Compatibility of Cell-Based Assays with High-Throughput Screening Proving to Be a Key Challenge.DUBLIN, Ireland -- Research and Markets (http://www.researchandmarkets.com/reports/c46516) has announced the addition of "Development of Cell-Based Assays (Technical Insights)" to their offering. This Frost & Sullivan research service titled Developments in Cell Based Assays focuses on the technological advancements, emerging trends, drivers, and challenges affecting the development of cell-based assays. The research service provides information on major companies and academic institutions involved in the development of innovative technology and products. A summary of key patents gives an insight into notable activities, technology trends, and important participants in this field. Market Sectors Expert Frost & Sullivan analysts thoroughly examine the following market sectors in this research: * Healthcare - Drug Discovery Technologies The following technologies are covered in this research: * High Throughput * Multiplexing Market Overview Compatibility of Cell-based Assays with High-throughput Screening High-throughput screening (HTS), is a method for scientific experimentation especially used in drug discovery and relevant to the fields of biology and chemistry. Purpose and method Proving to be a Key Challenge The ability to generate significant time and cost savings is pushing many pharmaceutical and biotechnology companies Top 100 Biotechnology Companies The following is a list of the top 100 biotechnology companies ranked by revenue. The first nine companies qualify for the list of the top 50 pharmaceutical companies. to favour cell-based assays over other methods such as biochemical and in-vitro assays. Cell-based assays are finding numerous applications in target identification and validation, monitoring cellular events, as well as the screening compounds for efficacy and biosafety. Researchers now face the challenge of ensuring greater compatibility with high-throughput screening (HTS HTS Heights HTS Harmonized Tariff System HTS High Throughput Screening (biomolecular assay screening) HTS High-Throughput Screening (Pharmaceutical Industry) HTS Harmonized Tariff Schedule ), which is emerging as one of the most sought-after technologies to perform cell-based assays. HTS provides ideal support for cell-based assays by not only increasing the number of analyzed samples, but also offering high-quality information. Used in combination with HTS, cell-based assays offer greater quantity of data coupled with superior-quality data assays, leads, screening process, and compound libraries, explains the analyst of this research service. Going forward, the focus is expected to be on easy-to-use and highly sensitive Adj. 1. highly sensitive - readily affected by various agents; "a highly sensitive explosive is easily exploded by a shock"; "a sensitive colloid is readily coagulated" assays that provide continuous records of cellular activity. Although, most research activities currently concentrate on drug discovery, cell-based assays are expected to gain popularity in diagnostics, molecular biology molecular biology, scientific study of the molecular basis of life processes, including cellular respiration, excretion, and reproduction. The term molecular biology was coined in 1938 by Warren Weaver, then director of the natural sciences program at the Rockefeller , biochemistry and neuroscience neu·ro·sci·ence n. Any of the sciences, such as neuroanatomy and neurobiology, that deal with the nervous system. neuroscience the embryology, anatomy, physiology, biochemistry and pharmacology of the nervous system. , genetics, toxicology studies, bioengineering bioengineering Application of engineering principles and equipment to biology and medicine. It includes the development and fabrication of life-support systems for underwater and space exploration, devices for medical treatment (see , and proteomics, among other fields as they become more cost-effective and biologically significant. Focus on Developing Robust and Reliable Cell-based Assays The increasing demand for higher-quality output, healthier consistent cells, and improved assay data in drug discovery is leading researchers to focus on developing robust and highly reliable assays through the automation of well-characterized cell lines. The automation of cellular assays is also likely to improve the drug discovery process by identifying the right leads and by understanding their chemistry more accurately. Although the automation of cell-based assays is expected to be a hugely popular trend, the key is to ensure strict environment control due to the involvement of live cells. For example, automated incubators store stacks of microplates at a controlled temperature and humidity. Miniaturization min·i·a·tur·ize tr.v. min·i·a·tur·ized, min·i·a·tur·iz·ing, min·i·a·tur·iz·es To plan or make on a greatly reduced scale. min is another step toward more-efficient cell-based assays. Recent advances in assay chemistries and signal detection technology allow the miniaturization of cell-based assays, making it convenient to perform dose-response experiments during primary screens. Simpler and faster screening is also possible though the use of homogenous homogenous - homogeneous assay techniques for radioactive, fluorescent, and luminescent lu·mi·nes·cent adj. Capable of, suitable for, or exhibiting luminescence. [Latin l  men, l assay formats. Homogenous assay formats are user-friendly and also minimize errors by allowing the direct use of cell samples or lysine lysine (lī`sēn), organic compound, one of the 20 amino acids commonly found in animal proteins. Only the l-stereoisomer appears in mammalian protein. and other reagents, without having to purify or separate them before taking measurements, says the analyst. For more information visit http://www.researchandmarkets.com/reports/c46516 |
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