Project description:MHC molecules are expressed at the surface of nucleated cells to present peptides to T cells. Structural information on MHC molecules has been gathered by x-ray crystallography techniques by using soluble proteins. Although relationships between MHC molecules and cell membranes have not been studied in detail, they are of critical importance for T cell recognition. Using a chemically modified lipid, we have been able to capture and orient histidine-tagged MHC molecules on lipid membranes. Surface plasmon resonance experiments show that the protein binds to the nickel lipid in a specific manner and in an oriented fashion, which allows T cell receptor binding. Similar lipid surfaces have been used to grow two-dimensional crystals and to determine the structure of a membrane-anchored murine H-2Kb MHC class I molecule. The docking of the crystallographic structure into the three-dimensional reconstructed structure derived from the two-dimensional crystals allows us to determine that the histidine tag is near the membrane surface and that the MHC molecule is in an upright position, exposing the peptide/alpha1-alpha2 domains toward the T cell.

Project description:Treatment of ox and dog thyroid slices in vitro with either thyrotropin or dibutyryl cyclic AMP elicited a variety of changes in polyribosome distribution. The most marked and consistent responses were decreases in both free and membrane-bound monoribosomes with a concomitant increase in the specific peak of thyroglobulin-synthesizing polyribosomes. On some occasions there was a shift towards heavier aggregates in the free polyribosomes. The increase in the amount of thyroglobulin-synthesizing polyribosomes was not accompanied by a shift in its location on the gradients. These changes were apparent within 30 min of thyrotropin addition and within 60 min of the addition of dibutyryl cyclic AMP. It is suggested that the major initial effect on translation of both thyrotropin and dibutyryl cyclic AMP is to stimulate the recruitment of pre-existing free monoribosomes on to pre-existing unloaded or under-loaded thyroglobulin mRNA molecules.

Project description:1. Free and membrane-bound polyribosomes and ribosomal monomers were isolated from normal and Rauscher-virus-infected mouse spleens by means of discontinuous sucrose density gradients. 2. The addition of ribonuclease inhibitor from rat liver was essential to protect these polyribosomes from degradation. To separate the smooth and rough membranes from ribosomal monomers an additional centrifugation step through a continuous sucrose density gradient was necessary. 3. After infection a marked increase in rRNA from both membrane-bound and free polyribosomes was observed. Treatment of the membrane-bound polyribosomes with sodium deoxycholate yielded only 80S particles even when ribonuclease inhibitor was added. 4. A striking feature of the infected spleen was the occurrence of large polyribosomes. Up to 40 monomers per polyribosome could be counted on electron micrographs.

Project description:Total, membrane-bound and free polyribosomes were purified from livers of Zn2+-treated and control rats. Polyadenylated RNA was separated from the polyribosomal RNA extracts by oligo(dT)--cellulose chromatography and translated in a wheat-germ cell-free translation system. Newly synthesized 35S-labelled metallothionein was isolated from the other [35S]methionine-labelled translation products by activated-thiol--Sepharose 4B chromatography. The purity of the 35S-labelled metallothionein product was substantiated by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis. Zinc administration resulted in an elevation of metallothionein mRNA activity to 11% of the total polyribosomal mRNA activity. The vast majority of biologically active metallothionein mRNA was localized in the free polyribosomal pool, at least 94% and 97% in control and zinc-treated rats respectively. The increase in the percentage of polyribosomal mRNA coding for metallothionein after zinc administration was 3-fold, whether measured directly in total polyribosomal mRNA or as a combination derived from membrane-bound and free polyribosomal mRNA. These data indicate that the induction of metallothionein mRNA by zinc involves only free polyribosomes and suggest that the function of metallothionein is limited to intracellular processes.

Project description:The activity of initiation factors obtained from free and membrane-bound polyribosomes of liver and of transplantable H5123 hepatoma of rats was investigated by using an assay of protein synthesis in vitro in which poly (U)-directed polyphenylalanine synthesis was measured. Initiation factors of membrane-bound polyribosomes prepared by using the anionic detergent deoxycholate exhibited less activity in incorporating [14C]phenylalanyltRNA into polypetides than did initiation factors of free polyribosomes. However, when membrane-bound polyribosomes were prepared after using the non-ionic detergent Triton X-100, no significant differences in activities in polyphenylalanine synthesis were observed between the initiation factors of free and membrane-bound polyribosomes. These results suggest that Triton X-100 is preferable to deoxycholate in the isolation of of initiation factors from polyribosomes. Initiation factors, prepared by using Triton X-100, of free polyribosomes of hepatoma exhibited greater activity in the stimulation of polyphenylalanine synthesis than did the initiation factors of free or membrane-bound polyribosomes of host livers or of membrane-bound polyribosomes of hepatomas.

Project description:The functional distinction of membrane-bound and free polyribosomes for the synthesis of exportable and non-exportable proteins respectively is not so strict as was initially thought, and it was therefore decided to investigate their relative contribution to the elaboration of an internal protein integrated into a cell structure. Cytochrome c was chosen as an example of a soluble mitochondrial protein, and the incorporation of [(14)C]leucine and delta-amino[(14)C]laevulinate into the molecule was studied by using different ribosomal preparations from regenerating rat liver. A new procedure was devised for the purification of cytochrome c, based on ion-exchange chromatography combined with sodium dodecyl sulphate-polyacrylamide-gel electrophoresis. In spite of cytochrome c being a non-exportable protein, the membrane-bound polyribosomes were at least as active as the free ribosomes in the synthesis in vitro of the apoprotein and the haem moiety. The detergent-treated ribosomes could also effect the synthesis of cytochrome c, although at a lower rate. Since in liver more than two-thirds of the ribosomes are bound to the endoplasmic-reticulum membranes, it is considered that in vivo they are responsible for the synthesis of most of the cytochrome c content of the cell. This suggests that in secretory tissues the endoplasmic reticulum plays a predominant role in mitochondrial biogenesis, although free ribosomes may participate in the partial turnover of some parts of the organelle. The hypothesis on the functional specialization of the different kinds of ribosomes was therefore modified to account for their parallel intervention in the synthesis of proteins associated with membranous structures.

Project description:1. Various subcellular fractions containing ribosomes were isolated from rat liver. 2. In the presence of [(14)C]leucine and Sephadex-treated cell sap the radioactivity incorporated into the synthesized protein resulting from the incubation of microsomal preparations or deoxycholate-treated polyribosomes was dependent on the amount of rRNA incubated. In contrast, when Sephadex-treated post-mitochondrial supernatant was incubated, the radioactivity incorporated into the synthesized protein was independent of the amount of rRNA incubated. 3. Microsomal preparations and membrane-bound ribosomes, prepared by the standard procedure, incorporated less [(14)C]leucine into protein, per mg of rRNA incubated, than free or deoxycholate-treated polyribosomes; accordingly, polyribosomes associated with the former fractions were found mainly as monomers. 4. If microsomal fractions or membrane-bound ribosomes were prepared by a simple modification of the standard procedure, i.e. by centrifugation on to a ;cushion' of 2m-sucrose, their protein-synthesizing activity was of the same order as that of the original post-mitochondrial supernatant, and membrane-free and deoxycholate-treated polyribosomes; in this case polyribosome profiles showed that very little degradation had occurred and compared well with those obtained for post-mitochondrial supernatant and isolated polyribosomes. 5. A method is described (Appendix) that provides a rapid and reliable assessment of the concentration of rRNA in subcellular fractions.

Project description:Poly(A)+ RNA (polyadenylated RNA) isolated from membrane-bound and free polyribosomes was translated in reticulocyte lysates, and the products were analysed by two-dimensional gel electrophoresis. Several translation products were specific to membrane-bound polyribosomal mRNA, including polypeptides of 47kDa, 35kDa and 21 kDa, whereas others (e.g. of 37 kDa, 17 kDa and 14 kDa) were specific to free polyribosomal mRNA. Although many products were common to both mRNA species, cross-contamination could be ruled out on the basis of the presence of these and other specific products. The common products included a 68 kDa microtubule-associated protein, tubulin, actin, the brain form of creatine kinase, neuron-specific enolase and protein 14-3-3 and calmodulin, all of which were identified on the basis of two-dimensional gel and peptide analyses. The 35 kDa protein product of membrane-specific mRNA was co-translationally processed in vitro by microsomal membranes, resulting in its cleavage to 33 kDa (and partial glycosylation). The 33 kDa processed protein (but not the 35 kDa precursor) was integrated into both dog pancreas and rat brain microsomal membranes. The occurrence of the enzymes and calmodulin as products of membrane-bound polyribosomal mRNA is discussed in the light of their presence on rat brain synaptic plasma membranes [Lim, Hall, Leung, Mahadevan & Whatley (1983) J. Neurochem. 41, 1177-1182] and their existence in a specific component of axonal flow. It is suggested that some of these translation products of the rough endoplasmic reticulum may represent proteins destined for the plasma membrane. However, the identity and location of the 35 kDa membrane-specific product (or its processed form) still remain unestablished.

Project description:Class III peroxidases are heme-containing proteins of the secretory pathway with a high redundance and versatile functions. Many soluble peroxidases have been characterized in great detail, whereas only a few studies exist on membrane-bound isoenzymes. Membrane localization of class III peroxidases has been demonstrated for tonoplast, plasma membrane and detergent resistant membrane fractions of different plant species. In silico analysis revealed transmembrane domains for about half of the class III peroxidases that are encoded by the maize (Zea mays) genome. Similar results have been found for other species like thale-cress (Arabidopsis thaliana), barrel medic (Medicago truncatula) and rice (Oryza sativa). Besides this, soluble peroxidases interact with tonoplast and plasma membranes by protein⁻protein interaction. The topology, spatiotemporal organization, molecular and biological functions of membrane-bound class III peroxidases are discussed. Besides a function in membrane protection and/or membrane repair, additional functions have been supported by experimental data and phylogenetics.

Project description: Not available