51 research outputs found
Biotin–specific synthetic receptors prepared using molecular imprinti
The composition of new molecularly imprinted polymers (MIPs) specific for biotin
was optimised using molecular modelling software. Three functional monomers:
methacrylic acid (MAA), 2-(trifluoromethyl)acrylic acid (TFAA) and 2-acrylamido-
2-methyl-propanesulfonic acid (AMPSA), which demonstrated the highest binding
scores with biotin, were tested on their ability to generate specific binding
sites. The imprinted polymers were photografted to the surface of polystyrene
microspheres in water. The affinity of the synthetic "receptor" sites was
evaluated in binding experiments using horseradish peroxidase-labelled biotin. A
good correlation was found between the modelling results and the performance of
the materials in the template rebinding study. The dissociation constants for
all MIPs were 1.4-16.8 nM, which is sufficient for most analytical applications
where biotin is used as a label
Metal-ligand complexes as a new class of long-lived fluorophores for protein hydrodynamics.
We describe the use of asymmetric Ru-ligand complexes as a new class of luminescent probes that can be used to measure rotational motions of proteins. These complexes are known to display luminescent lifetimes ranging from 10 to 4000 ns. In this report, we show that the asymmetric complex Ru(bpy)2(dcbpy) (PF6)2 displays a high anisotropy value when excited in the long wavelength absorption band. For covalent linkage to proteins, we synthesized the N-hydroxy succinimide ester of this metal-ligand complex. To illustrate the usefulness of these probes, we describe the intensity and anisotropy decays of [Ru(bpy)2(dcbpy)] when covalently linked to human serum albumin, concanavalin A (ConA), human immunoglobulin G (IgG), and Ferritin, and measured in solutions of increased viscosity. These data demonstrate that the probes can be used to measure rotational motions on the 10 ns to 1.5 microseconds timescale, which so far has been inaccessible using luminescence methods. The present probe [Ru(bpy)2(dcbpy)] can be regarded as the first of a class of metal-ligand complexes, each with different chemical reactivity and spectral properties, for studies of macromolecular dynamics
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