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OverviewThis volume describes the important application of the Bio- or DNA-Chips in biomedical research, such as gene expression studies and methods of construction. Microfabricated Sensors: Application of Optical Technology for DNA Analysis describes novel optical sensing and processing technologies that are being employed by researchers in this field. Specific topics include DNA Chips, detection technologies and optical sensing and processing. Full Product DetailsAuthor: Richard Kordal (Director of Intellectual Property Office, Director of Intellectual Property Office, University of Cincinnati) , Arthur Usmani , Wai Tak Law , Wai Tak LawPublisher: Oxford University Press Inc Imprint: American Chemical Society Volume: No. 815 Dimensions: Width: 15.90cm , Height: 1.50cm , Length: 23.60cm Weight: 0.404kg ISBN: 9780841237636ISBN 10: 0841237638 Pages: 170 Publication Date: 16 May 2002 Audience: Professional and scholarly , Professional & Vocational Format: Hardback Publisher's Status: No Longer Our Product Availability: Out of stock  The supplier is temporarily out of stock of this item. It will be ordered for you on backorder and shipped when it becomes available. Table of ContentsReviews<br> Eight contributions examine the unfolding uses of DNA- or BioChips in the fields of medical diagnostics, drug discovery, and bio/analytical chemistry. The papers are organized into sections on DNA chips, detection technologies, and optical sensing and processing. Specific topics include a system for performing gene expression profile analysis; properties, manufacturing, and applications of microarrays of gel-immobilized compounds and cells on a chip; light-powered microtransponders for high multiples level analyses of nucleic acids; and the use of digital optical chemistry for the rapid fabrication of custom oligonucleotide arrays. --SciTech Book News<p><br> Eight contributions examine the unfolding uses of DNA- or BioChips in the fields of medical diagnostics, drug discovery, and bio/analytical chemistry. The papers are organized into sections on DNA chips, detection technologies, and optical sensing and processing. Specific topics include a system for performing gene expression profile analysis; properties, manufacturing, and applications of microarrays of gel-immobilized compounds and cells on a chip; light-powered microtransponders for high multiples level analyses of nucleic acids; and the use of digital optical chemistry for the rapid fabrication of custom oligonucleotide arrays. --SciTech Book News<br> Eight contributions examine the unfolding uses of DNA- or BioChips in the fields of medical diagnostics, drug discovery, and bio/analytical chemistry. The papers are organized into sections on DNA chips, detection technologies, and optical sensing and processing. Specific topics include a system for performing gene expression profile analysis; properties, manufacturing, and applications of microarrays of gel-immobilized compounds and cells on a chip; light-powered microtransponders for high multiples level analyses of nucleic acids; and the use of digital optical chemistry for the rapid fabrication of custom oligonucleotide arrays. --SciTech Book News Eight contributions examine the unfolding uses of DNA- or BioChips in the fields of medical diagnostics, drug discovery, and bio/analytical chemistry. The papers are organized into sections on DNA chips, detection technologies, and optical sensing and processing. Specific topics include a system for performing gene expression profile analysis; properties, manufacturing, and applications of microarrays of gel-immobilized compounds and cells on a chip; light-powered microtransponders for high multiples level analyses of nucleic acids; and the use of digital optical chemistry for the rapid fabrication of custom oligonucleotide arrays. --SciTech Book News Eight contributions examine the unfolding uses of DNA- or BioChips in the fields of medical diagnostics, drug discovery, and bio/analytical chemistry. The papers are organized into sections on DNA chips, detection technologies, and optical sensing and processing. Specific topics include a system for performing gene expression profile analysis; properties, manufacturing, and applications of microarrays of gel-immobilized compounds and cells on a chip; light-powered microtransponders for high multiples level analyses of nucleic acids; and the use of digital optical chemistry for the rapid fabrication of custom oligonucleotide arrays. --SciTech Book News Eight contributions examine the unfolding uses of DNA- or BioChips in the fields of medical diagnostics, drug discovery, and bio/analytical chemistry. The papers are organized into sections on DNA chips, detection technologies, and optical sensing and processing. Specific topics include a system for performing gene expression profile analysis; properties, manufacturing, and applications of microarrays of gel-immobilized compounds and cells on a chip; light-powered microtransponders for high multiples level analyses of nucleic acids; and the use of digital optical chemistry for the rapid fabrication of custom oligonucleotide arrays. --SciTech Book News Eight contributions examine the unfolding uses of DNA- or BioChips in the fields of medical diagnostics, drug discovery, and bio/analytical chemistry. The papers are organized into sections on DNA chips, detection technologies, and optical sensing and processing. Specific topics include a systemfor performing gene expression profile analysis; properties, manufacturing, and applications of microarrays of gel-immobilized compounds and cells on a chip; light-powered microtransponders for high multiples level analyses of nucleic acids; and the use of digital optical chemistry for the rapidfabrication of custom oligonucleotide arrays. --SciTech Book News Author InformationTab Content 6Author Website:Countries AvailableAll regions |
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