Transcription termination at lambda tR1 is mediated by interaction of rho with specific single-stranded domains near the 3' end of cro mRNA.

To determine whether E. coli rho protein mediates termination of transcription by interacting with specific segments of the nascent transcript, DNA oligonucleotides were used to sequester segments of phage lambda cro mRNA in hybrid helices. Formation of hybrids was demonstrated with RNAase H assays. Oligonucleotides complementary to either of two distinct, single-stranded sequences near the 3' end inhibited rho action at tR1, while oligonucleotides complementary to the sequence between those segments or to more 5' segments did not. The inhibitory oligonucleotides did not affect the elongation of cro mRNA or rho action on other transcripts. The results indicate that termination of transcription at tR1 is dependent upon contact of rho factor with specific, single-stranded domains near the 3' end of cro mRNA.

Cartilage-inducing factor-A. Apparent identity to transforming growth factor-beta.

Comparison of the sequence of the N-terminal 30 amino acids of cartilage-inducing factor-A (CIF-A) from bovine demineralized bone with the corresponding sequence of human transforming growth factor-beta (TGF-beta) revealed 100% identity. Furthermore, CIF-A stimulated normal rat kidney fibroblasts to become anchorage-independent and form colonies in soft agar (in the presence of epidermal growth factor) in a manner similar to TGF-beta. Similarly, TGF-beta from human platelets induced rat muscle mesenchymal cells to differentiate and synthesize cartilage-specific macromolecules in a manner equivalent to CIF-A. These data show that CIF-A and TGF-beta are closely related or identical molecules and that these factors may be involved in cell differentiation including cartilage formation as the first step in endochondral bone formation.

Atriopeptins: bioactive peptides derived from mammalian cardiac atria.

Mammalian atria possess bioactive peptides that are natriuretic-diuretic and potent relaxants of vascular and nonvascular smooth muscle. Characterization of the biological activity of rat atrial extracts indicates two major peaks, having apparent molecular weight of 20,000-30,000 (atriopeptigen) and less than 10,000 (atriopeptins). The amino acid sequence of atriopeptins I, II and III have been determined, and it has been found that their structures are only slightly different. Atriopeptin I (twenty-one amino acid residues); ser-ser-cys-phe-gly-gly-arg-ile-asp-arg-ile-gly-ala-gln-ser-gly-leu-gly- cys- asn-ser) relaxes intestinal but not vascular smooth muscle strips, and is natriuretic. Atriopeptins II and III (23 and 24 residues; the 21-sequence of I with the addition of phe-arg or phe-arg-tyr at the C-terminus, respectively) relax intestinal and vascular smooth muscle strips and are potent natriuretics. Since atriopeptigen and the atriopeptins exhibit similar biological effects the possibility of a precursor-product relationship was tested. Mild proteolytic digestion (1IU/ml trypsin) of atriopeptigen activates this peptide and reduces its apparent molecular weight. Examination of whether the atria of Krebs perfused isolated hearts released the bioactive atrial peptides revealed the presence in the cardiac effluent of a trypsin-labile substance that was natriuretic-diuretic and a smooth muscle relaxant. To determine which form of the atrial peptide (e.g. atriopeptigen or atriopeptin) is released by the atria the cardiac effluents were concentrated and partially purified. The cardiac effluent contained a substance(s) similar to atriopeptin, but did not appear to possess the less-active high molecular weight peptide, atriopeptigen.(ABSTRACT TRUNCATED AT 250 WORDS)

Atriopeptins: a family of potent biologically active peptides derived from mammalian atria.

Extracts of rat atria are potent stimulators of sodium and urine excretion, and relax vascular and intestinal smooth muscle preparations. The structures of six biologically active peptides obtained from atrial extracts are reported here. Ion exchange chromatography of a low molecular weight fraction obtained by gel filtration of atrial extracts produced two natriuretic fractions: the first induced relaxation of intestinal smooth muscle strips only, whereas the second also relaxed vascular strips as well. From the first fraction four pure biologically active peptides obtained by reverse phase HPLC have been sequenced: the 21 amino acid peptide, designated atriopeptin I, and three homologs (des- ser1 -, des- ser1 -ser2-, and des- ser21 - atriopeptin I). From the second fraction two pure biologically active peptides were obtained, which had C-terminal extensions of atriopeptin I: atriopeptins II (23 amino acid residues) and III (24 residues), having respectively phe-arg and phe-arg-tyr C-termini. These results suggest that this family of six peptides, sharing the same 17 membered ring formed by an internal cystine disulfide, is derived from a common high molecular weight precursor.

Purification and sequence analysis of bioactive atrial peptides (atriopeptins).

Mammalian cardiac atria have several biologically active peptides that exert profound effects on sodium excretion, urine volume, and smooth muscle tone. In the present study two such peptides of low molecular weight were purified and separated from each other on the basis of differences in charge, hydrophobicity, and biological profile. The first peptide, designated atriopeptin I, exhibits natriuretic and diuretic activity and selectivity relaxes intestinal smooth muscle but not vascular smooth muscle strips. The second peptide, atriopeptin II, is a potent natriuretic and diuretic that relaxes both intestinal and vascular strips. Sequence analysis of atriopeptin I indicates that it is composed of 21 amino acids, of which serine and glycine residues predominate. The amino terminal sequence of atriopeptin II up to residue 21 is the same as that of atriopeptin I, with the addition of the Phe-Arg extension at the carboxyl terminus. Both peptides appear to be derived from a common high molecular weight precursor (designated atriopeptigen); their biological selectivity and potency may be determined by the site of carboxyl terminal cleavage.

Expression of bacterial genes in plant cells.

Chimeric bacterial genes conferring resistance to aminoglycoside antibiotics have been inserted into the Agrobacterium tumefaciens tumor-inducing (Ti) plasmid and introduced into plant cells by in vitro transformation techniques. The chimeric genes contain the nopaline synthase 5' and 3' regulatory regions joined to the genes for neomycin phosphotransferase type I or type II. The chimeric genes were cloned into an intermediate vector, pMON120, and inserted into pTiB6S3 by recombination and then introduced into petunia and tobacco cells by cocultivating A. tumefaciens cells with protoplast-derived cells. Southern hybridization was used to confirm the presence of the chimeric genes in the transformed plant tissues. Expression of the chimeric genes was determined by the ability of the transformed cells to proliferate on medium containing normally inhibitory levels of kanamycin (50 micrograms/ml) or other aminoglycoside antibiotics. Plant cells transformed by wild-type pTiB6S3 or derivatives carrying the bacterial neomycin phosphotransferase genes with their own promoters failed to grow under these conditions. The significance of these results for plant genetic engineering is discussed.

Synthesis of the nutL DNA segments and analysis of antitermination and termination functions in coliphage lambda.

The nut antiterminator sequence, when present between a promoter and a terminator, permits the N-mediated antitermination of transcription in phage lambda. The efficiency of nutL was determined by assaying the activity of gene galK placed on a plasmid downstream from the promoter, nutL and terminator modules. As a reference and an estimate of the plasmid copy number, we have used an improved and very reproducible assay for bla activity. Sequences consisting of the 17-bp nutL core flanked by two HindIII cohesive sites were synthesized by the phosphite coupling method, and cloned in proper orientation between the Pp promoter of pBR322 and lambda gene N followed by the tL1 terminator on a galK-expression plasmid. The antitermination efficiencies for two synthetic 17-bp nutL sequences, one wild type and one point mutant at the base of the nutL stem, are similar but substantially reduced in comparison with the native 25-bp nutL sequence cloned at the same site in the otherwise identical galK-expression plasmid. Multiple tandem insertions of the synthetic 17-bp nutL segment successively increase antitermination efficiency, but also to levels below those of comparable plasmids carrying multiple copies of the native 25-bp nutL sequence. Thus, several specific base pairs in the flanking sequences appear to be important for the efficient nut function. In an inverted orientation the 17-bp nutL sequence has lost its antitermination function. It also lost the termination activity exhibited by inversion of the longer 25-bp and 74-bp native nutL sequences.