frameworks (MOFs), synthesized by assembling metal nods with organic linkers, are highly ordered crystalline materials. MOFs have attracted much attention for applications in electrochemical sensors, because of their unique chemical and physical properties including ultrahigh porosity, large surface area, tunable structure, and high thermal and chemical stability. In particular, redox and catalytic active sites introduced by use of active metal ions and/or ligands endow MOFs with the functions required in electrochemical sensing. Moreover, precise chemical modification of functional molecules and immobilization with metal nanoparticles, carbon nanostructures, and biomolecules could promote their electrochemical performances. In this Review, we focus on recent progress achieved in MOF research with respect to general sensing principles and analytical performances of electrochemical sensors. The evaluation and challenges governing the detection of the assays are also discussed.
Heme binds to amyloid β-peptide (Aβ) in the brain of Alzheimer's disease (AD) patients, thus forming Aβ-heme complexes and leading the characteristic pathological features of AD. The interaction between heme and Aβ might have important biological relevance to AD etiology. In this work, the electrochemical performances of heme after incubation with Aβ1-42, Aβ fragments, and mutated Aβ were systematically investigated using cyclic voltammetry and differential pulse voltammetry. Our results indicated that His13 and His14 were possible binding sites, and Aβ bound two molecules of heme with a binding constant of K(a1) = 7.27 × 10(6) M(-1) (n(1) = 1.5) and K(a2) = 2.89 × 10(6) M(-1) (n(1) = 1.8). Detailed analysis with atomic force microscopy (AFM) of Aβ1-42 in the absence or presence of heme under the same incubation conditions showed that heme inhibited the formation of Aβ fibrils. According to results of the spectroscopic characterization, Arg5 was the key residue in making the heme-Aβ1-42 complex as a peroxidase.
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