The spatial organization of the active sites of the bifunctional oligomeric enzyme tryptophan synthase: Cross-linking by a novel method

To achieve specific cross-linking between the active sites of the non-identical subunits tryptophan synthase from E. coli was modified by a novel method. After reaction with bifunctional reagents of the isolated subunits at their active sites, the tetrameric complex was formed and the free ends of the reagent molecules reacted with each other forming a covalent bridge between the subunits. The distance between the amino acid side chains involved in the cross-linking should not exceed approx. 1.8 nm. A distance much shorter than that is unlikely since all attempts to cross-link the active sites with different shorter bifunctional reagents failed. The implications of these results in the mechanism of action of the enzyme are discussed.     

Microbial cycling of iron and sulfur in sediments of acidic and pH-neutral mining lakes in Lusatia (Brandenburg, Germany)

A vast number of lakes developed in the abandoned opencast lignite mines of Lusatia (East Germany) contain acidic waters (mmolSm^–2a^–). Potential Fe(III) reduction measured by the accumulation of Fe(II) during anoxic incubation yielded similar rates in both types of sediments, however, the responses towards the supplementation of Fe(III) and organic carbon were different. Sulfate reduction rates estimated with ³⁵S-radiotracer were much lower in the slightly acidic sediment than in the pH-neutral sediment (156 v.s. 738mmolSO₄ ^2–m^–2a^–1). However, sulfate reduction rates were increased by the addition of organic carbon. Severe limitation of sulfate-reducing bacteria under acidic conditions was also reflected by low most probable numbers (MPN). High MPN of acidophilic iron- and sulfur-oxidizing bacteria in acidic sediments indicated a high reoxidation potential. The results show that potentials for reductive processes are present in acidic sediments and that these are determined mainly by the availability of oxidants and organic matter.     

Pressure-induced structural changes of pig heart lactic dehydrogenase

Lactic dehydrogenase from pig heart can be reversibly dissociated at hydrostatic pressures above 1000 bar. The breakdown of the native quaternary structure occurs at lower pressures compared to the isoenzyme from pig, skeletal muscle. As shown by hybridization experiments of the two isoenzymes the final product of dissociation is the homogeneous monomer. Fluorescence emission spectra of the monomeric enzyme at elevated pressure are characterized by a decrease in fluorescence intensity without any red shift, indicating that no significant unfolding occurs upon high-pressure dissociation. The spectral changes are comparable to those observed after acid dissociation. The amount and rate of deactivation depend on pressure and on the conditions of the solvent. The presence of various anions (Cl^?, SO^2?₄. HPO₄^2?) has no effect on the stability of ihe enzyme towards pressure. High-pressure denaturation (as monitored by intrinsic protein fluorescence), and deactivalion (measured immediately after decompression) run parallel; the pressure dependence of their first-order rate constants is characterized by an activation volume ΔV^≠_Dc = ?140 = 10 cm³/mol. As taken from the yield of reconstitution, dissociation, denaturation and deactivation are found to be fully reversible provided the pressure does not exceed a limiting value (p = 1000 bar in Tris. pH 7.6: 24 h incubation at 20°C). After extended incubation beyond the limiting, pressure of 1000 bar. “irreversible high-pressure denaturation” occurs which is accompanied bv partial aggregation after decompression. The coenzyme, NAD⁺ stabilizes the native tetramer shifting the dissociation equilibrium to higher pressures. The overall dissociation-association reaction can be quantitatively described by a consecutive dissociation/unfolding mechanism N?4 M^'?4 M^☆ (where N is the native tetramer. and M^' and M^☆ two different conformations of the monomer). The reaction volume of the dissociation reaction N?4 M^' is found to be ΔV_Diss = ?360 = 30 cm³/mol: as indicated by the pressure dependence of the yield of reconstitution, the reaction volume of the equilibrium M^'?M^XXX is also negative.     

High genetic and physiological diversity of sulfate-reducing bacteria isolated from an oligotrophic lake sediment

The community structure of sulfate-reducing bacteria in littoral and profundal sediments of the oligotrophic Lake Stechlin (Germany) was investigated. A collection of 32 strains was isolated from the highest positive dilutions of most-probable-number series, and their partial 16S rRNA gene sequences and genomic fingerprints based on ERIC (enterobacterial repetitive intergenic consensus)-PCR were analyzed. The strains fell into eight distinct phylogenetic lineages, and the majority (70%) showed a close affiliation to the genus Desulfovibrio. Most of the remaining strains (22%) were related to the gram-positive Sporomusa and Desulfotomaculum groups. A high redundancy of 16S rRNA gene sequences was found within several of the phylogenetic lineages. This low phylogenetic diversity was most pronounced for the subset of strains isolated from oxic sediment layers. ERIC-PCR revealed that most of the strains with identical 16S rRNA gene sequences were genetically different. Since strains with identical 16S rRNA gene sequences but different genomic fingerprints also differed considerably with respect to their physiological capabilities, the high diversity detected in the present work is very likely of ecological relevance. Our results indicate that a high diversity of sulfate-reducing bacterial strains can be recovered from the natural environment using the established cultivation media. Received: 20 April 1998 / Accepted: 12 June 1998     

Desulfosporomusa polytropa gen. nov., sp. nov., a novel sulfate-reducing bacterium from sediments of an oligotrophic lake

Five strains of sulfate-reducing bacteria were isolated from the highest positive dilutions of a most probable number (MPN) series supplemented with lactate and inoculated with sediments from the oligotrophic Lake Stechlin. The isolates were endospore-forming and were motile by means of laterally inserted flagella. They stained Gram-negative and contained b-type cytochromes. CO difference spectra indicated the presence of P582 as a sulfite reductase. Phylogenetic analyses of the 16S rDNA sequences revealed that the isolates were very closely affiliated with the genus Sporomusa. However, sulfate and amorphous Fe(OH)₃, but not sulfite, elemental sulfur, MnO₂, or nitrate were used as terminal electron acceptors. Homoacetogenic growth was found with H₂/CO₂ gas mixture, formate, methanol, ethanol, and methoxylated aromatic compounds. The strains grew autotrophically with H₂ plus CO₂ in the presence or absence of sulfate. Formate, butyrate, several alcohols, organic acids, carbohydrates, some amino acids, choline, and betaine were also utilized as substrates. The growth yield with lactate and sulfate as substrate was 7.0 g dry mass/mol lactate and thus two times higher than in sulfate-free fermenting cultures. All isolates were able to grow in a temperature range of 4–37°C. Physiologically and by the presence of a Gram-negative cell wall, the new isolates resemble known Desulfosporosinus species. However, phylogenetically they are affiliated with the Gram-negative genus Sporomusa belonging to the Selenomonas subgroup of the Firmicutes. Therefore, the new isolates reveal a new phylogenetic lineage of sulfate-reducing bacteria. A new genus and species, Desulfosporomusa polytropa gen. nov., sp. nov. is proposed.Dedicated to Prof. H. G. Schlegel on the occasion of his 80th birthday.     

Blood volume-monitored regulation of ultrafiltration in fluid-overloaded hemodialysis patients: study protocol for a randomized controlled trial

Background

Governments and donors all over Africa are searching for sustainable, affordable and cost-effective ways to improve the quality of malaria case management. Widespread deficiencies have been reported in the prescribing and counselling practices of health care providers treating febrile patients in both public and private health facilities. Cameroon is no exception with low levels of adherence to national guidelines, the frequent selection of non-recommended antimalarials and the use of incorrect dosages. This study evaluates the effectiveness and cost-effectiveness of introducing two different provider training packages, alongside rapid diagnostic tests (RDTs), designed to equip providers with the knowledge and practical skills needed to effectively diagnose and treat febrile patients. The overall aim is to target antimalarial treatment better and to facilitate optimal use of malaria treatment guidelines.

Methods/Design

A 3-arm stratified, cluster randomized trial will be conducted to assess whether introducing RDTs with provider training (basic or enhanced) is more cost-effective than current practice without RDTs, and whether there is a difference in the cost effectiveness of the provider training interventions. The primary outcome is the proportion of patients attending facilities that report a fever or suspected malaria and receive treatment according to malaria guidelines. This will be measured by surveying patients (or caregivers) as they exit public and mission health facilities. Cost-effectiveness will be presented in terms of the primary outcome and a range of secondary outcomes, including changes in provider knowledge. Costs will be estimated from a societal and provider perspective using standard economic evaluation methodologies.

Trial Registration

ClinicalTrials.gov: NCT00981877     

Effect of carbon dioxide and hydrostatic pressure on the pH of culture media and the growth of methanogens at elevated temperature

Summary High pressure/high temperature investigations on thermophilic methanogens require specific precautions to provide well-defined pH conditions in their culture media. Applying CO₂ as carbon source, sufficient buffering capacity of the culture medium is of crucial importance in investigations involving elevated pressures. In order to separate pressure effects on the growth and reproduction of thermophilic methanogens from pressure-induced protonation/deprotonation and increased solubility of gaseous components, direct pH measurements in common culture media in the absence and in the presence of CO₂ were performed at elevated temperature (65° C), and at pressures up to 100 MPa. Neutral phosphate buffer at high pressure shows a significant downward shift of its pH which is strongly enhanced in the presence of CO₂. In minimal media containing acetate, carbonate, formate and phosphate in 100 mM concentrations, 120 mM HEPES is found to provide optimum pH stability: near neutrality the pH change upon CO₂ saturation in the absence and in the presence of HEPES amounts to pH=2.10 and 0.41, respectively; the corresponding pressure dependences are pH/100 MPa=-0.26 and -0.07. As taken from these results, the apparent pressure dependence of the optimum growth ofMethanococcus thermolithotrophicus at 65° C in minimal medium reflects the pH shift below the cutoff point of growth (pH 5.5), rather than pressure-induced growth inhibition. At constant pH, elevated pressure up to 400 MPa is found to increase the rate and yield of growth; at the same time, alterations in the phenotype of the bacterium are observed.