Intracellular localization of Na+/H+ antiporter from Malus zumi (MzNHX1)

In this study, we examined the intracellular localization of the product of Na+/H+ antiporter gene (MzNHX1) cloned from Malus zumi. Analysis using yeast cells expressing a fusion protein of MzNHX1 and green fluorescent protein confirmed the localization of MzNHX1 on the tonoplast

Role of Caustic Addition in Bitumen-Clay Interactions

Coating of bitumen by clays, known as slime coating, is detrimental to bitumen recovery from oil sands using the warm slurry extn. process. Sodium hydroxide (caustic) is added to the extn. process to balance many competing processing challenges, which include undesirable slime coating. The current research aims at understanding the role of caustic addn. in controlling interactions of bitumen with various types of model clays. The interaction potential was studied by quartz crystal microbalance with dissipation monitoring (QCM-D). After confirming the slime coating potential of montmorillonite clays on bitumen in the presence of calcium ions, the interaction of kaolinite and illite with bitumen was studied. To represent more closely the industrial applications, tailings water from bitumen extn. tests at different caustic dosage was used. At caustic dosage up to 0.5 wt % oil sands ore, a negligible coating of kaolinite on the bitumen was detd. However, at a lower level of caustic addn., illite was shown to attach to the bitumen, with the interaction potential decreasing with increasing caustic dosage. Increasing concn. of humic acids as a result of increasing caustic dosage was identified to limit the interaction potential of illite with bitumen. This fundamental study clearly shows that the crit. role of caustics in modulating interactions of clays with bitumen depends upon the type of clays. Thus, clay type was identified as a key operational variable

Problematic Stabilizing Films in Petroleum Emulsions: Shear Rheological Response of Viscoelastic Asphaltene Films and the Effect on Drop Coalescence

Adsorption of asphaltenes at the water-oil interface contributes to the stability of petroleum emulsions by forming a networked film that can hinder drop-drop coalescence. The interfacial microstructure can either be liquid-like or solid-like, depending on (i) initial bulk concentration of asphaltenes, (ii) interfacial aging time, and (iii) solvent aromaticity. Two techniques--interfacial shear rheology and integrated thin film drainage apparatus--provided equivalent interface aging conditions, enabling direct correlation of the interfacial rheology and droplet stability. The shear rheological properties of the asphaltene film were found to be critical to the stability of contacting drops. With a viscous dominant interfacial microstructure, the coalescence time for two drops in intimate contact was rapid, on the order of seconds. However, as the elastic contribution develops and the film microstructure begins to be dominated by elasticity, the two drops in contact do not coalescence. Such step-change transition in coalescence is thought to be related to the high shear yield stress (~10(4) Pa), which is a function of the film shear yield point and the film thickness (as measured by quartz crystal microbalance), and the increased elastic stiffness of the film that prevents mobility and rupture of the asphaltene film, which when in a solid-like state provides an energy barrier against drop coalescence

Isolation and preliminary function analysis of a Na+/H+ antiporter gene from Malus zumi

A full-length cDNA Na+/H+ antiporter gene (MzNHX1) was isolated from Malus zumi according to the homologous Na+/H+ antiporter gene region in plants. Sequence analysis indicated that the cDNA was 2062 bp in length, including an open reading frame (ORF) of 1629 bp, which encoded a predicted polypeptide of 542 amino acids. The MzNHX1 protein shared high identity with other reported plant vacuolar Na+/H+ antiporters. Southern blot analysis detected multiple copies of MzNHX1 in the M. zumigenome. Northern blot analysis showed negligible expression of the gene in roots, but expression was detected in stems and leaves. To test the function of MzNHX1, we expressed the gene in the saltsensitiveAXT3 yeast mutant. No differences in yeast cell growth were detected given the presence or absence of MzNHX1 on a NaCl free medium. However, on a 70 mM NaCl medium, growth in the control transformant was noticeably suppressed, and yeast overexpression of MzNHX1 showed increasedpopulation growth rates. These results indicated that the MzNHX1 protein increased AXT3 salt tolerance. Alignments of the deduced Na+/H+ antiporter amino acid sequence of different plants from NCBI revealed that MzNHX1 shared high identity (>86%) with vacuolar Na+/H+ antiporters, including RhNHX1 from rose, cNHX1 from citrus, and AtNHX1 from Arabidopsis thaliana. However, MzNHX1 shared very low identity

Appointment Scheduling under Patient Schedule-Dependent No-Show Behavior

This paper studies an appointment scheduling problem under schedule-dependent patient no-show behavior. The problem is motivated by our studies of independent datasets from countries in two continents which identify a significant time-of-day effect on patient show-up probabilities. We deploy a distributionally robust model, which minimizes the worst case t