Immunocytochemical,electrophoresis, and immunoblot analysis of Heliothis virescens gap junctions isolated in the presence and absence of protease inhibitors

Gap junction-enriched fractions were prepared from larvae of the tobacco budworm Heliothis virescens using the NaOH procedure in the presence or absence of protease inhibitors and were analyzed by SDS-PAGE, immunoblotting and EM immunocytochemistry. Protease inhibitor fractions contained a 48-kDa protein in addition to the 10 proteins in fractions with and without inhibitors. Three polyclonal antibodies were used as probes for gap junction plaques and proteins: R16, against an 40-kDa candidate gap junction protein from Drosophila melanogaster; R17, against the 40-kDa candidate gap junction protein from H. virescens; and R18AP, an affinity purified antibody against a consensus sequence of N-terminal amino acids 2–21 of the H. virescens 40-kDa protein. R16, R17, and R18AP stain the 40- and 48-kDa proteins, R16 and R18AP stain a 64-kDa protein, and R16 stains an 30-kDa protein in the absence of inhibitors. Inclusion of protease inhibitors had no effect on gap junction ultrastructure. R16 and R17 label gap junction plaques in crude membrane and NaOH fractions, whereas R18AP exhibits only a low level of reactivity with gap junctions in crude membrane fractions and none with gap junctions in NaOH fractions. The results show that the 30-, 40-, 48- and 64-kDa proteins are immunologically related and are associated with gap junctions in H. virescens, the N-terminus of the 40-kDa protein is relatively inaccessible or easily lost, and the 48-kDa protein is protease-sensitive.     

The arthropod gap junction and pseudo-gap junction: Isolation and preliminary biochemical analysis

Summary The hepatopancreas of the crayfish, Procambarus clarkii, contains an unusual abundance of gap junctions, suggesting that this tissue might provide an ideal source from which to isolate the arthropod-type of gap junction. A membrane fraction obtained by subcellular fractionation of this organ contained smooth septate junctions, zonulae adhaerentes, gap junctions and pentalaminar membrane structures (pseudo-gap junctions) as determined by electron microscopy. A further enrichment of plasma membranes and gap junctions was achieved by the use of linear sucrose gradients and extraction with 5 mM NaOH. The enrichment of gap junctions correlated with the enrichment of a 31 Kd protein band on polyacrylamide gels. Extraction with 20 mM NaOH or 0.5% (w/v) Sarkosyl NL97 resulted in the disruption and/or solubilization of gap junctions. Negative staining revealed a uniform population of 9.6 nm diameter subunits within the gap junctions with an apparent sixfold symmetry. Using antisera to the major gap junctional protein of rat liver (32 Kd) and to the lens membrane protein (MP 26), we failed to detect any homologous antigenic components in the arthropod material by immunoblotting-enriched gap junction fractions or by immunofluorescence on tissue sections. The enrichment of another membrane structure (pseudo-gap junctions), closely resembling a gap junction, correlated with the enrichment of two protein bands, 17 and 16Kd, on polyacrylamide gels. These structures appeared to have originated from intracellular myelin-like figures in phagolysosomal structures. They could be distinguished from gap junctions on the basis of their thickness, detergent-alkali insolubility, and lack of association with other plasma membrane structures, such as the septate junction. Pseudo-gap junctions may be related to a class of pentalaminar contacts among membranes involved in intracellular fusion in many eukaryotic cell types. We conclude that pseudo-gap junctions and gap junctions are different cellular structures, and that gap junctions from this arthropod tissue are uniquely different from mammalian gap junctions of rat liver in their detergentalkali solubility, equilibrium density on sucrose gradients, and protein content (antigenic properties).     

Protamine alters structure and conductance ofNecturus gallbladder tight junctions without major electrical effects on the apical cell membrane

Summary Protamine is a naturally occurring basic protein (pI; 9.7 to 12.0). We have recently reported that protamine dissolved in the mucosal bath (2 to 20 m), induces about a twofold increase in transepithelial resistance inNecturus gallbladder within 10 min. Conductance decreased concomitantly with cation selectivity.In this leaky epithelium, where >90% of an applied current passes between cells, an increment in resistance of this magnitude suggests a paracellular actiona priori. To confirm this, ionic conductance across the apical cell membrane was studied with microelectrodes. Protamine increased transepithelial resistance without changing apical cell membrane voltage or fractional membrane resistance. Variation in extracellular K concentration (6 to 50mm) caused changes in apical membrane voltage not different from control.To determine if protamine-induced resistance changes were associated with structural alteration of tight junctions, gallbladders were fixedin situ at peak response and analyzed by freeze-fracture electron microscopy. According to a morphometrical analysis, the tight junctional intramembranous domain expands vertically due to incorporation of new strands (fibrils) into the main compact fibrillar meshwork.Since morphologic changes are complete within 10 min, strands are probably recycled into and out of the tight junctional membrane domain possibly by the cytoskeleton either from cytoplasmic vesicles or from intramembranous precursors. Regulation of tight junctional permeability by protamine and other perturbations may constitute a common mechanism by which leaky epithelia regulate transport, and protamine, in concentrations employed in this study, seems reasonably specific for the tight junction.     

Improved enrichment of insect gap junctions by filtration and sonication of NaOH-extracted subcellular fractions

The purification of gap junctions from insects has been hampered by low yields when starting with dissected tissues or by contamination with non-junctional structures when starting with intact insects. A method is described here involving filtration and sonication of NaOH-extracted crude membrane fractions from larvae of the lepidopteran Heliothis virescens which yields fractions containing approximately 50% gap junctions and approximately 7 microg total protein per g of larvae and represents an estimated 10-100 fold increase in gap junction enrichment compared with a previously described procedure (Cell Tissue Res. 274: 393-403, 1993). The remaining structures in the fractions consist of non-junctional membrane, septate junctions, lamellate bodies and amorphous material.     

Direct connections between the R7/8 and R1–6 photoreceptor subsystems in the dipteran visual system

Summary Musca and related flies have three main photoreceptor subsystems. The R1–6 group has short axons that terminate in the cartridges of the first optic neuropile, the lamina. The cartridges are bypassed by the longer axons of R7 and R8, which run together to terminate at different levels in the underlying medulla neuropile. The present account describes a shallow, previously unidentified zone in the lamina within which R7/8 make glancing contact with R1–6. At the distal border of the cartridge over no more than 3–4 m depth, the tangentially directed short axon of R6 squeezes between the pair from R7 and R8, forming quite large areas of mutual contact (approximately 7 m²). Less frequently, R1 is contacted. At least some of these sites contain smaller membrane specialisations indistinguishable from the more numerous gap junctions found more proximally that interconnect the terminals of R1–6. The R7/8 junctions with R6 are of comparable size (0.15 m²) and likewise possess symmetrical membrane densities. They provide proposed pathways for direct electrical interaction to account for observed electrical input from R7/8 to the R1–6 subsystem. In two cases R7/8 was possibly postsynaptic to R1–6 at a multiple-contact synapse, but even if functional, these sites were so rare that they are unlikely to have much operational significance.     

Gap junctions are non-randomly distributed inDrosophila wing discs

Summary The distribution of gap junctions in mature larvalDrosophila melanogaster wing discs was analyzed by means of quantitative electron microscopy. Gap junctions are non-randomly distributed in the proximal-distal disc axis and in the apical-basal cell axis of the epithelium. In the epithelial cells, the surface density, number and length of gap junctions are greatest in the apical cell region and distal disc region. The average gap junction surface density is 0.0572 m^–1 and 2.77% of the lateral cell surface is composed of gap junctions. In the adepithelial cells, the gap junction surface density is 0.0005 m^–1 and 0.06% of the cell surface is composed of gap junctions. No gap junctions were observed between epithelial cells and adepithelial cells. The absolute area of gap junctions was estimated in a proximal-distal strip of cells in the disc and is considerably less in the folded regions of the epithelium compared to the flat notum and wing pouch regions. The results are discussed with respect to pattern formation and growth control in imaginal discs.     

Isolation and characterization of gap junctions from Drosophila melanogaster

Summary A procedure has been developed to isolate gap junction-enriched subcellular fractions from Drosophila. Crude membranes from larval homogenates were extracted with 1% N-lauroyl sarcosine in 6 M urea and the gap junctions were collected by centrifugation. The major proteins were separated by SDS PAGE and purified by electro-elution. Electron microscopy revealed structurally pleiomorphic gap junctions in the fractions which included (1) conventional, 16–18 nm-wide septalaminar, (2) collapsed, 13–15 nm-wide pentalaminar, (3) split, and (4) aggregated forms. The fractions contained five major proteins with apparent molecular weights of 18, 26, 36, 52 and 54 kD. Evidence based on (1) the degradation and aggregation behavior of the major proteins following electro-elution and reelectrophoresis, (2) immunological cross-reactivities by affinity-purified antibodies against the major proteins on immunoblots, and (3) immunofluorescent staining of presumptive gap junctions in Drosophila imaginal discs at the light-microscopic level and immunogold staining of purified gap junctions at the electron-microscopic level suggests that the major proteins are interrelated and of gap-junction origin.     

Gap junction reductions precede tissue hyperplasia following temperature-upshift in theDrosophila ts-mutantl(3)c43 hs1

Summary The wing discs of the temperature-sensitiveDrosophila mutantl(3)c43 ^hs1 become hyperplastic when larvae are reared at the restrictive temperature of 25° C or above (Martin et al. 1977). We have previously shown that reductions in gap junctions are correlated with the hyperplasia (Ryerse and Nagel 1984a). We report here that reductions in gap junction surface density, number and percent of the lateral plasma membrane area precede the onset of tissue hyperplasia as defined by the gross appearance of tissue overgrowth in the wing pouch and an increase in cell number. Gap junction reductions begin soon after temperature upshift and become significantly different from non-shifted controls by 16 h. Direct cell counts indicate that there is no difference in the total number of cells in experimental vs control discs until after 16 h when the 28° C discs begin to grow rapidly with a cell doubling time of about 6 h as compared with about 13 h for the 20°C controls. The finding that gap junction reductions precede the onset of tissue hyperplasia is consistent with the idea that gap junctions play a regulatory role in growth control and pattern formation and strengthens our hypothesis (Ryerse and Nagel 1984b) that a minimum number and a specific distribution of gap junctions are required for normal development.     

Cellobiose phosphorylase (EC 2.4.1.20) of Cellulomonas: occurrence,induction, and its role in cellobiose metabolism

The occurrence of cellobiose cleavage by phosphorolysis and by hydrolysis was investigated in Cellulomonas spec., C. uda, C. flavigena, and C. cartalyticum. Cellobiose phosphorylase (EC 2.4.1.20) was shown to be produced by Cellulomonas spec. when cellobiose or cellulose was used as sole source of energy and carbon but not with glycerol or glucose. Using inhibitors of protein synthesis as well as double labelling techniques it was shown that cellobiose phosphorylase is synthesized de novo in Cellulomonas spec. Aryl--D-glucosidase which was shown to be present in crude extracts of this microorganism as well is not involved in cellobiose cleavage.Abbreviations oNPGluc ortho-nitrophenyl--D-glucopyranoside - oNPGlucase ortho-nitrophenyl--D-glucopyranoside hydrolase (aryl--D-glucosidase) - CMC carboxymethyl-cellulose - CMCase carboxymethyl-cellulase - PAGE polyacrylamde disc gel electrophoresis Parts of this work were presented on the Herbsttagung der Gesellschaft für Biologische Chemie (Schimz et al. 1979) and on the 14th FEBS Meeting (Schimz et al. 1981)     

Downregulation of cell-to-cell communication by the viralsrc gene is blocked by TMB-8 and recovery of communication is blocked by vanadate

Summary The viralsrc gene downregulates junctional communication, closing cell-to-cell membrane channels presumably by way of the phosphoinositide signal route. We show that TMB-8 [8-N, N-(diethylamino) octyl-3,4,5-trimethoxybenzoate] counteracts this downregulation in cells transformed by temperature-sensitive mutant Rous sarcoma virus: TMB-8 (36–72 m) raises junctional permeability when applied during activity ofsrc protein kinase, i.e., at steady permissive temperature; and TMB-8 inhibits the fall of junctional permeability, when the activity ofsrc protein kinase gets turned on. TMB-8 also (reversibly) inhibits the growth of the cells at permissive temperature and reverses the morphological changes associated with transformation. The morphological reversal lags several hours behind the junctional-permeability reversal. Communication recovers within a few minutes when the activity of thesrc protein kinase is turned off (in absence of TMB-8). Sodium orthovanadate (20 m) prevents this recovery, but it has no major effect on junctional permeability on its own. We discuss possible modes of action of these agents on critical stages of the signal route, related to intracellular Ca²⁺ and protein kinase C.     

Selective preparation of N-acetyl-D-glucosamine and N,N'-diacetylchitobiose from chitin using a crude enzyme preparation from Aeromonas sp

A bacterium, Aeromonas sp. GJ-18, having strong chitinolytic activity was isolated from coastal soil and used for crude enzyme preparations. This enzyme preparation contained N-acetyl-D-glucosaminidase and N,N-diacetylchitobiohydrolase. N-Acetyl-D-glucosaminidase was inactive above 50 °C, but N,N-diacetylchitobiohydrolase was stable at this temperature. Utilizing the temperature sensitivities of the chitin degradation enzymes in crude enzyme preparation, N-acetyl-D-glucosamine (GlcNAc) and N,N-diacetylchitobiose [(GlcNAc)₂] were selectively produced from chitin. At 45 °C, GlcNAc was produced as a major hydrolytic product (94% composition) with a yield of 74% in 5 d, meanwhile at 55 °C (GlcNAc)₂ was the major product (86%) with a yield of 35% within 5 d.Revisions requested 29 September 2004; Revisions received 1 November 2004     

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.     

The plasma membrane ATPase of Kloeckera apiculata: purification,characterization and effect of ethanol on activity

Partially (6-fold) purified plasma membrane ATPase from an ethanol-sensitive yeast, Kloeckera apiculata, had an optimum pH of 6.0, an optimum temperature of 35°C, a K _m of 3.6 mm ATP and a V _max of 11 mol P_i/min.mg protein. SDS-PAGE of the semi-purified plasma membrane showed a major band of 106 kDa. No in vivo activation of the ATPase by glucose was observed. Although 4% (v/v) ethanol decreased the growth rate by 50% it did not affect the ATPase. Concentrations of ethanol 2% (v/v) did, however, inhibit the enzyme in vitro. The characteristics of the enzyme did not change during growth in the presence of ethanol.     

Role of phospholipids in the binding of bumetanide to the rabbit parotid Na/K/Cl cotransporter

Summary It was recently reported (Turner, R.J., George, J.N., 1990,J. Membrane Biol. 113:203–210) that the high affinity bumetanide binding site of the rabbit parotid Na/K/Cl cotransporter could be extracted from a basolateral membrane preparation from this gland using relatively low concentrations of the non-ionic detergent Triton X-100. At the detergent: protein ratios required for complete membrane solubilization bumetanide binding activity in this extract was lost but could be recovered by the addition of crude soybean lipids. In the present paper the ability of various purified lipids to restore high affinity bumetanide binding activity in detergent solubilized rabbit parotid basolateral membranes is studied. We show that the effect of exogenous lipid on the detergent-inactivated bumetanide binding site is to increase the affinity of binding without affecting the number of binding sites. Of the 11 lipid species tested, several relatively minor, negatively charged membrane phospholipids are the most effective in restoring binding activity (phosphatidylserine phosphatidylglycerol > phosphatidylinositol > cardiolipin). while the major mammalian plasma membrane lipid components phosphatidylcholine, phosphatidylethanolamine, sphingomyelin and cholesterol are without effect. In addition, we show that in the presence of these minor lipids the affinity of bumetanide binding is considerably increased over that observed in the native membrane (e.g.,K _d 0.06 m in membranes extracted with 0.3% Triton and treated with 0.15% wt/vol phosphatidylserine,vs. K _d 3 m in native basolateral membranes). This dramatic dependence of bumetanide binding affinity on the presence of certain lipid species suggests that the properties of the bumetanide binding proteinin situ may be quite dependent on the minor lipid content of the plasma membrane. This effect may account for the relatively large variations in bumetanide binding affinity observed from tissue to tissue.     

Oxidation of cysteine to cystine by membrane fractions of Chlorella fusca

Isolated membrane fractions of Chlorella fusca 211-8b obtained by french-press treatment and sonication catalyzed the oxidation of l-cysteine to l-cystine. The pH-optimum of this reaction was determined to be around 8–8.5 and a stoichiometry of 4 SH-groups oxidized for one O₂ consumed was obtained. This thiol-oxidation system was specific for D-and l-cysteine; Dl-homocysteine and cysteamine were oxidized at about half the rate whereas all other thiols tested including glutathione, mercaptoethanol, mercaptopropionic acid and dithioerythritol were not oxidized by these membrane fractions. The apparent K_m for l-cysteine was determined as 3.3 mmol l^-1. Rates of 200 mol cysteine oxidized mg^-1 chlorophyll h^-1 were normally obtained. Extremely high rates of oxygen uptake were measured using l-cysteine methyl ester and l-cysteine ethyl ester. This thioloxidation system was not inhibited by mitochondrial electron-transport inhibitors such as rotenone or antimycin A, nor by the chloroplast electron-transport inhibitors 2,5-dibromothymochinone and 2,4-dinitrophenylether of iodonitrothymol. The cysteine oxidation catalyzed by C. fusca membranes was inhibited, however, by salicylhydroxamic acid, o-phenanthrolin, N,N-disalicyliden-1,3-diaminopropane 5,5-disulfonic acid, ethylenediaminetetraacetic acid, high KCN levels and by the buffers, N-[2-hydroxyl-1,1-bis(hydroxymethyl) ethyl] glycine and phosphate. This cysteine-oxidation system seems to function as a counterpart of thioredoxin-mediated light activation of enzymes, allowing reduced thiol groups to be oxidized again by O₂ (dark inactivation).Abbreviation DTNB 5,5-dithio-bis(-2-nitrobenzoic acid). Ellmann reagent     

Tissue and species conservation of the vertebrate and arthropod forms of the low molecular weight (16–18000) proteins of gap junctions

Summary Gap junctions have been isolated from four murine tissues, from rat and Xenopus laevis liver, and from Nephrops norvegicus (Norway lobster) hepatopancreas. The preparations of gap junctions from each vertebrate tissue contain a single major protein, M_r 16000, and those from Nephrops hepatopancreas a protein, M_r 18000. Immunocytochemical studies using affinity-purified antibodies raised against gap junctions from Nephrops show the junctional origin of the 18k protein. Immunological studies using Western blotting and biochemical studies using tryptic peptide mapping show no significant differences between the 16k junctional proteins of mouse and hence provide no evidence of tissue variation. These studies also suggest that the mouse, rat, and Xenopus 16 k proteins and the Nephrops 18 k protein share some common structural features.     

Isolation of an abnormally phosphorylated erythrocyte membrane band 3 glycoprotein from patients with myotonic muscular dystrophy

Summary A fraction of erythrocyte Band 3 (M _r , 93,000) glycoprotein that demonstrates decreased autophosphorylation in membranes from myotonic muscular dystrophy patients is demonstrated. Sequential affinity chromatography of Triton X-100 solubilized erythrocyte membrane proteins separated three specifically retained glycoprotein fractions on a Ricin Communis I-Sepharose 4B column. One fraction contains a portion of the major sialoglycoprotein (apparentM _r , 78,000) and is specifically eluted from the column by 10mm NaCl and 100mm d-galactose (10/100). The two other glycoprotein fractions are eluted by 100mm NaCl, 10mm d-galactose (100/10) and 100mm NaCl, 100mm d-galactose (100/100). The composition of both fractions contains greater than 95% Band 3 (apparentM _r , 93,000) glycoprotein.The quantities of glycoprotein in each fraction obtained from erythrocytes of myotonic dystrophy patients did not differ from the quantities obtained from control erythrocytes. Following endogenous protein kinase incubations of ghosts with [-³²P]ATP, the specific [³²P] phosphorylation of the 10/100 and 100/10 fractions are identical. The 100/100 fraction, which makes up approximately 3% of the total erythrocyte membrane protein, demonstrates a different pattern for myotonic dystrophy patients; specific phosphorylation was reduced by 50% relative to activity in control experiments. These findings are consistent with previous experiments that demonstrated decreased autophosphorylation of the glycoprotein portion of Band 3 (Roses & Appel, 1975,J. Membrane Biol. 20: 51) and are consistent with the autosomal dominant mode of inheritance in this disease.     

A novel callose synthase from pollen tubes of Nicotiana

Pollen-tube cell walls are unusual in that they are composed almost entirely of callose, a (1,3)--linked glucan with a few 6-linked branches. Regulation of callose synthesis in pollen tubes is under developmental control, and this contrasts with the deposition of callose in the walls of somatic plant cells which generally occurs only in response to wounding or stress. The callose synthase (uridine-diphosphate glucose: 1,3--d-glucan 3--d-glucosyl transferase, EC 2.4.1.34) activities of membrane preparations from cultured pollen tubes and suspension-cultured cells of Nicotiana alata Link et Otto (ornamental tobacco) exhibited different kinetic and regulatory properties. Callose synthesis by membrane preparations from pollen tubes was not stimulated by Ca²⁺ or other divalent cations, and exhibited Michaelis-Menten kinetics only between 0.25 mM and 6 mM uridine-diphosphate glucose (K _m 1.5–2.5 mM); it was activated by -glucosides and compatible detergents. In contrast, callose synthesis by membrane preparations from suspension-cultured cells was dependent on Ca²⁺, and in the presence of 2 mM Ca²⁺ exhibited Michaelis-Menten kinetics above 0.1 mM uridine-diphosphate glucose (K _m 0.45 mM); it also required a -glucoside and low levels of compatible detergent for full activity, but was rapidly inactivated at higher levels of detergent. Callose synthase activity in pollen-tube membranes increased ten fold after treatment of the membranes with trypsin in the presence of detergent, with no changes in cofactor requirements. No increase in callose synthase activity, however, was observed when membranes from suspension-cultured cells were treated with trypsin. The insoluble polymeric product of the pollen-tube enzyme was characterised as a linear (1,3)--d-glucan with no 6-linked glucosyl branches, and the same product was synthesised irrespective of the assay conditions employed.Abbreviations Ara l-arabinose - CHAPS 3-[(3-cholamidopropyl)dimethylammonia]-1-propane sulphonic acid - DAP diphenylamine-aniline-phosphoric acid stain - Gal d-galactose - Glc d-glucose - Man d-mannose - Mes 2-(N-morpholino)ethane sulphonic acid - Rha d-rhamnose - Rib d-ribose - TFA trifluoroacetic acid - UDPGlc uridine-diphosphate glucose - Xyl d-xylose This research was supported by funds from a Special Research Centre of the Australian Research Council. H.S. was funded by a Melbourne University Postgraduate Scholarship and an Overseas Postgraduate Research Studentship; S.M.R. was supported by a Queen Elizabeth II Research Fellowship. We thank Bruce McGinness and Susan Mau for greenhouse assistance, and Deborah Delmer and Adrienne Clarke for advice and encouragement throughout this project.     

Pullulanase,an enzyme of starch catabolism,is associated with the outer membrane of Klebsiella

Late-log phase cells of Klebsiella sp. 5246 could be converted into spheroplasts with a yield of better than 90% by ethylenediamine tetraacetate/lysozyme treatment in osmotically stabilizing media. Membrane fragments obtained after ultrasonication of spheroplasts were separated by centrifugation to sedimentation equilibrium on a sucrose density gradient. A light membrane fraction with a buoyant density of 1.17±0.02g/cm³ was sought and found to contain the enzymes NADH oxidase, succinate dehydrogenase and D-lactate dehydrogenase. A heavy membrane fraction having a buoyant density of 1.23 ±0.01g/cm³ was characterized by phospholipase A₁ activity and lipopolysaccharide content. By analogy to other gram-negative bacteria, the light and the heavy fraction were assigned, respectively, to the cytoplasmic and the outer membrane of Klebsiella sp. 5246.The organism produced pullulanase in a cellbound form during the exponential phase of growth on soluble starch. Pullulanase was localized exclusively on the outer membrane. Pullulanase is the second protein of the outer membrane with defined enzyme function to become known among gram-negative bacteria, the other one being phospholipase A₁.What had been inferred from physiological studies of growth characteristics on various carbon sources can now be proven directly: Pullulanase implicated in the utilization of branched -glucans in Klebsiella is capable of acting on macromolecular substrates in the environment of the cell by virtue of its association with the outer membrane.Non-Standard Abbreviations EDTA ethylenediamine tetraacetate - SDS sodium dodecyl sulphate - OD optical density List of Enzymes EC 3.2.1. 23 -galactosidase or -D-galactoside galactohydrolase - EC 1.1.1.28 D-lactate dehydrogenase or D-lactate: NAD⁺ oxidoreductase - EC 3.2.1.17 lysozyme or mucopeptide N-acetylmuramoylhydrolase - EC 2.4.1.1 maltodextrin phosphorylase or 1,4--D-glucan: orthophosphate -glucosyltransferase - EC 1.6.99.3 NADH oxidase or NADH: (acceptor) oxidoreductase - EC 3.1.1.32 phospholipase A₁ or phosphatide 1-acylhydrolase - EC 3.2.1.41 pullulanase or pullulan 6-glucanohydrolase - EC 1.3.99.1 succinate dehydrogenase or succinate: (acceptor) oxidoreductase     

The fine structure of cephalopod blood vessels II. The vessels of the nervous system

Summary Blood vessels of the perioesophageal nerve ganglia (brain) of Octopus vulgaris and the stellate ganglia of Sepia officinalis are described. The vessels have an incomplete endothelium, a complete basement membrane and a complete investment of pericytes. The pericytes are joined by specialised membrane junctions but these are not tight junctions. The main type of neuron/vessel arrangement is one where there is a collagen-filled space between the pericytes and the surrounding glial cells. Axons or neurons are sometimes applied directly to the vessel pericytes and in the neuropil, pericytes contact glial cells that ensheath bundles of axons. Blood spaces between neurons are also present.We would like thank Professor J. Z. Young and Dr. E. G. Gray for encouragement and advice, Mrs. Jane Astafiev for drawing Fig. 11, Mr. S. Waterman for photographic assistance and Miss Cheryl Martin for secretarial and other assistance.