Cheuk-fai Chow, M. Lam, M. Leung
Aug 21, 2002
Citations
1
Influential Citations
48
Citations
Journal
Analytica Chimica Acta
Abstract
Abstract The feasibility of biomimetic molecular sensing of homocysteine, an independent risk factor for cardiovascular diseases, was studied. The sensing approach coupled fluorescent derivatization of dl -homocysteine by a thiol-specific fluoro-tagging agent, N-(1-pyrenyl)maleimide, with molecular recognition by a molecularly imprinted polymer (MIP) matrix. The non-covalent MIP was fabricated using the N-(1-pyrenyl)maleimide- dl -homocysteine (PM-H) adduct as template. The PM-H–MIP was found to possess outstanding analyte-specific affinity for PM-H with binding constant, KB, of 9.28±1.6×105 M−1 and density of recognition sites, Bmax, of 11.9±0.8 nmol/g dried MIP. Following in situ fluorescent derivatization, luminescent response of the MIP was found to correlate linearly with concentration of dl -homocysteine in the range corresponding to realistic total homocysteine concentration in blood plasma. Besides being a passive recognition matrix for the binding of the fluoro-tagged analyte, the PM-H–MIP material was found to be able to specifically enhance the rate of derivatization reaction between dl -homocysteine and N-(1-pyrenyl)maleimide. In a sense, the MIP transformed a fluoro-tagging agent, which is generally reactive towards a broad spectrum of thiol-containing species, into a dl -homocysteine-specific derivatizing agent. The mechanism of such analyte-specific enhancement of derivatization rate and its advantages to the biomimetic molecular sensing are discussed.