Giulia Moro scite author profile

Peptides represent a promising class of biorecognition elements that can be coupled to electrochemical transducers. The benefits lie mainly in their stability and selectivity toward a target analyte. Furthermore, they can be synthesized rather easily and modified with specific functional groups, thus making them suitable for the development of novel architectures for biosensing platforms, as well as alternative labelling tools. Peptides have also been proposed as antibiofouling agents. Indeed, biofouling caused by the accumulation of biomolecules on electrode surfaces is one of the major issues and challenges to be addressed in the practical application of electrochemical biosensors. In this review, we summarise trends from the last three years in the design and development of electrochemical biosensors using synthetic peptides. The different roles of peptides in the design of electrochemical biosensors are described. The main procedures of selection and synthesis are discussed. Selected applications in clinical diagnostics are also described.

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Mapping the gaps in chemical analysis for the characterisation of aptamer-target interactions

Daems

Moro

Campos

et al. 2021

TrAC Trends in Analytical Chemistry

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Unveiling the binding mode of perfluorooctanoic acid to human serum albumin

et al. 2021

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Perfluorooctanoic acid (PFOA) is a toxic compound that is absorbed and distributed throughout the body by noncovalent binding to serum proteins such as human serum albumin (hSA). Though the interaction between PFOA and hSA has been already assessed using various analytical techniques, a high resolution and detailed analysis of the binding mode is still lacking. We report here the crystal structure of hSA in complex with PFOA and a medium-chain saturated fatty acid (FA). A total of eight distinct binding sites, four occupied by PFOAs and four by FAs, have been identified. In solution binding studies confirmed the 4:1 PFOA-hSA stoichiometry and revealed the presence of one high and three low affinity binding sites. Competition experiments with known hSA-binding drugs allowed locating the high affinity binding site in subdomain IIIA. The elucidation of the molecular basis of the interaction between PFOA and hSA might provide not only a better assessment of the absorption and elimination mechanisms of these compounds in vivo but also have implications for the development of novel molecular receptors for diagnostic and biotechnological applications. K E Y W O R D S binding mode, crystal structure, fluoroalkyl substances, human serum albumin, molecular interaction, perfluorooctanoic acid 1 | INTRODUCTION Perfluorooctanoic acid (PFOA) is a perfluoroalkyl substance (PFAS) with a carboxyl functional group and seven fluorinated carbon atoms. 1 PFOA is a man-made

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Giulia Moro

The Role of Peptides in the Design of Electrochemical Biosensors for Clinical Diagnostics

Mapping the gaps in chemical analysis for the characterisation of aptamer-target interactions

Unveiling the binding mode of perfluorooctanoic acid to human serum albumin

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