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11.
The objective of this study was to examine the responsiveness of chemically cross-linked κ-carrageenan microspheres to different types of neutral salt electrolytes as well as to surfactants of varying chain lengths. In the presence of increasing salt concentration microsphere size changed radically from D[4,3] values of 320 μm to approximately 160 μm. The level of salt concentration needed to bring about this change varied depending on electrolyte type. This common behaviour was attributed to the difference in free cationic counter-ions concentration between the inside and outside of the microsphere and can be explained due to the effect of the Donnan equilibrium. The rheological properties of these microgels in their swollen and collapsed states were also explored with results showing that the collapsed microspheres had a greater impact on the viscosity of the system probably as a result of some aggregation of the collapsed microgels at rest due to surface charge screening at these high salt concentrations. The effect of surfactant on microsphere size showed a dramatic drop in D[4,3] values from 320 μm to approximately 120 μm for BAC, DoTAB, MTAB and CTAB at specific critical concentrations. This critical aggregation concentration was found to increase linearly on a log–log scale with the critical micelle concentration of these surfactants in water, indicating that the alkyl chain length of the surfactants had an effect on the critical aggregation concentration. 相似文献
12.
As the bioconversion of methane becomes increasingly important for bio-industrial and environmental applications, methanotrophs have received much attention for their ability to convert methane under ambient conditions. This includes the extensive reporting of methanotroph engineering for the conversion of methane to biochemicals. To further increase methane usability, we demonstrated a highly flexible and efficient modular approach based on a synthetic consortium of methanotrophs and heterotrophs mimicking the natural methane ecosystem to produce mevalonate (MVA) from methane. In the methane-conversion module, we used Methylococcus capsulatus Bath as a highly efficient methane biocatalyst and optimized the culture conditions for the production of high amounts of organic acids. In the MVA-synthesis module, we used Escherichia coli SBA01, an evolved strain with high organic acid tolerance and utilization ability, to convert organic acids to MVA. Using recombinant E. coli SBA01 possessing genes for the MVA pathway, 61 mg/L (0.4 mM) of MVA was successfully produced in 48 h without any addition of nutrients except methane. Our platform exhibited high stability and reproducibility with regard to cell growth and MVA production. We believe that this versatile system can be easily extended to many other value-added processes and has a variety of potential applications. 相似文献
13.
Randall P. Niedz Terrence J. Evens 《In vitro cellular & developmental biology. Plant》2007,43(4):370-381
The objective of this study was to determine if the growth of sweet orange (Citrus sinensis (L.) Osbeck cv. ‘Valencia’) nonembryogenic callus could be regulated and controlled via the mineral nutrient components of
the medium. The 14 salts comprising Murashige and Skoog (MS) basal medium were subdivided into five component groups. These
five groups constituted the independent factors in the design. A five-dimensional hypervolume constituted the experimental
design space. Design points were selected algorithmically by D-optimality criteria to sample of the design space. Growth of
the callus at each design point was measured as % increase of fresh weight at 14 d. An analysis of variance was conducted
and a response surface polynomial model generated. Model validation was conducted by mining the polynomial for design points
to two regions—“MS-like” growth and MS + 25% growth and comparing callus growth to predicted growth. Five of the eight selected
MS-like points and three of the six MS + 25% growth points validated, indicating regions within the design space where growth
was equivalent to MS, but the salt combinations were substantially different from MS, and a smaller region where growth exceeded
MS by greater than 25%. NH4NO3 and Fe were identified as important factors affecting callus growth. A second experiment was conducted where NH4NO3 and Fe were varied, thus creating a two-dimensional slice through the region of greatest callus growth and provided increased
resolution of the response. 相似文献