Immunochemical analysis of the carbohydrate moiety of yeast killer toxin K28

Killer toxin K₂₈, a 16 kd protein secreted by the wine yeast Saccharomyces cerevisiae strain 28, was reversibly bound by a column of Concanavalin A-Sepharose, confirming its glycoprotein nature. HPLC analysis of acid hydrolyzates of K₂₈ toxin as well as Western-blots of -eliminated and/or endo H-treated killer toxin preparations probed with polyclonal -toxin antibodies revealed that the carbohydrate moiety of K₂₈ consists of D-mannose only, which is O-glycosidically linked via Ser/Thr residues to the protein part. The change in gel mobility of K₂₈ after -elimination was caused by a decrease in molecular mass of about 1,800, corresponding to a carbohydrate moiety of 10 mannose residues per killer toxin molecule.     

Glucose uptake of Cytophaga johnsonae studied in batch and chemostat culture

The influence of different physiological states on the glucose uptake and mineralization by Cytophaga johnsonae, a freshwater isolate, was examined in batch and chemostat cultures. At different growth rates under glucose limitation in chemostat cultures, different uptake patterns for ¹⁴C labeled glucose were observed. In batch culture and at high growth rates the glucose uptake potential showed a higher maximum velocity and a much lower substrate affinity than at lower growth rates. These findings and the results of short-term labeling patterns could be explained by two different glucose uptake mechanisms which enable the strain to grow efficiently both at high and low substrate concentrations. Substrate specificity studies showed that a structural change of the C-2 atom of the glucose molecule was tolerated by both systems. The consequences of these results for the ecophysiological classification of the Cytophaga group and for the operation of continuous cultures are discussed.     

Arthropodisierung ais biomechanischer Prozeß und die Entstehung der Trilobiten-Konstruktion

The conditions are pointed out under which the body construction of annelids could have been transformed into that of arthropods. As an adaptation to a vagile life near or in the bottom and to an uptaking of food by filtering of particles the parapodia of annelid-like organisms were shifted into a more ventral position. This process required certain bracings by connective tissue and muscles in the body, controlling the body shape. Immobilisation of body parts, initially in the dorsal region, allowed stiff skeletal structures to arise. The sclerotisation caused an increase of efficiency of the motoric system, since the body form was reliably controlled no more by the action of muscles, as in the hydrostatic skeleton systems of worms, but by rigid skeletal plates, to which muscles can be inserted. The result of this transformation were broad and flat arthropod-constructions with ventral food groove, through which the row of endites of the limbs transported a stream of food along the median line to the mouth. On this constructional level the trilobites are the first group with many species. Their structures can be explained as a result of the constructional preconditions of their ancestors and of the adaptations during the transformation, leading from annelid-like hydrostatic skeleton systems to typical arthropods with an exoskeleton-muscle apparatus.     

In situ studies on crassulacean acid metabolism in Sedum acre L. and Sedum mite Gil

Summary CO₂ exchange, the diurnal variations in the levels of malic, citric and isocitric acid, and the labelling pattern after ¹⁴CO₂ fixation were measured in Sedum acre and Sedum mite growing in situ. As predicted from laboratory experiments, drought changed the gas exchange pattern from a C₃ type to a crassulacean acid metabolism (CAM) type. This shift correlated with the development of a diurnal rhythm in the malic acid content. The results of ¹⁴CO₂ pulse-chase experiments suggest that in well-watered plants a CAM pattern of carbon flow already exists; hence water stress might enhance latent CAM rather than induce it. The in situ CAM performance by the Sedum species appeared to be highly susceptible to modulation by season and external factors, particularly light and temperature.CAM did not substantially contribute to total carbon gain in S. acre and S. mite. During most of their lifecycles the plants grow under conditions that favour CO₂ uptake by the C₃ pathway rather than by CAM. Hence, despite a capability to feature CAM, the ¹³C values found in S. acre and S. mite are those of C₃ plants.Abbreviations CAM Crassulacean Acid Metabolism - PEP-C Phosphoenolpyruvate-Carboxylase - DW Dry weight Dedicated to Prof. Dr. Dr. h.c. M. Evenari on the occasion of his 75th birthday and to Dr. K.F. Springer     

The use of phenylmethylsulfonyl fluoride in the study of catabolite inactivation and repression in intact cells of Saccharomyces cerevisiae

Catabolite inactivation of fructose-1,6-bisphosphatase, isocitrate lyase, phosphoenolpruvate carboxykinase and malate dehydrogenase in intact cells could be prevented by phenylmethylsulfonyl fluoride added 40 min prior to the addition of glucose. Protein synthesis, fermentative and respiratory activity and catabolite repression were not affected. Elimination of catabolite inactivation by the addition of PMSF revealed that catabolite repression started at different times for different enzyme.Abbreviation PMSF phenylmethylsulfonyl fluoride     

Antithrombin III binds to human platelets

The receptor site for antithrombin III (AT III) was investigated in normal human platelets. [¹²⁵I] iodinated AT III was utilized as tracer for the binding assay. Equilibrium of AT III binding was reached within 2 min. The binding capacity was pH-dependent with the optimum around pH 7.0. Binding specificity was demonstrated by inhibition of [¹²⁵I] AT III ligation using an excess amount of non-labeled AT III. The AT III·heparin complex did not supress [¹²⁵I] AT III binding. Analysis of binding data by Scatchard plot revealed a single class of binding sites with K_d of 3.2 × 10^?7 M and binding capacity of 3840 per platelet.     

Native and reconstituted chromosome fiber fragments

The structure of hen erythrocyte chromatin fibers was studied with the electron microscope. Chromatin fiber fragments with a length of about 5,000 Å and an average diameter of 320 Å are composed of 13 globular subunits (superbeads) which contain different numbers of nucleosomes. Their number average corresponds to 17 nucleosomes. — The interaction of lysine-rich histones with nucleosome chains was investigated by reconstitution experiments and was found to be semi-cooperative.     

Stereo high voltage electron microscopy of melanophores : Matrix transformations during pigment movements and the effects of cold and colchicine

Pigment migration in isolated melanophores of the angelfish, Pterophyllum scalare, has been studied by high voltage electron microscopy. Cells were isolated from the scales by collagenase and allowed to spread on Formvar and carbon-coated gold grids. Melanophores were then fixed by glutaraldehyde and osmium tetroxide and critical-point dried for viewing of whole cells in a high voltage electron microscope (1000 kV). The three-dimensional organization of the cytoplasmic matrix was stereoscopically examined in different states of pigment distribution, as well as under cold and colchicine treatment. The most prominent matrix constituent is an extensive mesh of cytoplasmic filaments (microtrabeculae) 2–18 nm in diameter that make contact to microtubules, pigment granules, and mitochondria. Microtrabeculae undergo dramatic changes in structural appearance in association with different phases of pigment movements. Cells fixed in the process of pigment aggregation are characterized by thickened and beaded trabeculae which may form irregular clots. Part of this material trails behind centripetally moving melanosomes. In dispersing cells, microtrabeculae are straight and of relatively uniform thickness throughout their length and form a highly ordered three-dimensional lattice. Reconstruction of the mesh in part precedes the arrival of pigment granules.Under the influence of cold or colchicine treatment, microtrabeculae show a high degree of polymorphism, being beaded, branched, or flattened with globose ends. Rather formless heaps are found associated with the surface of pigment granules. Since, however, these treatments also remove microtubules, the other important component of the cytoplasmic frame, alterations in microtrabecular structure may simply be mediated through removal of this organelle. In an attempt to separate the effects on microtrabeculae and microtubules from one another, cells have been cold-treated for only 15 min, a procedure that leaves a considerable portion of microtubules intact. Also under these conditions, microtrabeculae are beaded or transformed to globose heaps and flattened sheets.The observations suggest an involvement of microtrabeculae in the process of granule movement. Centripetal melanosome migration thereby seems associated with a collapse of microtrabeculae which again are reconstructed during pigment dispersion. The cold and colchicine experiments indicate direct effects of these agents on the structure and possibly also the function of the trabecular mesh. The significance and possible chemical composition of microtrabeculae is discussed.     

Post-transformational rearrangement of an in vitro reconstructed group-A streptococcal erythromycin resistance plasmid

Cleavage of the group-A streptococcal macrolide, lincosamide, and streptogramin B (MLS) resistance plasmid pSM19035 yields 2 fragments [13 and 4 megadaltons (MD)] with EcoRI, and 15 fragments with HindIII, 12 of which are 6 pairs of identical fragments derived from the inverted repeats that comprise about 80% of the pSM19035 genome. The large EcoRI fragment was isolated, ligated, and used to transform the Challis strain of Streptococcus sanguis to erythromycin resistance. Plasmids (pDB101, pDB102, and pDB103) isolated from three different transformants had lower molecular masses than the original large EcoRI fragment. HindIII digestion of these molecules and subsequent analysis of fragment radioactivity distributions indicated the loss of plasmid segments of various sizes. The deletions, all of which occurred in the palindrome, did not affect the level and the inducible nature of pSM19035-determined antibiotic resistance. Only pDB101 retained the unique EcoRI cleavage site. The results of this analysis allowed the construction of an EcoRI and HindIII cleavage-site map of pSM19035 and promise to simplify future studies of genetic functions specified by streptococcal MLS resistance plasmids.