Dissociation of yeast ribosomes; The effects of hydrostatic pressure and KCl

The dissociation of free ribosomes at elevated concentrations of KCl is dependent on hydrostatic pressure. The pressure necessary for the dissociation is determined for KCl concentrations ranging from 0.1–0.4 m. It varies between 425 kg cm^-2 at 0.1 m and 10 kg cm^-2 at 0.4 m. The partial dissociation of complex ribosomes in KCl is dependent on hydrostatic pressure in the same way as the complete dissociation of free ribosomes. Therefore, it is concluded that mRNA and peptidyl-tRNA do not contribute to the stability of the ribosome under these conditions.     

Physiological adsorption of Sulfolobus acidocaldarius on coal surfaces

Summary The adsorption of Sulfolobus acidocaldarius on bituminous coal surfaces and the respiration rate during adsorption at 70° C were enhanced at pH 1.0–2.0, in comparison with those at pH 3.0–5.0. The maximum number of bacterial cells adsorbed per unit area of coal attained a maximum (1.4 × 10¹¹ cells/m²) at pH 2.0. The rate of desulphurization at pH 2.2–2.5 was higher than at other pHs tested. Micrographs of S. acidocaldarius obtained by TEM and SEM indicated that the cells were adsorbed to the coal surfaces by extracellular slime. Specific inhibitors of membrane-bound ATPase (NaF, 20 mm) and respiration (NaN₃, 1 mm; KCN, 1 mm) had pronounced effects on suppressing adsorption. The amount of S. acidocaldarius adsorbed decreased when the coal particles were leached in advance with 2.0 m HNO₃. These facts lead to the conclusion that the adsorption of S. acidocaldarius on coal surfaces requires physiological activity relatd to respiration or energy conversion. Offprint requests to: V. B. Vitaya     

6-Phosphogluconate dehydrogenase in cell free extracts of Escherichia coli K-12

Summary Investigations into the properties of 6-PG dehydrogenase in cell free extracts of Escherichia coli revealed a pH optimum at pH 9.5 with a sharp decline on both sides of the optimum. The addition of 1.0×10^-2 m MgCl₂ produced maximal activity, whereas higher concentrations caused inhibition. The K _m values were 2.5×10^-4 m for 6-phosphogluconate and 2.5×10^-5 m for NADP⁺ as substrate. The enzyme was extremely stable for at least 5 hours if stored at 4°C in Tris–NaCl–MgCl₂ buffer at pH 7.5. 6-PG dehydrogenase activity was shown to be proportional to cell free extract concentration over the range 0–0.3 mg protein. An assay method based on the new optimal conditions has been established and has been shown to be 33% more sensitive than a number of commonly used methods.Meinem hochverehrten Lehrer Herrn Professor A. Rippel zum 80. Geburtstage.     

Purification and properties of cis-aconitic decarboxylase

Summary Lyophilized and stored in a deep-freeze, the mycelial material was found to retain cis-aconitic decarboxylase activity unimpaired at the end of 2 months. Mycelia could be stored also in the frozen condition but after squeezing hard to remove as much of adherent water as possible. Extracts with maximum cis-aconitic decarboxylase activity were obtained when the frozen or better the lyophilized mycelia of Aspergillus terreus were ground in a mortar with phosphate buffer using pyrex glass powder as abrasive. Cis-aconitic decarboxylase was purified 25-fold by fractionation with ammonium sulfate, starting from extracts of the mycelia in phosphate buffer. The purified enzyme was considerably more stable than the crude extracts to storage and dialysis. The optimum pH was 5.8 using 0.2 m phosphate buffer; Km value was 5×10^-3 m at pH 5.8 and 37°C. EDTA and 8-hydroxyquinoline activated the enzyme; all metals tested inhibited the enzyme, Zn⁺⁺ and Cu⁺⁺ leading to complete inactivation. Fluoride, arsenite and azide also inhibited the enzyme activity.     

Critical Active-Site Residues Identified by Site-Directed Mutagenesis in Pseudomonas aeruginosa Phosphorylcholine Phosphatase, A New Member of the Haloacid Dehalogenases Hydrolase Superfamily

Pseudomonas aeruginosa phosphorylcholine phosphatase (PChP), the product of the PA5292 gene, is synthesized when the bacteria are grown with choline, betaine, dimethylglycine, or carnitine. In the presence of Mg²⁺, PChP catalyzes the hydrolysis of both phosphorylcholine (PCh) and p-nitrophenylphosphate (p-NPP). PCh saturation curve analysis of the enzyme with or without the signal peptide indicated that the peptide was the fundamental factor responsible for decreasing the affinity of the second site of PChP for PCh, either at pH 5.0 or pH 7.4. PChP contained three conserved motifs characteristic of the haloacid dehalogenases superfamily. In the PChP without the signal peptide, motifs I, II, and III correspond to the residues ³¹DMDNT³⁵, ¹⁶⁶SAA¹⁶⁸, and K²⁴²/²⁶¹GDTPDSD²⁶⁷, respectively. To determine the catalytic importance of the D31, D33, T35, S166, K242, D262, D265, and D267 on the enzyme activity, site-directed mutagenesis was performed. D31, D33, D262, and D267 were identified as the more important residues for catalysis. D265 and D267 may be involved in the stabilization of motif III, or might contribute to substrate specificity. The substitution of T35 by S35 resulted in an enzyme with a low PChP activity, but conserves the catalytic sites involved in the hydrolysis of PCh (K_m1 0.03 mM, K_m2 0.5 mM) or p-NPP (K_m 2.1 mM). Mutating either S166 or K242 revealed that these residues are also important to catalyze the hydrolysis of both substrates. The substitution of lysine by arginine or by glutamine revealed the importance of the positive charged group, either from the amino or guanidinium groups, because K242Q was inactive, whereas K242R was a functional enzyme.     

Transport-limited fermentation and growth of Saccharomyces cerevisiae and its competitive inhibition

Summary The anaerobic glucose uptake (at 20°, pH 3.5) by resting cells of Saccharomyces cerevisiae followed unidirectional Michaelis-Menten kinetics and was competitively inhibited by l-sorbose; K _m and K _i were respectively 5.6×10^-4 m and 1.8×10^-1 m; V _max was 6.5×10^-8 moles mg^-1 min^-1. The aerobic uptake of glucose by resting yeast was also inhibited by l-sorbose but did not follow unidirectional Michaelis-Menten kinetics. Glucose-limited growth in the chemostat of a respiration-deficient mutant of S. cerevisiae was competitively inhibited by l-sorbose. As predicted by theory for transport-limited growth in the chemostat (van Uden, 1967) the steady state glucose concentrations were linear functions of the l-sorbose concentrations with different slopes at different dilution rates; K _m and K _i were respectively 7.2×10^-4 m and 1.8×10^-1 m. It is concluded that glucose transport was the rate-limiting step of anaerobic fermentation of S. cerevisiae and of growth of the mutant and that l-sorbose is a competitive inhibitor of active glucose transport in this yeast. The latter conclusion is accommodated in the transport model of van Steveninck and Rothstein (1965).     

Evidence for Involvement of a Zymogen Granule Na+/H+ Exchanger in Enzyme Secretion from Rat Pancreatic Acinar Cells

We have characterized a Na⁺/H⁺ exchanger in the membrane of isolated zymogen granules (ZG) from rat exocrine pancreas and investigated its role in secretagogue-induced enzyme secretion. ZG Na⁺/H⁺ exchanger activity was estimated by measuring Na⁺ or Li⁺ influx and consequent osmotic swelling and lysis of ZG incubated in Na- or Li-acetate. Alternatively, intragranule pH was investigated by measuring absorbance changes in ZG which had been preloaded with the weak base acridine orange. Na⁺- or Li⁺-dependent ZG lysis was enhanced by increasing inward to outward directed H⁺ gradients. Na⁺-dependent ZG lysis was not prevented by an inside-positive K⁺ diffusion potential generated by valinomycin which argues against parallel operation of separate electrogenic Na⁺ and H⁺ permeabilities and for coupled Na⁺/H⁺ exchange through an electroneutral carrier. Na⁺- and Li⁺-dependent ZG lysis was inhibited by EIPA (EC₅₀∼25 μm) and benzamil (EC₅₀∼100 μm), but only weakly by amiloride. Similarly, absorbance changes due to release of acridine orange from acidic granules into the medium were obtained with Na⁺ and Li⁺ salts only, and were inhibited by EIPA, suggesting the presence of a Na⁺/H⁺ exchanger in the membrane. Na⁺ dependent lysis of ZG was inhibited by 0.5 mm MgATP and MgATP-γ-S by about 60% and 35%, respectively. Inhibition by MgATP was prevented by incubation of ZG with alkaline phosphatase (100 U/ml), or by the calmodulin antagonists calmidazolium (0.75 μm), trifluoperazine (100 μm) and W-7 (500 μm), suggesting that the ZG Na⁺/H⁺ exchanger is regulated by a ZG membrane-bound calmodulin-dependent protein kinase. Na⁺ dependence of secretagogue (CCK-OP)-stimulated amylase secretion was investigated in digitonin permeabilized rat pancreatic acini and was higher in acini incubated in Na⁺ containing buffer (30 mm NaCl/105 mm KCl buffer; 6.4 ± 0.4% of total amylase above basal) compared to buffer without Na⁺ (0 mm NaCl/135 mm KCl buffer; 4.7 ± 0.4% of total amylase above basal, P < 0.03). EIPA (50 μm) reduced CCK-OP-induced amylase secretion in Na⁺ containing buffer from 7.5 ± 0.6% to 4.1 ± 0.8% (P < 0.02). In the absence of Na⁺ in the buffer, CCK-OP-stimulated amylase release was not inhibited by 50 μm EIPA. The data suggest that an amiloride insensitive, EIPA inhibitable Na⁺/H⁺ exchanger is present in ZG membranes, which is stimulated by calmodulin antagonists and could be involved in secretagogue-induced enzyme secretion from rat pancreatic acini. Received: 7 December 1995/Revised: 2 April 1996     

Purification and characterization of a sialidase fromClostridium chauvoei NC08596

The sialidase secreted byClostridium chauvoei NC08596 was purified to apparent homogeneity by ion-exchange chromatography, gel filtration, hydrophobic interaction-chromatography, FPLC ion-exchange chromatography, and FPLC gel filtration. The enzyme was enriched about 10 200-fold, reaching a final specific activity of 24.4 U mg^–1. It has a relatively high molecular mass of 300 kDa and consists of two subunits each of 150 kDa. The cations Mn²⁺, Mg²⁺, and Ca²⁺ and bovine serum albumin have a positive effect on the sialidase activity, while Hg²⁺, Cu²⁺, and Zn²⁺, chelating agents and salt decrease enzyme activity. The substrate specificity, kinetic data, and pH optimum of the enzyme are similar to those of other bacterial sialidases.Abbreviations FPLC fast protein liquid chromatography - NCTC National Collection of Type Cultures - ATCC American Type Culture Collection - MU-Neu5Ac 4-methylumbelliferyl--d-N-acetylneuraminic acid - buffer A 0.02m piperazine, 0.01m CaCl₂, pH 5.5 - buffer B 0.02m piperazine, 0.01m CaCl₂, 1.0m NaCl, pH 5.5 - buffer C 0.1m sodium acetate, 0.01m CaCl₂, pH 5.5 - SDS sodium dodecyl sulfate - PAGE polyacrylamide gel electrophoresis - Neu5Ac N-acetylneuraminic acid - BSM bovine submandibular gland mucin - GD1a IV³Neu5Ac, II³Neu5Ac-GgOse₄Cer - GM1 II³Neu5Ac-GgOse₄Cer - MU-Neu4,5Ac₂ 4-methylumbelliferyl--d-N-acetyl-4-O-acetylneuraminic acid - TLC thin-layer chromatography - HPTLC high performance thin-layer chromatography - EDTA ethylenediamine tetraacetic acid - EGTA ethylene glycol bis(2-aminoethyl-ethen)-N,N,N,N-tetraacetic acid - BSA bovine serum albumin - Neu5Ac2en 2-deoxy-2,3-didehydro-N-acetylneuraminic acid - IEF isoelectric focusing - IEP isoelectric point     

Purification and properties ofl-serine dehydratase fromLactobacillus fermentum ATCC 14931

l-Serine dehydratase fromLactobacillus fermentum was purified 100-fold. It was stabilized by the presence of 1 mM l-cysteine in 50 mM phosphate buffer. M_r=150,000 was determined by gel filtration. The enzyme consists of four apparently identical subunits (M_r=40,000) that were observed after treatment with sodium dodecyl sulfate. The apparent K_m forl-serine was 65 mM. Fe⁺⁺ was required for the enzymatic activity, and the apparent K_m value for this reaction was 0.55 mM. Maximum enzymatic activity was observed at 45°C and pH 8.0 in 50 mM phosphate buffer. At pH values different from the optimum, a positive cooperativity between substrate molecules was observed. The activation energy of the reaction was 11,400 and 22,800 cal × mol^–1 for temperature values more than and less than 35°C respectively. The purified enzyme showed a maximum absorption between 400 and 420 nm, indicating the presence of pyridoxal-5-phosphate (PLP) as a prosthetic group. The PLP concentration was 0.027 µmoles per milligram of protein. The data suggest that there is 1 mol of PLP for each protein subunit.     

Comparative studies of fructose 1,6-diphosphate aldolase fromEscherichia coli 518 andLactobacillus casei var.rhamnosus ATCC 7469

A comparative study has been carried out with FDP aldolases fromEscherichia coli 518 andLactobacillus casei ATCC 7469, which had been purified 17.6- and 65-fold, respectively. The aldolase ofL.casei was stable only in the presence of mercaptoethanol, whereas that ofE.coli was strongly inhibited at low (1.0×10^–4 m) and activated at high concentrations (2.0×10^–1 m) of the same compound.p-Chloromercuric benzoic acid inhibited both aldolases, with 40% inhibition at 2×10^–5 m withE.coli aldolase against at 2×10^–4 m withL.casei aldolase. Significant differences were also observed in pH optima and Km values.E.coli aldolase exhibited a maximal activity at pH 9.0 and gave a Km value of 1.76×10^–3 m FDP with strong substrate inhibition above 7×10^–3 m, against pH 6.8–7.0 and a Km of 7.04×10^–3 m FDP forL.casei aldolase. Strong resistance ofL.casei aldolase against inhibition by EDTA, Ca²⁺ and Mn²⁺ was observed compared with complete inhibition at concentrations of 20mm, 40mm and 20mm, respectively, withE. coli aldolase. Polyacrylamide gel electrophoresis did not reveal any differences between the two enzyme preparations.The differences of the properties of FDP aldolases from different bacterial genera are discussed in relation to other Class II aldolases.     

Surface topography of the Bacillus stearothermophilus ribosome.

Summary The surface topography of the intact 70S ribosome and free 30S and 50S subunits from Bacillus stearothermophilus strain 2184 was investigated by lactoperoxidase-catalyzed iodination. Two-dimensional polyacrylamide gel electrophoresis was employed to separate ribosomal proteins for analysis of their reactivity. Free 50S subunits incorporated about 18% more ¹²⁵I than did 50S subunits derived from 70S ribosomes, whereas free 30S subunits and 30S subunits derived from 70S ribosomes incorporated similar amounts of ¹²⁵I. Iodinated 70S ribosomes and subunits retained 62–78% of the protein synthesis activity of untreated particles and sedimentation profiles showed no gross conformational changes due to iodination. The proteins most reactive to enzymatic iodination were S4, S7, S10 and Sa of the small subunit and L2, L4, L5/9, L6 and L36 of the large subunit. Proteins S2, S3, S7, S13, Sa, L5/9, L10, L11 and L24/25 were labeled substantially more in the free subunits than in the 70S ribosome. Other proteins, including S5, S9, S12, S15/16, S18 and L36 were more extensively iodinated in the 70S ribosome than in the free subunits. The locations of tyrosine residues in some homologus ribosomal proteins from B. stearothermophilus and E. coli are compared.     

Binding of spectinomycin by ribosomes fromEscherichia coli

The binding of the aminocyclitol antibiotic spectinomycin to 70S ribosomes and to 30S subunits fromEscherichia coli has been investigated. The association was influenced by the presence of messenger RNA. The K_d for [³H]-4 OH-spectinomycin binding to 70S ribosomes was 2×10^–7 M without mRNA (polyinosinic acid), and 1×10^–6 M with polyinosinic acid. Dissociation of the antibiotic from the ribosomes was significantly affected by the presence of a bound messenger RNA, which reduced the rate of dissociation by a factor of 5.7. The presence of mRNA did not influence the association of spectinomycin with the 30S subunit. The dissociation rate from the small subunit was comparable to the rate of dissociation from the 70S ribosome and was not affected by the presence of mRNA.     

Oxydation von reduziertem Nicotinamid-Adenin-Dinucleotid in Rhodospirillum rubrum

Zusammenfassung Es wird die 25–30 fache Anreicherung einer löslichen NADH-Dehydrogenase [NADH: (acceptor) oxidoreductase, EC 1.6.99.3.) aus R. rubrum durch Gelfiltration an Sephadex G 200 und Chromatographie an DEAE-Cellulose beschrieben. Das Enzym ist bei DEAE-Cellulosechromatographie nur in Gegenwart von FMN oder NADH stabil. Menadion, Ferricyanid, DCPIP, p-Benzochinon und Cytochrom c sind als Elektronenacceptoren wirksam. Cytochrom c ist ein schlechter Acceptor. Das pH-Optimum der Reaktion liegt bei 8,4. Km für NADH ist 3,0 · 10^-5 m. NADPH wird nur mit etwa 3–5% des Wertes von NADH umgesetzt. Die prosthetische Gruppe des Enzyms ist FMN, Km für FMN ist 0,3 · 10^-7 m. Das Enzymprotein wird bei Verdünnung in 0,05 m Puffer inaktiviert; FMN und FAD sowie NADH und NADPH haben einen stabilisierenden Effekt. Durch höhere Pufferkonzentrationen wird das Enzym zunehmend inaktiviert. Die Inaktivierung besteht in einer Labilisierung oder Abspaltung der prosthetischen Gruppe vom Enzymmolekül. Verschiedene Metalle inaktivieren das Enzym ebenfalls.

---

Oxidation of reduced nicotinamide adenine dinucleotide in Rhodospirillum rubrum I. Characterization of a soluble NADH dehydrogenase

Summary A soluble NADH^* Dehydrogenase [NADH: (acceptor) oxidoreductase, EC 1.6.99.3.] has been purified 25–30 fold from R. rubrum by gelfiltration with Sephadex G 200 and ionexchange chromatography on DEAE-Cellulose. During the second purification step the enzyme is stable only in the presence of either FMN or NADH. Electronacceptors which were found to be effective include menadione, ferricyanide, DCPIP, p-benzoquinone and cytochrome c, the latter substance being a poor acceptor. The optimum pH of the reaction is at about 8.4. Km for NADH is 3.0×10^-5 m. NADPH is oxidized at only about 3–5% the rate of NADH. The active prosthetic group of the enzyme is FMN with an appearant Km of 0.3×10^-7 m. When diluted in 0.05 m buffer the enzyme becomes rapidly inactivated. FMN, FAD and also NADH and NADPH exhibit a stabilizing protective effect. Higher concentrations of buffer cause increasing inactivation. The mechanism of the inactivation is thought to be a labilization or detachment of the prosthetic group from the enzyme molecule. Several metals also inactivate the enzyme.

     

Chum salmon trypsin-catalyzed preferential formation of peptides containing D-amino acid

Summary. Chum salmon trypsin-catalyzed peptide synthesis has been studied by using nine series of "inverse substrates," i.e., p-amidinophenyl, p- and m-guanidinophenyl, p- and m-(guanidinomethyl)phenyl, and four position isomers of guanidinonaphthyl esters derived from N ^α -(tert-butyloxycarbonyl)amino acid as acyl donor components. They were found to couple with an acyl acceptor such as l-alanine p-nitroanilide to produce dipeptide in the presence of trypsin. All substrates tested in this study undergo less enantioselective coupling reaction, and the coupling product was the favorably obtained d-series rather than l-series (in the present case; N ^α -Boc-d-Ala and N ^α -Boc-l-Ala). The optimum condition for the coupling reaction was studied by changing the organic solvent, buffer solution, pH, and acyl acceptor concentration. It was found that the enzymatic hydrolysis of the resulting product was negligible. Received August 10, 2000 Accepted December 2, 2000     

The concentrations of stable RNA and ribosomes in Rickettsia prowazekii

The obligate Intracellular parasite, Rickettsia prowazekii, is a slow-growing bacterium with a doubling time of about 10h. In the present study, DNA and RNA were obtained from the rickettsiae by two independent methods, i.e. simultaneous isolation of DNA and RNA from the same sample by phenol:chloroform extraction and CsCI gradient centrifugation. In addition, ribosomal RNA was obtained by sedimentation of partially purified ribosomes from the rickettsiae. The results demonstrated that, after correction for the cell volumes, the concentrations of stable RNA and ribosomes in R prowazekii, a slow-growing organism, were about 62fg μm⁻³ and 17000 per μm³, respectively, which were very simitar (66fg μm⁻³ and 21 000 per μm³) to those in Escherichia coli with a generation time of 40min. However, on a per cell basis, R. prowazekii had 5.6 fg of RNA and 1500 ribosomes per cell, which was only about 8% of the amount of both stable RNA (71.2 fg) and ribosomes (24000) per cell as was found in E. coli. These results indicated that R. prowazekii possesses a ribosome concentration greater than might have been predicted from its slow growth rate. This high concentration of ribosomes could be due to a large population of non-functioning ribosomes, a low efficiency of amino acid production, or a high rate of protein turnover. However, this study also demonstrated that the rickettsiae have very limited protein turnover. Knowledge of the kinetics and control mechanisms for protein synthesis in R. prowazekii remains to be established to determine the logic of the extra rickettsial ribosomes.     

The effect of stratification on in vitro protein synthesis in seeds of Pinus lambertiana

Incorporation of ¹⁴C-phenylalanine in $\text{in vitro}$ systems from sugar pine ($\text{Pinus lambertiana}$) seeds was studied. Embryo ribosomes from both dry and stratified seeds supported incorporation (431 and 326 pmoles, respectively, of phenylalanine per mg ribosome) when combined with an embryo pH 5 fraction from stratified seeds. Female gametophyte ribosomes from dry seeds were active (302 pmoles phenylalanine incorporated per mg ribosome) but lost 61 percent of their capacity to support protein synthesis after 35 hours' stratification. The pH 5 fraction from embryos increased in capacity to support incorporation as stratification progressed up to 60 days (398 pmoles phenylalanine per mg ribosome when ribosomes were from 90-day stratified embryos) while the pH 5 fraction from female gametophytes was never active.     

Vicia villosa B4 lectin is the second anti-Tn lectin shown to react better with blood group N than M antigen

Earlier studies showed thatMoluccella laevis lectin, which has anti-Tn specificity, reacts more strongly with native or desialylated blood group N glycophorin A than with the respective glycophorins of blood group M. We now present results indicating thatVicia villosa B4 anti-Tn lectin, which does not show detectable reaction with untreated glycophorins or erythrocytes, reacts better with desialylated blood group N antigen than with asialo M antigen. This was demonstrated by three assays: (1) agglutination of asialoerythrocytes; (2) binding of biotinylated lectin to asialoerythrocytes immobilized on ELISA plates; and (3) inhibition of lectin binding to asialo-agalactoglycophorin with asialoglycophorins M and N. These results supply further support for the conclusion that glycophorin of blood group N has more GalNAc residues unsubstituted with Gal (Tn receptors) than glycophorin of blood group M.Abbreviations GPA glycophorin A - GPA-M and GPA-N GPA from OM and ON erythrocytes, respectively - MLL Moluccella laevis lectin - PBS 0.02m phosphate buffer/0.15m NaCl, pH 7.4 - PNA peanut agglutinin - RBC erythrocytes - TBS 0.05m Tris buffer/0.15m NaCl, pH 7.4 - TBS-T TBS containing 0.02% Tween 20 - VVL Vicia villosa B4 lectin     

Hybrid 80S monomers formed from subunits of ribosomes from protozoa,fungi, plants,and mammals

Free 80S ribosomes of eukaryotic organisms are dissociated by KCl (0.8–1.0 m) in the presence of 2-mercaptoethanol and magnesium ions (10–15mm); the large and small subunits so formed can be recombined to yield 80S monomers. We have now studied the ability of ribosomal subunits from protozoa (Tetrahymena pyriformis), fungi (Allomyces arbuscula, Saccharomyces cerevisiae), plants (pea, wheat), and mammals (rat, mouse, rabbit) to combine to form hybrid ribosomes. In general, both subunits of the species studied participate in the formation of hybrid particles, with the exception of the 60S subunit of Tetrahymena, which does not combine with the small subunit of fungal, plant, or mammalian ribosomes. The interaction of subunits from rat and Tetrahymena ribosomes has been visualized by an electron microscope study of negatively stained preparations. The base sequences of the ribosomal RNAs of these organisms have been compared to those of Saccharomyces by nucleic acid hybridization-competition.This work was supported by a fellowship #PF-529 from the American Cancer Society and by United States Public Health Service, National Institutes of Health grant GM 12449.     

Chloride Currents Activated by Calcitonin and cAMP in Primary Cultures of Rabbit Distal Convoluted Tubule

Chloride (Cl⁻) conductances were studied in primary cultures of the bright part of rabbit distal convoluted tubule (DCTb) by the whole cell patch clamp technique. The bath solution (33°C) contained (in mm): 140 NaCl, 1 CaCl₂, 10 N-2-hydroxy-ethylpiperazine-N′-2-ethanesulfonic acid (HEPES), pH 7.4 and the pipette solution 140 N-methyl-d-glucamine (NMDG)-Cl, 5 MgATP, 1 ethylene-glycol-bis(b-aminoethyl ether)-N,N,N′,N′-tetraacetic acid (EGTA), 10 HEPES, pH 7.4. We identified a Cl⁻ current activated by 10⁻⁵ m forskolin, 10⁻³ m 8-bromo adenosine 3′,5′-cyclic monophophosphate (8 Br-cAMP), 10⁻⁶ m phorbol 12-myristate 13-acetate (PMA), 10⁻³ m intracellular adenosine 3′,5′-cyclic monophophosphate (cAMP) and 10⁻⁷ m calcitonin. The current-voltage relationship was linear and the relative ion selectivity was Br⁻ > Cl⁻≫ I⁻ > glutamate. This current was inhibited by 10⁻³ m diphenylamine-2-carboxylate (DPC) and 10⁻⁴ m 5-nitro-2-(3-phenylpropylamino)-benzoate (NPPB) and was insensitive to 10⁻³ m 4,4′-diisothiocyanostilbene-2,2′-disulfonic acid (DIDS). These characteristics are similar to those described for the cystic fibrosis transmembrane conductance regulator (CFTR) Cl⁻ conductance. In a few cases, forskolin and calcitonin induced an outwardly rectifying Cl⁻ current blocked by DIDS. To determine the exact location of the Cl⁻ conductance 6-methoxy-1-(3-sulfonatopropyl) quinolinium (SPQ) fluorescence experiments were carried out. Cultures seeded on collagen-coated permeable filters were loaded overnight with 5 mm SPQ and the emitted fluorescence analyzed by laser-scan cytometry. Cl⁻ removal from the apical solution induced a Cl⁻ efflux which was stimulated by 10⁻⁵ m forskolin, 10⁻⁷ calcitonin and inhibited by 10⁻⁵ m NPPB. In 140 mm NaBr, forskolin stimulated an apical Br⁻ influx through the Cl⁻ pathway. Forskolin and calcitonin had no effect on the basolateral Cl⁻ permeability. Thus in DCTb cultured cells, exposure to calcitonin activates a Cl⁻ conductance in the apical membrane through a cAMP-dependent mechanism. Received: 5 July 1995/Revised: 21 December 1995     

The effect of cations on reassociation of the components of the cellulosome cellulase complex synthesized by the bacterium Clostridium thermocellum

The cellulosome multienzyme complex was dissociated into 12–14 components when incubated at 30° C in a reaction mixture that was buffered at pH 5.0 and was 50 mm with respect to sodium dodecyl sulphate and 10 mm with respect to both ethylenediaminetetraacetic acid (EDTA) and dithiothreitol (DTT). The dissociated components reassociated into a complex when dialysed against 20 mm TRIS/HCl buffer, pH 7.7, containing 2.5 mm DTT. When incubated in the presence of Ca²⁺ and DTT the reassociated complex had the same activity to hydrogen-bond-ordered cellulose as the undissociated cellulosome. However, when Ca²⁺ ions were incorporated into the TRIS/HCl-DTT dialysis medium the reconstituted complex had very little activity towards cellulose. Other divalent cations such as Mg²⁺ and Ba²⁺ had the same effect, but the monovalent cation Na⁺ resulted in a complex that was very active on crystalline cellulose. The results are interpreted as indicating that the divalent cations bind to one or more of the dissociated polypeptide components and induce changes in conformation that prevent their reassociation into a complex with activity towards crystalline cellulose. Correspondence to: T. M. Wood