The thermodynamic parameters of the interaction of concanavalin A with glycosyl-free liposomes: a microcalorimetric study

The nonspecific interaction of the mitogenic lectin Concanavalin A (Con A) with glycosyl-free liposomes of various composition has been investigated by microcalorimetric titration measurements. The results obtained show the following features of main interest: (1) the affinity constants (K_a) of the interaction of Con A with liposomal bilayers are in the order of magnitude 10⁵–10⁶M^?1. The reaction enthalpies (ΔH) are positive, and small (approximately 0.1 KJ mol^?1 lipid), compared to the free energy terms (?ΔG = 30–40 KJ mol^?1 lipid). All lectin–lipid interactions are strongly entropy-controlled (ΔH/TΔS < 1.0). These thermodynamic features are characteristic for hydrophobic interaction processes. (2) The liposomal head-group charge does not significantly affect the lipid-affinity of Con A. Electrostatic forces thus appear to play a minor role in lectin–lipid interactions. (3) The lipid affinity of Con A is sensitive to the fluidity of the liposomal bilayers, increasing with increasing fluidity. Below the gel to liquid-crystal phase transition temperature, the lectin binding to liposomal bilayers is inhibited. (4) The binding isotherms, corresponding to the interaction of Con A with liposomes, composed of tightly packed, saturated phospholipids, exhibit pronounced positive cooperativity. This phenomenon is absent in the binding curves, corresponding to the interaction of Con A with more fluid liposomal bilayers. (5) The Con A specific inhibitor α-D -methylmannopyranoside (50 mM) drastically increases the molar reaction enthalpy. The K_a term is significantly reduced in presence of the inhibitor sugar. Urea induces analogous changes in the thermodynamic parameters of the lectin–lipid interaction. The effects of α-D -methylmannopyranoside are thus not Con A specific, but are attributable to solvent effects. (6) It was shown that the binding of one Con A molecule affects a large number (approximately 1000) of phospholipid molecules in the liposomal bilayer. (7) The affinity constants (K_a) of the interaction of Con A with glycosyl-free lipids are smaller by a factor of approximately 10, compared to the K_a terms, reported for Con A binding to biological membranes. The presence of glycosidic receptor groups thus controls the specificity of lectin–membrane interactions, whereas the nonspecific lectin–lipid interactions appear to represent the main driving force for the strong attachment of the lectin to membrane surfaces.     

A comparative evaluation of the level of concanavalin a binding by enriched plasma membrane fractions from developing soybean roots

The Concanavalin A (Con A) binding capacity of plasma membranes isolated from meristematic and mature regions of four-day-old soybean (Glycine max L. Merr. cv. Wells) roots was compared. Con A binding was studied using a radiochemical assay with tritiated (³H)-Con A and by an electron microscope technique using Con A-ferritin (Con A-F). In both cases, plasma membranes isolated from meristematic tissue bound significantly more Con A than did corresponding membranes from mature tissue. The relative difference in reactivity, as determined by the two procedures, was approximately 49% (³H-Con A) and 46% (Con A-F). In contrast, K_m values, determined from ³H-Con A binding curves, were approximately the same, indicating that receptor sites on plasma membranes from both sources were qualitatively similar.     

Influence of mannan epitopes in glycoproteins--Concanavalin A interaction. Comparison of natural and synthetic glycosylated proteins

Two natural glycoproteins/glycoenzymes, invertase and glucoamylase, and two neoglycoconjugates, synthetized from Saccharomyces cerevisiae mannan, bovine serum albumin and penicillin G acylase were tested for interaction with lectin Concanavalin A (Con A). The interaction of natural and synthetic glycoproteins with Con A was studied using three different experimental methods: (i) quantitative precipitation in solution (ii) sorption to Con A immobilized on bead cellulose; and (iii) kinetic measurement of the interaction by surface plasmon resonance. Prepared neoglycoproteins were further characterized: saccharide content, molecular weight, polydispersion, kinetic and equilibrium association constants with Con A were determined. It can be concluded that the used conjugation method proved to be able to produce neoglycoproteins with similar properties like natural glycoproteins, i.e. enzymatic activity (protein part) and lectin binding activity (mannan part) were preserved and the neoglycoconjugates interact with Con A similarly as natural mannan-type glycoproteins.     

Characteristics of the Inhibition of Potato (Solanum tuberosum) Invertase by an Endogenous Proteinaceous Inhibitor in Potatoes

Effect of several parameters on inhibition of potato (Solanum tuberosum) invertase by its endogenous proteinaceous inhibitor was determined using homogeneous preparations of both proteins. The inhibitor and invertase formed an inactive complex with an observed association rate constant at pH 4.70 and 37°C of 8.82 × 10² per molar per second and a dissociation rate constant of 3.3 × 10⁻³ per minute. The inhibitor appeared to bind to invertase in more than one step. Initial interaction (measured by loss of invertase activity) was rapid, relatively weak, readily reversible (K_i of 2 × 10⁻⁶ molar) and noncompetitive with substrate at pH 4.70. Initial interaction was probably followed by isomerization to a tighter (K_i of 6.23 × 10⁻⁸ molar) complex, which dissociated slowly with a half-time of 3.5 hour. Interaction between enzyme and inhibitor appeared to be of ionic character and essentially pH independent between pH 3.5 and 7.4.     

Multi-Mode Binding of Cellobiohydrolase Cel7A from Trichoderma reesei to Cellulose

Enzymatic hydrolysis of recalcitrant polysaccharides like cellulose takes place on the solid-liquid interface. Therefore the adsorption of enzymes to the solid surface is a pre-requisite for catalysis. Here we used enzymatic activity measurements with fluorescent model-substrate 4-methyl-umbelliferyl-β-D-lactoside for sensitive monitoring of the binding of cellobiohydrolase TrCel7A from Trichoderma reesei to bacterial cellulose (BC). The binding at low nanomolar free TrCel7A concentrations was exclusively active site mediated and was consistent with Langmuir''s one binding site model with K _d and A _max values of 2.9 nM and 126 nmol/g BC, respectively. This is the strongest binding observed with non-complexed cellulases and apparently represents the productive binding of TrCel7A to cellulose chain ends on the hydrophobic face of BC microfibril. With increasing free TrCel7A concentrations the isotherm gradually deviated from the Langmuir''s one binding site model. This was caused by the increasing contribution of lower affinity binding modes that included both active site mediated binding and non-productive binding with active site free from cellulose chain. The binding of TrCel7A to BC was found to be only partially reversible. Furthermore, the isotherm was dependent on the concentration of BC with more efficient binding observed at lower BC concentrations. The phenomenon can be ascribed to the BC concentration dependent aggregation of BC microfibrils with concomitant reduction of specific surface area.     

Physical-chemical studies on the role of the metal ions in concanavalin A.

Substitution of Co²⁺ for Mn²⁺ in concanavalin A generates characteristic circular dichroism and magnetic circular dichroism spectra which are strongly affected by the concentration of Ca²⁺. With three equivalents of Ca²⁺ per protomer of [(Co²⁺)Con A], no spectral effects of addition of α-methyl-d-glucopyranoside can be demonstrated. With one equivalent of Ca²⁺, however, α-methyl-d-glucopyranoside alters the circular dichroism and magnetic circular dichroism spectra in a manner identical to that produced by adding further equivalents of Ca²⁺. Under these same conditions the higher molecular weight carbohydrates, trehalose and melezitose, cause no spectral alterations in the regions investigated.The magnetic circular dichroism spectrum of [(Co²⁺)Con A] is characterized by a negative peak centered at 510 nm (θ/gauss = ?0.28 °) and a pronounced shoulder at 462 nm (θ/gauss = ? 0.16 °). Comparison of this spectrum to that of Co(H₂O)₆²⁺ indicates that the transition metal ion exhibits octahedral geometry in solution and maintains this geometry in its interaction with carbohydrate moieties.Circular dichroism experiments in the far ultraviolet region indicate a change in secondary (presumed β) structure upon interaction of Apo Con A with Mn²⁺ consistent with a more ordered arrangement. Unlike Mn²⁺, cobalt alone will not induce these secondary changes until Ca²⁺ is added. Kinetic analysis, using a mannan light scattering assay, indicates that [(Mn²⁺)Con A] and [(Co²⁺)Con A] will slowly recover cross-linking function in the absence of Ca²⁺, suggesting that the role of the metal in S₂ is to accelerate a conformational change leading to binding or effector function.Overall, the data are consistent with a suggestion by Cuatrecasas (1973) that α-methyl-d-glucopyranoside binds to a locus different from the membrane binding (or agglutination) site. Nevertheless, there are strong conformational interactions between these two sites, since α-methyl-d-glucopyranoside will elute Con A from membrane surfaces.     

Epidermal growth factor receptors on PC12 cells: Alteration of binding properties by lectins

The PC12 cell line displays cell surface receptors for both nerve growth factor (NGF) and epidermal growth factor (EGF). It has been previously shown that the lectin wheat germ agglutinin (WGA) alters the properties of NGF receptors on these cells. We now report that preincubations with either WGA or concanavalin A (Con A) decrease the binding of ¹²⁵I-EGF to PC12 cells by greater than 50%. The inhibition of binding occurred at 37°C and 4°C and could be blocked or reversed by the addition of sugars which bind specifically to WGA or Con A. Scatchard analysis revealed that these lectins decreased binding primarily by lowering the affinity of the receptor and to a lesser extent by decreasing receptor number. Succinylalion of Con A (sCon A) produced a derivative that was less effective than the native lectin in decreasing EGF binding; however, addition of an antibody against Con A restored the ability of sCon A to decrease binding. Similar to results obtained with ¹²⁵I-NGF binding, WGA but not Con A was found to increase, by scveralfold; the proportion of ¹²⁵I-EGF binding that is resistant to solubilization by Triton X-100 detergent. A potential association of the EGF receptor with cytoskeletal elements is discussed which could account for such results.     

Binding of meso-tetra(4-sulfonatophenyl)porphine to haemopexin and albumin studied by spectroscopy methods

• 1.1. The interaction of haemopexin and albumin with TPPS₄ was studied by measuring the absorption and fluorescence spectra. Haemopexin was found to have one strong TPPS₄ binding center (K_a = 3 × 10⁷M⁻¹).
• 2.2. Haem-haemopexin complex appears to have no specific binding site for TPPS₄. Occupation of the specific binding center of haemopexin molecule by a haem abolishes TPPS₄ binding.
• 3.3. Albumin was found to possess one strong TPPS₄ binding center (K_a = 3 × 10⁶M⁻¹) besides two or three weak binding sites (K_a = 2 × 10⁵M⁻¹).
• 4.4. Haern-albumin complex possesses only one weak TPPS₄ binding site (K_a = 7 × lO⁵M⁻¹). These observations suggest identity of primary binding sites of TPPS₄ and haem on albumin molecule.

     

Expression,purification and immobilization of the intracellular invertase INVA,from <Emphasis Type="Italic">Zymomonas mobilis</Emphasis> on crystalline cellulose and Nylon-6

This paper presents two immobilization methods for the intracellular invertase (INVA), from Zymomonas mobilis. In the first method, a chimeric protein containing the invertase INVA, fused through its C-terminus to CBD _Cex from Cellulomonas fimi was expressed in Escherichia coli strain BL21 (DE3). INVA was purified and immobilized on crystalline cellulose (Avicel) by means of affinity, in a single step. No changes were detected in optimal pH and temperature when INVA-CBD was immobilized on Avicel, where values of 5.5 and 30 °C, respectively, were registered. The kinetic parameters of the INVA-CBD fusion protein were determined in both its free form and when immobilized on Avicel. K _m and V _max were affected with immobilization, since both showed an increase of up to threefold. Additionally, we found that subsequent to immobilization, the INVA-CBD fusion protein was 39% more susceptible to substrate inhibition than INVA-CBD in its free form. The second method of immobilization was achieved by the expression of a 6xHis-tagged invertase purified on Ni-NTA resin, which was then immobilized on Nylon-6 by covalent binding. An optimal pH of 5.5 and a temperature of 30 °C were maintained, subsequent to immobilization on Nylon-6 as well as with immobilization on crystalline cellulose. The kinetic parameters relating to V _max increased up to 5.7-fold, following immobilization, whereas K _m increased up to 1.7-fold. The two methods were compared showing that when invertase was immobilized on Nylon-6, its activity was 1.9 times that when immobilized on cellulose for substrate concentrations ranging from 30 to 390 mM of sucrose.     

Superoxide anion and hydrogen peroxide production by chemically elicited peritoneal macrophages--induction by multiple nonphagocytic stimuli

The ability of a number of stimulants to activate an oxidative burst (OB) in oil-elicited guinea pig peritoneal exudate macrophages (MPs) was examined. The parameters of the OB were the generation and extracellular release of Superoxide anions (O₂^?) and hydrogen peroxide (H₂O₂). We found that: (1) The cocarcinogen and skin irritant phorbol myristate acetate (PMA) was the most potent OB activator—The weak cocarcinogen 4-O-methyl PMA was a proportionally less effective OB activator; (2) The lectins concanavalin A (Con A) and wheat germ agglutinin (WGA), but not soybean, Lotus, and pokeweed lectins, were also quite effective OB activators—The ability of Con A to stimulate O₂^? production was abolished by succinylation and could be prevented by the presence of α-methyl-D-mannoside; (3) Other stimulators of an OB in MPs were: N-formyl-methionyl peptides, opsonized zymosan, the Ca²⁺ ionophore A23187, phospholipase C, NaF, antimacrophage antibody, microtubule-disrupting drugs, and sodium nitroprusside—O₂^? generation induced by A23187 (but not that stimulated by PMA) was dependent on extracellular Ca²⁺; (4) The amount of O₂^? produced per cell was higher at low cell densities; (5) The addition of Superoxide dismutase (SOD) to the medium totally prevented the detection of O₂^? and augmented twice the amount of H₂O₂ recovered; (6) Pretreatment of MPs with the SOD inhibitor sodium diethyldithiocarbamate had no effect on the release of O₂^? but blocked H₂O₂ release in a dose-dependent manner. These data were interpreted as indicating that the bulk of H₂O₂ was derived by enzymatic dismutation of O₂^?; (7) The common mechanism by which such a variety of stimuli provoke an OB in MPs was not elucidated. No evidence was found to suggest a role for a cyclic nucleotide messenger.     

Rational design, synthesis and evaluation of first generation inhibitors of the Giardia lamblia fructose-1,6-biphosphate aldolase

Inhibitors of the Giardia lamblia fructose 1,6-bisphosphate aldolase (GlFBPA), which transforms fructose 1,6-bisphosphate (FBP) to dihydroxyacetone phosphate and glyceraldehyde 3-phosphate, were designed based on 3-hydroxy-2-pyridone and 1,2-dihydroxypyridine scaffolds that position two negatively charged tetrahedral groups for interaction with substrate phosphate binding residues, a hydrogen bond donor to the catalytic Asp83, and a Zn²⁺ binding group. The inhibition activities for the GlFBPA catalyzed reaction of FBP of the prepared alkyl phosphonate/phosphate substituted 3-hydroxy-2-pyridinones and a dihydroxypyridine were determined. The 3-hydroxy-2-pyridone inhibitor 8 was found to bind to GlFBPA with an affinity (K_i = 14 μM) that is comparable to that of FBP (K_m = 2 μM) or its inert analog TBP (K_i = 1 μM). The X-ray structure of the GlFBPA-inhibitor 8 complex (2.3 Å) shows that 8 binds to the active site in the manner predicted by in silico docking with the exception of coordination with Zn²⁺. The observed distances and orientation of the pyridone ring O=C-C-OH relative to Zn²⁺ are not consistent with a strong interaction. To determine if Zn²⁺coordination occurs in the GlFBPA-inhibitor 8 complex in solution, EXAFS spectra were measured. A four coordinate geometry comprised of the three enzyme histidine ligands and an oxygen atom from the pyridone ring O=C-C-OH was indicated. Analysis of the Zn²⁺ coordination geometries in recently reported structures of class II FBPAs suggests that strong Zn²⁺ coordination is reserved for the enediolate-like transition state, accounting for minimal contribution of Zn²⁺ coordination to binding of 8 to GlFBPA.     

Purification and Characterization of Soluble (Cytosolic) and Bound (Cell Wall) Isoforms of Invertases in Barley (Hordeum vulgare) Elongating Stem Tissue

Three different isoforms of invertases have been detected in the developing internodes of barley (Hordeum vulgare). Based on substrate specificities, the isoforms have been identified to be invertases (β-fructosidases EC 3.2.1.26). The soluble (cytosolic) invertase isoform can be purified to apparent homogeneity by diethylaminoethyl cellulose, Concanavalin-A Sepharose, organomercurial Sepharose, and Sephacryl S-300 chromatography. A bound (cell wall) invertase isoform can be released by 1 molar salt and purified further by the same procedures as above except omitting the organo-mercurial Sepharose affinity chromatography step. A third isoform of invertase, which is apparently tightly associated with the cell wall, cannot be isolated yet. The soluble and bound invertase isoforms were purified by factors of 60- and 7-fold, respectively. The native enzymes have an apparent molecular weight of 120 kilodaltons as estimated by gel filtration. They have been identified to be dimers under denaturing and nondenaturing conditions. The soluble enzyme has a pH optimum of 5.5, K_m of 12 millimolar, and a V_max of 80 micromole per minute per milligram of protein compared with cell wall isozyme which has a pH optimum of 4.5, K_m of millimolar, and a V_max of 9 micromole per minute per milligram of protein.     

Fluorescence polarization studies of the interactions between protamine and enzymes in aqueous solutions

Fluorescence polarization has been used to study the interaction of dansylated protamine with the enzymes: pepsin, α-chymotrypsin, alkaline phosphatase and invertase. These interactions have been compared with those between dansylated protamine and polyacrylate, or polyvinylsulphate. Each of the various complexes was found to be dissociated by the addition of sodium nitrate and a critical electrolyte concentration (CEC) was determined for each system, to allow assessment of the relative order of binding to the dansylated protamine. This order was: polyvinylsulphate >pepsin >polyacrylate >alkaline phosphatase >α-chymotrypsin. The strength of binding was also assessed by determination of a binding constant, K_a. The values of K_a showed the same relative order of binding as the CEC values. Invertase behaved similarly to the other enzymes, but it was not possible to obtain an unambiguous assessment of the comparative strength of binding. In each case, the stoichiometry of the complex was also determined.     

A 17-kDa Nicotiana tabacum cell-wall peptide acts as an in-vitro inhibitor of the cell-wall isoform of acid invertase

When cell-wall invertase (CWI) from Nicotiana tabacum L. cell-suspension cultures, either non-transformed or transformed with Agrobacterium tumefaciens, was salt-eluted from intact cells and purified on Sulfopropyl-Sephadex (SPS) by pH-gradient elution, the enzyme lost about 50% of its activity during a 1-h incubation at pH 4.8. However, Western-blot analysis indicated no appreciable enzyme degradation. Re-chromatography of CWI peak fractions on SPS using NaCl-gradient elution showed the presence of a 17-kDa peptide (p17) in fractions with low CWI activity but strong CWI immunosignal (Weil and Rausch 1994, Planta 193, 430–437). When separating CWI from p17 by Concanavalin A (Con A)-Sepharose chromatography, inhibition could be restored by incubating the inhibitor-containing fraction with inhibitor-free CWI. More than 90% of CWI could be inhibited, suggesting that all CWI was susceptible to p17 binding. The presence of divalent metal ions (Ca²⁺, Mg²⁺, Zn²⁺) during pre-incubation of CWI with p17 reduced CWI inhibition substantially. Also, sucrose protected CWI against inhibition by p17 (half-maximum protection at 1.3 mM). Binding of p17 to CWI during a 1-h pre-incubation was pH-dependent, pH 4.5 causing maximum inhibition, whereas at pH 6.5 no inhibition was observed. Gel-permeation chromatography revealed that the native inhibitor acts as a monomer. Immunoprecipitation of CWI co-precipitated p17, confirming direct binding of p17 to CWI. When fractions containing CWI and p17 were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and subsequent Western blotting a diffuse immunosignal of 86–90 kDa was observed (in addition to the prominent CWI signal at 69 kDa). Equilibration of this zone with urea-containing sample buffer prior to a second SDS-PAGE run resulted in a strong immunosignal at 87 (± 2) kDa, suggesting that during one step in the formation of the p17-CWI complex the two polypeptides became firmly aggregated. The distribution of CWI and glucose-6-phosphate dehydrogenase activities between the cell-wall protein fraction and salt-eluted cells shows that cells retained their structural integrity, thus indicating co-localization of p17 and CWI in situ (Weil and Rausch 1994). We have purified p17 to homogeneity and its N-terminus has been sequenced, revealing no similarity to other known protein sequences. Possible physiological roles of p17 are discussed.Abbreviations Con A concanavalin A - CWI cell-wall invertase - 1-OMG methyl -d-glucopyranoside - p17 17-kDa peptide - PMSF phenylmethylsulfonyl fluoride - PR pathogenesis related This work was supported by a grant from the Deutsche Forschungsgemeinschaft. The antiserum against the deglycosylated carrot cell-wall invertase was a gift from Dr. Sturm (Friedrich-Miescher-Institut, Basel, Switzerland). The antiserum against acidic tobacco PR1 proteins was obtained from Dr. Lotan (Weizmann Institute of Science, Rehovot, Israel). The antiserum against tomato hsp17 was a gift from Prof. Nover (J.-W.-Goethe-Universität, Frankfurt, Germany).     

Thin layer gel filtration as a method for routine steroid receptor binding studies

A new technique is introduced which allows the quantitative determination of radioactively labeled substances from thin layer gel filtration (TLG). For gel filtration sephadex G-100 on a glass plate coated with a cellulose film was used. Together with the Sephadex layer the celluose film could be cut easily into strips and placed into vials for counting. The method was satisfactory with binding studies of steroid hormones on the prostatic androgen receptor. Because of simplicity, speed, and economical reasons this method could be used as a routine receptor assay.The binding constant of dihydrotestosterone (DHT) receptor complex was determined as K_a = 0.36 × 10⁹ liter/mole. The relative binding affinity of the antiandrogen cyproterone acetate was found to be 0.23.     

Lectin of Concanavalin A as an anti-hepatoma therapeutic agent

Liver cancer is the predominant cause of cancer mortality in males of Southern China and Taiwan. The current therapy is not satisfactory, and more effective treatments are needed. In the search for new therapies for liver tumor, we found that Concanavalin A (Con A), a lectin from Jack bean seeds, can have a potent anti-hepatoma effect. Con A after binding to the mannose moiety on the cell membrane glycoprotein is internalized preferentially to the mitochondria. An autophagy is triggered which leads to cell death. Con A as a T cell mitogen subsequently activates the immune response in the liver and results in the eradication of the tumor in a murine in situ hepatoma model. The liver tumor nodule formation is inhibited by the CD8⁺ T cells, and a tumor antigen-specific immune memory is established during the hepatic inflammation. The dual properties (autophagic cytotoxicity and immunomodulation) via the specific carbohydrate binding let Con A exert a potent anti-hepatoma therapeutic effect. The novel mechanism of the Con A anti-hepatoma effect is discussed. The prototype of Con with an anti-hepatoma activity gives support to the search for other natural lectins as anti-cancer compounds.     

Stabilization and functional studies of high-molecular-weight murine lymphotoxins

High levels of lymphotoxin-like activity (LT) were found in supernatants from secondarily stimulated immune mouse splenocytes activated with concanavalin A (Con A) in vitro. Splenocytes obtained from C57Bl/6 mice immune to the P815 mastocytoma were restimulated in vitro with mitomycin C-treated P815 cells, and then stimulated with Con A. High levels of unstable LT activity are rapidly (2–4 hr) released by these lectin-stimulated splenocytes. The introduction of a crosslinking agent, glutaraldehyde, was found to stabilize this LT activity and allowed us to perform more defined biochemical studies and to examine the functional activities of the LT classes. The lytic activity in these supernatants resided in the high-molecular-weight classes, termed Complex (Cx > 200,000 daltons) and alpha-heavy (α_H 130,000–160,000 daltons). It was found that the Cx and α_H LT classes from the secondarily stimulated immune splenocytes cause lysis of allogeneic target cells, P815 and EL-4, in a 16-hr ⁷⁵Semethionine release assay, and in some cases, this lysis was specific for the sensitizing target cell.     

Immobilization of Kluyveromyces lactis β galactosidase on concanavalin A layered aluminium oxide nanoparticles—Its future aspects in biosensor applications

Several new types of carrier and technology have been implemented in the recent past to improve traditional enzyme immobilization which aims to enhance enzyme loading, activity and stability in order to decrease the cost of enzyme in industrial processes. Thus, the present study aimed to work out a simple and high yield procedure for the immobilization of Kluyveromyces lactis β galactosidase on a bioaffinity support, concanavalin A layered Al₂O₃ nanoparticles (Con A layered Al₂O₃-NPs). Thermogravimetric analysis of bioaffinity support revealed 6% loss in weight at 600 °C whereas its thermal decomposition was observed at 350 °C by differential thermal analysis. No significant change was noticed in the band intensity of pUC19 plasmid upon its treatment with Con A layered Al₂O₃-NPs. Comet assay further exhibited negligible change in tail length of comet after treating the lymphocytes by bioaffinity matrix. Atomic force microscopy revealed large surface area of Con A layered Al₂O₃-NPs for binding higher amounts of enzyme. Moreover, Fourier transform-infrared spectroscopy confirmed binding of β galactosidase on bioaffinity support by exhibiting broadening in peaks at 3220.61 cm⁻¹ and 3447.27 cm⁻¹. Soluble and immobilized β galactosidase showed same pH-optima at pH 7.0. However, immobilized enzyme exhibited enhanced pH stability and broad spectrum temperature optimum than soluble β galactosidase. Immobilized β galactosidase was found to be highly stable against product inhibition by galactose and retained 85% activity after its sixth repeated use.     

Multiple interactions between human vitronectin and Staphylococcus aureus

Multiple interactions between human vitronectin and Staphylococcus aureus strain V8 were observed. An upward-curved Scatchard plot indicated both high-affinity binding (K_d1 = 7.4 · 10^?10 M) with 260 binding sites per bacterial cell and moderate-affinity binding (K_d2 = 7.4 · 10^?8 M) with 5240 copies per cell. Negative cooperativity of this binding was characterized by its Hill coeffiocient of less than unity (0.70 ± 0.08). Up to 60% of the vitronectin-bacteria interaction was unaffected by high ionic strength (i.e., 2.4 M NaCl), and was not inhibited by highly-charged heparin oligosaccharides. Various oligosaccharides (4–20 monosaccharide units) generated by partial deaminative cleavage of heparin were found to affect vitronectin binding to S. aureus. Short-chain-length oligosaccharides increase and long oligosaccharides inhibit vitronectin binding, in accordance with direct association of these saccharides with multimeric vitroectin. A protein having a molecular mass of 60 kDa was identified as a putative high-affinity staphylococcal vitronectic-binding protein. These results indicate that interaction of multimeric vitronectin, mostly present at extracellular matrix sites with multiple recognition sites on the S. aureus surface, may contribute to bacterial colonisation.     

Quantum-chemical and empirical calculations on phospholipids. VI: The stereospecific interaction of Na+ with phosphatidylethanolamine and with phosphatidylcholine layer systems

Using 1-6-12 atom-atom potential functions with a solvent-averaged electrostatic potential U = q_Iq_j/(?D(r)r_1j between the charges q_I and q_j the stereospecific interaction of Na⁺ with clusters of l-glycero-phosphorylethanolamine (GPE) and -choline (GPC) in a two-dimensional planar lattice was calculated. With neutral PE headgroups only a weak attractive interaction of ?140 kJ/mol was found. This should be compensated in PE/water systems by reorientational processes within the Na⁺ hydration shell to get an optimum binding of Na⁺ with the PE headgroup. With a phosphorylethanolamine anion within a neutral PE headgroup environment a stereospecific binding energy of ?500 kJ/mol was calculated. The interaction of Na⁺ or Ca²⁺ with clusters of phosphatidylcholine is always repulsive. These results are in a very good agreement with experimental ones where a binding of Na⁺ with PE bilayers at pH > 7.5, but not with PC bilayers was detected.