Project description:Two unnatural stereoisomers of alpha,alpha-trehalose (L- and meso-trehalose) were synthesized and evaluated as cryoprotectants in order to determine the functional consequences of relative or absolute stereochemistry on their physicochemical properties. Adherent yeast cell cultures were frozen in 10% solutions of D-, L-, and meso-trehalose for periods of 7-28 days, then evaluated by a MTT viability assay. D- and L-trehalose were equally effective in maintaining high rates of cell survival, thus demonstrating the absence of chiral discrimination at the carbohydrate-lipid interface, whereas meso-trehalose was inferior in cryoprotection efficacy. Differential scanning calorimetry revealed a difference in the glass transition temperatures (Tg) of D- and meso-trehalose of nearly 75 degrees C. This can be attributed to differences in conformational behavior, as portrayed by torsional energy maps for rotation about the glycosidic bonds of D- and meso-trehalose. We conclude that the biostabilizing properties of alpha,alpha-trehalose depend on relative stereochemical factors, but are independent of absolute stereochemical configuration.

Project description:The structure of the title compound, [CrCl2(C2H6OS)4]Cl·C2H6OS, consists of a Cr(III) ion coordinated by four O atoms of dimethyl sulfoxide (DMSO) ligands and two chloride ions in cis positions, forming a distorted CrCl2O4 octa-hedron. An isolated Cl(-) counter-anion and a positionally disordered DMSO mol-ecule [occupancy ratio 0.654 (4):0.346 (4)] are also present. In the structure, the complex cations inter-act with the Cl(-) counter-anions and the DMSO solvent mol-ecules via weak C-H⋯Cl and C-H⋯O inter-actions, forming a three-dimensional network.

Project description:The title complex, [Zn(CH(5)N(3)S)(2)(C(2)H(6)OS)](C(6)H(2)N(3)O(7))(2)·C(2)H(6)OS·H(2)O, is composed of a [Zn(thio-semi-carbazide)(2)(DMSO)](2+) cation (where DMSO is dimethyl sulfoxide), and two picrate anions. In the asymmetric unit, there is also a solvent mol-ecule of DMSO and a water mol-ecule of crystallization. In the cation, the Zn(II) atom is five-coordinated in a distorted square-pyramidal geometry. It coordinates to the O atom of a DMSO mol-ecule and to the S and one N atom of two thio-semicarbazide mol-ecules, which behave as bidentate ligands coordinating in a trans arrangement. In the crystal, a number of N-H⋯O, O-H⋯O and N-H⋯S hydrogen bonds link the mol-ecules into two-dimensional networks. These networks are further linked via weak C-H⋯O inter-actions, forming a three-dimensional arrangement. Positional disorder in one methyl group of the coordinated DMSO molecule and in the two picrate anions was observed.

Project description:ObjectiveDimethylsulfoxide-cryopreserved platelets are being evaluated for treatment of acute hemorrhage in patients with thrombocytopenia or platelet dysfunction when liquid stored platelets are unavailable. Patients undergoing cardiac surgery with cardiopulmonary bypass with risk factors for significant bleeding represent a population for which determining efficacy and safety of cryopreserved platelets is ideal in the clinical trial setting. The primary objective is to compare blood loss in cardiopulmonary bypass patients receiving cryopreserved platelets or liquid stored platelets.MethodsIn patients undergoing cardiac surgery utilizing cardiopulmonary bypass, a standardized algorithm with transfusion triggers will be used to guide the intra- and postoperative administration of study platelets, either cryopreserved platelets or liquid stored platelets, based on the clinical presentation. The primary efficacy end point was the volume of blood loss from completion of chest closure (time 0) until the time chest tubes were removed or 24 hours after chest closure, whichever is earlier.ResultsThis design article describes an ongoing multicenter, randomized, blinded trial to evaluate noninferiority or superiority of cryopreserved platelets with liquid stored platelets in controlling blood loss in patients undergoing cardiopulmonary bypass surgery.ConclusionsFrozen storage could substantially safely extend the shelf life of stored platelets. If efficacy and safety were demonstrated in this trial, current constraints on platelet use in low resource military and civilian settings would be relieved.

Project description:Freezing and lyophilization are common methods used for preservation and storage of microorganisms during the production of concentrated starter cultures destined for industrial fermentations or product formulations. The compatible solute trehalose has been widely reported to protect bacterial, yeast and animal cells against a variety of environmental stresses, particularly freezing and dehydration. Analysis of the Lactobacillus acidophilus NCFM genome revealed a putative trehalose utilization locus consisting of a transcriptional regulator, treR; a trehalose phosphoenolpyruvate transferase system (PTS) transporter, treB; and a trehalose-6-phosphate hydrolase, treC. The objective of this study was to characterize the tre locus in L. acidophilus and determine whether or not intracellular uptake of trehalose contributes to cryoprotection. Cells subjected to repeated freezing and thawing cycles were monitored for survival in the presence of various concentrations of trehalose. At 20% trehalose a 2-log increase in survival was observed. The trehalose PTS transporter and trehalose hydrolase were disrupted by targeted plasmid insertions. The resulting mutants were unable to grow on trehalose, indicating that both trehalose transport into the cell via a PTS and hydrolysis via a trehalose-6-phosphate hydrolase were necessary for trehalose fermentation. Trehalose uptake was found to be significantly reduced in the transporter mutant but unaffected in the hydrolase mutant. Additionally, the cryoprotective effect of trehalose was reduced in these mutants, suggesting that intracellular transport and hydrolysis contribute significantly to cryoprotection.

Project description:Here we report the IR spectra of FeEnterobactin in catecholate conformations ([CatFeEB]3-) obtained by DFT calculations using PBE/QZVP and their correlation it with its experimental counterpart [SalH3FeEB]0. Fragments of FeEnterobactin and Enterobactin (H6EB) are elucidated from their MALDI-TOF mass spectrometry, and the dependence of the frontier orbitals (HOMO and LUMO) with the catecholamide dihedral angles of H6EB is reported. The frequency distribution of catecholamide dihedral angle of H6EB was carried-out using molecular dynamics (MD). The data presented enriches the understanding of [CatFeEB]3 - and H6EB frequency distribution and reactivity.

Project description:Dimethyl sulfoxide (DMSO) is an effective solvent and cytoprotectant agent that can induce diverse actions in experimental settings, ranging from metabolic stress to cytotoxic effects depending on the concentration used. Therefore, for the quality of experiments and reproducibility of results it is essential to establish a precise and non-toxic dose of DMSO within a specific cell system. 3T3-L1 adipocytes, represent a well-established in vitro cell model used to assess the anti-obesity potential of extracts and compounds. Although DMSO is commonly used as a solvent for these experiments, there is limited data available on the compounding effects of using DMSO. The purpose of this study was to assess a concentration-dependent effect of DMSO on lipid content, cell viability and oxidative damage in 3T3-L1 adipocytes. Results showed that DMSO at doses ? 0.1% increased mitochondrial membrane potential as measured by JC-1 fluorescent staining, while doses ??10% reduced the lipid content in matured adipocytes. Consistently, higher doses significantly reduced cell viability, elevated reactive oxygen species levels, depleted intracellular glutathione levels, and accelerated apoptosis and cell necrosis. An interesting finding was that a DMSO dose of 0.01% improved glutathione content of 3T3-L1 adipocytes and had minimal effects on cell viability, apoptosis or and necrosis, supporting its antioxidant effect. Therefore, this study provides compelling evidence that precaution should be taken when assessing compounds dissolved in DMSO, particularly doses ?1% that were shown to induce oxidative stress in 3T3-L1 adipocytes.

Project description:The title compound, [Cd(C(7)H(4)NO(3)S)(2)(C(2)H(6)OS)(2)(H(2)O)(2)], contains a Cd(2+) cation in an octahedral coordination environment. The metal atom is surrounded by the two different neutral ligands dimethyl sulfoxide (DMSO) and water, each coordin-ating through the O atom. The anionic saccharinate (sac; 1,1,3-trioxo-2,3-dihydro-1?(6),2-benzothia-zol-2-ide) ligand coordin-ates through the N atom. Each of the three similar ligand pairs is in a trans configuration with respect to each other. The Cd atom lies on a crystallographic center of symmetry. The DMSO ligand coordinates through the lone pair of electrons on the O atom, as can be seen from the Cd-O-S bond angle of 123.96?(9)°.

Project description:The title complex, [NaRuCl(4)(C(4)H(4)N(2))(C(2)H(6)OS)(2)](n), is the sodium salt of monoanionic octa-hedral [Ru(III)Cl(4)(pyrimidine)(DMSO)](-) in which the sulfur-bound dimethyl sulfoxide (DMSO) and pyrimidine ligand are oriented trans to one another on the Ru(III) atom. The average of the four Ru-Cl bond lengths is 2.355?(15)?Å, and the Ru-S and Ru-N bond lengths are 2.2853?(3) and 2.1165?(11)?Å, respectively. The complex forms a chain, with a six-coordinate sodium ion bridging the ruthenium(III) units. The sodium cation is coordinated by cis-chloride ligands on ruthenium [Na-Cl = 2.9576?(7) and 2.6988?(7)?Å], chloride and DMSO ligands from the ruthenium complexes related by inversion [Na-Cl and Na-O = 2.8888?(7) and 2.2623?(12)?Å, respectively], a nitro-gen ligand from the pyrimidine of the tetrachlorido-ruthenium(III) complex related by the twofold rotation axis [Na-N = 2.5224?(14)?Å] and an oxygen-bound DMSO [Na-O = 2.3165?(12)?Å].

Project description:In the mononuclear title complex, [Zn(C(10)H(8)N(2))(2)(C(2)H(6)OS)(2)](C(24)H(20)B)(2)·C(2)H(6)OS, the Zn(II) ion is coordinated by four N atoms of two bidentate 2,2'-bipyridine mol-ecules and by the O atoms of two cis-disposed dimethyl sulfoxide mol-ecules in a distorted octa-hedral geometry. The S atom and the methyl groups of one of the coordinated dimethyl sulfoxide mol-ecules are disordered in a 0.509?(2):0.491?(2) ratio. The crystal packing is stabilized by C-H?O hydrogen bonds between the dimethyl sulfoxide solvent mol-ecules and tetra-phenyl-borate anions.