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Assays biosensors

Islam MR, Serpe MJ (2013) Label-free detection of low protein concentration in solution using a novel colorimetric assay biosensor. Bioelectron 49 133... [Pg.424]

Coverage includes B vitamins and folate in the context of a historical background, disease, cardiovascular effects and the importance of vitamins in biochemistry as illustrated by a single vitamin. Thereafter there are chapters on the chemistry and biochemistry of thiamine, riboflavin, niacin, pantothenic acid, pyridoxine, biotin, folate and cobalamin. Methodical aspects include characterization and assays of B vitamins and folate in foods of all kinds, dietary supplements, biological fluids and tissues. The techniques cover solid-phase extraction, spectrofluorimetry, mass spectrometry, HPLC, enzymatic assay, biosensor and chemiluminescence. In terms of fimction and effects or... [Pg.5]

Polymers and Coatings Advances ia polymer chemistry have resulted ia many successful medical devices, including diagnostic assays (26). Polymers (qv), which can be manufactured ia a wide range of compositions, ate used to enhance speed, sensitivity, and versatiUty of both biosensors and dry chemistry systems to measure vital analytes. Their properties can be regulated by composition variations and modifications. Furthermore, polymers can be configured iato simple to complex shapes. [Pg.42]

Individual polyethers exhibit varying specificities for cations. Some polyethers have found appHcation as components in ion-selective electrodes for use in clinical medicine or in laboratory studies involving transport studies or measurement of transmembrane electrical potential (4). The methyl ester of monensin [28636-21 -7] i2ls been incorporated into a membrane sHde assembly used for the assay of semm sodium (see Biosensors) (5). Studies directed toward the design of a lithium selective electrode resulted in the synthesis of a derivative of monensin lactone that is highly specific for lithium (6). [Pg.166]

It is well known that arsenic is one of the most dangerous elements in terms of its potential impacts to both to human and ecosystem health. Therefore the problem of As detection at ppb level remains very important from the point of environmental hazard investigation. The goal of the present work is the developing of very simple and inexpensive assay for arsenite and arsenate determination in environmental samples using whole-cell bacterial biosensors. [Pg.428]

Electrogenerated chemiluminescence (ECL) has proved to be useful for analytical applications including organic analysis, ECL-based immunosensors, DNA probe assays, and enzymatic biosensors. In the last few years, the electrochemistry and ECL of compound semiconductor nanocrystallites have attracted much attention due to their potential applications in analytical chemistry (ECL sensors). [Pg.341]

Chinnayelka, S. and McShane, M. J. (2005). Microcapsule biosensors using competitive binding resonance energy transfer assays based on apoenzymes. Anal. Chem. 77, 5501-11. [Pg.449]

Since ideally, a biosensor should be reagentless, that is, should be able to specifically measure the concentration of an analyte without a supply of reactants, attempts to develop such bioluminescence-based optical fibre biosensors were made for the measurements of NADH28 30. For this purpose, the coreactants, FMN and decanal, were entrapped either separately or together in a polymeric matrix placed between the optical fibre surface and the bacterial oxidoreductase-luciferase membrane. In the best configuration, the period of autonomy was 1.5 h during which about twenty reliable assays could be performed. [Pg.167]

These biosensors were tested for glucose and lactate measurements in sera, and for lactate measurements in whey solutions. Good agreements were obtained between the present method and reference methods. For glucose analysis in serum, the coefficient of variation for 53 repeated measurements performed over a 10 h period was 4.8% while for lactate analysis, 80 assays performed over a 15 h period gave a coefficient of variation of 6.7%. Thus,... [Pg.170]

Direct detection is usually preferred in applications, where direct binding of analyte of concentrations of interest produces a sufficient response. If necessary, the lowest detection limits of the direct biosensors can be improved by using a sandwich assay. Smaller analytes (molecular weight < 10,000) are usually measured using inhibition assay, Figure 14. [Pg.189]

Figure 14. Detection formats used in affinity biosensors based on spectroscopy of guided waves a) direct detection, b) sandwich assay, and c) competitive inhibition assay. Figure 14. Detection formats used in affinity biosensors based on spectroscopy of guided waves a) direct detection, b) sandwich assay, and c) competitive inhibition assay.
Probably the most sensitive biosensor for rapid screening has been the ORIGIN electrochemiluminescence system (IGEN, Gaithersburg, MD). The primary reason for the ORIGIN S enhanced sensitivity is that it preconcentrates the target prior to the assay. Immunomagnetic beads are... [Pg.444]

Rowe-Taitt C.A., Cras J.J., Patterson C.H., Golden J.P., Ligler F.S., A ganglioside-based assay for cholera toxin using an array biosensor, Anal. Biochem. 2000a 281 123-133. [Pg.453]

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