不同类型表面活性剂在土壤上的吸附特征比较研究

应用平衡振荡法,研究了阴、阳和非离子表面活性剂在土壤上的吸附．结果表明,阳离子表面活性剂十六烷基三甲基溴化铵能强列吸附在6种不同性质的土壤上,吸附等温线为L型,分配常数Kd,为3．0×10^2～48×10^2L·kg^-1;阴离子表面活性剂十二烷基苯磺酸钠、非离子表面活性剂OP及Tween-20的吸附等温线随土壤类型不同而不同,有L、S等型,吸附强度远弱于阳离子表面活性剂,Kd分别大体处于5．3～39、0．13～0．44(Tween-20)和4．4～22．4L·kg^-1(OP)．阳离子表面活性剂的土壤最大吸附量与土壤阳离子交换容量呈线性相关．低浓度范围内,阴离子表面活性剂的土壤分配常数与土壤粘粒含量呈正相关．同时土壤颗粒表面的电荷特性也影响吸附．非离子表面活性剂的Kd与土壤粘粒、砂粒、粉沙含量及表面积存在经验函数关系．     

长期施肥对麦田土壤微生物垂直分布的影响

应用微量热法研究了长期轮作下麦田不同土层中的微生物活性, 以及施肥对微生物垂直分布的影响。结果表明, 微生物活性基本随深度的增加而下降; 随着土层加深, 可培养细菌菌落数减少, 且可培养细菌菌落数目与最大时间(Peak time)P_t值(表示从微生物生长开始到达到峰值的时间)呈负相关; 热功率(P)-时间(t)曲线由陡变缓, 由规则变得起伏不定, 侧翼变得更短, 峰高也降低; 不同土层的微生物生长速率常数(Microbial growth rate constant) µ、峰高(Peak height)P_h值变化明显, 基本随深度增加而减小。施肥土样和不施肥土样的曲线形状不同, 特别是上层土样施肥后的曲线明显比不施肥的曲线陡, 侧翼也明显变短; 施肥土样的µ和P_h值都大于不施肥土样, 且施肥土样的P_t都小于对照。这说明, 在不同的土壤深度有不同的微生物群落结构, 长期的施肥处理改变了土壤微生物的垂直分布特征。     

Investigation of the sorption mechanisms of metal-complexed dye onto Posidonia oceanica (L.) fibres through kinetic modelling analysis

This research deals with the exploitation of highly available and renewable marine biomass, Posidonia oceanica (L.) fibres as low cost biosorbent for the removal of metal-complexed textile dyestuff from aqueous medium, and the investigation of the probably involved physiochemical mechanisms. Experiments were carried out in batch reactor. Firstly, the adsorption process was studied as a function of initial solution pH and contact time under different initial dye concentration. The results showed that the highest dye adsorption capacity was found at pH 2 under a constant temperature of 30 °C, and the equilibrium state was reached within 48 h of exposure time. Secondly, several adsorption kinetic models were applied to fit the experimental data, namely Lagergren irreversible first-order, Reversible first-order, Pseudo-second-order, Elovich, Ritchie and intraparticle diffusion models. The proposed explanations were deduced from the theoretical assumptions behind the most appropriate model(s), which could satisfactorily describe the present biosorption phenomenon. The interpretation of the related results have shown that, with R² of about 99%, the pseudo-second order model is the most suitable dynamic theory describing the biosorption of metal complex dye onto P. oceanica fibres, predicting therefore a chemisorption process.     

Sorption of EPS to sediment particles and the effect on the rheology of sediment slurries

Extracellular Polymeric Substances (EPS) are considered to play animportant role in the stabilization of intertidal mudflats. In this study therole of EPS as a binding agent in intertidal sediments was investigated. Forthis purpose two EPS fractions (termed coll-SF and EDTA-SF) wereisolated from intertidal sediment and characterized in terms ofmonosaccharide- and size distribution. In slurry addition experiments thesorption characteristics of these EPS-fractions as well as their effecton sediment properties were examined under varyingCa²⁺-concentrations. Results showed more EDTA-SFadsorbed to the sediment compared to coll-SF. For both fractions more EPSadsorbed to the sediment when Ca²⁺-concentrationincreased. This effect was stronger for EDTA-SF. The differences insorption between the two fractions could not be explained in terms ofmonosaccharide- and size distribution, which were largely similar. Theaddition of EPS in the presence or absence of Ca²⁺ did notalterthe rheology of the sediment slurries indicating that there was no effect ofEPSon the sediment properties. This contradicts results of experiments withbacterial EPS as well as field observations in which the presence ofEPS/biofilms leads to an increase in the erosion resistance of the sediment.Possible causes for this discrepancy in results are discussed.     

Effects of La3+ on the competence of Escherichia coli as studied by microcalorimetry

A series of microcalorimetric experiments were performed to investigate the effect of La³⁺ on the formation of the competent state of Escherichia coli HB101 by using a LKB-2277 BioActivity Monitor at 37°C. The thermogenic curves in the absence and in the presence of La³⁺ were obtained. Based on these curves, we calculated that the total heat effects (Q _T) and the maximal power (P _max) in the presence and absence of La³⁺. Our experiments indicate that the total heat effects in the presence of a low concentration of La³⁺ (≤ 100 μg/mL) are greater than those in the absence of La³⁺. Their trends are similar with respect to the increasing concentration of La³⁺. To the contrary, when the concentration of La³⁺ is greater than 100 μg/mL, the total heat effects decrease with the increasing concentration of La³⁺. Therefore, in the latter case, La³⁺ has inhibitory effects on the formation of competence. Our experimental results suggest that the La³⁺ ion in the environmental ecosystem can facilitate the formation of competence of E. coli HB101 and further stimulate the transfer of genetic materials between organisms.     

Competitive sorption of platinum and palladium on chitosan derivatives

Glutaraldehyde-cross-linked chitosan (GCC), thiourea derivative of chitosan (TGC) and rubeanic acid derivative of chitosan (RADC) have previously been shown to be very efficient at removing platinum and palladium from single component dilute acidic solutions. This study examines the competitive sorption of these metal anions in bi-component mixtures for GCC, TGC and RADC. Palladium sorption is less sensitive to the presence of platinum than the reverse: the maximum sorption capacity decreases less for palladium than for platinum in the presence of the competitor anion (the metals being in their chloro-metal forms). Moreover, the Langmuir-shape of the sorption isotherm for palladium is unaffected (with the usual plateau reached at low residual palladium), while in the case of platinum sorption, the isotherms exhibit a significant decrease of the sorption capacity at high residual platinum concentration which increases with increasing concentrations of palladium. RADC is more selective for palladium over platinum than the other chitosan derivatives. A preliminary study of the competitive sorption kinetics in both batch and fixed bed systems is presented for RADC and confirms the higher affinity of the sorbent for palladium than for platinum.     

Degradation of cyanobacterial biomass in anoxic tidal-flat sediments: a microcosm study of metabolic processes and community changes

To follow the anaerobic degradation of organic matter in tidal-flat sediments, a stimulation experiment with ¹³C-labeled Spirulina biomass (130 mg per 21 g sediment slurry) was conducted over a period of 24 days. A combination of microcalorimetry to record process kinetics, chemical analyses of fermentation products and RNA-based stable-isotope probing (SIP) to follow community changes was applied. Different degradation phases could be identified by microcalorimetry: Within 2 days, heat output reached its maximum (55 μW), while primary fermentation products were formed (in μmol) as follows: acetate 440, ethanol 195, butyrate 128, propionate 112, H₂ 127 and smaller amounts of valerate, propanol and butanol. Sulfate was depleted within 7 days. Thereafter, methanogenesis was observed and secondary fermentation proceeded. H₂ and alcohols disappeared completely, whereas fatty acids decreased in concentration. Three main degraders were identified by RNA-based SIP and denaturant gradient gel electrophoresis. After 12 h, two phylotypes clearly enriched in ¹³C: (i) Psychrilyobacter atlanticus, a fermenter known to produce hydrogen and acetate and (ii) bacteria distantly related to Propionigenium. A Cytophaga-related bacterium was highly abundant after day 3. Sulfate reduction appeared to be performed by incompletely oxidizing species, as only sulfate-reducing bacteria related to Desulfovibrio were labeled as long as sulfate was available.     

Thermodynamic and structural equivalence of two HLA-B27 subtypes complexed with a self-peptide

The F pocket of major histocompatibility complex (in humans HLA) class I molecules accommodates the C terminus of the bound peptide. Residues forming this pocket exhibit considerable polymorphism, and a single difference (Asp116 in HLA-B*2705 and His116 in HLA-B*2709 heavy chains) confers differential association of these two HLA-B27 subtypes to the autoimmune disease ankylosing spondylitis. As peptide presentation by HLA molecules is of central importance for immune responses, we performed thermodynamic (circular dichroism, differential scanning calorimetry, fluorescence polarization) and X-ray crystallographic analyses of both HLA-B27 subtypes complexed with the epidermal growth factor response factor 1-derived self-peptide TIS (RRLPIFSRL) to understand the impact of the Asp116His exchange on peptide display. This peptide is known to be presented in vivo by both subtypes, and as expected for a self-peptide, TIS-reactive cytotoxic T lymphocytes are absent in the respective individuals. The thermodynamic analyses reveal that both HLA-B27:TIS complexes exhibit comparable, relatively high thermostability (Tm approximately 60 degrees C) and undergo multi-step unfolding reactions, with dissociation of the peptide in the first step. As shown by X-ray crystallography, only subtle structural differences between the subtypes were observed regarding the architecture of their F pockets, including the presence of distinct networks of water molecules. However, no consistent structural differences were found between the peptide presentation modes. In contrast to other peptides displayed by the two HLA-subtypes which show either structural or dynamical differences in their peptide presentation modes, the TIS-complexed HLA-B*2705 and HLA-B*2709 subtypes are an example for thermodynamic and structural equivalence, in agreement with functional data.     

Thermodynamics of ligand binding and denaturation for His64 mutants of tissue plasminogen activator kringle-2 domain

The contribution of His64 to the function and stability of tissue plasminogen activator (t-PA) kringle-2 domain (His244 in t-PA numbering) has been studied by using microcalorimetric methods to compare the ligand binding and thermal denaturation behavior of wild-type kringle-2 and mutants having His64 replaced with Tyr or Phe. This site was examined because modeling studies suggested that the His64 side chain could play an important role in ligand binding by forming an ion-pair with the carboxylate of the ligand, L-lysine. Kringle-2 domains were expressed by secretion of the 174-263 portion of t-PA in E. coli and purified as previously described for the wild-type domain. Both mutant proteins retain affinity for L-lysine, although reduced three- to four-fold relative to wild-type, demonstrating that His64 does not interact with the ligand carboxylate through an ion-pair interaction or by hydrogen bonding. The H64Y substitution does result in an altered specificity of the lysine binding site with the mutant domain having greatest affinity for a ligand of 6.8 A chain length, whereas the wild-type domain prefers an 8.8 A long ligand. For both wild-type and mutant, the binding of the optimal chain length ligand is dominated by enthalpic effects (delta H = -6,000 to -7,000 cal/mol) and T delta S accounts for less than 15% of delta G. In addition, the H64Y mutant differs from wild-type in the effect of ligand alpha-amino group modification on binding affinity. Based on examination of the x-ray structure recently determined for wild-type kringle-2, the specificity changes accompanying the H64Y substitution probably result from changes in side chain interactions in the lysine binding site. Thermal denaturation experiments show that the H64Y mutant is also more stable than the wild-type protein with the difference in stabilization free energy (delta delta G) equal to 2.7 kcal/mol at 25 degrees C and pH 3. The increased stability of the mutant appears to be related to the difference in hydrophobicity between His and Tyr.     

Antimicrobial susceptibility testing: currently used methods and devices and the near future in clinical practice

Rapid identification of pathogen and its resistance to antimicrobial drugs, and subsequent appropriate antimicrobial treatment are essential for correct patient outcomes. Conventional detection methods of bacterial resistance, such as disc diffusion, broth microdilution and automated instruments, are constantly widely used and primarily standardized. Nevertheless, the results cannot be obtained earlier than 48 h after receiving a sample, which may lead to prolonged use or overuse of broad-spectrum antibiotics. Hence, there is a drive to develop and introduce novel, faster, standardized, sensitive and specific methods with reliable results into routine microbiological laboratory practice. Recently developed matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) has been introduced in recent years into laboratory practice, and methods based on microfluidics and microdroplets might be introduced in the near future. This review is focused on the methods and instruments in use both currently and in the foreseeable future, applicable to determine antimicrobial efficacy in clinical microbiology laboratories.