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Establishment of a novel, cell-based autotaxin assay
Analytical Biochemistry, 2021Autotaxin (ATX) plays an important role in (patho-)physiological lysophosphatidic acid (LPA) signaling. Here we describe the establishment of novel cell-based ATX assay formats. ATX-mediated LPA generation is detected by using a stable LPA receptor reporter cell line.
Celia Dobersalske +8 more
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Digital microfluidics for cell-based assays
Lab on a Chip, 2008We introduce a new method for implementing cell-based assays. The method is based on digital microfluidics (DMF) which is used to actuate nanolitre droplets of reagents and cells on a planar array of electrodes. We demonstrate that this method is advantageous for cell-based assays because of automated manipulation of multiple reagents in addition to ...
Irena, Barbulovic-Nad +3 more
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Microarray Platforms for Enzymatic and Cell‐Based Assays
ChemInform, 2007AbstractChemInform is a weekly Abstracting Service, delivering concise information at a glance that was extracted from about 200 leading journals. To access a ChemInform Abstract, please click on HTML or PDF.
Juan J, Díaz-Mochón +2 more
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Cell-Based Bioluminescence Screening Assays
2013Drug screening is an essential and widely used technique for drug discovery in various biomedical fields notably in oncology. Here we describe a functional screening assay based on the bioluminescence detection of a secreted luciferase for monitoring cell viability of cancer cells in a high-throughput format.
Romain J, Amante, Christian E, Badr
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Cell-Based Assays on Microfluidics for Drug Screening
ACS Sensors, 2019Microfluidics is an appealing platform for drug screening and discovery. Compared with the conventional drug screening methods based on Petri dishes and experimental animals, microfluidic devices have many advantages including miniaturized size, ease-to-use, high sensitivity, and high throughput.
Xiaoyan Liu, Wenfu Zheng, Xingyu Jiang
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2005
This chapter describes methods and tools for processing and visualizing data from high-throughput cell-based assays. Such assays are used to examine the contribution of genes to a biological process or phenotype (Carpenter and Sabatini, 2004). In principle, this can be done for any gene or combination of genes and for any biological process of interest.
W. Huber, F. Hahne
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This chapter describes methods and tools for processing and visualizing data from high-throughput cell-based assays. Such assays are used to examine the contribution of genes to a biological process or phenotype (Carpenter and Sabatini, 2004). In principle, this can be done for any gene or combination of genes and for any biological process of interest.
W. Huber, F. Hahne
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Cell-based assays for kinase drug discovery
Drug Discovery Today: Technologies, 2010Kinases are important therapeutic targets. Potent in vitro inhibitors are readily produced, but these compounds are not always potent in cells. Because cell potency is crucial for efficacy, cell-based assays are important for successful inhibitor development. In this review kinase cell assays are divided into four types.
Gary K. Smith, Edgar R. Wood
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Cell-Based Assays for High-Throughput Screening
Molecular Biotechnology, 2010Cell-based assays represent approximately half of all high-throughput screens currently performed. Here, we review in brief the history and status of high-throughput screening (HTS), and summarize some of the challenges and benefits associated with the use of cell-based assays in HTS.
W Frank, An, Nicola, Tolliday
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Cell-Based Imaging Assay for Detection of Phospholipidosis
2022Accumulation of lysosomal phospholipids in cells exposed to cationic amphiphilic drugs is characteristic of drug-induced phospholipidosis. The morphological hallmark of phospholipidosis is the appearance of unicentric or multicentric-lamellar bodies when viewed under an electron microscope (EM).
Li, Zhang, Shuaizhang, Li, Menghang, Xia
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Microchips for Cell-Based Assays
2009Analysis of cells is a cornerstone in biomedical research. Traditional methods for cell culture and tissue analysis can be replaced by various microchips as discussed in this chapter. A tissue array is an example of microchip that provides higher throughput of tissue analysis.
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