Lack of Charge Interaction in the Ion Binding Site Determines Anion Selectivity in the Sodium Bicarbonate Cotransporter NBCe1

The Na/HCO3 cotransporter NBCe1 is a member of SLC4A transporters that move HCO3− across cell membranes and regulate intracellular pH or transepithelial HCO3 transport. NBCe1 is highly selective to HCO3− and does not transport other anions; the molecular mechanism of anion selectivity is presently unclear. We previously reported that replacing Asp555 with a Glu (D555E) in NBCe1 induces increased selectivity to other anions, including Cl−. This finding is unexpected because all SLC4A transporters contain either Asp or Glu at the corresponding position and maintain a high selectivity to HCO3−. In this study, we tested whether the Cl− transport in D555E is mediated by an interaction between residues in the ion binding site. Human NBCe1 and mutant transporters were expressed in Xenopus oocytes, and their ability to transport Cl− was assessed by two-electrode voltage clamp. The results show that the Cl− transport is induced by a charge interaction between Glu555 and Lys558. The bond length between the two residues is within the distance for a salt bridge, and the ionic strength experiments confirm an interaction. This finding indicates that the HCO3− selectivity in NBCe1 is established by avoiding a specific charge interaction in the ion binding site, rather than maintaining such an interaction.

Robust organic cages prepared using hydrazone condensation display sulfate/hydrogenphosphate selectivity in water

Two robust hexacationic cages incorporating either urea or isophthalamide motifs were synthesized via a short and high-yielding synthetic pathway using hydrazone condensation reactions in water for the cage forming step. Stability testing revealed that the cages are stable to a range of stimuli in water and in organic solvents. The urea containing cage can bind anions in pure water, and displays strong and selective binding of SO42– over HPO42–. The isophthalamide containing cage binds SO42– only weakly in 1:1 D2O:d6-DMSO but displays strong and cooperative binding of two HPO42– anions. Combined quantum mechanical/annealed molecular dynamics simulations suggest that the remarkable differences in anion selectivity are largely a result of the differing flexibilities of the two cages.

Effect of copper addition in carbon steel on biocorrosion by sulfate-reducing bacteriain solution

Purpose This paper aims to investigate the anti-biocorrosion performance and mechanism of the Cu-bearing carbon steel in the environment containing sulfate-reducing bacterial (SRB). Design/methodology/approach The biocorrosion behavior of specimens with Cu concentration of 0 Wt.%, 0.1 Wt.%, 0.3 Wt.% and 0.6 Wt.% were investigated by immersion test in SRB solution. By examining the prepared cross-section of the biofilm using focused ion beam microscopy, SRB distribution, bacterial morphology, biofilm structure and composition were determined. The ion selectivity of the biofilm was also obtained by membrane potential measurement. Moreover, the anti-biocorrosion performance of the Cu-bearing carbon steel pipeline was tested in a shale gas field in Chongqing, China. Findings Both the results of the laboratory test and shale gas field test indicate that Cu-bearing carbon steel possesses obvious resistance to microbiologically influenced corrosion (MIC). The SRB, corrosion rate and pitting depth decreased dramatically with Cu concentration in the substrate. The local acidification caused by hydrolyze of ferric ion coming from SRB metabolism and furtherly aggravated by anion selectivity biofilm promoted the pitting corrosion. Anti-biocorrosion of Cu-bearing carbon steel was attributed to the accumulation of Cu compounds in the biofilm and the weaker anion selectivity of the biofilm. This research results provide an approach to the development of economical antibacterial metallic material. Originality/value MIC occurs extensively and has become one of the most frequent reasons for corrosion-induced failure in the oil and gas industry. In this study, Cu-bearing carbon steel was obtained by Cu addition in carbon steel and possessed excellent anti-biocorrosion property both in the laboratory and shale gas field. This study provides an approach to the development of an economical antibacterial carbon steel pipeline to resist MIC.

Measuring anion transport selectivity: a cautionary tale

pH-dependent liposomal assays are often used to determine anion selectivity in transmembrane anion transport experiments. In this communication, we discuss the validity and limitations of these assays, and provide guidelines for their use to avoid misleading results.