Concentration of Antibacterial Agents in Interstitial Tissue Fluid

The concentration of antibacterial agents in the interstitial tissue fluid has been studied in an experimental model using implanted perforated Silastic capsules (tissue cages). Tissue fluid concentrations were always lower than the initial peak concentration in the serum, but for those drugs that were more slowly excreted the tissue fluid was similar to the serum concentration after six hours. In contrast the concentration in the tissue fluid for those drugs that are excreted rapidly was unpredictable, being either negligible or maintained at concentrations significantly better than in the serum. There was no evidence of accumulation in tissue fluid with regular dosage. These results indicate that the tissues may never be exposed to an adequate concentration of some antibacterial agents. This may be of clinical importance in tissue infections. Antibiotics which are rapidly excreted should be given in large enough doses and often enough for adequate blood levels to be maintained, so allowing equilibrium with tissue fluid to be achieved.     

Borate Transport and Cell Growth and Proliferation: Not Only in Plants

Boron is an abundant mineral essential for the life cycle of plants and may play a role in animal development and growth. Very little is known about boron homeostasis in plant and animal cells and the physiological roles of boron in animals. The recent identification of boron transporters, BOR1 in plants and NaBC1 in mammals, and that NaBC1 functions as an electrogenic Na+-coupled borate transporter essential for cell growth and proliferation open the way to probe the roles of boron in cellular function and physiology.     

但愿,这不是织布机的绝唱

这里每个村寨都是在喀斯特峰丛的包围之中,村寨里的每间房子都有一个小小的窗口,每个窗口内都有一台织布机,每台织布机都传唱着一个织布女的故事。     

Common Crowding Agents Have Only a Small Effect on Protein-Protein Interactions

Studies of protein-protein interactions, carried out in polymer solutions, are designed to mimic the crowded environment inside living cells. It was shown that crowding enhances oligomerization and polymerization of macromolecules. Conversely, we have shown that crowding has only a small effect on the rate of association of protein complexes. Here, we investigated the equilibrium effects of crowding on protein heterodimerization of TEM1-β-lactamase with β-lactamase inhibitor protein (BLIP) and barnase with barstar. We also contrasted these with the effect of crowding on the weak binding pair CyPet-YPet. We measured the association and dissociation rates as well as the affinities and thermodynamic parameters of these interactions in polyethylene glycol and dextran solutions. For TEM1-BLIP and for barnase-barstar, only a minor reduction in association rate constants compared to that expected based on solution viscosity was found. Dissociation rate constants showed similar levels of reduction. Overall, this resulted in a binding affinity that is quite similar to that in aqueous solutions. On the other hand, for the CyPet-YPet pair, aggregation, and not enhanced dimerization, was detected in polyethylene glycol solutions. The results suggest that typical crowding agents have only a small effect on specific protein-protein dimerization reactions. Although crowding in the cell results from proteins and other macromolecules, one may still speculate that binding in vivo is not very different from that measured in dilute solutions.     

Bacteriocins: ecological and evolutionary significance

Bacteriocins are compounds that are produced by bacteria and are antagonistic to other bacteria. Although they have been known for many years, recent interest in these compounds has increased because of their potential use as natural food preservatives. Although most of this research has been directed at the molecular level, a clearer picture of the ecological role played by bacteriocins in natural environments is beginning to emerge. In addition, the importance and practical implications of evolutionary aspects of bacteriocins and bacteriocin resistance are now being assessed.     

Cell Envelopes of Gram negative Bacteria: Composition, Response to Chelating Agents and Susceptibility of Whole Cells to Antibacterial Agents

The effects of ethylenediamine tetraacetic acid (EDTA) and related chelating agents on the sensitivity of isolated cell envelopes of some β-lactamase +ve and -ve strains of Gram negative bacteria have been investigated. Envelopes from Pseudomonas aeruginosa (especially strain NCTC 1999) contained the greatest amounts of Mg²⁺ and were the most sensitive to these agents in terms of (i) lysis, (ii) release of cations, (iii) release of readily extractable lipid. Cyclohexane—1,2, -diamine-tetraacetic acid was the most effective chelator, followed by EDTA and N -hydroxy-ethylethylenediamine triacetic acid, with nitriloacetic acid and iminodiacetic acid having little effect. A lysozyme–Tris–EDTA system also caused lysis of P. aeruginosa envelopes. The sensitivity of whole cells of the various strains to some β-lactam antibiotics and other antibacterial agents has been carried out and the basis of sensitivity or resistance in relation to drug destruction and the above envelope composition discussed.     

Only the Carrot,Not the Stick: Incorporating Trust into the Enforcement of Regulation

New enforcement strategies allow agents to gain the regulator’s trust and consequently face a lower audit probability. Prior research suggests that, in order to prevent lower compliance, a reduction in the audit probability (the “carrot”) must be compensated with the introduction of a higher penalty for non-compliance (the “stick”). However, such carrot-and-stick strategies reflect neither the concept of trust nor the strategies observed in practice. In response to this, we define trust-based regulation as a strategy that incorporates rules that allow trust to develop, and using a generic (non-cooperative) game of tax compliance, we examine whether trust-based regulation is feasible (i.e., whether, in equilibrium, a reduction in the audit probability, without ever increasing the penalty for non-compliance, does not lead to reduced compliance). The model shows that trust-based regulation is feasible when the agent sufficiently values the future. In line with the concept of trust, this strategy is feasible when the regulator is uncertain about the agent’s intentions. Moreover, the model shows that (i) introducing higher penalties makes trust-based regulation less feasible, and (ii) combining trust and forgiveness can lead to a lower audit probability for both trusted and distrusted agents. Policy recommendations often point toward increasing deterrence. This model shows that the opposite can be optimal.     

Bacteriocins: developing innate immunity for food

Bacteriocins are bacterially produced antimicrobial peptides with narrow or broad host ranges. Many bacteriocins are produced by food-grade lactic acid bacteria, a phenomenon which offers food scientists the possibility of directing or preventing the development of specific bacterial species in food. This can be particularly useful in preservation or food safety applications, but also has implications for the development of desirable flora in fermented food. In this sense, bacteriocins can be used to confer a rudimentary form of innate immunity to foodstuffs, helping processors extend their control over the food flora long after manufacture.     

Assay System for Bacteriocins

Bacteriocin activity can be detected and assayed by a modification of the punchhole method.     

Antibacterial Agents that Inhibit Histidine Protein Kinase YycG of Bacillus subtilis

We demonstrated in vitro that YycG-YycF of Bacillus subtillis constitutes a two-component system and shows a specificity of the sensor protein for the cognate phosphorylation partner. Based on inhibition of such an autophosphorylation of YycG, we searched imidazole and zerumbone derivatives to identify the antibacterial agents such as NH125, NH126, NH127, and NH0891.