Empowering Electrochemical Biosensing through
Nanostructured or Multifunctional Nucleic Acid or Peptide
Biomaterials

Campuzano Ruiz, Susana; Pedrero Muñoz, María; Barderas Manchado, Rodrigo; Pingarrón Carrazón, José Manuel

Empowering Electrochemical Biosensing through Nanostructured or Multifunctional Nucleic Acid or Peptide Biomaterials

dc.contributor.author	Campuzano Ruiz, Susana
dc.contributor.author	Pedrero Muñoz, María
dc.contributor.author	Barderas Manchado, Rodrigo
dc.contributor.author	Pingarrón Carrazón, José Manuel
dc.date.accessioned	2023-06-22T10:42:09Z
dc.date.available	2023-06-22T10:42:09Z
dc.date.issued	2022-04-28
dc.description	CRUE-CSIC (Acuerdos Transformativos 2022)
dc.description.abstract	Electrochemical biosensors continue to evolve at an astonishing pace, consolidating as competitive tools for determining a wide range of targets and relentlessly strengthening their attributes in terms of sensitivity, selectivity, simplicity, response time, and antifouling ability, making them suitable for getting a foothold in real-world applications. The design and exploitation of nanostructured or multifunctional nucleic acid or peptide biomaterials is playing a determinant role in these achievements. With the aim of highlighting the potential and opportunities of these biomaterials, this perspective article critically discusses and overviews the electrochemical biosensors reported since 2019 involving nanostructured and multifunctional DNA biomaterials, multifunctional aptamers, modern peptides, and CRISPR/Cas systems. The use of these biomaterials as recognition elements, electrode modifiers (acting as linkers or creating scaffolds with antifouling properties), enzyme substrates, and labeling/carrier agents for signal amplification is discussed through rationally and strategically selected examples, concluding with a personal perspective about the challenges to be faced and future lines of action.
dc.description.department	Depto. de Química Analítica
dc.description.faculty	Fac. de Ciencias Químicas
dc.description.refereed	TRUE
dc.description.sponsorship	Ministerio de Ciencia e Innovación (MICINN)
dc.description.sponsorship	Comunidad de Madrid
dc.description.sponsorship	Instituto de Salud Carlos III (ISCIII)
dc.description.status	pub
dc.eprint.id	https://eprints.ucm.es/id/eprint/72119
dc.identifier.doi	10.1002/admt.202200310
dc.identifier.issn	2365-709X
dc.identifier.officialurl	https://onlinelibrary.wiley.com/journal/2365709X
dc.identifier.uri	https://hdl.handle.net/20.500.14352/71436
dc.journal.title	Advanced Materials Technologies
dc.language.iso	eng
dc.publisher	Wiley
dc.relation.projectID	PID2019-103899RB-I00
dc.relation.projectID	TRANSNANOAVANSENS-CM (S2018/NMT-4349)
dc.relation.projectID	PI20CIII/00019
dc.rights	Atribución-NoComercial 3.0 España
dc.rights.accessRights	open access
dc.rights.uri	https://creativecommons.org/licenses/by-nc/3.0/es/
dc.subject.keyword	antifouling
dc.subject.keyword	empowered electrochemical biosensors
dc.subject.keyword	nanostructured and/or multifunctional biomaterials
dc.subject.keyword	nucleic acids
dc.subject.keyword	peptides
dc.subject.ucm	Química
dc.subject.ucm	Química analítica (Química)
dc.subject.unesco	23 Química
dc.subject.unesco	2301 Química Analítica
dc.title	Empowering Electrochemical Biosensing through Nanostructured or Multifunctional Nucleic Acid or Peptide Biomaterials
dc.type	journal article
dspace.entity.type	Publication
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relation.isAuthorOfPublication.latestForDiscovery	6945fb1e-9c48-459d-b994-e64328c3e79b

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