Interaction of nucleolar phosphoprotein B23 with nucleic acids.

The interaction of eukaryotic nucleolar phosphoprotein B23 with nucleic acids was examined by gel retardation and filter binding assays, by fluorescence techniques, and by circular dichroism. All studies utilized protein prepared under native conditions by a newly developed purification procedure. Electrophoretic gel mobility shift assays with phage M13 DNA suggested that protein B23 is a single-stranded nucleic acid binding protein. This was confirmed in competition binding assays with native or heat-denatured linearized plasmid pUC18 DNA where the protein showed a marked preference for the denatured form. In other competition assays, there was no apparent preference for single-stranded synthetic ribo- versus deoxyribonucleotides. Equilibrium binding with poly(riboethenoadenylic acid) indicated cooperative ligand binding with a protein binding site size of 11 nucleotides and an apparent binding constant (K omega) of 5 x 10(7) M-1 which includes an intrinsic binding constant (K) of 6.3 x 10(4) M-1 and a cooperativity factor (omega) of 800. In circular dichroism (CD) studies, protein B23, when combined with the single-stranded synthetic nucleic acids poly(rA) and poly(rC), effected a decrease in ellipticity and a shift of the positive peak at 260-270 nm toward higher wavelengths, indicating helix destabilizing activity. No CD changes were seen with double-stranded poly(dA.dT). The change in ellipticity of poly(rA) was sigmoidal upon addition of protein, confirming the cooperative behavior seen with fluorescence methods. These studies indicate that protein B23 binds cooperatively with high affinity for single-stranded nucleic acids and exhibits RNA helix destabilizing activity. These features may be related to its role in ribosome assembly.

cDNA and deduced primary structure of rat protein B23, a nucleolar protein containing highly conserved sequences.

Protein B23 (Mr/pI = 38,000/5.1) is a major RNA-associated nucleolar phosphoprotein which contains highly acidic segments and has a high affinity for silver ions. Using synthetic oligonucleotides as probes cloned cDNAs encoding protein B23 were isolated and characterized. One of the cDNAs, obtained from a rat brain library, contained an insert of 1232 base pairs of DNA encoding a polypeptide of 292 amino acid residues. Segments of the protein sequence were confirmed by partial sequencing of CNBr fragments from rat hepatoma protein B23. The protein contains a methionine-rich amino-terminal sequence and two highly acidic segments in the center of the sequence. The first acidic segment, in which 11 of the 13 residues are acidic, begins at residue 120 and contains a major phosphorylation site. In the second segment (residues 159-187) there are four copies of the sequence Asp-Asp-Glu, and all but two of the 29 residues have acidic side chains. When the sequence of the rat protein was compared with available sequences from other species a high degree of conservation was found; the 77-residue carboxyl-terminal sequence is identical with that of human protein B23 (Chan, P. K., Chan, W.-Y., Yung, B. Y. M., Cook, R. G., Aldrich, M. B., Ku, D., Goldknopf, I. L., and Busch, H. (1986) J. Biol. Chem. 261, 14335-24341), and about 63% of the residues are identical when the rat B23 sequence is compared with protein N038 from Xenopus laevis (Schmidt-Zachmann, M. S., Hügle-Dörr, B., and Franke, W. (1987) EMBO J. 6, 1881-1890). Except for the presence of highly acidic regions no significant similarities were found with protein C23 (nucleolin), the other major nucleolar protein.

Isolation of proteins for peptide mapping, amino acid analyses, and sequencing using disulfide crosslinked polyacrylamide gels.

Conditions for recovery of small amounts of proteins (1-50 micrograms) from disulfide crosslinked polyacrylamide gels have been examined. Procedures were developed for solubilization and precipitation of Coomassie blue-stained protein bands excised from gels after electrophoretic separations. The precipitated protein was then resolubilized for use in peptide mapping, amino acid analyses, or microsequencing. The amino acid compositions of standard proteins (bovine albumin, ovalbumin, phosphorylase b, and beta-galactosidase) isolated by this method were in good agreement with the values for the corresponding conventionally purified proteins. Sequencing was done with high repetitive yield on samples of 100 pmol or below. The method has been successfully applied to several proteins and protein fragments.

Protein and cDNA sequence of a glycine-rich, dimethylarginine-containing region located near the carboxyl-terminal end of nucleolin (C23 and 100 kDa).

By a combination of protein chemistry and recombinant DNA methods a glycine-rich region was found to be located near the carboxyl terminus of the nucleolar specific phosphoprotein, nucleolin, from Novikoff hepatoma (protein C23) and Chinese hamster ovary cells (100-kDa nucleolar protein). A sequence of 192 amino acid residues was derived from partial sequences of cyanogen bromide and N-bromosuccinimide fragments of protein C23 and deduced protein sequence from Chinese hamster ovary cell 100-kDa cDNA sequences. The 66 residues sequenced by protein methods were identical to the corresponding residues deduced by DNA sequencing. The multiple residues of NG,NG-dimethylarginine (DMA) contained in the nucleolin polypeptide were found to be limited to a segment of less than 10 kDa near the carboxyl-terminal end of the protein. This segment also contained internally repeated sequences (e.g. 7 copies of the sequence Gly-Gly-Arg-Gly-Gly were found) which were unrelated to sequences closer to the amino-terminal end. Most arginine residues in this region were surrounded by 2 or 3 glycine residues and were relatively close in sequence to phenylalanine residues.