Small nuclear ribonucleoprotein polypeptides in rat sperm.

1. Immunoblot analysis of rat sperm head proteins revealed the presence of polypeptides recognized by anti-Sm serum obtained from patients with systemic lupus erythematosus. 2. Two of these polypeptides have molecular weights of 26,000 and 15,000 and they were identified as small nuclear ribonucleoprotein components present in other rat tissues. 3. When the autoimmune serum was used in the immuno-gold procedure for electron microscopy, gold particles were found only on the sperm nucleus. 4. The results indicate that some polypeptides of the small nuclear ribonucleoprotein complex are components of the rat sperm chromatin.     

Limited nuclease digestion of heterogeneous nuclear ribonucleoprotein in nuclei.

We have used limited nuclease digestion of nuclei to probe the structure of nuclear ribonucleoprotein (nRNP). Analysis of [³H]uridine-labeled heterogeneous nuclear RNA isolated from nuclease digested nuclei revealed preferential generation of discrete bands of RNA ranging in size from 1.5 × 10⁵ to 6 × 10⁵ daltons. The nuclease digestion pattern of nRNP differed from the nuclease digestion pattern obtained with chromatin in that the RNA bands generated in these experiments were transient, appearing only early in the course of digestion, and no stable nRNP monomer size was evident. Therefore, although nRNP may be organized in a regular configuration, nRNP structure differs considerably from the repeating subunit structure of chromatin.     

ADP-ribosylation of proteins associated with heterogeneous nuclear RNA in rat liver nuclei

Purified rat liver nuclei were incubated in vitro in the presence of [adenylate-32P]nicotinamide adenine dinucleotide. The label was rapidly incorporated into trichloroacetic acid-insoluble material and also detected in particles carrying heterogeneous nuclear RNA. The particles were isolated by density gradient centrifugation, and their size determined to be 30-40 S from parallel experiments using nuclei labelled with [3H]uridine 5'-triphosphate under similar conditions. Treatment of the 30-40 S-particles with enzymes of different specificities showed that the label was tightly bound to proteins, not incorporated into nuclei acids and not utilized in phosphorylation of proteins. The label was detached by phosphodiesterase I from snake venom and identified as ADP-ribose and adenosine 5'-phosphate present at a ratio of 7.5 to 1 using thin layer chromatography on poly(ethyleneimine)-cellulose. Radioactively labelled (ADP-ribosylated) proteins were visualized by autoradiography following SDS-polyacrylamide gel electrophoresis. They included several major species of the ribonucleoprotein with molecular weights of 36000, 39000 and 42000, and a limited number of high molecular weight polypeptides.     

Studies on the preparation and properties of ribonucleoprotein particles from rat liver nuclei

Ribonucleoprotein particles of 38 S were extracted from rat liver nuclei with isotonic salt buffer under concomitant sonication. The fate of the endogeneous nuclear RNAases assayed with poly(A), high molecular weight yeast RNA and rapidly labeled hnRNA was followed during the preparation of 38-S nuclear ribonucleoprotein (nRNP) particles. Essentially all the RNAase activity could be removed from the particle preparation. The effect of synthetic RNAase inhibitors on the nRNP particles was studied. Upon extraction of nuclei with 0.14 M NaCl, approximately 38% of the total nuclear radioactivity was found in the 38-S nRNP particles. By two successive extractions of the remaining chromatin with either isotonic or 0.22 and 0.3 M NaCl, an additional 25 and 9% of rapidly labeled hnRNA of 38 S particle were dissociated from chromatin, respectively. The chromatin components, DNA, nonhistone proteins, histones and RNA were determined after successive salt extractions. Particularly alterations in the nonhistone proteins and RNA were found. The protein patterns upon SDS-acrylamide gel electrophoresis of the salt-extracted chromatin preparations were compared with those of the 38-S nRNP particles. Particularly proteins in the molecular weight range of 32 000-43 000 were dissociated from chromatin after treatment with 0.22 or 0.3 M NaCl.     

Reconstitution of nucleoprotein complexes with mammalian heterogeneous nuclear ribonucleoprotein (hnRNP) core proteins

Newly transcribed heterogeneous nuclear RNA (hnRNA) in the eucaryote cell nucleus is bound by proteins, giving rise to large ribonucleoprotein (RNP) fibrils with an inherent substructure consisting largely of relatively homogeneous approximately 20-nm 30S particles, which contain core polypeptides of 34,000-38,000 mol wt. To determine whether this group of proteins was sufficient for the assembly of the native beaded nucleoprotein structure, we dissociated 30S hnRNP purified from mouse ascites cells into their component proteins and RNA by treatment with the ionic detergent sodium deoxycholate and then reconstituted this complex by addition of Triton X-100 to sequester the deoxycholate. Dissociation and reassembly were assayed by sucrose gradient centrifugation, monitoring UV absorbance, protein composition, and radiolabeled nucleic acid, and by electron microscopy. Endogenous RNA was digested and reassembly of RNP complexes carried out with equivalent amounts of exogenous RNA or single-stranded DNA. These complexes are composed exclusively of groups of n 30S subunits, as determined by sucrose gradient and electron microscope analysis, where n is the length of the added nucleic acid divided by the length of nucleic acid bound by one native 30S complex (about 1,000 nucleotides). When the nucleic acid: protein stoichiometry in the reconstitution mixture was varied, only complexes composed of 30S subunits were formed; excess protein or nucleic acid remained unbound. These results strongly suggest that core proteins determine the basic structural properties of 30S subunits and hence of hnRNP. In vitro construction of RNP complexes using model nucleic acid molecules should prove useful to the further study of the processing of mRNA.     

Heterogeneous nuclear ribonucleoprotein D/AUF1 interacts with heterogeneous nuclear ribonucleoprotein L

Heterogeneous nuclear ribonucleoprotein L (hnRNP L) is one of the principal pre-mRNA-binding proteins found in human cells. The hnRNP L protein is fairly abundant. However, it is not restricted to the nucleus, and instead shuttles between the nucleus and the cytoplasm. It is composed of 558 amino acid residues and harbours four loosely conserved RNP-consensus RNA-binding domains. In an attempt to characterize the interaction occurring between cellular proteins and hnRNP L, yeast two-hybrid screening was conducted using a HeLa cDNA library. Some of the cDNA clones were found to harbour a partial human hnRNP D/AUF1 cDNA (GeneBank accession number NM_031369). In this study, we determined that hnRNP L interacts specifically with the hnRNP D/AUF1 in the yeast two-hybrid system. This interaction was verified via an in vitro pull-down assay.     

Isolation and characterization of the predominant protein in nuclear ribonucleoprotein particles from rat liver

The predominant protein of the nuclear ribonucleoprotein particles of rat liver was isolated by polyacrylamide gel electrophoresis. The polypeptide represented 35% to 40% of the total mass of the protein moiety. Its molecular weight was estimated to be 38 000 and its NH2-terminal residue was found to be threonine. The amino acid composition is unique in having a high content of glycyl residues (20%) and NG-dimethylarginine (14% of total arginyl residues).     

Heterogeneous nuclear ribonucleoprotein D/AUF1 interacts with heterogeneous nuclear ribonucleoprotein L

Heterogeneous nuclear ribonucleoprotein L (hnRNP L) is one of the principal pre-mRNA-binding proteins found in human cells. The hnRNP L protein is fairly abundant. However,it is not restricted to the nucleus, and instead shuttles between the nucleus and the cytoplasm. It is composed of 558 amino acid residues and harbours four loosely conserved RNP-consensus RNA-binding domains.In an attempt to characterize the interaction occurring between cellular proteins and hnRNP L, yeast two-hybrid screening was conducted using a HeLa cDNA library. Some of the cDNA clones were found to harbour a partial human hnRNP D/AUF1 cDNA (GeneBank accession number NM_031369). In this study,we determined that hnRNP L interacts specifically with the hnRNP D/AUF1 in the yeast two-hybrid system. This interaction was verified via an in vitro pull-down assay.     

The effect of sodium chloride on the structure of ribonucleoprotein particles from rat liver nuclei.

38S (monoparticles) and greater than 50--200S ribonucleoprotein particles (polyparticles) from rat liver nuclei were treated with increasing concentrations of sodium chloride. Treatment of 38S or greater than 50--200S particles, with 0.14, 0.25, 0.5, 1.0, and 2.0M NaCl resulted in a decrease of protein to RNA ratios from 8 to 3.1 for 38S particles and from 4.0 to 1.5 for greater than 20--200S particles. Correspondingly the densities in CsCl increased. Whereas the maximum of the sedimentation profile of polyparticles decreased from 90S to 50S after treatment with increasing NaCl concentrations, a discontinuous change was found in the case of monoparticles. It was shown by sodium dodecyl sulfate-polyacrylamide gel electrophoresis that the proteins which were dissociated by NaCl were in the molecular weight range of 30--45 000. Four of the 5 small molecular weight RNAs in the range of 4.5 to 8S remained tightly associated even after treatment of polyparticles with 2.0M NaCl. When 38S or 70--200S nRNP particles were exposed to increasing concentrations of NaCl (0.25, 0.5, 1.0, 2.0M), the molar ellipticity at 264 nm increased progressively to about 40%. Upon NaCl treatment of polyparticles and successive removal of the dissociated proteins by centrifugation the increase in the positive CD band at 264 nm was only 15%.     

A comparative study of the protein components of ribonucleoprotein particles isolated from rat liver and hepatoma nuclei

To solve the mechanism for the complete cessation of DNA synthesis in Tetrahymena cells involved in the amino acid starvation, the nature of DNA polymerase activity was investigated in crude enzyme preparations or in toluene-permeabilized specimens. In crude enzyme preparations from growing cells, ³H-TTP incorporation into acid-insoluble products showed little dependency on exogenous DNA template, while incorporation increased markedly in the presence of ATP. These characteristics were very similar to those of replicative DNA synthesis in permeabilized Escherichia coli.Variations of DNA and RNA polymerase activities following transfer of exponentially growing Tetrahymena cells to amino acid-deprived medium showed that in the crude enzyme preparations DNA polymerase activity dropped sharply within 3 h after the transfer and practically no activity was detected thereafter, whereas RNA polymerase activity did not disappear in the same preparations. Such enzyme kinetics coincided well with the kinetics of in vivo synthesis of the corresponding nucleic acid.The cessation of DNA synthesis in the amino acid-starved cells may be due not to the activation of DNase or a soluble polymerase inhibitor, nor to the deficiency of each kind of deoxyribonucleoside triphosphate or magnesium ion or ATP generation system. It follows from this that the cessation of DNA polymerase activity in the starved cells may be due to the deficiency of DNA polymerase or its associated factor(s) as a reflection of short life-span of such a protein.