Detailed Information on Publication Record

EL-SCHICH, Zahra, Yuecheng ZHANG, Marek FEITH, Sarah BEYER, Louise STERNBÆK, Lars OHLSSON, Maria STOLLENWERK and Anette Gjörloff WINGREN. Molecularly imprinted polymers in biological applications. BioTechniques. London: FUTURE SCI LTD, 2020, vol. 69, No 6, p. 407-420. ISSN 0736-6205. Available from: https://dx.doi.org/10.2144/btn-2020-0091.

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Basic information
Original name	Molecularly imprinted polymers in biological applications
Authors	EL-SCHICH, Zahra, Yuecheng ZHANG, Marek FEITH (203 Czech Republic, belonging to the institution), Sarah BEYER, Louise STERNBÆK, Lars OHLSSON, Maria STOLLENWERK and Anette Gjörloff WINGREN (guarantor).
Edition	BioTechniques, London, FUTURE SCI LTD, 2020, 0736-6205.

Other information
Original language	English
Type of outcome	Article in a journal
Field of Study	10608 Biochemistry and molecular biology
Country of publisher	United Kingdom of Great Britain and Northern Ireland
Confidentiality degree	is not subject to a state or trade secret
WWW	URL
Impact factor	Impact factor: 1.993
RIV identification code	RIV/00216224:14110/20:00116549
Organization unit	Faculty of Medicine
Doi	http://dx.doi.org/10.2144/btn-2020-0091
UT WoS	000575650700001
Keywords in English	molecularly imprinted polymers; biological applications
Tags	14110515, rivok
Tags	International impact, Reviewed
Changed by	Changed by: Mgr. Tereza Miškechová, učo 341652. Changed: 12/1/2021 08:06.

Abstract
Molecularly imprinted polymers (MIPs) are currently widely used and further developed for biological applications. The MIP synthesis procedure is a key process, and a wide variety of protocols exist. The templates that are used for imprinting vary from the smallest glycosylated glycan structures or even amino acids to whole proteins or bacteria. The low cost, quick preparation, stability and reproducibility have been highlighted as advantages of MIPs. The biological applications utilizing MIPs discussed here include enzyme-linked assays, sensors,in vivoapplications, drug delivery, cancer diagnostics and more. Indeed, there are numerous examples of how MIPs can be used as recognition elements similar to natural antibodies.

Abstract

Molecularly imprinted polymers (MIPs) are currently widely used and further developed for biological applications. The MIP synthesis procedure is a key process, and a wide variety of protocols exist. The templates that are used for imprinting vary from the smallest glycosylated glycan structures or even amino acids to whole proteins or bacteria. The low cost, quick preparation, stability and reproducibility have been highlighted as advantages of MIPs. The biological applications utilizing MIPs discussed here include enzyme-linked assays, sensors,in vivoapplications, drug delivery, cancer diagnostics and more. Indeed, there are numerous examples of how MIPs can be used as recognition elements similar to natural antibodies.