Functional tRNAs with altered 3' ends.

The CCA trinucleotide is a universally conserved feature of the 3' end of tRNAs, where it serves as the site of amino acid attachment. Despite this extreme conservation, we have isolated functional mutants of tRNA(His) and tRNA(Val1) with altered CCA ends. A mutant that leads to de-repression of the histidine biosynthetic operon in Salmonella typhimurium has been characterized and found to have the CCA end of the sole tRNA(His) species mutated to UCA. However, constructed mutants of tRNA(His) with ACA or GCA ends appeared to be nonfunctional in vivo. Mutants of Escherichia coli tRNA(Val1) with GCA or ACA ends were isolated on the basis of their ability to promote frameshifting at a specific sequence. These same tRNA(Val1) mutants also caused read-through of stop codons that were one, or in some instances two, codons downstream of the valine codon decoded by the mutant tRNA. A startling implication of these data is that disruption of interactions between the CCA end of the tRNA and the large ribosomal subunit promotes these aberrant codon-anticodon interactions on the small ribosomal subunit.     

Unsuspected prophage-like elements in Salmonella typhimurium

We present evidence for the existence of two large (approximately 50 kb) excisable segments in the chromosome of Salmonella typhimurium. The two elements--designated Gifsy-1 and Gifsy-2--cover, respectively, the 57 units and the 24 units of the genetic map where they contribute indicative rare restriction sites. The two elements are closely interrelated and both contain a region of sequence similarity to the recE locus of the Rac prophage of Escherichia coli. Mutations within this region of Gifsy-1 yield the classical 'Sbc' phenotype: they suppress the recombination defect of recB mutants, apparently by activating a normally silent recE-like gene. At the same time, these 'sbcE' mutations activate a Xis-type function that promotes excision of one or other of the two elements. Predictably, curing of Gifsy-1 results in the loss of recB mutant suppression. Surprisingly, the suppressor phenotype is also lost in cells cured for Gifsy-2 even though the Gifsy-1-associated sbcE mutation is still present. Moreover, the excision frequency of Gifsy-1 drops dramatically in Gifsy-2-cured cells. Thus, both elements must co-operate in the activation of recombination and excision functions. Overall, the data presented here suggest that Gifsy-1 and Gifsy-2 are cryptic prophages. They are distinct from previously described Fels prophages. Unlike Fels, they are not specific to S. typhimurium strain LT2 since they are both also found in a virulent S. typhimurium isolate (ATCC 14028s).     

Two forms of NADP-dependent malic enzyme in expanding maize leaves

Etiolated maize leaves (Zea mays L.) contain a major isozyme of NADP-dependent malic enzyme (L-malate dehydrogenase, decarboxylating, EC 1.1.1.40) having an isoelectric point of 5.28±0.03, a K_m (L-malate) 0.3–0.6 mM at pH 7.45; a broad pH optimum around pH 6.9 under the conditions of assay; a molecular weight of 280,000 (sometimes accompanied by a minor component of 150,000); and an NAD-dependent activity about 1/50 the NADP-dependent activity. This isozyme, resembling the NADP-malic enzyme of vertebrates, is labeled type 1. The dominant isozyme of young green leaves (type 2) has, however, a pI 4.90±0.03, a K_m (L-malate) 0.10–0.15 mM, a pH optimum of 8, and a molecular weight of 280,000. It is also more stable and exhibits an appreciable NAD-dependent activity (1/5–1/7 the NADP activity). Both isozymes show linear kinetics, dependence on Mn or Mg ions, similar K_m (NADP⁺), and the typical increase of K_m for L-malate with increasing pH values. Type 1 isozyme of maize is assumed to be cytosolic. Type 2 corresponds in each property to the chloroplast enzyme of bundle-sheath cells. It is present at a low level in etiolated leaves and develops to a high specific activity (up to 100 nmol min^-1 mg protein^-1 by 150 h illumination) during photosynthetic differentiation, replacing the type 1 form.Abbreviation MES 2 (N-morpholino)ethane sulfonic acid Work supported by grants from the Consiglio Nazionale delle Ricerche for years 1975 and 1976     

Lipid-drug interaction: a structural analysis of pindolol effects on model membranes.

The ternary system constituted by distearoylphosphatidylcholine, pindolol (a vasodilator drug) and water has been investigated by using X-ray diffraction and calorimetric techniques. The structural modifications induced by the drug have been determined and a possible interaction model has been derived. In particular, the pindolol content-temperature dependent phase diagram shows the occurrence of two new phases: the first is an interdigitated gel, and the second is a lamellar structure presenting an unusual mixed disordered-ordered conformation of the hydrocarbon chains (L alpha beta). The comparative analysis of electron density profiles relative to the L alpha beta phase, reveals significant modifications in the paraffinic region of the lipid layer. In agreement with thermodynamic results, the structural data suggest that the drug induces a stiffening and a tightening of the hydrocarbon chains. Moreover, the hydrophilic properties of the membrane (particularly in P beta, and L alpha beta phases) present an evident dependence with the drug concentration.     

The effect of magnesium on glycolysis of permeabilized Ehrlich ascites tumor cells.

We have previously observed that extracellular Mg2+ influences the phosphofructokinase (PFK) activity of intact Ehrlich Ascites tumour cells (EATC). In this study we have investigated the mechanism by which Mg2+ modulates this key glycolytic enzyme in EATC made permeable to the cation by either digitonin or dextran sulphate. Results showed that when Mg2+ is freely permeable to the cytosol, the in vivo PFK activity, calculated as FDP/G6P ratio, is not increased as it is in intact cells. We also observed that in permeabilized cells Mg2+ determines the increase of glucose 6 phosphate (G6P), fructose 1,6 bisphosphate (FDP) and lactate production. We hypothesize that extracellular Mg2+ regulates PFK and glycolysis in these neoplastic cells not by entering the cytosol but by a specific interaction with the plasma membrane.     

Differential response of cycling and noncycling cells to inducers of DNA synthesis and mitosis

The objective of this study was to determine whether cells in G(0) phase are functionally distinct from those in G(1) with regard to their ability to respond to the inducers of DNA synthesis and to retard the cell cycle traverse of the G(2) component after fusion. Synchronized populations of HeLa cells in G(1) and human diploid fibroblasts in G(1) and G(0) phases were separately fused using UV-inactivated Sendai virus with HeLa cells prelabeled with [(3)H]ThdR and synchronized in S or G(2) phases. The kinetics of initiation of DNA synthesis in the nuclei of G(0) and G(1) cells residing in G(0)/S and G(1)/S dikaryons, respectively, were studied as a function of time after fusion. In the G(0)/G(2) and G(1)/G(2) fusions, the rate of entry into mitosis of the heterophasic binucleate cells was monitored in the presence of Colcemid. The effects of protein synthesis inhibition in the G(1) cells, and the UV irradiation of G(0) cells before fusion, on the rate of entry of the G(2) component into mitosis were also studied. The results of this study indicate that DNA synthesis can be induced in G(0)nuclei after fusion between G(0)- and S-phase cells, but G(0) nuclei are much slower than G(1) nuclei in responding to the inducers of DNA synthesis because the chromatin of G(0) cells is more condensed than it is in G(1) cells. A more interesting observation resulting from this study is that G(0) cells is more condensed than it is in G(1) cells. A more interesting observation resulting from this study is that G(0) cells differ from G(1) cells with regard to their effects on the cell cycle progression of the G(2) nucleus into mitosis. This difference between G(0) and G(1) cells appears to depend on certain factors, probably nonhistone proteins, present in G(1) cells but absent in G(0) cells. These factors can be induced in G(0) cells by UV irradiation and inhibited in G(1) cells by cycloheximide treatment.     

DNA sequences at the sites of three insertions of the transposable element Tn5 in the histidine operon of Salmonella

Summary The DNA sequence has been determined at the sites of three independent occurrences of the transposable element Tn5 in the hisG gene of the histidine operon. All three insertion sites are adjacent to G+C-rich stretches of DNA. In all three cases sequences at the sites of insertion show homology with a region near the ends of Tn5.