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Biosensors Articles & Analysis
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Polystyrene microsphere-based immunochromatographic assay for detection of aflatoxin B1 in maize. Biosensors, 11(6), 200. 3. Abdoel, T. H., & Smits, H. L. (2007). Rapid latex agglutination test for the serodiagnosis of human brucellosis. ...
Diagnostics: Their high specificity and stability make them ideal candidates for diagnostic assays, including imaging and biosensors. Research Tools: Researchers utilize single-domain antibodies in various applications, such as protein purification and label-free detection systems, due to their ability to bind specific targets with high affinity. ...
Diagnostic Tools In diagnostics, synthetic peptides serve as antigens in immunoassays and biosensors, helping to detect the presence of antibodies or pathogens in biological samples with high specificity and sensitivity. ...
·Intracellular Sensors and Biosensors Developing intracellular sensors and biosensors has enabled real-time monitoring of the cytoskeletal dynamics. ...
QVirus™ Platform has launched series of adenovirus packaging service of autophagy related biosensors, in which GFP and/or RFP tags are fused at the C-termini of the autophagosome marker LC3, allowing to detect the intensity of autophagy flux in real-time with more accuracy, clarity and intuitiveness. ...
QVirus™ Platform has launched series of lentiviral packaging service of autophagy related biosensors, in which GFP and/or RFP tags are fused at the C-termini of the autophagosome marker LC3, allowing to detect the intensity of autophagy flux in real-time with more accuracy, clarity and intuitiveness. These biosensors provide an enhanced dissection of the ...
PEGs have excellent biocompatibility and tunable physical properties and thus are widely used in artificial joints, tissue engineering, biosensors, and other fields. Carboxylic acid PEGs can be used to construct biologically active material surfaces such as cell adhesion and proliferation for tissue engineering and regenerative ...
POCT technical principles include dry chemistry, colloidal gold, immunofluorescence, microfluidic chips, chemiluminescence, biosensors, and biochips. Colloidal gold is the most commonly used nanoparticle for optical labeling due to its ease of use, biocompatibility, and high visibility. ...
In addition, the engineering development of CYP, the research and development of biosensors, the mining of the properties of novel CYP, and the continuous development of new enzymes provide the direction for the further application of CYP. ...
The TB Breathalyzer, patented by Rapid Biosensor Systems, consists of a plastic cough sample collection tube (10 cm in length and 3.5cm in width) containing a bio-optical sensor covered in a patented bio-chemical coating formulated to react with the TB bacilli. ...
In recent years, research on penicillinase biosensors has also been very active. Because of its low price and high sensitivity, penicillinase can replace traditional horseradish peroxidase and alkaline phosphatase in ELISA. ...
The lengthy battle between people and varied bodily, chemical, and organic insults that trigger cell damage (e.g., merchandise of tissue harm, metabolites, and/or infections) have led to the evolution of assorted adaptive responses. These responses are triggered by recognition of damage-associated molecular patterns (DAMPs) and/or pathogen-associated molecular patterns (PAMPs), normally by cells ...
The advent of adenoviral transduction of living cells in vivo allowed manipulation and/or characterization of molecular pathways operating in cells or tissues.5 The successful infusion of adenoviral vectors in neuronal tissue has been already demonstrated using various methods, including convectional delivery into the central and peripheral nervous system using syringe pumps.6 In an analysis of ...
Among biosensors of various types, the silicon nanowire field–effect transistor (SiNW–FET) is believed to be the most sensitive and powerful device for bio–applications. ...
The obtained results clearly indicate the potential of a next–generation of glucose sensor based on PtNW in application diabetic diagnosing.Keywords: platinum nanowires, nano–biosensors, glucose biosensors, diabetic blood, clinic study, nanotechnology, glucose measurement, diabetes ...
In summary, the adhesion response of the investigated cell lines will be beneficial for improved extracellular signalling, whereas a better understanding of neuronal responses to nanotopographies is required to enhance the neuronal viability.Keywords: biosensors, nanostructured electrodes, anodic alumina templates, gold nanopillars, cell adhesion, cell viability, neuronal cells, ...
After lung cancer, prostate cancer has caused large number of deaths in India. Nanowire is the biosensor used for detection of cancer. In this paper, we present a design of nanowire array sensor for prostate cancer detection. ...
The contamination effects on soil functional qualities and plant nutrition were evaluated; furthermore DNA damage with short-term genotoxicity tests and DNA biosensor on polluted soils and gravitational water, was detected. The genotoxic effects were evaluated on Vicia faba seedlings by two different short-term tests: comet assay and micronuclei test. A DNA-based ...
Some of the biotechnology tools for SNP identification are colloid-based biosensors, which are proving to possess several advantages over the traditional microarray format. Here, we survey the current technologies used for SNP genotyping and review colloid-based biosensors which are emerging as a higher throughput, potentially more accurate, technology.Keywords: ...
PPy incorporating physically entrapped biomolecules together with impedance spectroscopy could be exploited in reagentless biosensor applications. Furthermore, this could be coupled to their emerging role in cell contact and guidance applications for the detection of cell adhesion, migration or metabolite monitoring.Keywords: polypyrrole, PPy, biomolecules, impedance, conducting ...