On the generation of potential differences across the membranes of ellipsoidal cells in an alternating electrical field

Summary Particles with a nonconducting membrane, oriented in an alternating electrical field, will show the behaviour of electrical dipoles. Across the membranes there will be generated alternating electrical potential differences, which may be calculated for confocal ellipsoidal cells by solving Laplace's equation. We have evaluated a formula valid generally for single confocal ellipsoidal cells under physiological conditions, the cells being placed with one of their semi-axes parallel to an external electrical field. The values of the generated potential difference, considered at the position of their maximum values, are dependent on the shape and size of the cells, on their orientation to the electrical field and on the frequency and strength of the field. The relaxation frequency depends also on cell shape, size and orientation, but furthermore on the membrane properties and on the conductivities inside and outside the cells. For simple cases like spheres and cylinders perpendicular to the electrical field, our formula will correspond to known expressions. Values for the generated potential differences, form-factors and relaxation frequencies are given for different types of spheroids and at different orientations. Of some practical importance are long prolate spheroids with their long semi-axes parallel to the external field, because only small field strengths are necessary in order to generate large potential differences which may evoke action potentialse.g. in muscle or nerve cells. The significance of this mechanism concerning the determination of protection and safeguard standards for the exposure to low-frequency electrical fields is discussed.Dedicated to Prof. Dr. Dr. h. c. mult. B. Rajewsky on the occasion of his 80th birthday.     

Das Membranpotential von Ehrlich-Aszitestumorzellen

Zusammenfassung Mit Hilfe von Mikroelektroden wurde das Membranpotential von Ehrlich-Aszitestumorzellen in Krebs-Ringer-Phosphatlösung (KRP) bei 25 °C bestimmt. Die gemessene Potentialdifferenz der gesamten galvanischen Zelle enthält außer dem Membranpotential selbst noch zwei spezielle Diffusionspotentiale an den Mikrokapillaren, welche zur Ermittlung des Membranpotentials bekannt sein müssen. Das Diffusionspotential an der Bezugskapillare ist klein und konnte mit genügender Genauigkeit berechnet werden. Die Spitzenpotentiale der Mikrokapillaren (Spitzendurchmesser etwa 0,5 m) sowie deren Änderung beim Übergang von KRP in das Zytoplasma wurden experimentell bestimmt. Diese Änderung beträgt 37% des Spitzenpotentials selbst, und zwar für Spitzenpotentiale bis zu 70 mV. Mit diesen Korrekturen wurde das Membranpotential zu –11,5 mV ±5% bestimmt. Die angegebene Methode der Korrektur erlaubt es, das Membranpotential mit guter Genauigkeit auch dann zu messen, wenn Mikrokapillaren mit Spitzenpotentialen bis zum fünffachen Wert des Membranpotentials verwendet wurden. Somit ist die Messung von Membranpotentialen sehr kleiner Zellen mit Hilfe von extrem spitzen Mikrokapillaren möglich, deren Spitzen gewöhnlich größere Spitzenpotentiale zeigen.

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Summary The membrane potential of Ehrlich-mouse ascites tumor cells in Krebs-Ringer-Phosphate solution (KRP) at 25 °C have been measured to be –11.5 mV ±5%. This value was obtained after correcting the measured electromotive force of the total galvanic cell including two diffusion potentials and the membrane potential for the tip potential of the microelectrode used with a tip of 0.5 m diameter, and for the change in tip potential from the value in KRP to the value in the cyctoplasma. Experimentally it could be shown that this change in tip potential is 0.37 times the value of the tip potential itself for tip potentials as high as 70 mV. The small value of the diffusion potential of the reference electrode have been calculated with sufficient accuracy. By this method it was possible to measure the membrane potential with good accuracy with microelectrodes having tip potentials five times as large as the membrane potential itself. Hence it should be possible to measure the membrane potential of very small cells with correspondingly fine microelectrodes having usually higher tip potentials.

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Der vorliegenden Veröffentlichung wurde die Diplomarbeit von J.Bernhardt [2] zugrunde gelegt. Sie wurde von 1964 bis 1966 im Max-Planck-Institut für Biophysik in Frankfurt am Main unter seinem Direktor Prof. Dr. B.Rajewsky durchgeführt.     

Distribution of ions inNeurospora crassa determined by quantitative electron microprobe analysis

Summary It was investigated whether the low membrane potential at the tip of hyphae ofNeurospora crassa could be described as a diffusion potential. The distribution of Na, K and P inNeurospora was measured by electron microprobe analysis of freeze-dried hyphae. Quantitative determinations were made with freeze-dried gelatin standards and with crystalline standards. The local concentrations of Na and K were in accordance with the theory that at the tip of the hyphe, these ions are distributed passively across the plasma membrane.     

Cyclic AMP is one of the intracellular signals during the mating of Chlamydomonas eugametos

Chlamydomonas eugametos gametes of opposite mating type make cell-cell contact via their flagellar surfaces. This contact triggers an increase in the intracellular level of cyclic AMP (cAMP) and several cellular responses which are necessary for cell fusion. Here, we show that wheat-germ agglutinin, which binds to the flagellar surface and induces all mating responses, also increased the intracellular cAMP level. Dibutyryl-cAMP added to non-mating gametes induced flagellar twitching, cell-wall lysis, mating-structure activation, flagellartip activation and an increase in agglutinability. It did not induce agglutinin transport to the flagellar tip (tipping) and may not be the direct cause of flagellar twitching and flagellar-tip activation. In non-illuminated cells, dibutyryl-cAMP was far more effective in evoking mating reactions than in illuminated cells. Light induced a 50% decrease in the cAMP level within 1 min. Adenylate cyclase was found to be associated with cell membranes but only 8% of the total was present in the gamete flagella.Abbreviations db-cAMP dibutyryl-cAMP - FTA flagellar tip activation - Mab monoclonal antibody - mt ^–/mt⁺ mating-type minus/plus - WGA wheat-germ agglutinin We gratefully acknowledge the fruitful discussions with Dr. Rainer Gilles of the Department of Biochemistry at the University of Cologne (FRG), and the advice generously given by Dr. Roel van Driel of the Department of Biochemistry at the University of Amsterdam (The Netherlands).     

Polarity and growth of caulonema tip cells of the moss Funaria hygrometrica

In the caulonema tip cells of Funaria hygrometrica, chloroplasts, mitochondria, and dictyosomes have differences in structure which are determined by cell polarity. In contrast to the slowly growing chloronema tip cells the apical cell of the caulonema contains a tip body. Colchicine stops tip growth; it causes the formation of subapical cell protrusions, redistribution of the plastids, and a loss of their polar differentiation. Cytochalasin B inhibits growth and affects the position of cell organelles. After treatment with ionophore A23 187, growth is slower and shorter and wider cells are formed. D₂O causes a transient reversion of organelle distribution but premitotic nuclei are not dislocated. In some tip cells the reversion of polarity persists; they continue to grow with a new tip at their base. During centrifugation, colchicine has only a slight influence on the stability of organelle anchorage. The former polar organization of most cells is restored within a few hours after centrifugation, and the cells resume normal growth. In premitotic cells the nucleus and other organelles cannot be retransported, they often continue to grow with reversed polarity. Colchicine retards the redistribution of organelles generally and increases the number of cells that form a basal outgrowth. The interrelationship between the peripheral cytoplasm and the nucleus and the role of microtubules in maintaining and reestablishing cell polarity are discussed.Abbreviations DMSO dimethylsulfoxide - CB cytochalasin B Dedicated to Prof. Dr. A. Pirson on the occasion of his 70. birthday     

Scanning electron microscopy ofMycoplasma pneumoniae on the membrane of individual ciliated tracheal cells

Summary Cell monolayer cultures were prepared from hamster tracheal explants by a collagenase exposure and subsequent incubation in Waymouth’s MAB 87/3 medium. The epithelial outgrowth occurred on glass cover slips. Cilia on the monolayers continued to beat normally after the “parent” explant was removed. Monolayer cultures infected withMycoplasma pneumoniae had significant amounts of attachment. A morphological analysis of the attachment was conducted with scanning electron microscopy. Clusters, cocci, and filaments ofM. pneumoniae all attached to the epithelial cells, but the filaments were especially common. Mycoplasmas were seen in association with both ciliated and nonciliated cell membranes. On ciliated cells, mycoplasmas were on the ciliary strands and on the cell membrane. When located immediately adjacent to or in between cilia, mycoplasmas were oriented vertically with the constricted attachment tip oriented down toward the host cell membrane. When located more than a micron away from the ciliary fibers, mycoplasmas lay horizontally along the epithelial cell membrane. The photographic data suggest that clusters or “sperules” of mycoplasmas may liberate individual mycoplasmas that attach to the cell membrane. It appears that the receptor sites forM. pneumoniae are rather uniformly distributed along the ciliated cell membrane, and are not restricted to the interciliary areas. Electron microscopy was done with the cooperation of Dr. R. Macleod and the staff of the Center for Electron Microscopy at the University of Illinois. Critical editorial review was provided by C. Dayton. This investigation was supported in part by grants to M. G. G. from the National Institute of Allergy and Infectious Diseases (AI 12559) and the National Heart, Lung, and Blood Institute (HL 23806), Bethesda, Maryland.     

Critical evaluation of the VSC model for tip growth

The vesicle supply centre (VSC) model (Bartnicki-Garcia et al., 1989) for hyphal tip growth is powerful because it can model diverse developmental morphologies and predicts cellular organization based in current cell biology. It predicts that tip growth results from the random distribution of cell surface synthesizing vesicles from a point in the tip, the VSC, which determines their pattern of impact and fusion at the plasma membrane. We derive equations for tip-high gradients of vesicle fusions, generated by mechanisms not related to a supply centre, which create typical hyphal morphologies. These equations direct the conceptual basis for tip growth to vesicle fusion gradients, presumably mediated by a putative membrane skeleton associated with the plasma membrane. We also show that the organization and behaviour of motile organelles in growing hyphal tips of the oomycete,Saprolegnia ferax, argue against the presence of an apparatus capable of generating the distribution of vesicles postulated by the VSC model. We conclude that the VSC model is unlikely to describe the mechanistic basis of tip growth inS. ferax, and therefore, at best, it is not universally applicable.     

Stochastic modelling of apoptosis kinetics

Robust quantitative estimation of average whole cell mitochondrial dysfunction is a useful tool for assessing sensitivity to apoptotic stimuli induced either by novel agents, or following manipulation of apoptotic threshold by pharmacological or functional genomics approaches. We have mathematically modelled the kinetics of whole cell mitochondrial membrane potential depolarisation within a population of cells as a Bernouli transition. An exponential distribution enables the median latency preceding mitochondrial membrane potential disispation to be derived. The kinetic model can be fitted to in vitro single cell resolution data derived from kinetic flow cytometric studies by non-linear regression. We propose that kinetic determination of cumulative frequency distibutions provides a useful approach for estimating apoptosis sensitivity across cell populations over short time-frames.     

Fine structure of Merkel cells in lampreys

Summary The structure of Merkel cells occurring in the epidermis of adult and larval stages of Lampetra spp. is described; it is comparable to that reported from the gnathostome classes. The cells bear microvilli, grouped on the distal and proximal aspects, and are associated with sparsely branching and varicose nerve fibres. One branch of the neurite bears a spur-like process which indents the proximal side of the Merkel cell. Most of the specific Merkel granules are situated in the vicinity of this neurite projection; the cell membrane adjacent to the tip of the spur process bears structures resembling presynaptic densities. Occasionally, desmosome-like junctions are found between the neurite and the Merkel cell.The authors thank the Fresh Water Biological Association and the Department of Biological Sciences, University of Bath, for supplying the material, Dr. H. Fox for giving some prepared blocks of Lampetra planeri adults, Mr. B.L. Pirie for technical assistance, and the Science Research Council for support through grant GR/A/3740.6     

Measurement of the electrical resistance of plasmodesmata and membranes of corn suspension-culture cells

Electrophysiological investigations of intercellular communication and membrane resistance in higher plants have been hampered by the difficulty in measuring these quantities independently. Uncertainty about the position of an electrode inserted into vacuolate tissue has further complicated such measurement. To overcome these problems sister cell pairs of a Zea mays L. Black Mexican Sweet suspension culture were used and dye was injected from the current-injecting electrode to determine the location of the electrode tip in each experiment. Of the impalements, 72% were cytoplasmic. The presence of plasmodesmata was fully incorporated into the electriccircuit model for the cell, and the resistance of the membrane of the current-injected cell was calculated, separate from the plasmodesmata resistance. This avoided some of the confusion resulting from work on multicellular tissue in which the position of the electrode and the extent of intercellular coupling is not determined. Using this technique, plasma-membrane resistivity was measured as 0.65 ·m², the resistivity of the tonoplast and plasma membrane in series was 1.35 ·m², and the resistance of a single plasmodesma was calculated to be 53 ± 11 G.Abbreviations BMS Black Mexican Sweet - PD potential difference - R_j resistance of the plasmodesmata in the junction between cells - R_m resistance of the plasma membrane of the current-injected cell - R_t resistance of the tonoplast - V₁, V₂ membrane PDs of sister cells This work was funded by an Australian Research Council grant to R.L.O. We are grateful to Dr. Maret Vesk (Electron Microscope Unit, The University of Sydney) for assistance with the preparation of EM sections, and to Dr. Richard Brettell (C.S.I.R.O. Division of Plant Industry) for assistance with the BMS culture.     

Fluorescence marking of neuropile glial cells in the central nervous system of the leech Hirudo medicinalis

Summary Neuropile glial (NG) cells in the central nervous system of the medicinal leech, Hirudo medicinalis L., were studied by histological and intracellular electrophysiological methods. Potential profiles of single leech ganglia were mapped by advancing an electrolyte-filled microelectrode into the ganglion as far as the NG cell. A small negative potential usually appeared during or immediately after penetration of the ganglion sheath. Most of the ganglia in the chain (ganglia 1–4 and 7–21) have Retzius-cell-bodies of normal size; in these, the potential associated with the ganglion sheath was followed by a jump to a more negative potential. Superimposed action potentials were associated with entry of the electrode into a Retzius cell. When the electrode tip passed out of the cell into the center of the ganglion, another potential change was observed, namely that to the membrane potential of the anterior NG cell. This membrane potential averaged -60.2 mV and ranged from -50 to -73 mV. In ganglia 5 and 6 the Retzius-cell-bodies are particularly small, and no changes of potential associated with these cells were observed; the first potential to appear after the electrode passed through the sheath of the ganglion was the membrane potential of the NG cell. Potential profiles like those of ganglia 5 and 6 are recorded in the posterior parts of all ganglia.Potential profiles of single leech ganglia were also recorded with microelectrodes filled with the fluorescent dye Procion Yellow M4-RAN. When the presumed membrane potential of an NG cell appeared, the dye was injected into the ganglion. Subsequent histological examination with the fluorescence microscope revealed that all of the dye was contained in NG cells.Supported by a Fellowship (Heisenberg-Stipendium, Schl 169/5) and grants (Schl 169/2, 4) to W.R.S. from the Deutsche ForschungsgemeinschaftThe authors thank Gisela Geiger for excellent assistance during this work     

The plasma membrane of growing root hairs is composed of zones of local differentiation

Growing root hairs of cress (Lepidium sativum L.) were investigated using freeze-fracture and electron-microscopic techniques. Three zones of differentiation could be detected: the tip zone, the zone of vacuolation and the foot zone. Corresponding to these zones, the plasmatic fracture face of the plasma membrane showed areas of pronounced differentiation with respect to the distribution and frequency of intramembranous particles (IMPs). The tip zone was characterized by an irregular fracture plane caused by a large number of blisters which were more or less free of IMPs. These blisters coincided in size and shape with Golgi vesicles accumulated in the ground cytoplasm near the very tip. Outside these blisters, IMPs were randomly distributed. The surrounding cell wall was very thin and mainly composed of amorphous material. The plasma membrane of the vacuolation zone often revealed areas of hexagonally ordered particles (HOPS). Such patterns of particles were observed in chemically fixed and unfixed root hairs with a maximum surface density of 1200 HOPS per area. Mostly, however, 15–50 HOPS per area were found. The number of such areas increased with increasing distance from the tip up to five areas per m². Additionally, imprints of large cellulose microfibrils could be detected in unfixed material; they were mainly parallel to the root-hair axis and sometimes ended in areas of HOPS. However, HOPS were observed only in approximately 60% of the root hairs. Otherwise, large areas free of IMPs were interspersed between areas of randomly distributed IMPs. The particle frequency was relatively low and varied greatly in the tip as well as in the vacuolation zone, that is, from 1200 to 2000 IMPs m^-2. Finally, the plasma membrane of the foot zone showed a very constant number of approx. 2000 IMPs m^-2. These particles were mainly distinct and randomly distributed. In this zone, HOPS were never observed in spite of the fact that the cell wall was composed of numerous parallel-running cellulose microfibrils. Since membrane material is mainly incorporated in the tip zone where IMPs are statistically distributed, the results indicate that the plasma membrane of the outgrowing part of the root-hair cells is characterized by a high lateral mobility of its components. Furthermore, they indicate that specifically arranged particles are involved in the synthesis of cellulose microfibrils. These areas of HOPS seem to be locally restricted and — or limited with respect to their lifetime.Abbreviations cmf(s) cellulose microfibril(s) - EF extraplasmatic fracture face - HOPS hexagonally ordered particles - IMP intramembranous particle - PF plasmatic fracture face - pm plasma membrane Dedicated to Professor Dr. Kurt Mühlethaler, Zürich, on the occasion of his 65th birthday     

TIP CELL GROWTH AND THE FREQUENCY AND DISTRIBUTION OF CELLULOSE MICROFIBRIL-SYNTHESIZING COMPLEXES IN THE PLASMA MEMBRANE OF APICAL SHOOT CELLS OF THE RED ALGA PORPHYRA YEZOENSIS1

The supramolecular organization of the plasma membrane of apical cells in shoot filaments of the marine red alga Porphyra yezoensis Ueda (conchocelis stage) was studied in replicas of rapidly frozen and fractured cells. The protoplasmic fracture (PF) face of the plasma membrane exhibited both randomly distributed single particles (with a mean diameter of 9.2 ± 0.2 nm) and distinct linear cellulose microfibril-synthesizing terminal complexes (TCs) consisting of two or three rows of linearly arranged particles (average diameter of TC particles 9.4 plusmn; 0.3 nm). The density of the single particles of the PF face of the plasma membrane was 3000 μm^?2, whereas that of the exoplasmic fracture face was 325 μm^?2. TCs were observed only on the PF face. The highest density of TCs was at the apex of the cell (mean density 23.0 plusmn; 7.4 TCs μm^?2 within 5 μm from the tip) and decreased rapidly from the apex to the more basal regions of the cell, dropping to near zero at 20 μm. The number of particle subunits of TCs per μm² of the plasma membrane also decreased from the tip to the basal regions following the same gradient as that of the TC density. The length of TCs increased gradually from the tip (mean length 46.0 plusmn; 1.4 nm in the area at 0–5 μm from the tip) to the cell base (mean length 60.0 plusmn; 7.0 μm in the area at 15–20 μm). In the very tip region (0–4 μm from the apex), randomly distributed TCs but no microfibril imprints were observed, while in the region 4–9 μm from the tip microfibril imprints and TCs, both randomly distributed, occurred. Many TCs involved in the synthesis of cellulose microfibrils were associated with the ends of microfibril imprints. Our results indicate that TCs are involved in the biosynthesis, assembly, and orientation of cellulose microfibrils and that the frequency and distribution of TCs reflect tip growth (polar growth) in the apical shoot cell of Porphyra yezoensis. Polar distribution of linear TCs as “cellulose synthase” complexes within the plasma membrane of a tip cell was recorded for the first time in plants.     

Cytophotometrical measurement of nuclear DNA content in some coniferous and deciduous trees

Summary The DNA content of nuclei from meristematic root tip cells of five coniferous and one deciduous tree species and, for comparison, ofVicia faba was cytophotometrically determined. The DNA values of diploid nuclei fromGinkgo biloba are approximately a quarter lower than those fromVicia faba. The nuclear DNA values of the other tree species are merely a third to a ninth part of those ofVicia faba. In three tree species, as well as diploid, we have found nuclei of different polyploid level.The reliability of different cytochemical methods, which are used for determination of the nuclear DNA content, is critically analyzed. The DNA values of the investigated tree species are discussed in connection with the evolution of the DNA content in higher plants.Dedicated to Professor Dr. F. Mechelke in honour of his 60th birthday     

Scanning electron microscopy of the Alnus crispa var. mollis Fern. root nodule endophyte

Nitrogen-fixing root nodules of the Alnus crispa var. mollis Fern. were studied by scanning electron microscopy (SEM). The critical point drying of glutaraldehyde-osmium fixed nodular tissue permitted an excellent morphological preservation of the three-dimensional structures of the host and endophyte cells. The nodule endophyte was observed as two forms: the hypha which can be branched, and the vesicle which developed at the parental hypha tip. The actinomycetal endophyte penetrated through the host cortical cell wall and became enveloped by a membrane. This enclosing membrane is suggested to be the invaginated host plasmalemma. Perforations of the cell wall of the host infected cell were observed. These perforations are suggested to be the result of an enzymatic degradation process, probably regulated by the penetrating endophyte hyphae. In addition to the polymorphic endophyte, endogenous bacterial contaminants were observed in the nodular tissue. The present SEM study confirms previous light microscopy and transmission electron microscopy studies of the same species of root nodule symbiosis.     

Functional insights into the Shigella type III needle tip IpaD in secretion control and cell contact

Type III secretion apparatus (T3SA) are complex nanomachines that insert a translocation pore into the host cell membrane through which effector proteins are injected into the cytosol. In Shigella, the pore is inserted by a needle tip complex that also controls secretion. IpaD is the key protein that rules the composition of the tip complex before and upon cell contact or Congo red (CR) induction. However, how IpaD is involved in secretion control and translocon insertion remains not fully understood. Here, we report the phenotypic analysis of 20 10‐amino acids deletion variants all along the coiled‐coil and the central domains of IpaD (residues 131–332). Our results highlight three classes of T3S phenotype; (i) wild‐type secretion, (ii) constitutive secretion of all classes of effectors, and (iii) constitutive secretion of translocators and early effectors, but not of late effectors. Our data also suggest that the composition of the tip complex defines both the T3SA inducibility state and late effectors secretion. Finally, we shed light on a new aspect regarding the contact of the needle tip with cell membrane by uncoupling the Shigella abilities to escape macrophage vacuole, and to insert the translocation pore or to invade non‐phagocytic cells.     

Microtubule organization in germinated pollen of the conifer Picea abies (Norway spruce,Pinaceae)

The organization of microtubules in germinated pollen of the conifer Picea abies (Norway spruce, Pinaceae) was examined using primarily confocal microscopy. Pollination in conifers differs from angiosperms in the number of mitotic divisions between the microspore and the sperm and in the growth rate of the pollen tube. These differences may be orchestrated by the cytoskeleton, and this study finds that there are important functional differences in microtubule organization within conifer pollen compared to the angiosperm model systems. Pollen from P. abies contains two degenerated prothallial cells, a body cell, a stalk cell, and a vegetative cell. The body cell produces the sperm. In the vegetative cell, microtubules form a continuous network from within the pollen grain, out through the aperture, and down the length of the tube to the elongating tip. Within the grain, this network extends from the pollen grain wall to the body and stalk cell complex. Microtubules within the body and stalk cells form a densely packed array that enmeshes amyloplasts and the nucleus. Microtubule bundles can be traced between the body and stalk cells from the cytoplasm of the body cell to the adjoining cell wall and into the cytoplasm of the stalk cell. Body and stalk cells are connected by plasmodesmata. The organization of microtubules and the presence of plasmodesmata suggest that microtubules form a path for intercellular communication by projecting from the cytoplasm to interconnecting plasmodesmata. Microtubules in the elongating tube form a net axial array that ensheathes the vegetative nucleus. Microtubules are enriched at the elongating tip, where they form an array beneath the plasma membrane that is perpendicular to the direction of tube growth. This enriched region extends back 20 μm from the tip. There is an abrupt transition from a net perpendicular to a net axial organization at the edge of the enriched region. In medial sections, microtubules are present in the core of the elongating tip. The organization of microtubules in the tip differs from that seen in angiosperm pollen tubes.     

Characterization of the cell wall of the unicellular cyanobacterium Synechocystis PCC 6714

Cell walls free of cytoplasmic- and thylakoid membranes were isolated from Synechocystis PCC 6714 by sucrose density gradient centrifugation and extraction with Triton X-100. The Triton-insoluble cell wall fraction retained the multilayered fine structure. Peptidoglycan, proteins, polysaccharides, lipopolysaccharides, lipids and carotenoids were found as constituents of the cell wall. Polypeptide and lipid patterns of cell walls were completely different from that of the cytoplasmic/thylakoid membrane fraction. The purified cell walls contained about twelve outer membrane proteins. The two major polypeptides (M_r 67,000 and 61,000) were found to be associated with the peptidoglycan by ionic interactions.Myxoxanthophyll (major carotenoid), related carotenoid-glycosides and zeaxanthin were the predominating carotenoids of the cell wall of Synechocystis PCC 6714 over echinenone and -carotene. A polar unknown carotenoid was observed, the absorption spectrum of which resembled that of myxoxanthophyll. It was exclusively found in cell walls, but not in the cytoplasmic/thylakoid membrane fraction.Abbreviations Hep heptose - DGDG digalactosyldiglyceride - MGDG monogalactosyldiglyceride - SL sulfolipid - PC phosphatidylcholin - PG phosphatidylglyceride Dedicated to Prof. Dr. G. Drews on the occasion of his 60th birthday     

Local changes of resistance in the retinal horizontal cell evoked by changes in membrane potential

A steady current (10·10^–10–6·10^–9 A) was passed by means of a bridge circuit through a recording microelectrode inserted into a horizontal cell of the turtle retina. Illumination of the retina caused an increase in the resistance of the microelectrode circuit (by 10–80 M), causing a change in the shape of the recorded response of the horizontal cell to light. The change in resistance was shown to take place, not on the cell membrane itself, but inside the cell close to the microelectrode tip. The effect described can be reproduced by passing a current through one barrel of a double-barreled microelectrode alongside the recording barrel, but the strength required for this current was greater than that passed through the recording barrel. If the membrane potential of the horizontal cell was made equal to the equilibrium potential (by means of a steady current passed through extracellular electrodes) the hyperpolarization response to light and the effect of the increase in resistance of the microelectrode circuit disappeared simultaneously. On the other hand, artificial hyperpolarization of the cell membrane caused an increase, but depolarization caused a decrease in the resistance of the microelectrode circuit. It is postulated that the observed effect is due to blocking of the microelectrode tip by an intracellular structure whose resistance varies with a change in membrane potential.Institute of Problems in Information Transmission, Academy of Sciences of the USSR, Moscow. Translated from Neirofiziologiya, Vol.5, No.4, pp.432–441, July–August, 1973.     

Outer membrane protein PhoE as a carrier for the exposure of foreign antigenic determinants at the bacterial cell surface

PhoE protein is an abundant outer membrane protein of theEscherichia coli K-12 outer membrane. This protein can be used as an exposure system to produce foreign antigenic determinants and for their transport to the bacterial cell surface. The system is very flexible, since insertions varying in length and nature could be made in different cell surface-exposed regions of PhoE, without interfering with the assembly process of the mutant proteins into the outer membrane. Two antigenic determinants of the structural VP1 protein of foot-and-mouth disease virus were inserted in different combinations in four cell surface-exposed regions of PhoE. The epitopes were exposed at the bacterial cell surface and they keep their antigenic and immunogenic properties in this PhoE-associated conformation. Immunization of guinea pigs with one hybrid protein, containing a combination of the two epitopes inserted in the fourth exposed region, resulted in complete protection against challenge with the virus. A T-cell epitope of the 65 kDa heat shock protein ofMycobacterium tuberculosis was inserted in the fourth exposed region of PhoE and in vitro proliferation of two T-cell specific clones was demonstrated. Thus, the PhoE exposure system has been shown to be suitable for presentation of both B-cell and T-cell determinants to the immune system. Furthermore, good expression of the hybrid protein in attenuatedSalmonella strains, which can be used as live oral vaccines, was shown.Paper awarded the Kluyver Prize 1990 by the Netherlands Society of Microbiology to Dr. M.C. Agterberg