Single-step approach for fabrication of vancomycin-bonded silica monolith as chiral stationary phase.

A vancomycin-bonded silica monolithic column for capillary electrochromatography (CEC) was prepared by a single-step in situ sol-gel approach. This sol-gel process incorporates a synthetic sol-gel precursor which contains a macrocyclic antibiotic, vancomycin, to form a porous silica network inside a fused-silica capillary. To avoid degradation of vancomycin during the column fabrication, a mild step was adopted into the sol-gel process.

Hybrid surface-enhanced Raman scattering substrate from gold nanoparticle and photonic crystal: maneuverability and uniformity of Raman spectra.

A novel hybrid surface-enhanced Raman scattering (SERS) substrate based on Au nanoparticles decorated inverse opal (IO) photonic crystal (PhC) is presented. In addition to the enhancement contributed from Au nanoparticles, a desired Raman signal can be selectively further enhanced by appropriately overlapping the center of photonic bandgap of the IO PhC with the wavelength of the Raman signal. Furthermore, the lattice structure of the IO PhC provides excellent control of the distribution of Au nanoparticles to produce SERS spectra with high uniformity.

Single-step approach to beta-cyclodextrin-bonded silica as monolithic stationary phases for CEC.

A novel single-step sol-gel approach for the preparation of beta-CD-bonded silica monolithic electrochromatographic columns is established. The porous silica networks were fabricated inside fused-silica capillaries using sol-gel processing of tetramethoxysilane and an organfunctional silicon alkoxide that contains beta-CD. Scanning electron micrographs and nitrogen adsorption-desorption data showed that these functional monolithic columns have double pores structures with micrometer-size co-continuous through-pores and silica skeletons with open mesopores.

Identification of a new chromophoric substrate in the library of amino acid p-nitroanilides for continuous assay of VanX, a D,D-dipeptidase essential for vancomycin resistance.

As one of key bacterial proteins involved in vancomycin resistance, VanX is a D,D-dipeptidase that impedes bacterial cell wall biosynthesis by hydrolyzing the essential D-Ala-D-Ala dipeptide. Based on a report by Crowder and co-workers that L-alanine-p-nitroanilide (L-Ala-pNA) was a useful substrate for continuous assay of VanX, we constructed a library of 35 L- and D-amino acid p-nitroanilides to provide the needed diversity to discover new substrates that are more specific than L-Ala-pNA. We report here that, among all compounds tested, D-leucine-p-nitroanilide (D-Leu-pNA) was found to be the best substrate for VanX enzyme (KM=8.