Identification of the gene encoding the 5S ribosomal RNA maturase in Bacillus subtilis: mature 5S rRNA is dispensable for ribosome function

Over 25 years ago, Pace and coworkers described an activity called RNase M5 in Bacillus subtilis cell extracts responsible for 5S ribosomal RNA maturation (Sogin & Pace, Nature, 1974, 252:598-600). Here we show that RNase M5 is encoded by a gene of previously unknown function that is highly conserved among the low G + C gram-positive bacteria. We propose that the gene be named rnmV. The rnmV gene is nonessential. B. subtilis strains lacking RNase M5 do not make mature 5S rRNA, indicating that this process is not necessary for ribosome function. 5S rRNA precursors can, however, be found in both free and translating ribosomes. In contrast to RNase E, which cleaves the Escherichia coli 5S precursor in a single-stranded region, which is then trimmed to yield mature 5S RNA, RNase M5 cleaves the B. subtilis equivalent in a double-stranded region to yield mature 5S rRNA in one step. For the most part, eubacteria contain one or the other system for 5S rRNA production, with an imperfect division along gram-negative and gram-positive lines. A potential correlation between the presence of RNase E or RNase M5 and the single- or double-stranded nature of the predicted cleavage sites is explored.

Purification, characterization, and cellular localization of the 100-kDa human placental GTPase-activating protein

Human placenta contains, in addition to the ubiquitous p120-GTPase-activating protein (GAP), another isoform of 100 kDa, which is specific to this organ. We have established a method for purifying this placental p100-GAP to near homogeneity. The purified p100-GAP allowed the preparation of polyclonal and monoclonal anti Ras-GAP antibodies. Two monoclonal antibodies were selected for a two-site enzyme immunoassay. This simple and accurate assay in turn facilitated the detection of the GAPs during purification. The purified p100-GAP has a specific activity identical to and catalytic properties similar to those of native p120-GAP. Sequence analysis of p100-GAP revealed almost total identity to the known corresponding sequences predicted by the cDNA. The purified p100-GAP kept its activity for 1 year when stored at -80 degrees C. Our immunometric assay showed GAP to be present in human placental extracts at the exceptional abundance of about 0.1% of the total protein content. Quantitative assays showed p100-GAP to be up to 10 times more abundant than p120-GAP. Use of our antibodies allowed the specific localization of placental GAPs to cytotrophoblasts and in the syncytiotrophoblast barrier. Hence p100-GAP is shown to be found only in trophoblasts. The large quantity of p100-GAP in trophoblasts suggests that it may play a regulatory role in the proliferation or the differentiation of this cell type.

High levels of 2',5'-oligoadenylate synthetase and 2',5'-oligoadenylate-dependent endonuclease in human trophoblast

Human placenta contains a high level of 2',5'-oligoadenylate (2-5A) synthetase activity of the 100-kD form of the enzyme. About 20% of the placental 2-5A synthetase activity was found to be cytosolic, whereas the remaining 80% was released by 0.5 M KCl in the presence of detergent. Most of the enzyme activity was localized in trophoblast cells, which also contain a high level of 2-5A-dependent RNase L activity. The purified trophoblast 100-kD 2-5A synthetase was shown to be activated by human immunodeficiency virus type 1 (HIV-1) 5' RNA 1-311 and 1-707, which both contain the TAR and primer binding site (PBS) structured regions. These two HIV-1 RNAs activated human trophoblast 2-5A synthetase at the same level as poly(I).poly (C), a standard highly efficient activator of the enzyme, and at the same optimal concentration. On the contrary, HIV-1 RNA 311-618, a poorly structured region missing TAR and PBS, was shown to be a poor activator of the enzyme. The specific cellular location of the 2-5A synthetase and its efficient activation by HIV 5' RNA favors the idea that the trophoblast 2-5A system negatively controls HIV replication in trophoblasts.

Tissue specificity of tightly bound non-histone chromosomal proteins

Non-histone chromosomal proteins with high affinity for DNA were isolated from three different rat tissues (liver, spleen and kidney) and were analyzed by SDS-polyacrylamide gel electrophoresis. Each tissue showed a characteristic pattern of missing protein bands and in addition contained at least one unique band. Quantitative differences between the common bands were also observed.

Thermal melting curves of tRNAPhe from yeast lacking different numbers of nucleotides from the 3'-end

The thermal melting curves of tRNAPhe and tRNALys from yeast lacking different numbers of nucleotides from the 3'-end were recorded. The removal of the first nucleotide had no effect on the melting profile. The stepwise removal of the following six nucleotides caused changes in the character of the derivative melting curves: they became rather broad and melting started at lower temperatures. These results indicate that the nucleotides at the 3'-end contribute to the stability of the molecular structure of tRNAs.