Solid-state I3C NMR spectra of "N-containing compounds obtained under CPMAS conditions often show asymmetric doublets arising from the unaveraged l3C,l4N residual dipolar coupling. A similar result has recently been noticed in deuteriated samples, whose "C resonances showed the combined effect of %,*H dipolar and scalar couplings. A simple approach, easily adaptable to a desk microcomputer, is described for simulating "C line shapes for arbitrary values of quadrupole parameters, C-X (X = I4N, 'H) distances, external field and orientation of the internuclear vector in the axis system where the electric field gradient tensor is diagonal.
An on-line affinity selection method using a polymeric monolithic support is proposed for the retention of histidine-containing peptides and their subsequent separation by capillary zone electrophoresis (CZE). Monolithic capillary columns were prepared in fused-silica capillaries of 150 mum inner diameter (ID) by ionizing radiation-initiated in situ polymerization and cross-linking of diethylene glycol dimethacrylate and glycidyl methacrylate, and chemically modified with iminodiacetic acid (IDA) and copper ion. Monolithic microextractors were coupled on-line near the inlet of the separation capillary (fused-silica capillary, 75 mum ID x 28 cm from the microextractor to the detector). Model peptide mixtures of histidine-containing and histidine-noncontaining peptides were assessed. Peptides were released from the sorbent by a 5 mM imidazole solution and then separated by CZE with ultraviolet detection. Relative standard deviation values for migration times and corrected peak areas were found to be lower than 5.8 and 10.5%, respectively. IDA-Cu(II) ion modified monolithic microextractors showed a chromatographic behavior and could be reused at least 25 times. The use of monolithic supports proved to be an advantageous alternative to packed particles for the preparation of microextractors.
The preparation of megaporous bodies, with potential applications in biotechnology, was attempted by following several strategies. As a first step, naive and robust scaffolds were produced by polymerization of selected monomers in the presence of a highly soluble cross-linker agent. Ion-exchange function was incorporated by particle embedding, direct chemical synthesis, or radiation-induced grafting. The total ionic capacity of such systems was 1.5 mmol H(+)/g, 1.4 mmol H(+)/g, and 17 mmol H(+)/g, respectively. These values were in agreement with the ability to bind model proteins: observed dynamic binding capacity at 50% breakthrough was ≅7.2 mg bovine serum albumin/g, ≅7.4 hen egg-white lysozyme (HEWL) mg/g, and ≅108 HEWL mg/g. In the later case, total (static) binding capacity reached 220 mg/g. It was observed that the structure and size of the megapores remained unaffected by the grafting procedure which, however, allowed for the highest protein binding capacity. Lysozyme supported on grafted body showed extensive clarification activity against a Micrococcus lysodekticus suspension in the flow-through mode, i.e., 90% destruction of suspended microbial cells was obtained with a residence time ≈ 18 min. Both protein capture and biocatalysis applications are conceivable with the 3D-megaporous materials described in this work.
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