Terminology of bioanalytical methods (IUPAC Recommendations 2018)

Recommendations are given concerning the terminology of methods of bioanalytical chemistry. With respect to dynamic development particularly in the analysis and investigation of biomacromolecules, terms related to bioanalytical samples, enzymatic methods, immunoanalytical methods, methods used in genomics and nucleic acid analysis, proteomics, metabolomics, glycomics, lipidomics, and biomolecules interaction studies are introduced

Terminology of bioanalytical methods (IUPAC Recommendations 2018)

free accessRecommendations are given concerning the terminology of methods of bioanalytical chemistry. With respect to dynamic development particularly in the analysis and investigation of biomacromolecules, terms related to bioanalytical samples, enzymatic methods, immunoanalytical methods, methods used in genomics and nucleic acid analysis, proteomics, metabolomics, glycomics, lipidomics, and biomolecules interaction studies are introduced.Peer reviewe

Effect of Triclosan and Silver Nanoparticles on DNA Damage Investigated with DNA-Based Biosensor

Triclosan (TCS) is a broad-spectrum antimicrobial agent widely used in personal care, healthcare, and clinical practice. One of the most important aspects of toxicological profiling of compounds is their interaction with DNA. In human cells, TCS causes a significant reduction in DNA methylation. The involvement of TCS in chromosomal aberrations, DNA damage, and strand breaks, as well as DNA damage from TCS degradation products, was reported. AgNPs share similarities with TCS in terms of antimicrobial properties, enter the body after exposure, and are used even together with TCS in oral care products. Therefore, their mutual effect on the DNA is of interest. In this study, the electrochemical behavior of TCS on a glassy carbon electrode (GCE) and the biosensor with salmon sperm dsDNA (DNA/GCE), DNA damage by TCS present in phosphate buffer solution pH 7.4 and an additional effect of the immobilized AgNP layer on such DNA damage have been investigated. Two different sizes of AgNPs (about 15 and 37 nm) were tested. Using square-wave voltammetric signals of nucleobases, the portion of survived DNA was 64% in the presence of 15 nm AgNPs compared to 55% in its absence. The protective effect of AgNPs on DNA against TCS-induced DNA damage was found

Protective membranes at electrochemical biosensors

Abstract: The primary role of the biosensor is to specifi cally detect an analyte using biochemical reaction or interaction mediated by isolated biomolecules, organelles, whole cells or biomimetic receptors. In terms of construction and function, the biosensor consists of biorecognition element and transducer connected to suitable measurement device. Electrochemical biosensor is an electrode or microelectrode with the surface chemically modifi ed by the biorecognition element. The main problem of analysis with the biosensors is the presence of low and high molecular weight substances in the sample that interfere at the detection of analyte. Due to deposition of surface active compounds the biosensor response may be diminished depending on time of interaction with sample. These effects can be eliminated by using anti-interference membranes. This review deals with preparation and utilization of membranes for the biocomponent immobilization and with outer-sphere protective membranes

Bioanalytical Chemistry

This chapter provides a terminology of bioanalytical chemistry in general and analysis of biomacromolecules in particular. The vocabulary given in this chapter is largely taken from Labuda et al. “Terminology of bioanalytical methods (IUPAC Recommendations 2018)”,1 which becomes the immediate source reference for definitions of terms in this chapter that are not otherwise attributed. Reference to secondary sources follow the entry as “see also:” Terms are taken from the IUPAC Recommendations published in 1994 covering mostly the analytical terminology related to body fluids, enzymology, and immunology.2 Selected terms related to bioanalysis are included within recommendations and reports devoted to the unit “katal”,3 biotechnology,4 clinical chemistry,5 toxicology,6,7 medicinal chemistry,8,9 proteomics,10 electrochemical biosensors,11,12 and physical organic chemistry.13 Definitions of some terms have been updated here with respect to new reports and considerations, and a number of new terms has been introduced particularly on the topics of “–omics”, DNA analysis and studies of the interactions between biomolecules. Terms from earlier IUPAC Recommendations that are replaced by ref. 1 are not otherwise referenced but can be found as references in ref. 1