Electrical effects of potassium and bicarbonate on proximal tubule cells ofNecturus

Summary The effects of stepwise concentration changes of K⁺ and HCO ₃ ^– in the basolateral solution on the basolateral membrane potential (V _bl) of proximal tubule cells of the doubly-perfusedNecturus kidney were examined using conventional microelectrodes. Apparent transference numbers were calculated from changes inV _bl after alterations in external K⁺ concentration from 1.0 to 2.5mm (t _{K, 1.0–2.5}), 2.5 to 10, and in external HCO ₃ ^– concentration (at constant pH) from 5 to 10mm (t _{HCO3, 5–10}), 10 to 20, or 10 to 50.t _{K, 2.5–10} was 0.38±0.02 under control conditions but was sharply reduced to 0.08±0.03 (P>0.001) by 4mm Ba⁺⁺. This concentration of Ba⁺⁺ reducedV _bl by 9±1 mV (at 2.5 external K⁺). Perfusion with SITS (5×10^–4 m) for 1 hr hyperpolarizedV _bl by 10±3 mV and increasedt _{K, 2.5–10} significantly to 0.52±0.01 (P<0.001). Ba⁺⁺ application in the presence of SITS depolarizedV _bl by 22±3 mV. In control conditionst _{HCO3, 10–50} was 0.63±0.05 and was increased to 0.89±0.07 (P<0.01) by Ba⁺⁺ but was decreased to 0.14±0.02 (P<0.001) by SITS. In the absence of apical and basolateral chloride, the response ofV _bl to bicarbonate was diminished but still present (t _{HCO3, 10–20} was 0.35±0.03). Intracellular pH, measured with liquid ion-exchange microelectrodes, increased from 7.42±0.19 to 7.57±0.17 (P<0.02) when basolateral bicarbonate was increased from 10 to 20mm at constant pH. These data show that the effects of bicarbonate onV _bl are largely independent of effects on the K⁺ conductance and that there is a significant current-carrying bicarbonate pathway in the basolateral membrane. Hence, both K⁺ and HCO ₃ ^– gradients are important in the generation ofV _bl, and their relative effects vary reciprocally.     

Regulation of the basolateral potassium conductance of theNecturus proximal tubule

Summary Two methods, the measurement of the response of the basolateral membrane potential (V _bl) of proximal tubule cells ofNecturus to step changes in basolateral K⁺ concentration, and cellular cable analysis, were used to assess the changes in basolateral potassium conductance (G _K) caused by a variety of maneuvers. The effects of some of these maneuvers on intracellular K⁺ activity (a _K ⁱ ) were also evaluated using double-barreled ion-selective electrodes. Perfusion with 0mm K⁺ basolateral solution for 15 min followed by 45 min of 1mm K⁺ solution resulted in a fall in basolateral potassium (apparent) transference number (t _K),V _bl anda _K ⁱ . Results of cable analysis showed that total basolateral resistance,R _b , rose. The electrophysiological effects of additional manipulations, known to inhibit net sodium reabsorption across the proximal tubular epithelium ofNecturus, were also investigated. Ouabain caused a fall int _K accompanied by large decreases ina _K ⁱ andV _bl. Lowering luminal sodium caused a fall int _K and a small reduction inV _bl. Selective reduction of peritubular sodium, a maneuver that has been shown to block sodium transport from lumen to peritubular fluid, also resulted in a significant decrease int _K. These results suggest thatG _K varies directly with rate of transport of the sodium pump, irrespective of the mechanism of change in pump turnover.Part of this material has been presented at the 10th International Conference on Biological Membranes (Cohen & Giebisch, 1984).     

Synthesis and biological activity of oxytocin analogues containing unnatural amino acids in position 9: structure activity study

We report the solid phase synthesis and some pharmacological properties of 24 oxytocin (OT) analogues. Basic modifications at position 9 (introduction of l- or d-β-(2-thienyl)-alanine [L- or D-Thi], or l- or d-3-Pyridylalanine [l- or d-3-Pal]) were combined with d-tyrosine(OEthyl) [d-Tyr(Et)] or d-1-naphthylalanine [d-1-Nal] in position 2 and β-mercaptopropionic acid (Mpa) in position 1 modifications in altogether 14 analogues. Additionally, 8 analogues having α-aminoisobutyric acid [Aib] or d-1,2,3,4-tetrahydroisoquinoline-3-carboxylic acid (d-Tic) or diethylglycine (Deg) in position 9 and d-Tyr(Et) or d-1-Nal or d-Tic in position 2 and Mpa or Pen (ββ-dimethylcysteine) in position 1 were prepared. Two of these analogues have one more modification in position 6, i.e. Pen. Furthermore, two analogues having Mpa in position 1 and d-Tyr(Et) or d-1-Nal in position 2 were prepared for comparison purposes. The analogues were tested for rat uterotonic activity in vitro, in the rat pressor assay and for binding affinity to human OT receptor. The analogue having the highest anti-oxytocic activity was [Mpa¹, d-Tyr(Et)², Deg⁹]OT (pA₂ = 8.68 ± 0.26); this analogue was also selective.     

Electrogenic H<Superscript>+</Superscript> Transport and pH Gradients Generated by a V-H<Superscript>+</Superscript>-ATPase in the Isolated Perfused Larval <Emphasis Type="Italic">Drosophila</Emphasis> Midgut

A method for microperfusion of isolated segments of the midgut epithelium of Drosophila larvae has been developed to characterize cellular transport pathways and membrane transporters. Stereological ultrastructural morphometry shows that this epithelium has unusually long tight junctions, with little or no lateral intercellular volume normally found in most epithelia. Amplification of the apical and basal aspects of the cells, by ≈ 17-fold and ≈ 7-fold, respectively, predicts an almost exclusively transcellular transport system for solutes. This correlates with the high lumen-negative transepithelial potential (V_t) of 38 to 45 mV and high resistance (R_t) of 800 to 1400 Ω • cm² measured by terminated cable analysis, in contrast to other microperfused epithelia like the renal proximal tubule. Several blockers (amiloride 10⁻⁴ M, ouabain 10⁻⁴ M, bumetanide 10⁻⁴ M), K⁺-free solutions, or organic solutes such as D-glucose 10 mM or DL-alanine 0.5 mM failed to affect V_t or R_t. Bafilomycin-A₁ (3 to 5 μM) decreased V_t by ≈ 40% and short-circuit current (I_sc) by ≈ 50%, and decreased intracellular pH when applied from the basal side only, consistent with an inhibition of an electrogenic V-H⁺-ATPase located in the basal membrane. Gradients of H⁺ were detected by pH microelectrodes close to the basal aspect of the cells or within the basal extracellular labyrinth. The apical membrane is more conductive than the basal membrane, facilitating secretion of base (presumably HCO₃⁻), driven by the basal V-H⁺-ATPase.     

Role of Cl− in Electrogenic H+ Secretion by Cortical Distal Tubule

The presence of an electrogenic H⁺-ATPase has been described in the late distal tubule, a segment which contains intercalated cells. The present paper studies the electrogenicity of this transport mechanism, which has been demonstrated in turtle bladder and in cortical collecting duct. Transepithelial PD (V _t ) was measured by means of Ling-Gerard microelectrodes in late distal tubule of rat renal cortex during in vivo microperfusion. The tubules were perfused with electrolyte solutions to which 2 × 10⁻⁷ m bafilomycin or 4.6 × 10⁻⁸ m concanamycin were added. No significant increase in lumen-negative V _t upon perfusion with these inhibitors as compared to control, was observed as well as when 10⁻³ m amiloride, 10⁻⁵ m benzamil or 3 mm Ba²⁺ were perfused alone or in combination. The effect of an inhibition of electrogenic H⁺ secretion, i.e., increase in lumen-negative V _t by 2–4 mV, was observed only when Cl⁻ channels were blocked by 10⁻⁵ m 5-nitro-2-(3-phenylpropylamino) benzoic acid (NPPB). This blocker also reduced the rate of bicarbonate reabsorption in this segment from 1.21 ± 0.14 (n= 8) to 0.62 ± 0.03 (8) nmol.cm⁻².sec⁻¹ as determined by stationary microperfusion and pH measurement by ion-exchange resin microelectrodes. These results indicate that: (i) the participation of the vacuolar H⁺ ATPase in the establishment of cortical late distal tubule V _t is minor in physiological conditions, but can be demonstrated after blocking Cl⁻ channels, thus suggesting a shunting effect of this anion; and, (ii) the rate of H⁺ secretion in this segment is reduced by a Cl⁻ channel blocker, supporting coupling of H⁺-ATPase with Cl⁻ transport. Received: 6 July 1996/Revised: 27 December 1996     

Intraspecific karyotype divergence inTriticum araraticum (Poaceae)

Karyotypes of 185 accessions ofTriticum araraticum Jakubz. (2n = 28 = 4x = A^tA^tGG) from Iraq, Iran, Turkey, and Transcaucasia were analyzed using C-banding technique. All accessions showed a certain degree of C-banding polymorphism and further karyotypic diversity was generated by structural rearrangements, mainly translocations. Eighty-one accessions had the normal karyotype similar to that ofT. timopheevii (cultivation), i.e., they showed C-banding polymorphism but no chromosomal rearrangements based on the resolving power of the C-banding technique. One-hundred four accessions showed 34 karyotypic variants, 31 had reciprocal translocations with the breakpoints in the centromeric regions of chromosomes. Three showed reciprocal translocations with the breakpoints in intercalary regions of chromosomes. A paracentric inversion for 7A^t chromosome was observed in some accessions. The rearranged karyotypes differed from the normal by one translocation in 21 variants, by two in 9 variants, by three in 1 variant, and by four in 2 variants of karyotypes. Translocations occurred more frequenty in the chromosomes of G-genome than of A^t-genome. Individual chromosomes differed in the frequencies of their involvement in translocations. Each geographical region contained a unique spectrum of translocations. Karyotypic diversity was the highest in Iraq followed by Transcaucasia and Turkey. Iran showed little karyotypic variation. Based on karyotypic analysis, Iraq should be considered as a centre of origin and primary centre of diversity ofT. araraticum.     

Murein biosynthesis in ether permeabilized Escherichia coli starting from early peptidoglycan precursors

ETB, ether treated bacteria, from E. coli and other Gram-negative strains, contain in a cell-free system all enzymes necessary for murein biosynthesis. Starting with a variety of combinations of peptidoglycan precursors, high yields of sodium dodecylsulfate (SDS, 4%) insoluble murein or murein like material were synthesized. The amount of newly synthesized SDS insoluble material (NSM) was dependent upon the growing phase at which cells had been harvested for preparation of ETB. This data may provide some insight into the regulation of peptidoglycan biosynthesis.Starting from early peptidoglycan precursors, the cell-free synthesis of NSM was inhibited by specific inhibitors of murein synthesis, such as D-cycloserine, D-fluoroalanine, 2-amino-ethylphosphonate, analogues of D-alanyl-D-alanine and -lactam antibiotics at appropriate concentrations. Some D-alanyl-D-alanine analogues and 4-chlorodiaminopimelic acid were incorporated into NSM in place of their corresponding natural substrates.Abbreviations ETB ether treated bacteria (E. coli) - NSM newly synthesized SDS insoluble material - SDS sodium dodecylsulfate - UDP-MAG UDP-MurNAc-dipeptide, UDP-N-acetylmuramoyl-L-alanyl-D-glutamate - UDP-MAGD UDP-MurNAc-tripeptide, UDP-N-acetylmuramoyl-L-alanyl-D-glutamyl-meso-2,6-diaminopimelate - UDP-MAGDAA UDP-MurNAc-pentapeptide, UDP-N-acetylmuramoyl-L-alanyl-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine - GINAc N-Acetylglucosamine Definitions Murein highly cross-linked bagshaped peptidoglycan (Weidel and Pelzer 1964)     

Competition for L-glutamate between specialised and versatile Clostridium species

Clostridium cochlearium could be reproducibly enriched in an L-aspartate- and L-glutamate-limited, anaerobic chemostat inoculated with anaerobic sludge. L-glutamate, L-glutamine and L-histidine were the only fermentable substrates. Less specialised clostridia of the C. tetanomorphum type could only be isolated from batch enrichments with L-glutamate and L-aspartate as energy sources. Competition experiments with C. cochlearium and C. tetanomorphum in a L-glutamate-limited chemostat resulted in the selective elimination of the latter species. Addition of glucose to the medium resulted in coexistence of both species. The molar growth yields for L-glutamate at different dilution rates at 30°C were determined for both species. The maximum specific growth rates on L-glutamate were 0.55 h^-1 for C. cochlearium and 0.35 h^-1 for C. tetanomorphum.     

In position 7 l- and d-Tic-substituted oxytocin and deamino oxytocin: NMR study and conformational insights

Incorporation of l- or d-Tic into position 7 of oxytocin (OT) and its deamino analogue ([Mpa¹]OT) resulted in four analogues, [l-Tic⁷]OT (1), [d-Tic⁷]OT (2), [Mpa¹,l-Tic⁷]OT (3) and [Mpa¹,d-Tic⁷]OT (4). Their biological properties were described by Fragiadaki et al. (Eur J Med Chem 42:799–806, 2007). Their NMR study (NOESY, TOCSY, ¹H–¹³C HSQC spectra) is presented here. Analogues 1, 3 and 4 showed partial agonistic activity, analogue 2 was pure antagonist, suggesting that a cis conformation between residues 6 and 7 of the molecule does not result in antagonistic activity. However, the reduction in agonistic activity of analogues 1, 3 and 4 in comparison to oxytocin is consistent with the reduction of the trans conformation form. Binding affinity for the human oxytocin receptor with IC₅₀ value of 130, 730, 103, and 380 nM for peptides 1, 2, 3, and 4, respectively, showed lower affinity in the case of d analogues. Deamination slightly increased the affinity. The existence of both cis and trans configurations of the Cys⁶-d-Tic⁷ bond is supported by observation of two sets of cross-peaks for ¹H and ¹³C nuclei for most of the residues of the peptide not only in NOESY and TOCSY but also in ¹H–¹³C HSQC spectra. The MS and HPLC indicate the presence of a single molecule/peptide, and NMR data thus suggest that this second set of peaks is due to the cis conformation.     

Biochemical pharmacology of total retro-inverso analogues of bradykinin and angiotensin II: Molecular recognition by G-protein-coupled receptors and angiotensin converting enzyme

Summary Total retro-inverso (TRI) analogues of bradykinin (BK), the B_2a -selective kinin antagonistd-Arg⁰[Hyp³,d-Phe⁷,Leu⁸]BK, angiotensin II (AT II) and the AT II antagonist Saralasin ([Sar¹, Val⁵, Ala⁸]AT II) were prepared by conventional solid-phase synthesis. Molecular recognition of TRI peptidomimetics by G-protein-coupled receptors was studied by competitive radioligand displacement experiments. TRI analogues ofd-Arg⁰[Hyp³,d-Phe⁷,Leu⁸]BK specifically bound to the kidney medulla B_2a bradykinin receptor with affinities (K _d ) ranging from 64 μM to 4 μM. Conversely, TRI analogues of BK, AT II and Saralasin did not bind to either the B_2a bradykinin receptor or the rat AT_1a AT II receptor, respectively. These studies indicate that the TRI strategy is more compatible with the synthesis of antagonists than ‘agonists’. Three TRI peptidomimetics ofd-Arg⁰[Hyp³,d-Phe⁷,Leu⁸]BK were weak inhibitors of angiotensin converting enzyme. All other TRI peptidomimetics had no effect upon ACE activity. These data endorse the utility of the TRI strategy for the synthesis of protease-resistant antagonists of peptide hormones and neuropeptides.     

A general amino-acid permease is inducible in Chlorella vulgaris

Glucose or non-metabolizable glucose analogues induce two systems of amino-acid transport in Chlorella vulgaris: an arginine-lysine system and a proline system. An additional third system of amino-acid transport is induced when glucose and an inorganic nitrogen source are present during glucose induction. The transport rates in glucose-NH ₄ ⁺ -treated cells are 10 to 80 times higher than in untreated cells. The transport system shows a rather broad specificity and catalyses the transport of at least ten neutral and acidic amino acids. Three of these amino acids (l-alanine, l-serine and glycine) are transported by the proline system as well. The system is specific for l-amino acids and has a pH optimum between 5 and 6. Transport by this system seems to be active, since amino acids are accumulated inside the cells.     

Isolation and characterization of free glycans of the oligomannoside type from the extracellular medium of a plant cell suspension

The oligosaccharides Man₅GlcNAc and Man₃(Xyl)GlcNAc(Fuc)GlcNAc presumed to originate fromN-glycosyl proteins have been purified from an extracellular medium (concentration: 2–5 mg/l of 14 day cultures) of white campion (Silene alba) suspension culture. Their primary structures have been determined by¹H-400-MHz NMR spectroscopy and FAB-MS spectrometry. They are probably the result of an autophagic process including protein catabolism due to sucrose starvation. Additional identification of digalactosylglycerol (galactolipid breakdown) argues for this hypothesis.Abbreviations Fuc l-fucose - Man d-mannose - Xyl d-xylose - GlcNAc N-acetyl-d-glucosamine - Gal d-galactose - Glc d-glucose - FAB-MS fast atom bombardment mass spectrometry - NMR nuclear magnetic resonance     

Studies on growth inhibition by lectins of penicillia and aspergilli

It has previously been shown in our laboratory that wheat germ agglutinin (WGA) binds to Trichoderma viride and inhibits growth of this fungus. Here we report on the effect of WGA, soybean agglutinin (SBA) and peanut agglutinin (PNA) on Penicillia and Aspergilli. Binding of the lectins to the fungi was examined with the aid of their fluorescein isothiocyanate (FITC) conjugated derivatives. FITC-WGA bound to young hyphal walls of all species, in particular to the hyphal tips and septa, in agreement with the chitinous composition of the cell walls of the two genera. Hyphae of all species examined were labelled, though in different patterns, by FITC-SBA and FITC-PNA, suggesting the presence of galactose residues on their surfaces. Young conidiophores, metulae (of the Penicillia), vesicles (of the Aspergilli), sterigmata and young spores, were also labelled. The three lectins inhibited incorporation of [³H]acetate, N-acetyl-D-[³H]glucosamine and D-[¹⁴C]galactose into young hyphae of Aspergillus ochraceus, indicating interference with fungal growth. Inhibition of spore germination by the three lectins was also observed. Preincubation of the lectins with their specific saccharide inhibitors prevented binding and the inhibitory effects. We conclude that lectins are useful tools for the study of fungal cell surfaces, and may also serve as an important aid in fungal classification. The present findings also support the suggestion that one role of lectins in plants is protection against fungal pathogens.Abbreviations Con A concanavalin A - PNA peanut agglutinin - SBA soybean agglutinin - WGA wheat germ agglutinin - FITC fluorescein isothiocyanate - GlcNAc N-acetyl-D-glucosamine - GalNAc N-acetyl-D-galactosamine     

Sodiumd-glucose cotransport in the gill of marine mussels: Studies with intact tissue and brush-border membrane vesicles

Summary Glucose transport was studied in marine mussels of the genusMytilus. Initial observations, with intact animals and isolated gills, indicated that net uptake of glucose occurred in mussels by a carrier-mediated, Na⁺-sensitive process. Subsequent studies included use of brush-border membrane vesicles (BBMV) in order to characterize this transport in greater detail. The highest activity of Na⁺-dependent glucose transport was found in the brush-border membrane fractions used in this study, while basal-lateral membrane fractions contained the highest specific binding of ouabain. Glucose uptake into BBMV showed specificity for Na⁺, and concentrative glucose transport was observed in the presence of an inwardly directed Na⁺ gradient. There was a single saturable pathway for glucose uptake, with an apparentK _t of 3 m in BBMV and 9 m in intact gills. The kinetics of Na⁺ activation of glucose uptake were sigmoidal, with apparent Hill coefficients of 1.5 in BBMV and 1.2 in isolated gills, indicating that more than one Na⁺ may be involved in the transport of each glucose. Harmaline inhibited glucose transport in mussel BBMV with aK _i of 44 m. The uptake of glucose was electrogenic and stimulated by an inside-negative membrane potential. The substrate specificity in intact gills and BBMV resembled that of Na⁺-glucose cotransporters in other systems;d-glucose and -methyl glucopyranoside were the most effective inhibitors of Na⁺-glucose transport,d-galactose was intermediate in its inhibition, and there was little or no effect ofl-glucose,d-fructose, 2-deoxy-glucose, or 3-O-methyl glucose. Phlorizin was an effective inhibitor of Na⁺-glucose uptake, with an apparentK _i of 154nm in BBMV and 21nm in intact gills. While the qualitative characteristics of glucose transport in the mussel gill were similar to those in other epithelia, the quantitative characteristics of this process reflect adaptation to the seawater environment of this animal.     

Electrical characteristics of stomatal guard cells: The contribution of ATP-dependent, “Electrogenic” transport revealed by current-voltage and difference-current-voltage analysis

Summary The steady-state, current-voltage (I–V) characteristics of stomatal guard cells fromVicia faba L. were explored by voltage clamp using conventional electrophysiological techniques, but with double-barrelled microelectrodes containing 50mm K⁺-acetate. Attention was focused, primarily, on guard cell response to metabolic blockade. Exposures to 0.3–1.0mm NaCN and 0.4mm salicylhydroxamic acid (SHAM) lead consistently to depolarizing (positive-going) shifts in guard cell potentials (V _m ), as large as +103 mV, which were generally complete within 60–90 sec (mean response half-time, 10.3±1.7 sec); values forV _m in NaCN plus SHAM were close or positive to –100 mV and well removed from the K⁺ equilibrium potential. Guard cell ATP content, which was followed in parallel experiments, showed a mean half-time for decay of 10.8±1.9 ([ATP] _t=0, 1.32±0.28mm; [ATP] _{t=60–180sec}, 0.29±0.40mm). In respiring cells, theI–V relations were commonly sigmoid aboutV _m or gently concave to the voltage axis positive toV _m . Inward- and outward-rectifying currents were also observed, especially near the voltage extremes (nominally –350 and +50 mV). Short-circuit currents (atV=0 mV) were typically about 200–500 mA m^–2. The principal effect of cyanide early on was to linearize theI–V characteristic while shifting it to the right along the voltage axis, to decrease the membrane conductance, and to reduce the short-circuit current by approx. 50–75%. The resulting difference-current-voltage (dI–V) curves (±cyanide) showed a marked sensitivity to voltages negative from –100 mV and, when clamp scans had been extended sufficiently, they revealed a distinct minimum near –300 mV before rising at still more negative potentials. The difference currents, along with changes in guard cell potential, conductance and ATP content are interpreted in context of a primary, ATP-consuming ion pump. FittingdI–V curves to reaction kinetic model for the pump [Hansen, U.-P., et al. (1981)J. Membrane Biol. 63:165; Blatt, M.R. (1986)J. Membrane Biol. 92:91] implicates a stoichiometry of one (+) charge transported outward for each ATP hydrolyzed, with pump currents as high as 200 mA m^–2 at the free-running potential. The analysis indicates that the pump can comprise more than half of the total membrane conductance and argues against modulations of pump activity alone, as an effective means to controlling K⁺ transport for stomatal movements.     

A practical synthesis of N α -Fmoc protected l-threo-β-hydroxyaspartic acid derivatives for coupling via α- or β-carboxylic group

Abstract  

A simple and practical general synthetic protocol towards orthogonally protected tHyAsp derivatives fully compatible with Fmoc solid-phase peptide synthetic methodology is reported. Our approach includes enantioresolution of commercially available d,l-tHyAsp racemic mixture by co-crystallization with l-Lys, followed by ion exchange chromatography yielding enantiomerically pure l-tHyAsp and d-tHyAsp, and their selective orthogonal protection. In this way N ^α -Fmoc protected tHyAsp derivatives were prepared ready for couplings via either α- or β-carboxylic group onto the resins or the growing peptide chain. In addition, coupling of tHyAsp via β-carboxylic group onto amino resins allows preparation of peptides containing tHyAsn sequences, further increasing the synthetic utility of prepared tHyAsp derivatives.     

The Na+-independentd-glucose transporter in the enterocyte basolateral membrane: Orientation and cytochalasin B binding characteristics

Summary Phloridzin-insensitive, Na⁺-independentd-glucose uptake into isolated small intestinal epithelial cells was shown to be only partially inhibited by trypsin treatment (maximum 20%). In contrast, chymotrypsin almost completely abolished hexose transport. Basolateral membrane vesicles prepared from rat small intestine by a Percoll^® gradient procedure showed almost identical susceptibility to treatment by these proteolytic enzymes, indicating that the vesicles are predominantly oriented outside-out. These vesicles with a known orientation were employed to investigate the kinetics of transport in both directions across the membrane. Uptake data (i.e. movement into the cell) showed aK _t of 48mm and aV _max of 1.14 nmol glucose/mg membrane protein/sec. Efflux data (exit from the cell) showed a lowerK _t of 23mm and aV _max of 0.20 nmol glucose/mg protein/sec.d-glucose uptake into these vesicles was found to be sodium independent and could be inhibited by cytochalasin B. TheK _t for cytochalasin B as an inhibitor of glucose transport was 0.11 m and theK _D for binding to the carrier was 0.08 m.d-glucose-sensitive binding of cytochalasin B to the membrane preparation was maximized withl- andd-glucose concentrations of 1.25m. Scatchard plots of the binding data indicated that these membranes have a binding site density of 8.3 pmol/mg membrane protein. These results indicate that the Na⁺-independent glucose transporter in the intestinal basolateral membrane is functionally and chemically asymmetric. There is an outward-facing chymotrypsin-sensitive site, and theK _t for efflux from the cell is smaller than that for entry. These characteristics would tend to favor movement of glucose from the cell towards the bloodstream.     

Purification and characterization of myo-inositol 6-O-methyltransferase from Vigna umbellata Ohwi et Ohashi

The cyclitol 1d-4-O-methyl-myo-inositol (d-ononitol) is accumulated in certain legumes in response to abiotic stresses. S-Adenosyl-l-methionine:myo-inositol 6-O-methyltransferase (m6OMT), the enzyme which catalyses the synthesis of d-ononitol, was extracted from stems of Vigna umbellata Ohwi et Ohashi and purified to apparent homogeneity by a combination of conventional chromatographic techniques and by affinity chromatography on immobilized S-adenosyl-l-homocysteine (SAH). The purified m6OMT was photoaffinity labelled with S-adenosyl-l-[¹⁴C-methyl]methionine. The native molecular weight was determined to be 106 kDa, with a subunit molecular weight of 40 kDa. Substrate-saturation kinetics of m6OMT for myo-inositol and S-adenosyl-l-methionine (SAM) were Michaelis-Menten type with K _m values of 2.92 mM and 63 M, respectively. The SAH competitively inhibited the enzyme with respect to SAM (K _i of 1.63 M). The enzyme did not require divalent cations for activity, but was strongly inhibited by Mn²⁺, Zn²⁺ and Cu²⁺ and sulfhydryl group inhibitors. The purified m6OMT was found to be highly specific for the 6-hydroxyl group of myo-inositol and showed no activity on other naturally occurring isomeric inositols and inositol O-methyl-ethers. Neither d-ononitol, nor d-3-O-methyl-chiro-inositol, d-1-O-methyl-muco-inositol or d-chiro-inositol (end products of the biosynthetic pathway in which m6OMT catalyses the first step), inhibited the activity of the enzyme.Abbreviations DTT dithiothreitol - m6OMT myo-inositol 6-O-methyltransferase - SAH S-adenosyl-l-homocysteine - SAM S-adenosyl-l-methionine We are greatful to Professor M. Popp (University of Vienna) for helpful discussion and comment. This work was supported by Grant P09595-BIO from the Austrian Science Foundation (FWF).     

Plant cell graft chimeras obtained by co-culture of isolated protoplasts

Summary Heterospecific chimeralSolanum nigrum (+)Solanum tuberosum plants were obtained by cell grafting in protoplast co-cultures. Periclinal, sectorial, and mericlinal chimeras have been identified by various morphological and cytological characteristics.Morphogenesis predominantly began in periclinal chimeral organization. Cells of different species have been found to be interconnected by secondary plasmodesmata. Plantlets of all chimeral lines were grown to flowering under tissue culture conditions and some also in the greenhouse. Aspects of organogenesis and interspecific cooperation are discussed.Abbreviations B 5 culture medium (Gamborg et al. 1968) supplemented with 2.5M 6-benzyladenin - L1, L2, L3 epidermis (L1), subepidermal layer (L2), core (L3) - MS culture medium (Murashige andSkoog 1962) - n, n _w symbols used for the indication ofSn-F (n) orSn-F-W2 (n _w ) tissue in L1, L2 or L3 - Sn Solanum nigrum - Sn-F is an atrazine-resistant biotype - Sn-F-W2 is a plastid mutant malbino derivative ofSn-F - St Solanum tuberosum - St-H²258 is a dihaploid clone - t symbol used the indication ofSt-H²258 tissue in L1, L2 or L3 - V-KM culture medium (Binding and Nehls 1977) Dedicated to Professor Dr.Josef Straub, late Director of the Max-Planck-Institute für Züchtungsforschung at Cologne, who was the first to study the production of chimeras by callus association in 1972.     

Saccharide binding to three Gal/GalNAc specific lectins: Fluorescence,spectroscopic and stopped-flow kinetic studies

Fluorescence and stopped-flow spectrophotometric studies on three plant lectins fromPsophocarpus tetragonolobus (winged bean),Glycine max (soybean) andArtocarpus integrifolia (jack fruit) have been studied usingN-dansylgalactosamine as a fluorescent ligand. The best monosaccharide for the winged bean agglutinin I (WBA I) and soybean (SBA) is Me-GalNAc and for jack fruit agglutinin (JFA) is Me-Gal. Examination of the percentage enhancement and association constants (1.51×10⁶, 6.56×10⁶ and 4.17×10⁵ M^–1 for SBA, WBA I and JFA, respectively) suggests that the combining regions of the lectins SBA and WBA I are apolar whereas that of JFA is polar. Thermodynamic parameters obtained for the binding of several monosaccharides to these lectins are enthalpically favourable. The binding of monosaccharides to these lectins suggests that the-OH groups at C-1, C-2, C-4 and C-6 in thed-galactose configuration are important loci for interaction with these lectins. An important finding is that the JFA binds specifically to Galß1-3GaINAc with much higher affinity than the other disaccharides which are structurally and topographically similar.The results of stopped-flow spectrometry on the binding ofN-dansylgalactosamine to these lectins are consistent with a bimolecular single step mechanism. The association rate constants (2.4×10⁵, 1.3×10⁴, and 11.7×10⁵ M^–1 sec^–1 for SBA, WBA I and JFA, respectively) obtained are several orders of magnitude slower than the ones expected for diffusion controlled reactions. The dissociation rate constants (0.2, 3.2×10^–2, 83.3 sec^–1 for SBA, WBA I and JFA, respectively) obtained for the dissociation ofN-dansylgalactosamine from its lectin complex are slowest for SBA and WBA I when compared with any other lectin-ligand dissociation process.Abbreviations SBA Soybean agglutinin - WBA I Winged bean agglutinin (Basic) - JFA Jack fruit agglutinin - PNA Peanut agglutinin - Con A Concanavalin A - Dansyl (Dns) 5-dimethylaminonaphthalene-I-sulphonyl - 2GaINDns N-dansylgalactosamine - dGal 2-deoxygalactose - l-Ara l-arabinose - d-Fuc d-fucose - l-Rha l-rhamnose - N-acetyllactosamine Galß4GlcNAc - melibiose Gal6Glc