Your search keyword '"Mojica ER"' showing total 2 results

1. Tetracycline speciation during molecular imprinting in xerogels results in class-selective binding.

Author

Mojica ER, Autschbach J, Bright FV, and Aga DS

Subjects

Binding Sites, Chromatography, Liquid, Drug Stability, Mass Spectrometry, Models, Molecular, Molecular Conformation, Porosity, Substrate Specificity, Gels chemical synthesis, Gels chemistry, Molecular Imprinting methods, Tetracycline chemistry

Abstract

The creation of tetracycline (TC) responsive molecularly imprinted xerogels (MIXs) was investigated using electronic absorbance, liquid chromatography-ion-trap mass spectrometry (LC-ITMS), and first-principles theory. Experimental results show that the template molecule converts to its epimer, 4-epitetracycline (ETC), during the imprinting process. Additionally, end capping of the MIX surface silanols transforms TC into anhydrotetracycline (ATC) and 4-epianhydrotetracycline (EATC). Hence, despite aiming to imprint for a single analyte (TC), one simultaneously imprints for up to four analogs (TC, ETC, EATC and ATC) within a MIX. Binding studies using LC-MS showed the binding of the prepared xerogels with the four analogs. In some formulations, preferential uptake of ETC, EATC and ATC relative to the template molecule (TC) was observed. Computations of the interaction energies between silane monomers and the four analogs reveal that ETC, EATC and ATC have higher interaction energies and are more likely to be imprinted in comparison to TC.

Published

2011

2. Synthesis and evaluation of tetracycline imprinted xerogels: comparison of experiment and computational modeling.

Author

Mojica ER, Autschbach J, Bright FV, and Aga DS

Subjects

Computer Simulation, Models, Chemical, Phase Transition, Sensitivity and Specificity, Gels chemistry, Molecular Imprinting methods, Silicon Dioxide chemistry, Solid Phase Extraction methods, Tetracycline isolation & purification

Abstract

A series of silica-based tetracycline (TC)-imprinted xerogel sorbents were prepared by sol-gel processing and were characterized for TC binding. Molecularly imprinted xerogels (MIXs) formed from allyltriethoxysilane (AtEOS) and tetraethoxysilane (TEOS) and end capped with trimethylchlorosilane exhibited the best analytical performance (imprinting factor, IF, of 7.46±0.13). Computational modeling was used to estimate the interaction energy (IE) between TC and each type of silane to evaluate our ability to predict the analytical performance of a given MIX. Rankings from the computations agreed with the experimental data showing the AtEOS having the highest IE in comparison to the other formulations. Together, these results demonstrate the potential and limitations of using theoretical calculations to guide the development of analyte selective MIXs in comparison to arbitrary trial and error approaches traditionally used to produce MIXs as sorbents for solid phase extraction., (Copyright © 2010 Elsevier B.V. All rights reserved.)

Published

2011