Phloem transport of 14C-labelled assimilates in Ricinus

Summary Exudate can be obtained from incisions made in the bark of the stem of actively growing Ricinus plants. ¹⁴C-labelled assimilates from a fed leaf are rapidly detected in the exudate. This movement was both acropetal and basipetal from the fed leaf, at rates of over 100 cm h^-1. Estimated rates within intact plants were 80–84 cm h^-1.In contrast with xylem sap obtained from the same plant, the exudate obtained had an alkaline pH (8.2), a high dry matter content (10–12.5%), high sugar content (8–10%) which was predominantly sucrose; high potassium content (60–80 mM) and low calcium content (0.5–1.0 mM).It is concluded, on the basis of the present evidence, that the exudate is a true sample of the sieve tube sap undergoing translocation.     

The effect of glucose and glutamine on the intracellular nucleotide pool and oxygen uptake rate of a murine hybridoma

The effects of media concentrations of glucose andglutamine on the intracellular nucleotide pools andoxygen uptake rates of a murine antibody-secretinghybridoma cell line were investigated. Cells takenfrom mid-exponential phase of growth were incubated inmedium containing varying concentrations of glucose(0–25 mM) and glutamine (0–9 mM). The intracellularconcentrations of ATP, GTP, UTP and CTP, and theadenylate energy charge increased concomitantly withthe medium glucose concentration. The total adenylatenucleotide concentration did not change over a glucose concentration range of 1–25 mM but therelative levels of AMP, ADP and ATP changed as theenergy charge increased from 0.36 to 0.96. Themaximum oxygen uptake rate (OUR) was obtained in thepresence of 0.1–1 mM glucose. However at glucoseconcentrations >1 mM the OUR decreased suggestinga lower level of aerobic metabolism as a result of theCrabtree effect.A low concentration of glutamine (0.5 mM) caused asignificant increase (45–128%) in the ATP, GTP,CTP, UTP, UDP-GNac, and NAD pools and a doubling ofthe OUR compared to glutamine-free cultures. Theminimal concentration of glutamine also caused anincrease in the total adenylate pool indicating thatthe amino acid may stimulate thede novosynthesis of nucleotides. However, all nucleotidepools and the OUR remained unchanged within the rangeof 0.5–9 mM glutamine.Glucose was shown to be the major substrate forenergy metabolism. It was estimated that in thepresence of high concentrations of glucose (10–25 mM),glutamine provided the energy for the maintenance ofup to 28% of the intracellular ATP pool, whereas theremainder was provided by glucose metabolism.(Author for correspondence; E-mail:     

ATP and ADP hydrolysis in fish, chicken and rat synaptosomes

Ecto-enzymes capable of hydrolyzing ATP and ADP (NTPDase) are present in the central nervous system of various species. In the present investigation we studied the synaptosomal NTPDase (ATP diphosphohydrolase, apyrase, E.C. 3.6.1.5) from fish, chicken and rats under different conditions and in the presence of several classical inhibitors. The cation concentration required for maximal activity was 0.5 mM for fish, 1.0 mM for chickens and 1.5 mM for rats with both substrates. The results showed that the pH optimum for all animal preparations was close to 8.0. The temperature used was 25–27°C for fish and 35–37°C for chicken and rat preparations. The inhibitors azide and fluoride only inhibited the preparation at high concentrations (10 mM). Lanthanum (0.1–0.4 mM), N-ethylmaleimide (0.4–3.0 mM) and ouabain (0.5–3.0 mM) had no effect on NTPDase activity from fish, chickens or rats. Orthovanadate (0.1–0.3 mM) only inhibited fish synaptosomal NTPDase. Trifluoperazine (0.05–0.2 mM) and suramin (0.03–0.3 mM) inhibited NTPDase at all concentrations tested. Suramin was the most potent compound in causing inhibition, presenting inhibition at 30 μM. Our results demonstrate that the synaptosomal NTPDase response to several factors is similar in fish, chickens and rats, and that the enzyme presents functional homology.     

Collection of Pure Phloem Sap from Wheat and its Chemical Composition

Wheat Phloem sap was collected without contamination from thestylets of small brown planthopper severed by a YAG laser beam.The sugar, amino acid and inorganic ion composition was determinedusing only one µl of the sap. The sap had a high sucrose level (251 mM), and also a high K⁺level (299 mM). Total amino acid compounds in the sap reached262 mM. The dominant amino acids were glutamic acid, asparticacid and serine, while r-amino butylic acid was absent. Themajor anion in the sap was Cl^– and its concentration was25.1 mM. Nitrate was also present at a concentration of 8.1mM. These results suggested that the sap obtained from the cut endof the stylets of the small brown planthopper was a phloem originof wheat. (Received May 21, 1986; Accepted August 7, 1986)     

Phloem bleeding from legume fruits—A technique for study of fruit nutrition

Summary Bleeding from phloem of cut distal tips of attached fruits was demonstrated in the genera Spartium, Genista, Lupinus and Jacksonia. Bleeding occurred over a 2–25 min period enabling 0.5–10 l of sap to be collected from a fruit. A detailed study of Lupinus albus L. showed that exudation rate declined exponentially after cutting, but without any change with time in solute levels in exudate. Bleeding resumed at its initial rate and solute concentration on recutting the fruit tip.Phloem exudates had a high pH (7.8-8.0), a sucrose content of 100–210 mg ml^-1 but only traces of monosaccharides. Surrounding pod tissues contained only 15–35 mg ml^-1 of sugars (tissue water basis) more than two thirds of this monosaccharide. Amino compounds were present in phloem exudates at 8–28 mg ml^-1, asparagine and glutamine predominating but a wide spectrum of other amino acids being also present. No significant differences in levels of organic solutes were observed in phloem exudates collected from tips of attached versus detached fruits, from phloem exudates collected from fruit tips versus pedicels, or from basal versus distal ends of a detached fruit.Potassium was the major cation (1.5–2.2 mg ml^-1) of the phloem exudate, Ca²⁺ was at a much lower level than either Mg²⁺ or Na⁺. Trace element levels in phloem exudates appeared to be influenced by availability to the plant from the rooting medium. Nitrate was absent though detectable in non-vascular tissues of the shoot. ¹⁴C- labelled assimilates were detected in exudates of L. albus one hour after feeding a source leaf ¹⁴CO₂; sucrose, organic acids and certain amino compounds achieved high specific labelling. ¹⁴CO₂ feeding studies coupled with the phloem bleeding technique revealed highly specific source-sink relationships between foliar organs and fruits of the primary inflorescence.     

The differential transport of amino acids into the phloem of Ricinus communis L. seedlings as shown by the analysis of sieve-tube sap

The cotyledons of castor bean (Ricinus communis L.) act as absorption organs for amino acids, which are supplied to the medium. The analysis of the sieve-tube sap, which exudes from the cut hypocotyl, demonstrated the ability of the cotyledons to load particular amino acids into the phloem and to reject the loading of others. The sieve-tube sap of cotyledons, which were embedded in the endosperm, contained 150 mM amino acids, with 50 mM glutamine as the major amino acid, and 10–15 mM each of valine, isoleucine, lysine and arginine. Removal of the endosperm led to a drastic decline in the amino-acid content of sieve-tube sap down to 16 mM. Addition of single amino acid species to the medium increased the amino acid concentration in the sieve-tube sap in specific manner: glutamine caused the largest increase (up to 140 mM in exudate), glutamate and alanine smaller increases (up to 60 mM), and arginine the smallest. In addition, the amino acid composition of the sieve-tube sap changed, for instance, glutamine or alanine readily appeared in the sieve-tube sap upon incubation in glutamine or alanine, respectively, whereas glutamate was hardly discernible even in the case of incubation with glutamate; arginine was loaded into the sieve tubes only reluctantly. In general, glutamine and alanine accumulated four- to tenfold in the sieve tubes. The uptake of amino acids and of sucrose into the sieve tubes was interdependent: the loading of sucrose strongly reduced the amino acid concentration in the sieve-tube exudate and loading of amino acids decreased the sucrose concentration. Comparison of the concentrations of various amino acids on their way from the endosperm via the cotyledon-endosperm interface, through the cotyledons and into the sieve tubes showed that glutamine, valine, isoleucine and lysine are accumulated on this pathway, whereas glutamate and arginine are more concentrated in the cotyledons than in the sieve tubes. Obviously the phloem-loading system has a transport specificity different from that of the amino acid uptake system of the cotyledon in general and it strongly discriminates between amino acids within the cotyledons.     

Matrix Fixed Charge Density Modulates Exudate Concentration during Cartilage Compression

Electrolyte filtration arises due to the presence of fixed charges in cartilage extracellular matrix glycosaminoglycans (GAGs). Commonly assumed negligible, it can be important for design and interpretation of streaming potential measurements and modeling assumptions. To quantify the scale of this phenomenon, chloride ion concentration in exudate of compressed cartilage was measured by Mohr’s titration and explant GAG content was colorimetrically assayed. Pilot studies indicated that an appropriate strain rate for experiments was 8 × 10⁻³ s⁻¹ to eliminate concerns of exudate evaporation and explant damage (at low and high strain rates, respectively). Exudate chloride concentration of explants equilibrated in 1× PBS was significantly (p < 0.05) lower than the bath chloride concentration at strains of 37.5, 50, and 62.5%, with clear dependence on strain magnitude. Exudate chloride concentration was also significantly lower than that of the bath when 50% strain was applied after equilibration in 0.5, 1, and 2× PBS, with a trend for an increase in this relative difference with decreasing bath concentration (p = 0.065 between 0.5 and 2× PBS). Decreasing exudate chloride concentration correlated negatively with increasing postcompression GAG concentration. No difference between exudate chloride concentration and bath chloride concentration was ever observed for compression of uncharged agarose gel controls. Findings show that exudate from compressed cartilage is dilute relative to the bath due to the presence of matrix fixed charges, and this difference can generate diffusion potentials external to the explant, which may affect streaming potential measurements particularly under conditions of low strain rates and high strains.     

Synthesis of pyridoxamine 5′-phosphate using an MBA:pyruvate transaminase as biocatalyst

Transaminases (TAs) have useful applications as biocatalysts because of their capability of introducing amino groups into ketones and keto acids with high enantioselectivity, regioselectivity and broad substrate specificity. In this study we have shown that purified His-tagged omega-TA CV2025 from Chromobacterium violaceum is capable of complete conversion of pyridoxal 5′-phosphate (PLP) to pyridoxamine 5′-phosphate (PMP) in the presence of (S)-α-methylbenzylamine (MBA) as the amine donor. Conversions of 5 mM PLP with at least 0.8 mg/ml CV2025 TA (5.8 U/ml) were complete within 24 h. The fastest completion was achieved with an enzyme concentration of 3 mg/ml (22 U/ml): Within 4 h 5 mM PLP/MBA were converted to 100% and 10 mM PLP/MBA to 70%. PLP amination was only partially inhibited in the presence of 0.5 mM gabaculine, whereas the MBA:pyruvate transamination was shown to be inhibited completely. PMP formation of comparable efficiency could not be achieved with equivalent units of porcine α-TA. This represents the first example of a PLP-converting TA with an attributed gene and the first demonstration of quantitative biocatalytic PMP synthesis.     

Kinetics of iron absorption by excised rice roots

Summary Studies on the rate of iron absorption by excised rice roots from solutions of different concentrations of FeSO₄ showed the presence of two patterns, one in the low (0.005–0.5 mM) and the other in the high (1–30 mM) concentration range. The presence of CaSO₄ or MnSO₄ at 0.5 mM enhanced Fe⁺⁺ absorption in the low concentration range, while CaSO₄ at 10 mM inhibited Fe absorption in the high concentration range in a competitive manner. Fe⁺⁺ absorption at both low and high concentrations was sensitive to metabolic inhibitors. The isotherm for Fe⁺⁺ absorption at O° exhibited an initial absorption shoulder in both low and high concentrations and was suggestive of a latent ion-transport capacity for Fe⁺⁺ in rice roots.     

Metabolism of amino acids, organic acids and sugars extracted from the xylem fluid of four host plants by adult Homalodisca coagulata

The efficiency of amino acid, organic acid and sugar metabolism was quantified for adult Homalodisca coagulata (Say) (Homoptera: Cicadellidae) by comparing chemical profiles of xylem fluid (food source) and insect exudate. Leafhoppers were confined in Parafilm^® sachets to stems of 4 host plants: [Baccharis halimifolia (L.), Lagerstroemia indica (L.), Prunus salicina (Lindl.), Prunus persica (L.), Batsch]. Insect feeding rates (0.09–0.27 ml h^–1), exudate osmolarity (7.8–12.8 mM) and exudate composition (mainly inorganic entities) were characteristic of a xylem feeder. Total organic solute concentration in the xylem fluid of B. halimifolia, L. indica, P. salicina and P. persica was ca. 9.4, 13.8, 5.5 and 1.8 mM, respectively. Nineteen protein amino acids, 7 organic acids and 3 or 4 sugars were identifid in the xylem fluid. Total amino acids, organic acids and sugars were metabolized with ca. 99% efficiency. Glutamine, asparagine, arginine and citric, malic and succinic acids, the predominant organic compounds in the xylem fluid of all four plant species, were metabolized with greater than 99% efficiency. Cysteine (51%), methionine (74%) and oxalic acid (77%) were metabolized with the lowest efficiency. The primary nitrogenous waste was NH _inf4 ^sup+ ; uric acid or urea were not detected. Nitrogen retention was generally less than 60% of dietary nitrogen. High feeding rates, ammonotelism and an extremely high metabolic efficiency of organic compounds permit H. coagulata to subsist on the dilute and skewed chemical profile of xylem fluid.

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Résumé L'efficacité du métabolisme des amino-acides, des acides organiques et des sucres a été quantifiée chez des H. coagulata Say (Hom. Cicadellidae) adultes, en comparant la composition chimique de la sève du xylème et du miellat des insectes. Les cicadelles ont été maintenues dans des sachets de parafilm avec des tiges de 4 plantes hôtes: Baccharis halimifolia L., Lagerstroemia indica L., Prunus salicina Lindl. et Prunus persica Batsch. Le taux de consommation (0,09 à 0,27 ml hr^–1), l'osmolarité du miellat (7,8 à 12,8 mM) et la composition du miellat (principalement des éléments inorganiques) sont caractéristiques des consommateurs de xylème. Les concentrations organiques totales en soluté de la sève du xylème étaient respectivement: 9,4; 13,8; 5,5; et 1,8 mM chez B. halimifolia, L. indica, P. salicina et P. persica. 19 amino acides protéiques, 7 acides organiques et 3 ou 4 sucres ont été identifiés dans la sève du xylème. Les acides aminés, les acides organiques et les sucres ont été métabolisés dans leur ensemble avec une efficacité de 99%. La glutamine, l'asparagine, l'arginine et les acides citrique, malique et succinique,-les principaux composés organiques de la sève du xylème de ces 4 plantes,-ont été métabolisés avec plus de 99% d'efficacité. La cystéine (51%), la méthionine (74%) et l'acide oxalique (77%) ont été métabolisés avec une plus faible efficacité. Le déchet azoté primarie était NH _inf4 ^sup+ ; l'acide urique et lurée n'ont pas été décelés. La fixation d'azote a été généralement inférieure à 60% de l'azote consommé. Des taux de consommation élevés, l'ammonotélisme et une efficacité extrêmement élevée du métabolisme des composés organiques permettent à H. coagulata de survivre malgré la composition chimique biaisée et la dilution de la sève du xylème.

     

Phosphate availability in combination with nitrate availability affects root yield and chicon yield and quality of Belgian endive (Cichorium intybus)

This study investigated the effects of nitrate and phosphate nutrition on chicory tap root development and chicon quality. Plants of chicory (Cichorium intybus flash) were grown on four concentrations of nitrate and phosphate: 3 mM NO₃ / 1 mM PO ₄ ^3– , high N and high P (control plants, N / P); 3 mM NO ₃ ^– / 0.05 mM H₂PO^3– ₄, high N and low P (N / p); 0.6 mM NO₃ / 1 mM PO ₄ ^3– , low N and high P (n / P); 0.6 mM NO ₃ ^– / 0.05 mM PO ₄ ^3– , low N and low P (n / p). The results suggested that, nitrogen limitation had the greatest impact on the shoot/root dry weight ratio. Only small changes in the shoot/root dry weight could be attributed to P limitation alone. Compared with the control, N limitation caused a marked increase in root SST activity (sucrose sucrose fructosyl transferase, the enzyme responsible for fructan synthesis in roots), the effect of P limitation on SST activity was less pronounced. The activity of SS (sucrose synthase) was also noticeably elevated at the early sample data by N limitation. N and P uptake were estimated by the amount of N and P accumulated by the whole plant during the vegetative period. With N limitation, P accumulation was decreased by 40-60% over the experimental period. The effects of P limitation on N accumulation were more variable, N uptake was 60% lower than the control during the tuberizing period (107 days after sowing). With N limitation, P concentrations in roots were lowered by 20-25%. With P limitation, total N concentration in roots decreased by 50% relative to the control, while nitrate concentration was increased more than 8 fold. These effects were detected only at 107 DAS. The amino acid content of roots was not affected by P limitation, however, N limitation altered strongly total amino acids. P limitation did alter the relative amino acid composition of roots early in the vegetative period: Roots harvested at the end of vegetative period were forced in the dark to produce an etiolated bud, the edible chicon. High N and high P fertility (N/P) were associated to a poor chicon yield and quality. However the presence of low P during vegetative growth moderates adverse effects of high nitrate and greatly improved chicon yeild and quality.     

Microbially-enhanced chemisorption of Ni2+ ions into biologically-synthesised hydrogen uranyl phosphate (HUP) and selective recovery of concentrated Ni2+ using citrate or chloride ion

Hydrogen uranyl phosphate (HUP) deposited enzymatically on Citrobacter N14 immobilized in polyacrylamide gel removed nickel ions from solution via intercalative ion-exchange into the HUP lattice. Using flow-through columns containing 100 mg dry weight of biomass and 200–250 mg loaded uranium column saturation and breakthrough of Ni²⁺ occurred after ca. 600 ml, with a total of 30 mg Ni²⁺ loaded per column, corresponding to a molar ratio of U:Ni of 2:1, in accordance with the identity of the material as Ni(UO₂PO₄)₂, identified previously. Ni²⁺ was selectively desorbed using 100 mM sodium citrate-citric acid buffer over 140 ml or a short pulse (5 ml) of 500 mM citrate buffer followed by a water wash, giving a total recovery volume of 80 ml, with a total citrate concentration of 30 mM in the wash solution of the latter. As an alternative eluant which gives no residual BOD NaCl (0.6 M) or seawater gave comparable recovery of Ni²⁺ to the 0.5 M citrate pulse, but with a Ni²⁺ recovery volume of 40–50 ml. The concentration ratio of Ni²⁺-deposition:desorption (vol:vol) was 3–4 fold better with chloride ion than with 100 mM citrate.     

Regulation of phosphate-activated glutaminase (PAG) by glutamate analogues

The ability of structural analogues of glutamate (GLU) to modulate phosphate activated glutaminase (PAG) was assessed in the present series of studies. A number of GLU receptor agonists and antagonists were tested for their ability to inhibit synaptosomal PAG activity. PAG activity was determined by measuring GLU formation from 0.5mM glutamine (GLN) in the presence of 10 mM phosphate. GLU analogues at 5–10 mM were found to significantly inhibit PAG activity. It was determined that PAG inhibition occurred regardless of whether the GLU analogues were receptor agonists or antagonists, however, PAG inhibition was influenced by analogue chain length, isomeric form and substituent substitution. The glutamate uptake blockers, dihydrokainic acid and DL-threo--hydroxyaspartic acid were relatively weak inhibitors of PAG (<25% inhibition) as were the receptor agonists, ibotenic acid and (±)cis-2,3-piperidine-dicarboxylic acid. Other GLU analogues produced inhibition of PAG in the range of 40–70%. PAG inhibition by GLU analogues did not appear to differ substantially among the brain regions evaluated (cortex, striatum and hippocampus). The endogenous amino acids, glycine, taurine and N-acetylaspartic acid, also significantly inhibited PAG activity in the 5–10 mM range. The noncompetitive NMDA antagonists, (+)MK801 and ketamine, at a concentration of 5 mM, significantly stimulated PAG activity 1.5–2 fold over control values. The activation of PAG by (+)MK801 was dose-related, stereoselective and appeared to result from a synergistic interaction with phosphate to enhance substrate (GLN) binding to PAG. The results of these studies suggest that GLU analogues could potentially alter neurotransmitter GLU synthesis if sufficient concentrations of these drugs are used in in vitro or in vivo studies. Furthermore, preliminary evidence suggests that other endogenous amino acids (glycine, taurine, N-acetylaspartic acid) may modulate PAG activity. These studies have further characterized the structural requirements for the allosteric regulation of PAG by glutamate and its analogues.     

Exopolysaccharide, pigment and protein production by the marine microalga Chroomonas sp. in semicontinuous cultures

The marine microalga Chroomonas sp. isolated from Venezuela was grown in semicontinuous culture in order to study the effect of renewal rate and nutrient concentration on alloxanthin, chlorophyll a, carotenoid, carbohydrate, exopolysaccharide, protein and cell productivity. Maximal cell productivity of 8.43 ± 1.8 and 8.81 ± 2.3 × 10⁹ cell l^–1 day^–1 were achieved with renewal rates of 30 and 40%. Maximal protein and chlorophyll productivity of 64.64 ± 2.3 and 2.72 ± 0.3 mg l^–1 day^–1 were obtained with renewal rate of 20 and 30%. Biochemical composition of Chroomonas sp. was influenced by renewal rate. Nutrient concentration seems not to affect cell, protein, chlorophyll and carotenoid productivity. However, carbohydrate and exopolysaccharide productivity of 7.56 ± 0.4 and 9.57 ± 1.2 mg l^–1 day^–1 were increased at 12 mM NaNO₃(P < 0.05). Also, alloxanthin and chlorophyll a production analysed by HPLC, were higher between 8 and 12 mM NaNO₃ at a renewal rate of 30%. Results demonstrated that a renewal rate of 30% and nutrient concentration at 8 mM NaNO₃ optimize the cell, protein, carbohydrate, chlorophyll a, and exopolysaccharide productivity in semicontinuous cultures of Chroomonas. This microalga, as biological source of commercially valuable compounds, shows high capacity for changing its productivity and biochemical composition in semicontinuous system on the basis of nutrient concentration and the renewal rate.     

ATP and ADP hydrolysis in the kidney and liver of fish, chickens and rats

We investigated NTPDase-like activity [ecto-nucleoside triphosphate diphosphohydrolases (E-NTPDases)] in liver and kidney membrane from silver catfish (Rhamdia quelen), chicken (Gallus gallus) and rat (Rattus norvegicus) under different conditions and in the presence of several inhibitors. The cation concentration required for maximal activity was 0.5, 1.5 and 2.0 mM for fish, chicken and rat liver, respectively (with ATP and ADP as substrates). The maximal activity in the kidney was observed at calcium concentrations of 0.5, 2.0, 1.5 mM (ATP) and 0.5, 1.5, 1.0 (ADP) for fish, chickens and rats, respectively. The results showed that the pH optimum for all animals and for the two tissues was close to 8.0. The temperature chosen was 25 °C for fish and 36 °C for chicken and rat preparations. Ouabain had no effect on the NTPDase-like activity of fish, chickens or rats. NTPDase activity was decreased in the presence of lanthanum in the chicken (ADP) and rat (ATP and ADP) liver. In the kidney, lanthanum inhibited fish ATP and rat ATP and ADP (0.2 mM) hydrolysis. N-ethylmaleimide (NEM) had an inhibitory effect on the kidney of all species at the concentration of 3.0 mM (ADP). Orthovanadate only inhibited fish membrane NTPDase; azide only inhibited the preparation at high concentrations (10 mM) and fluoride inhibited it at 10 mM (fish and chicken) and 5 mM (rat). Trifluoperazine (0.05–0.2 mM) and suramin (0.03–0.3 mM) inhibited NTPDase at all concentrations tested. These results suggest that NTPDase-like activity shows a different behavior among the vertebrate species and tissues studied. Additionally, we propose that NTPDase1 is the main enzyme present in this preparation.     

Amino Acid Composition Along the Transport Pathway during Grain Filling in Wheat

The amino acid composition of endosperm cavity sap and of sieve tube saps from the flag leaf, peduncle, rachis, grain pedicel, and grain were determined for wheat plants just past the mid-half of grain filling. On a mole percent basis, glutamine accounted for almost half of the amino acids in sieve tube sap from the peduncle and ear. Other protein amino acids, plug γ-aminobutyrate, were present in varying, but mostly low (a few mole percent) proportions. The amino acid composition of phloem exudate resembled that of the mature wheat grain. The proportions of amino acids in the endosperm cavity were generally similar to those of the sieve tube sap supplying the grain. Cysteine, however, while virtually absent from sieve tube sap, comprised 1 to 2 mole percent of amino acids in the endosperm cavity, suggesting it is transported in a different form. Also, alanine and, to a lesser extent, glutamate were relatively more prominent in endosperm cavity sap than in the sieve tube sap. Thus, while most amino acids were more concentrated in the sieve tube sap than in the endosperm cavity sap, alanine and glutamate appeared to be moving from the sieve tube to the endosperm cavity in the absence of, or perhaps even against, their concentration gradients.     

Translocation from leaves to fruits of a legume,studied by a phloem bleeding technique: Diurnal changes and effects of continuous darkness

Summary Diurnal changes in the carbohydrates of leaf laminae and fruits and in the bleeding of sugar and amino acids from fruit phloem were followed by successive sampling from a population of Lupinus albus L. plants. Phloem sap was collected for a standard 5 min period from cut distal tips of attached fruits. Daily fluctuations in leaf dry matter resulted largely from changes in starch and sugar. Leaf sugar rose to a maximum in the afternoon, starch to a maximum at, or shortly after, dusk. Leaves lost sugar and starch from dusk to dawn. Phloem bleeding rate varied little over a daily cycle but sucrose levels fluctuated from a noon maximum of 12–13% (w/v) to a dawn minimum of 9–10%. The rhythm of phloem sugar levels matched closely those of fruit and leaf. Phloem amino acid levels fluctuated in phase with that of sucrose: the relative composition of the amino fraction did not vary significantly over the daily cycle. Pulse feeding of source leaves with ¹⁴CO₂ at different times in the photoperiod allowed study of the pattern of release of labelled photosynthate to the fruit phloem and the build up and depletion of ¹⁴C starch in leaves. Plants transferred to continuous darkness showed a rapid decline in output and concentration of phloem sap solutes, and translocated nitrogen to their fruits at only one quarter of the rate of control plants retained in natural daylight. The combined data from the experiments showed that the rate of output of sugar from cut phloem of a fruit was directly related to the current level of sugar in leaves. When leaf sugar levels were low (5–10 mg ml tissue water^-1) sugar in phloem was 10–11 times more concentrated than in source leaves, but at high leaf sugar levels (25–30 mg ml^-1) this concentration difference was only 3–4 fold.     

Effects of ethimizol on frog neuromuscular junction

The effects were studied of ethimizol, a substance activating memory processes, on features of synaptic transmission during experiments on frog cutaneous pectoris muscle. It was found that the presynaptic action of ethimizol consists of raising the frequency of miniature potentials, when used at a concentration of 0.5–10 mM, and modulating quantal content of synaptic transmission due to changes in binomial quantal release parameters p and n when 0.5–2 mM ethimizol was used. This substance facilitated transmission at synapses with a low initial level of transmitter release. This substance facilitated transmission at synapses with a low initial level of transmitter release. Ethimizol was also found to have a postsynaptic action, consisting of reducing amplitude at a concentration of 5–10 mM and prolonging synaptic currents and potentials when concentrations of 0.5–10 mM were used. The latter effect produced a considerable increase in the time integral of endplate potentials. The postsynaptic action of ethimizol is perhaps seen in its effects on features of postsynaptic ionic channels. The effects of ethimizol are discussed with a view to how it may act within the central nervous system as a nonspecific modulator.A. A. Zhdanov Leningrad State University. Translated from Neirofiziologiya, Vol. 17, No. 6, pp. 757–763, November–December, 1985.     

Biosorption of uranium(VI) by Aspergillus fumigatus

Aspergillus fumigatus removed uranium(VI) very rapidly and reached equilibrium within 1 h of contact of biomass with the aqueous metal solution. Biosorption data fitted to Langmuir model of isotherm and a maximum loading capacity of 423 mg U g^–1 dry wt was obtained. Distribution coefficient as high as 10,000 (mg U g^–1)/(mg U ml^–1) at a residual metal ion concentration of 19 mg l^–1 indicates its usefulness in removal of uranium(VI) from dilute waste streams. Optimum biosorption was seen at pH 5.0 and was independent of temperature (5–50°C ). Initial metal ion concentration significantly influenced uptake capacity which brought down % (w/w) uranium(VI) removal from 90 at 200 mg U l^–1 to 35 at 1000 mg U l^–1. Presence of 0.84 mmol Fe²⁺, Fe³⁺, Ca²⁺ and Zn²⁺ had no effect on uranium(VI) biosorption unlike Al³⁺ (0.84 mM) which was inhibitory.     

Changes in mediobasal hypothalamic dopamine and GABA release: A possible mechanism underlying taurine-induced prolactin secretion

Summary Taurine (Tau), a putative inhibitory amino acid neurotransmitter, has been shown to stimulate prolactin (PRL) release. Using ovariectomized, estrogen-replaced adult rats we investigated initially the effect of this amino acid, injected by different routes, on PRL secretion in vivo. Tau (100–500 mg/kg) had no effect on PRL release when given i.p.; 15 min after i.c.v. injection of Tau (3moles), a significant increase in serum PRL levels was observed (78 ± 9 ng/ml over basal levels, p < 0.01 vs. controls). In vitro (cultured anterior pituitary cells) PRL release was not affected by a 5 h incubation with Tau (10^–3–10^–8 M). Basal dopamine (DA) or gamma-aminobutyric acid (GABA) output from superfused mediobasal hypothalamic fragments (MBH) was not affected by Tau (10^–3 M or 10^–5 M). However, during stimulation with KCl (50mM), Tau (10^–3 M) significantly lowered DA release, and increased GABA output. It is concluded that Tau acts at a central level to increase PRL secretion, most probably by modulating the hypothalamic release of neurotransmitters controlling lactotroph function.