Study, Isla Chiloé, Chile, are unaffected by air pollution, timber exploitation and agricultural clearing, and the current floristic assemblage has been relatively stable for the past 7500 years. The apparent absence of major perturbation at this location makes it an appropriate baseline site for ecosystem analysis. We measured soil bulk density, pH, soil organic C (SOC), total N, and NH₄Cl–exchangeable cations (Ca⁺², Mg⁺², K⁺, Na⁺, Al⁺³) in 0–10 and 10–40 cm depth samples from 72 soil profiles representing three vegetation zones: Fitzroya cupressoides Forest, Pilgerodendron uvifera–Tepualia stipularis Forest, and Magellanic Moorland. Fitzroya and Pilgerodendron–Tepualia Forests were indistinguishable for all measured soil characteristics (P > 0.05, Dunn's multiple comparison test on ranked data); these included very high median SOC concentrations (0–10 cm = 49.6%) and correspondingly low bulk density values (0–10 cm = 0.07). Moorland soil median values (0-10 cm) were significantly higher for bulk density (0.12) and lower for SOC (28.5%), but not for total N (Forests = 0.99%, Moorland = 0.95%), resulting in lower median C:N ratios for the moorland (Forests = 44.7; Moorland = 30.3). Across both depths and all three vegetation zones regression analysis indicated that SOC was an excellent predictor (R²; = 0.93, P < 0.001) of (exchangeable Ca⁺² + Mg⁺² + K⁺ + Na⁺). Comparison with other old growth montane environments indicates that the Fitzroya and Pilgerodendron–Tepualia soil profiles are characterized by C:N ratios typical of other relatively unpolluted conifer forest soils (33.0–49.3). Soil profiles of representative polluted montane conifer forests have lower C:N ratios (16.2–23.5). Organic horizons from representative polluted montane conifer forests also retain fewer exchangeable base cations per unit SOC than are retained by organic horizons from the Cordillera de Piuchué forests.     

Water chemistry and nutrient budgets in an undisturbed evergreen rainforest of southern Chile

In a pristine evergreen rainforest of Nothofagus betuloides, located at the Cordillera de los Andes in southern Chile (41 °S), concentrations and fluxes of nutrients in bulk precipitation, cloud water, throughfall water, stemflow water, soil infiltration and percolation water and runoff water were measured. The main objectives of this study were to investigate canopy-soil-atmosphere interactions and to calculate input-output budgets. From May 1999 till April 2000, the experimental watershed received 8121 mm water (86% incident precipitation, 14% cloud water), of which the canopy intercepted 16%. Runoff water volume amounted 9527 mm. Bulk deposition of inorganic (DIN) and organic (DON) nitrogen amounted 3.6 kg ha^–1 year^–1 and 8.2 kg ha^–1 year^–1 respectively. Occult deposition (clouds + fog) contributes for 40% to the atmospheric nitrogen input (bulk + occult deposition) of the forest. An important part of the atmospheric ammonium deposition is retained within the canopy or converted to nitrate or organic nitrogen by epiphytic bacteria or lichens. Also the export of inorganic (0.9 kg ha^–1 year^–1) and organic (5.2 kg ha^–1 year^–1) nitrogen via runoff is lower than the input to the forest floor via throughfall and stemflow water (3.2 kg DIN ha–1 year^–1 and 5.6 kg DON ha^–1 year^–1). The low concentrations of NO ₃ ^– and NH ₄ ⁺ under the rooting depth suggest an effective biological immobilization by vegetation and soil microflora. Dry deposition and foliar leaching of base cations (K⁺, Ca²⁺, Mg²⁺) was estimated using a canopy budget model. Bulk deposition accounted for about 50% of the total atmospheric input. Calculated dry and occult deposition are both of equal value (about 25%). Foliar leaching of K⁺, Ca²⁺, and Mg²⁺ accounted for 45%, 38% and 6% of throughfall deposition respectively. On an annual basis, the experimental watershed was a net source for Na⁺, Ca²⁺ and Mg²⁺.