Biosensors & bioelectronics.
Publisher:
Elsevier Applied Science,. Oxford : Elsevier Advanced Technology
Frequency: Semimonthly, 2018-
Country: England
Language: English
Start Year:1990 -
ISSN:
0956-5663 (Print)
1873-4235 (Electronic)
0956-5663 (Linking)
1873-4235 (Electronic)
0956-5663 (Linking)
Impact Factor
12.6
2022
| NLM ID: | 9001289 |
| (DNLM): | SR0067129(s) |
| (OCoLC): | 20767981 |
| Coden: | BBIOE4 |
| LCCN: | 97641485 |
| Classification: | W1 BI915R |
Direct electrochemistry of novel affinity-tag immobilized recombinant horse heart cytochrome c. During the last decade protein electrochemistry at miniaturized electrodes has become important not only for functional studies of the charge transfer properties of redox proteins but also for fostering the development of sensitive biosensor and bioelectronic devices. One of the major challenges in this field is the directed coupling between electronic and biologically active components. A prerequisite for a fast and reversible electron transfer between electrode and protein is that the protein can be bound to the electrode in a favourable orientation. We examined electrostatic and bioaffinity...
Rapid analysis of fatty acid-binding proteins with immunosensors and immunotests for early monitoring of tissue injury. Fatty acid-binding protein (FABP) holds promise for early detection of tissue injury. This small protein (15kD) appears earlier in the blood than large proteins after cell damage. Combined its characteristics of high concentration tissue contents and low normal plasma values provide the possibility of a rapid rise above the respective reference values, and thus an early indication of the appearance of tissue injury. A general review was presented on the current status of different types of FABP for the detection of tissue injury in patients with myocardial injury, brain injury and also in athl...
Detection of biological threat agents by immunomagnetic microsphere-based solid phase fluorogenic- and electro-chemiluminescence. This article reviews the recent development of two solid-phase chemiluminescence-based techniques, fluorogenic-chemiluminescence (FCL) and electro-chemiluminescence (ECL) for detection of biological threat agents. Both techniques entail a labeled sandwich immunoassay. The objectives of this work are to develop advanced techniques for sensitive and effective detection of a target analyte, particularly in cases where the analysis includes complex samples containing multiple contaminating factors. Other important considerations in developing such detection techniques include the ease of use, the ...