Ion solvation and water structure in potassium halide aqueous solutions

The structure of water and the nature of ionic hydration is explored in aqueous solutions of potassium fluoride, chloride, bromide and iodide over a range of concentrations up to 4.8 ion pairs per 100 water molecules, using the combined techniques of neutron diffraction with hydrogen isotope substitution. The diffraction data are interpreted using the method of empirical potential structure refinement, which attempts to build a three-dimensional model of the scattering system consistent with the diffraction data. The water structure is strongly perturbed in the first hydration shells of both anion and cation, but is found to be only mildly perturbed outside of this region, with the largest effects occurring with the smallest anion and highest concentrations. For the potassium ion there are strong orientational correlations in the first hydration shell, with the water molecules lying with their dipole moments pointing almost directly away from the cation on average, but with an angular spread of approximately +/-60 degrees which is mildly dependent on the anion type present. For all the anions the water molecules in the first shell are strongly oriented with one O-H vector pointing directly towards the anion on average, with an angular spread of approximately +/-10 degrees for F(-), increasing to approximately +/-22 degrees for I(-). For both anions and cations the second hydration shell is much more disordered than the first, but there is a weak pattern of orientational correlation which becomes more pronounced with the larger anions. There is some evidence that the fluoride ion structures water significantly in its first hydration shell, but not beyond. The findings throw further light on recent findings that the orientational relaxation time for water outside the first shell of dissolved ions is the same as in the bulk liquid.     

Changes in plasmalemma organization in cowpea radicle during imbibition in water and NaCl solutions

Abstract Freeze-fracture electron microscopy of the plasmalemma of dry cowpea radicle cells disclosed a normal-appearing membrane with a high area density of intramembraneous particles (IMPs). Seeds imbibed in either water or salt solution exhibited decreased area density of IMPs, but water-imbibed tissue showed the greatest decline. Mean particle size increased with hydration but not enough to suggest aggregation as the cause for this density decrease. Calculations of plasmalemma area expansion during imbibition show that such expansion can account for the decrease in IMPs per unit area in the cytoplasmic side (PF) of the membrane in water-imbibed, but not in salt-imbibed, tissue. During imbibition, there is a change in the ratio of IMPs per unit area of the PF versus EF (external) membrane faces, suggesting a relative increase in the number of EF particles. These changes in membrane structure are probably not related to any decrease in membrane permeability during the early phases of imbibition.     

Ion exchangers mediating NaCl transport in the renal proximal tubule

We have studied the mechanisms of NaCl transport in the mammalian proximal tubule. Studies of isolated brush-border membrane vesicles confirmed the presence of Na+-H+ exchange and identified Cl(-)-formate and Cl(-)-oxalate exchangers as possible mechanisms of uphill Cl- entry. We found that formate and oxalate each stimulate NaCl absorption in microperfused proximal tubules. Stimulation of NaCl absorption by formate was blocked by the Na+-H+-exchange inhibitor EIPA, whereas stimulation by oxalate was blocked by omission of sulfate from the perfusion solutions. These observations were consistent with recycling of formate from lumen to cell by H+-coupled formate transport in parallel with Na+-H+ exchange and recycling of oxalate by oxalate-sulfate exchange in parallel with Na+-sulfate cotransport. Using isoform-specific antibodies, we found that NHE1 is present on the basolateral membrane of all nephron segments, whereas NHE3 is present on the apical membrane of cells in the proximal tubule and the loop of Henle. The inhibitor sensitivity of Na+-H+ exchange in renal brush-border vesicles and of HCO3- absorption in microperfused tubules suggested that NHE3 is responsible for most, if not all, apical membrane Na+-H+ exchange in the proximal tubule. The role of NHE3 in mediating proximal tubule HCO3- absorption and formate-dependent Cl- absorption was confirmed by studies in NHE3 null mice. Finally, we cloned and functionally expressed CFEX, an anion transporter expressed on the apical surface of proximal tubule cells and capable of mediating Cl(-)-formate exchange.     

Flexibility of myosin in pyrophosphate and NaCl solutions

The orientational relaxation time of myosin has been reported as 38 s when measured in pyrophosphate media at elevated pH (Hvidt et al. 1984) and as 17 s when measured in 0.3 M KCl at pH 7.3 (Bernengo and Cardinaud 1982). This discrepancy, which is reexamined in the present report, suggests that in KCl solution the rod portion of the myosin molecule is bent with an average angle close to 110°, whereas in pyrophosphate at elevated pH it assumes a nearly straight and rigid conformation. Electric birefringence shows that the amount of dimeric and polymeric species in pyrophosphate media at pH's 8.0 and 8.5 is certainly greater than usually thought. In these media, relaxation times can be measured correctly at pH 9.0. A comparative analysis of the influence of protein concentration, field strength, medium composition and concentration, pH and temperature showed that a high relaxation time is associated with the presence of pyrophosphate and that the myosin tail is significantly stiffened in the presence of this anion. Offprint requests to: R. Cardinaud     

NaCl胁迫对番茄嫁接苗生物量及离子含量的影响

以影武者为砧木,宝大903为接穗,研究了NaCl胁迫下番茄嫁接苗与接穗自根苗在生物量及Na 、K 、Ca2 、Mg2 、Cl-等含量方面的差异.结果显示,NaCl胁迫下,嫁接苗生长受抑制程度较轻;嫁接苗和自根苗Na 、Cl-含量增长幅度最大的部位均是叶片,嫁接苗增长幅度小于自根苗;K 、Ca2 、Mg2 含量下降幅度最大的部位均是根系,嫁接苗下降幅度小于自根苗;嫁接苗的K /Na 值、Ca2 /Na 值显著高于自根苗,说明嫁接苗选择性吸收K 、Ca2 能力显著强于自根苗.结果表明,NaCl胁迫下嫁接苗体内离子分布的区域化优于自根苗,耐盐性强于自根苗.     

Ion and water fluxes in the ileum of rats

Studies have been carried out on the movement of salt and water across the small intestine of the rat. Segments of the ileum of anesthetized rats have been perfused in vivo with unbuffered NaCl solutions or isotonic solutions of NaCl and mannitol. Kinetic analysis of movements of Na²⁴ and Cl³⁶ has permitted determination of the efflux and influx of Na and Cl. Net water absorption has been measured using hemoglobin as a reference substance. Water was found to move freely in response to gradients of osmotic pressure. Net water flux from isotonic solutions with varying NaCl concentration was directly dependent on net solute flux. The amount of water absorbed was equivalent to the amount required to maintain the absorbed solute at isotonic concentration. These results have been interpreted as indicating that water movement is a passive process depending on gradients of water activity and on the rate of absorption of solute. The effluxes of Na and Cl are linear functions of concentration in the lumen, but both ions are actively transported by the ileum according to the criterion of Ussing (Acta Physiol. Scand., 1949, 19, 43). The electrical potential difference between the lumen and plasma has been interpreted as a diffusion potential slightly modified by the excess of active Cl flux over active Na flux. The physical properties of the epithelial membrane indicate that it is equivalent to a membrane having negatively charged uniform right circular pores of 36 Å radius occupying 0.001 per cent of the surface area.     

NaCl胁迫对滨藜生长及其根和叶中无机离子含量的影响

用不同浓度的NaCl溶液处理滨藜（Atriplex undulata）植株后发现：100mmol/L NaCl促进滨藜地上部及根部生物量积累,高于100mmol/l NaCl,抑制其生长。各部位的Na^ 和Cl^-含量随着NaCl浓度的升高明显增加。NaCl处理下,叶片的Na^ 和Cl^-含量高于根部,幼叶高于老叶,且叶片的K^ （除500mmol/L NaCl处理的老叶外）,根部的K^ 、Ca^2 和NO3^-无显著变化。叶片的Na/K比随NaCl浓度的升高而增加,但较高浓度时下降（在老叶中）或维持稳定（在幼叶中）。随着处理浓度的增加,各部位对K^ 的选择性（相对于Na^ ）增加,渗透调节能力增强,渗透势降低。另外,还讨论了滨藜对盐渍生境的适应特征。     

Decontamination effect of electrolysed NaCl solutions on carp

AIMS: To evaluate the efficacy of electrolysed NaCl solutions (EW) for disinfecting bacterial isolates from carp, and the potential application of EW to reducing the bacterial load in whole carp and carp fillets. METHODS AND RESULTS: EW was produced by using a two-compartment batch-type electrolysed apparatus. Pure cultures (in vitro), whole carp (skin surface) and carp fillets were treated with EW to detect its antimicrobial effects. The anodic solution [EW (+)] completely inhibited growth of the isolates. Furthermore, dipping the fish samples in EW (+) reduced the mean total count of aerobic bacteria on the skin of whole carp and in fillets by 2.8 and 2.0 log(10), respectively. The cathodic solution [EW (-)] also reduced growth of the isolates from carp by ca 1.0 log(10). Moreover, the total counts of aerobic bacteria in whole carp (on the skin) and fillets were reduced by 1.28 and 0.82 log(10), respectively. CONCLUSIONS: EW (+) has a strong bactericidal effect on bacteria isolated from carp. SIGNIFICANCE AND IMPACT OF THE STUDY: Treatment with EW (+) could extend the shelf life of these fish.     

Ionic homeostasis disturbance is involved in tomato cell death induced by NaCl and salicylic acid

The ability of salicylic acid and NaCl to induce programmed cell death by disturbing ionic homeostasis was investigated using tomato suspension culture cells. NaCl (300?mM) and salicylic acid (1?mM) inhibited cell growth and caused cell death within 1?wk of exposure. Treatment with NaCl increased the production of reactive oxygen species and the permeability of plasma membrane, but it also led to a reduction in the pH of the culture medium and resulted in a disturbance in ionic homeostasis of the cells. Salicylic acid-induced cell death in tomato suspension culture was also accompanied by production of reactive oxygen species and increases in both electrolyte leakage and pH of the culture media. However, reactive oxygen species production was not significantly different in cultures treated with a lethal salicylic acid concentration and 100?mM NaCl, in which most of the cells survived. A decrease in the K⁺/Na⁺ ratio was observed only in those cell cultures in which the salicylic acid treatment induced the death of cells. These results suggest that the decrease of the intracellular K⁺ concentration and K⁺/Na⁺ ratio is a common phenomenon in triggering programmed cell death by lethal concentrations of salicylic acid and NaCl.     

Compartmentalization of NaCl in frozen solutions of antifreeze glycoproteins.

The freezing behavior of NaCl solutions containing antifreeze glycoproteins from an Antarctic fish has been investigated to determine whether the glycoproteins prevent concentration of NaCl during freezing. Frozen NaCl solutions containing glycoproteins exhibit greater resistance to releasing their brine during centrifugation than NaCl solutions containing other cryoprotectants. With the aid of calorimetry this is shown to be caused not by an incorporation of the NaCl into the ice but by compartmentalization of the brine pockets. The compartmentalization is attributed to an unusual spicular structure that is imposed on the ice by glycoproteins.     

Scoring clustering solutions by their biological relevance

MOTIVATION: A central step in the analysis of gene expression data is the identification of groups of genes that exhibit similar expression patterns. Clustering gene expression data into homogeneous groups was shown to be instrumental in functional annotation, tissue classification, regulatory motif identification, and other applications. Although there is a rich literature on clustering algorithms for gene expression analysis, very few works addressed the systematic comparison and evaluation of clustering results. Typically, different clustering algorithms yield different clustering solutions on the same data, and there is no agreed upon guideline for choosing among them. RESULTS: We developed a novel statistically based method for assessing a clustering solution according to prior biological knowledge. Our method can be used to compare different clustering solutions or to optimize the parameters of a clustering algorithm. The method is based on projecting vectors of biological attributes of the clustered elements onto the real line, such that the ratio of between-groups and within-group variance estimators is maximized. The projected data are then scored using a non-parametric analysis of variance test, and the score's confidence is evaluated. We validate our approach using simulated data and show that our scoring method outperforms several extant methods, including the separation to homogeneity ratio and the silhouette measure. We apply our method to evaluate results of several clustering methods on yeast cell-cycle gene expression data. AVAILABILITY: The software is available from the authors upon request.     

RNase and DNase activities in the alfalfa and lentil grown in iso-osmotic solutions of NaCl and mannitol

Nucleolytic activities from two plants of Leguminosae family were determined in order to consider if the nucleases of plants which belong to the same family or to the same species responded in similar ways to stress conditions during growth. Growth parameters of both plants were examined in parallel. In detail, seedlings from two plants, alfalfa (Medicago sativa L. cv. Luzerne Euver) and lentil (Lens culinaris cv. Thessalia), showed significant differences in response to iso-osmotic solutions of NaCl (100 mmol · L⁻¹ solution equivalent to conductivity 8.0 dS m⁻¹) and mannitol (190 mmol · kg⁻¹). Plant height and dry weight of mannitol/NaCl-treated seeds in both plants were lower in comparison to controls (water). Mannitol stress reduced height and dry weight in alfalfa seedlings more than did NaCl. By contrast, lentil seedling growth was inhibited more by NaCl stress than mannitol. In addition, DNase and RNase response to mannitol stress differed in each plant compared to the controls. Mannitol stress induced a sharp increase in DNase- and RNase-specific activity during the initial stages of alfalfa seedlings' growth, followed by a decrease during subsequent days; in lentil seedlings, these activities were inhibited throughout the entire growth period. NaCl stress inhibited the above activities in both plants. After native electrophoresis on gels polymerized in the presence of DNA/RNA, the overall band intensities confirmed the above quantitative results of alfalfa RNase and DNase activity. In addition, the active gel analysis revealed that the decrease of nucleolytic activities in mannitol-treated alfalfa seedlings was mainly due to the strong reduction of acid nucleases. This is the first report of different non-ionic osmotic response of type I plant nucleases during seedlings' growth. In vitro, the addition of up to 300 mmol/L mannitol did not affect acid and neutral nuclease activity in enzyme preparations extracted, purified, and separated from control and mannitol-treated alfalfa seedlings.Our results suggest that plant nucleases responded in a different way to osmotic stress and ionic stress conditions during seedlings' growth.     

Activity coefficients of antibiotics in aqueous NaCl solutions at 298.2 K

Data at 298.2 K for aqueous NaCl solutions containing either D-phenylglycin, D-(p-hydroxy)phenylglycine, 6-amino penicillanic acid (6-APA), amoxicillin or ampicillin, are reported. The mean ionic activity coefficients of NaCl were determined from measurements of the responses of a sodium and a chloride ion-selective electrode. The activity coefficients of the precursors or the antibiotics were calculated from the values of the mean ionic activity coefficients using the exact cross differential relation between them. The correlation of solubility data using the activity coefficients measured in this work shows the same puzzling results previously observed in systems containing amino acids.     

Renal response of euryhaline toad (Bufo viridis) to acute immersion in tap water, NaCl, or urea solutions

Green toads (Bufo viridis) were acclimated to either tap water, 230 mOsmol NaCl kg-1 H2O (saline), 500 mOsmol NaCl kg-1 H2O (high saline), or 500 mmol L-1 urea. Renal functions for each acclimation group were studied on conscious animals that had one ureter chronically catheterized. Reciprocal immersion of tap-water- and saline-acclimated toads in the opposite solution did not stress the animals osmotically, and plasma osmolality increased or decreased by no more than 15%. However, urine osmolality and ionic composition changed immediately and profoundly on exposure to the other solution. Exposure of tap-water-acclimated toads to saline decreased urine flow by 30%, whereas the reciprocal immersion led to an increase of 30%. Immersion of tap-water-acclimated toads in high saline led to immediate cessation of urine flow, whereas immersion of 500 NaCl- or urea-acclimated toads in tap water led to a large increase in urine flow, with an overshoot that lasted 10 h (as a result of either salt or urea diuresis). Urine flow then stabilized at a level 5-6 times higher than the value attained at high-salt environment. On immersion of 500 urea-acclimated toads in 500 NaCl, urine flow doubled, accompanied by a change in ion composition, without change in the osmolality. In all experimental conditions, plasma potassium concentration was maintained within a narrow range. The results show that the toad's kidneys contributed efficiently both to osmo- and ionoregulation in a wide range of ambient solutions.